Money, Financial Intermediation and Governance
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Money, Financial Intermediation and Governance
To our teachers
Money, Financial Intermediation and Governance Dino Falaschetti Florida State University College of Law, Stanford University Hoover Institution and Economic Advisors, Inc., USA
Michael J. Orlando Economic Advisors, Inc., USA
Edward Elgar Cheltenham, UK • Northampton, MA, USA
© Dino Falaschetti and Michael J. Orlando 2008 All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical or photocopying, recording, or otherwise without the prior permission of the publisher. Published by Edward Elgar Publishing Limited Glensanda House Montpellier Parade Cheltenham Glos GL50 1UA UK Edward Elgar Publishing, Inc. William Pratt House 9 Dewey Court Northampton Massachusetts 01060 USA
A catalogue record for this book is available from the British Library Library of Congress Control Number: 2008926566
ISBN 978 1 84542 870 9 Printed and bound in Great Britain by MPG Books Ltd, Bodmin, Cornwall
Contents List of figures Foreword, Antoine Martin About the book About the authors
vii ix xi xii
Introduction PART I
1
THE ECONOMIC METHOD OF INQUIRY
1. Modeling 2. Foundation 3. A model economy PART II
9 15 25
MONEY IN A STATIC ECONOMY
4. What is money? 5. Money and the level of economic well-being PART III 6. 7. 8. 9.
MONEY IN A DYNAMIC ECONOMY
Money in a classical economy Money in a Keynesian economy Should monetary policy be active? Is monetary policy active?
PART IV
35 42
53 66 80 87
GOVERNING MONEY
10. Measuring monetary services 11. Organizing the production of monetary services 12. The case of the ‘Fed’
99 102 109
PART V INTERMEDIATION, GOVERNANCE AND ECONOMIC PERFORMANCE 13. Asymmetric information
115 v
vi
Contents
14. Financial intermediaries and their governance 15. Corporate governance 16. Financial development and economic performance
121 135 145
Questions Bibliography Index
151 159 175
Figures I.1 1.1
Organization of the book Reduced form relationship between red wine and heart disease 1.2 Omitted variables bias 1.3 Structural evidence 2.1 The moose’s energy maximization problem 3.1 The household’s utility maximization problem 3.2 An increase in relative prices shrinks the household’s consumption possibilities 3.3 The firm’s profit-maximization problem 3.4 An increase in output prices increases output 4.1 Commodity money distorts relative prices 4.2 Commitment problems when moving from commodity to fiat money? 5.1 Inferiority of the (costly) barter equilibrium 5.2 Inferiority of barter in a ‘linear city’ 5.3 Barter further constrains economic performance in production economies 6.1 The firm’s profit-maximization problem 6.2 The labor demand curve 6.3 Equilibrium in the labor market 6.4 Classical (long-run) aggregate supply 6.5 Classical aggregate demand 6.6 Goods market equilibrium 6.7 Goods market response to an increase in the money supply 6.8 A negative technology shock, and its influence on the quantity of labor demanded for any real wage 6.9 Labor market reaction to a negative technology shock 6.10 Goods market reaction to a negative technology shock 7.1 Keynesian (short-run) aggregate supply 7.2 Involuntary unemployment with efficiency wages 8.1 Lucas’s critique and the Phillips Curve’s breakdown 9.1 Optimal policy in the hangman game is inconsistent 9.2 The optimal monetary policy is inconsistent 13.1 Cash-constrained profit maximization vii
2 12 12 13 18 26 27 28 29 38 40 43 45 48 54 55 57 58 60 61 62 63 64 64 67 73 81 89 92 116
viii
Figures
13.2 Moral hazard 14.1 Put option analysis of public insurance crises 14.2 A put option’s value increases with the underlying asset’s risk 16.1 Channels from financial development to economic performance
119 128 130 147
Foreword Most of modern economics relies on the assumption that economic actors are ‘maximizers’ (i.e., households maximize utility and firms maximize profit). This assumption has proved fruitful because it permits a systematic study of the interactions between economic agents through well-developed models. Despite the success of this approach, it is largely absent from existing intermediate teaching materials. Money, Financial Intermediation and Governance addresses this void by continually exploiting the assumption that economic actors are ‘maximizers’ to deepen our understanding of how financial services, and the organizations that govern them, influence economic performance. Maximizing agents have an incentive to economize on resources to facilitate transactions. A well-developed monetary system, for example, expands consumption possibilities by minimizing the costs of bartering for goods and services (that is, opportunities that households forgo to find consumption bundles that satisfy a ‘double coincidence of wants’). Likewise, a well-developed capital market expands firms’ production possibilities by facilitating trades between ‘idea-rich’ entrepreneurs and ‘resource-rich’ financiers. But while maximizing-behavior provides the incentive to economize on transactions costs, it is also at the heart of an impediment to economic activity; the problem of credibly committing against narrowly egoistic actions. To see this problem, consider the difficulty that societies experience in establishing and maintaining efficient systems of money. As maximizers, monetary authorities want to expand consumption possibilities beyond those that barter makes available. They can do that by issuing money. However, for money to be used, the monetary authority must be able to commit not to inflate away its value. Successful monetary authorities must adopt a type of organization or governance that constrains them enough to eliminate the temptation to inflate. The problem of credible commitment also says a lot about how systems of financial intermediation should be (and are) organized. Idea-rich entrepreneurs and resource-rich financiers enjoy considerable prospects for mutually beneficial trade. But entrepreneurs have an incentive to be too optimistic about the future performance of their projects and misuse borrowed capital after the fact. Likewise, narrowly egoistic financiers have an ix
x
Foreword
incentive to expropriate the product of entrepreneurs’ sunk investments. Well-developed systems of financial intermediation and corporate governance help maximizers credibly commit against such actions, and thus expand general economic opportunities. Money, Financial Intermediation and Governance is both rigorous in its treatment of the material and accessible. By avoiding shortcuts it challenges the reader to think seriously about deep economic incentives. At the same time, it provides the guidance necessary to master these important ideas. This is a great book for readers who want to learn and, more importantly, to think. Antoine Martin
About the book Money, Financial Intermediation and Governance unifies the treatment of diverse, but deeply related, topics in ‘money and banking.’ It does so by continually building on the assumption that economic actors are ‘optimizers’ to explain how monetary and financial services, as well as related governance mechanisms, influence economic performance (that is, levels, fluctuations, and growth rates of wealth). By developing this explanation from the ground up, Money, Financial Intermediation and Governance not only lets readers make sense of today’s monetary authorities and financial markets, it lets them see through superficial complexities to fundamental influences that will shape those organizations for years to come. Mastering this analytical process is important for business, legal, and policy professionals, as well as individuals who are interested in their own financial security. Indeed, it equips readers with an enduring ability to productively anticipate, respond to, and even shape macroeconomic and related political developments. This book’s greatest contribution may thus be to help ‘students’ at various stages of their education and careers to enjoy the lasting advantages of becoming careful ‘thinkers.’ This contribution is especially valuable for intermediate-undergraduate and professional curricula where popular, but loosely grounded, approaches can overwhelm students with a long list of apparently unrelated topics. Money, Financial Intermediation and Governance, instead, shows how simple micro-level incentives work through monetary and financial channels to influence broader economic performance. In addition, the book’s careful treatment of business cycles makes it an attractive supplement to conventional intermediate- or masters-level courses in macroeconomics, and even a primary text for the first course in a sequence that examines economic fluctuations and then economic growth. In each case, readers should benefit from illustrative figures that guide them through formal analyses, careful arguments that draw and build on respected research, and an enduring methodological approach that lets their understanding evolve with the field’s rapid developments.
xi
About the authors Dino Falaschetti (PhD, MBA, CPA) is a Campbell National Fellow at Stanford University’s Hoover Institution, Associate Professor of Law and Economics at the Florida State University College of Law, and President of Economic Advisors, Inc. Dr Falaschetti has also served the Executive Office of the (US) President as a Senior Economist for the Council of Economic Advisers (with responsibilities for regulation and financial services), held academic appointments at Montana State University, University of California at Berkeley, University of Tennessee and Washington University in St Louis, and fulfilled managerial responsibilities in corporate finance and accounting for a Fortune 100 company. He earned a PhD in economics from Washington University in St Louis (with fields in political economy, economic theory, and industrial organization), an MBA with highest honors from the University of Chicago (with concentrations in economics and finance), and a BS with distinction from Indiana University (with a major in accounting). Michael Orlando (PhD, MBA) is Principal Consultant of Economic Advisors, Inc. in Denver, Colorado. Dr Orlando served in the Economic Research Department at the Federal Reserve Bank of Kansas City, and then as Vice President and Branch Executive of the Bank’s Denver Branch. His primary responsibilities included regional and energy markets research, policy advising and public communication. Dr Orlando also served as Vice President for Research and Product Development at evolve24, LLC, a business analytics firm specializing in development and validation of algorithms used to produce quantitative measures of media content. He is also a practiced teacher, petroleum engineer and environmental engineer. Dr Orlando’s research spans a range of topics in applied microeconomics. He has published work on the economics of payments networks, corporate governance, the geography and industrial demography of innovation, energy and environmental policy. Dr Orlando earned a PhD in economics from Washington University in St Louis (with fields in industrial organization and macroeconomics), an MBA from Tulane University, and a BS with high distinction from The Pennsylvania State University (with a major in petroleum and natural gas engineering).
xii
Introduction Our objective for the present book is to develop a unified analysis of topics relating to ‘money and banking.’ This approach is attractive, both pedagogically and scientifically, but is largely missing from popular instructional materials. We fill this gap by continually grounding our insights on first principles. In particular, we gradually build on the assumption that economic actors are ‘maximizers’ (that is, households maximize utility and firms maximize profit) to understand how monetary and financial services, and the politics that govern their production, influence economic performance. Successful students will enjoy a lasting method with which to address important questions like the following: ●
●
●
●
● ●
●
What is money and how does its supply relate to a) an economy’s consumption possibilities and b) fluctuations in economic performance (that is, business cycles)? Why have only history’s most recent societies enjoyed the benefits that ‘fiat’ monetary systems can produce (that is, currency systems that lack a commodity backing)? How can the governance of monetary authorities (for example, the United States’ Federal Reserve System) facilitate this enjoyment, and why do so many economies fall short on this dimension? How does the organization of intermediaries (that is, proximate suppliers of loanable funds) and governance of corporations (that is, proximate demanders of loanable funds) influence financial market efficiency? Is market discipline sufficient for financial market efficiency, or is public regulation necessary? Why is financial market efficiency so important for economic opportunity in general – that is, why is finance important for ‘Main Street’ as well as ‘Wall Street’? Why, despite this importance, do societies so often discourage financial development and thus forgo superior economic performance?
In lieu of offering a superficial treatment of these questions, we develop an analytical method for building firmly grounded and internally consistent explanations. This approach improves upon compartmentalized analyses 1
2
Money, financial intermediation and governance
Part I Analytical foundation Ch. 1–3 Banking Part V
Money Parts II–IV
Information is asymmetric
Barter must satisfy a double coincidence of wants
Ch. 13
Maximizers can do better by economizing on the cost of transacting across time
Maximizers can do better by economizing on the cost of spot market transactions
Ch. 15
Ch. 14 Financial intermediation
Money Ch. 4–5
Corporate governance
Ch. 6–9
Consumption possibilities
Business cycles
Ch. 10–12
Ch. 16 Economic performance and the governance of monetary and financial services
Figure I.1
Organization of the book
that can overwhelm students with long lists of apparently unrelated rationalizations, and leave them ill-prepared to address germane issues that regularly arise in personal and professional settings but fall outside the scope of what their courses can explicitly consider. Indeed, it encourages students to advance themselves into thinkers by focusing on the ability ‘to understand and not merely to remember’ (Hilton, 1997).1 Figure I.1 illustrates how our book works toward this objective. Part I begins by developing a set of analytical tools with which to firmly ground insights to money and banking in particular and (perhaps more importantly) human sociality in general. Our goal here is for readers to become comfortable with (a) the general process of reducing complex problems into simple ones so that those problems become tractable, but not irrelevant (that is, modeling) and (b) a particularly powerful method
Introduction
3
of reduction – that is, assuming that units of observation (for example, households and firms) are ‘egoistic’ (self-interested) and logically deducing refutable implications therein. Opening a study of money and banking in this manner creates at least two benefits. First, by making our analytical method transparent, it helps readers see how much confidence can be placed in what they ‘know.’ Second, it motivates why ‘money and banking’ topics are more than academic curiosities – they fundamentally influence economic performance. Part I (Chapters 1–3) shines a bright light on this influence by making transparent an assumption that a (prerequisite) principles-level training can leave opaque – that is, the cost of transacting is negligible. In doing so, it not only strengthens our ability to ‘think like a social scientist,’ it also builds a bridge from students’ incumbent training to a set of phenomena that frequently falls under the ‘money and banking’ heading. Indeed, once readers confront the truism that transacting is costly, they begin to appreciate the capacity for monetary and financial governance to affect a society’s economic opportunities. Our introductory model of the household’s problem in Part I implicitly assumes that spot-trades (those that occur at a point in time) take place in a well-developed monetary system. Absent such a system, however, households find themselves maximizing utility via ‘barter’ (a system where individuals trade only when they share a ‘double coincidence of wants’). There, the relatively high resource cost of consummating trades precludes superior (unanimously preferred) outcomes. This departure from a ‘first best’ outcome motivates our investigation in Part II (Chapters 4–5) of how money, by facilitating spot-trades when a double coincidence of wants is absent, can improve the economic wellbeing of all households. We’ll learn that ‘fiat’ money (exchange media that lack a commodity backing) can improve economic performance, but societies nevertheless face persistent obstacles to developing and maintaining efficient monetary systems. In particular, ‘maximizers’ not only want to economize on transactions costs, they also want to opportunistically substitute ‘inflation taxes’ for ‘real taxes.’ Unless monetary authorities can credibly commit against such opportunism, individuals will lack the confidence that is necessary for fiat systems to economize on transactions costs. In Part III (Chapters 6–9), we synthesize and extend contributions to an important field of macroeconomics – that is, ‘money and economic fluctuations.’ We do so by extending Part II’s investigation from a static to dynamic setting, and learn that whether money should be actively managed is also sensitive to the formation of expectations. To the extent that maximizing-behavior influences how individuals form expectations, activist
4
Money, financial intermediation and governance
monetary policy can encounter difficulty when attempting to dampen economic fluctuations.2 But while an activist policy appears ineffective in this regard, political agents may nevertheless face a strong incentive against remaining passive. Indeed, after individuals form expectations about monetary policy, a political agent’s ‘best’ action becomes to expand the money supply – that is, as policy interactions unfold, individuals’ incentives become inconsistent with society’s optimal plan. Part III thus complements Part II by further motivating the importance of governing monetary institutions so that otherwise egoistic political agents advance aggregate economic performance. We’ll address this dimension of governance in Part IV (Chapters 10–12) by examining how the organization of central banking can influence economic performance. Taken together, Parts I through IV (Chapters 1–12) develop, from the ground up, an understanding of how the production of monetary services should be and is organized. But while this understanding is ‘deep,’ it is not ‘wide.’ To be sure, it only illuminates how societies should (and do) organize spot market transactions – that is, trades at a particular instant in time. It leaves open, however, the related question of how maximizers can ease transacting across time. We treat this issue in Part V (Chapters 13–16) by rationalizing the existence of and prescribing organizational strategies for financial intermediation and corporate governance. Rather than being a separate investigation, this one also builds from Part I’s methodological foundation. In particular, we maintain consistency by again highlighting the capacity for transactions costs to discourage egoists from achieving their goals, and rationalizing observed features of financial markets (e.g., the organization of intermediaries and corporate governance systems) as emerging from incentives to economize on these costs. Consider, for example, the goal of profit maximization. In Part I’s introductory model, firms operate in a ‘frictionless’ economy, and thus freely choose inputs to equate each factor’s marginal product and opportunity cost. But what happens when firms operate in a world that more closely portrays our empirical reality? In particular, what happens when a firm’s opportunity to employ inputs conflicts with its access to requisite resources? In this richer setting, we find that the domain of inputs shrinks from what is possible for Part I’s firms – that is, firms become ‘cash constrained.’ Consequently, just as households in Part II cannot achieve the level of utility that is available when bartering is costless, firms in Part V cannot achieve the profits that are possible when accessing financial capital is costless. But just as Part II’s households need not rest at an inferior barter outcome, Part V’s firms need not rest at an inferior cash-constrained outcome. To see why, we again exploit our assumption that economic actors are maximizers. For example, recognizing that increased profits are
Introduction
5
available except for cash constraints, an egoistic supplier of loanable funds might lend financial capital to expand a firm’s set of feasible inputs. In this manner, successful intermediation can make everyone better off – that is, firms can pursue productive projects and lenders can share in consequent profits. The capacity to realize superior payoffs rests, however, on whether suppliers of loanable funds can discourage demanders from opportunistically employing those funds. To be sure, note that maximizers not only want to economize on transactions costs, they also want to misrepresent the quality of assets being traded and strategically exploit bargaining positions (the strength of which can vary across a transaction’s history). Left unchecked, the prospect of such unproductive actions will constrain a firm’s opportunity to leverage capital-access into increased profits. We’ll thus learn that, for egoistic suppliers of capital to trade with egoistic demanders, economic actors must credibly commit against narrowly pursuing their own self-interests!3 This understanding will help us rationalize why, say, loanable funds tend to be traded via intermediaries such as banks rather than more directly. It will also help us see why firms adopt restrictive organizational structures (e.g., hand-tying capital structures) or employ external monitors (e.g., financial statement auditors). Finally, it will offer insight to why financial governance is so important for economic well-being, and why productive governance nevertheless encounters considerable political resistance. In particular, we’ll see that educating individuals about the merits of financial development may not be enough to encourage productive reforms (or discourage unproductive policies). Indeed, unless development policies address distributional constraints, even the most (technically) productive advances may go unrealized, and those that already exist will face considerable political risks.
NOTES 1. ‘Adaptability to change is itself a hallmark of successful education, and it is change, not any specific technology, that most aptly characterizes life today and in the foreseeable future. A genuine education enables one to acquire, for oneself, the skills one happens, at a given stage of one’s life, to need. A training, on its own, contributes almost nothing to education and produces distressingly ephemeral advantages’ (Hilton, 1997). 2. We leave until Chapter 14 the consideration of how credit market frictions can channel monetary policy into real economic activity. 3. Miller (1991), Falaschetti and Miller (2001) and Skaperdas (2003), among others, examine such dilemmas.
PART I
The economic method of inquiry
We develop in Part I a firmly grounded and internally consistent framework for investigating phenomena associated with human sociality in general, and money and banking in particular. This framework, frequently referred to as ‘the economic way of thinking,’ can appear so abstract as to hold little promise for addressing substantive interests. We’ll see, however, that the capacity to facilitate careful abstraction lets us employ the economic way of thinking to scientifically examine any aspect of human sociality. Indeed, after developing our method of ‘logical deduction from self-evident truths,’ we’ll consider its profound implications for what can otherwise appear to be trivial policy issues (for example, the extent to which airbags enhance automobile-safety). We’ll thus begin to appreciate how a firmly grounded, internally consistent, analytical method can offer empirically interesting insights that may otherwise remain hidden. Our goal for the present set of chapters is to persuade readers that thinking like a social scientist can constructively address, in a simple and unified manner, important problems that often appear overwhelmingly complex and unrelated. David Friedman (1996) describes this capacity as follows: To most people, economics is a dull science full of statistics and jargon, mainly concerned with money and designed to answer a narrow (but important) set of questions. To economists, economics is a powerful tool for understanding why armies run away, voters are ignorant, and divorce rates rise, as well as solving practical problems such as how not to get mugged. Its theme is not money but reason – the implications, especially the non-obvious implications, of the fact that humans act rationally. (Italics added)
8
The economic method of inquiry
Mastering this method early in a course on money and banking is important. Rather than leaving students with an ephemeral catalog of disjoint ideas, it provides an enduring analytical tool with which to build, from the ground up, an understanding of how money, financial intermediation and ultimately governance influence economic performance.
1.
Modeling
Models do not represent literal truth. Rather, they are tools for viewing the world, its problems, and contexts. (Poirier, 1995: 2)
WHAT ARE MODELS, AND WHY ARE THEY NECESSARY? To better understand phenomena associated with money and banking, we will make extensive use of economic ‘models.’ Models are simple characterizations of forces that influence our empirical reality, and are necessary to examine difficult to track issues in a logically consistent manner. Every problem that individuals confront is a simplified version of ‘reality.’ In the extreme, inherent physical limitations preclude us from immediately sensing many aspects of what is ‘true,’ and thus from ever acting on a problem without first simplifying it. We rely on models long before bumping into physical limitations, however. Consider, for example, the last time you used a road map.1 Was your map a ‘simplified representation’ of an empirical reality? Of course it was – indeed, a ‘real’ map would have never fit in your car! But notice that, rather than clouding the issue under consideration (for example, directions from one town to another), this simplification made it more transparent – that is, it let you see past relatively unimportant issues to carefully contemplate questions of particular interest (such as how far, and in what direction, is your destination?). The question before us is thus not whether to simplify, but rather how to simplify problems so that they become tractable (without becoming trivial). The simplification on which we’ll progressively build is that economic actors engage in ‘maximizing-behavior’ (that is, households maximize utility and firms maximize profits). In short, we’ll assume that actors are ‘hard wired’ to selfishly pursue these rather simple goals – they are egoists.2 Because this assumption can appear coarse, and because it will act as the foundation from which we build our understanding of money and banking, it is important for us to see why treating it as axiomatic is reasonable. We thus turn in the present chapter’s remainder to the issue of what makes for 9
10
The economic method of inquiry
a ‘good’ model. We’ll then evaluate in Chapter 2 whether a model that is grounded on the axiom of maximizing-behavior can be a good one. Our objective in developing this preliminary material is to be transparent about how our methodology generates insights to substantively interesting topics. In particular, we want to highlight what has to be true for our conclusions to be valid, and will argue that the satisfaction of this necessary condition is self-evident (that is, rationalizing our foundation does not require another model).
WHAT IS A ‘GOOD’ MODEL? Just because models are necessary for understanding money and banking (and human sociality more generally) does not mean that any model will do. To effectively pursue our inquiry, we not only need a model, we need a ‘good’ one. Good models build from a solid foundation to generate insightful predictions. Models have to start from somewhere, and our starting point will be the set of statements that a model takes as given. We’ll refer to these statements as a model’s ‘assumptions,’ and claim that they must be ‘selfevident’ if a model is to be firmly grounded. Indeed, if reflection alone does not establish these statements’ truths, then we would need another model to establish our assumptions.3 A solid foundation precludes this type of regression. It also makes transparent the answer to an important question that more loosely grounded approaches tend to hide – that is, ‘what has to be true for a model’s predictions to be valid?’ In this light, a model whose assumptions are self-evident appears preferable to one whose assumptions are not. In addition, holding other considerations constant, a model that predicts well lets us rationalize our empirical reality, and thus appears preferable to one that predicts poorly. We’ll thus prefer models that generate non-trivial predictions from an agreeable set of assumptions to those that predict less well from superficial assumptions. Depending on the objective at hand, however, we may encounter models that generate superior predictions while maintaining inferior assumptions (or vice-versa). Before moving forward, we should consider how to constructively evaluate models in this less obvious case. In short, we will prefer models that explain ‘a lot’ with ‘a little.’ The late Nobel Prize-winning economist, Milton Friedman (1953), carefully developed this notion to establish a criterion for whether a model should be accepted as a part of the ‘body of systematized knowledge concerning what is.’ An acceptable model, according to this standard, is one that yields valid
Modeling
11
and meaningful (that is, more than truistic) predictions about phenomena not yet observed.4 Notice that, while a model must rest on a solid foundation to achieve this status, it cannot maintain an exhaustive set of assumptions. In other words, models necessarily assume that certain forces are, and others are not, important for understanding a particular class of phenomena. Whether our model is sufficiently complete thus becomes an interesting question, and can be addressed by evaluating the costs of expanding our assumptions (for example, a reduction in the confidence that our assumptions are selfevident) against the benefits of developing a finer theory (for example, an increase in the robustness of predictions).
EVIDENCE AND THE QUALITY OF A MODEL’S PREDICTIONS [We need to test models] as useful imitations of reality by subjecting them to shocks for which we are fairly certain how actual economies or parts of economies would react. The more dimensions on which the model mimics the answers actual economies give to simple questions, the more we trust its answers to harder question. (Lucas, 1980)
A ‘good’ model is one that rests on a solid foundation and generates insightful predictions. We’ll argue in Chapter 2 that the assumption of maximizing-behavior is self-evident, and can thus firmly ground our models of human sociality in general and money and banking in particular. We’ll also present evidence that models that are grounded as such generate non-trivial, but accurate, predictions. Before turning in that direction, then, we should understand what counts as solid evidence. Our investigation will generate two types of evidence: reduced form and structural.5 In short, reduced form evidence looks at the ultimate relationship between variables of interest, and can thus provide insight to how large is a variable’s gross impact. Structural evidence, on the other hand, looks more carefully at the channels through which variables of interest relate, and can thus offer information about a variable’s partial impact. Reduced Form Evidence Each type of evidence maintains strengths and weaknesses. To see these qualities, consider the hypothesis that drinking red wine decreases the incidence of heart disease. Under this hypothesis, red wine and heart disease share a negative relationship, the reduced form of which can be illustrated as in Figure 1.1.
12
The economic method of inquiry
Red wine ↑ → Heart disease ↓ Figure 1.1
Reduced form relationship between red wine and heart disease
To evaluate whether this relationship is an empirically important one, we can look at the correlation between drinking red wine and contracting heart disease. However, even if this correlation is strong and negative (that is, even if individuals who drink red wine experience considerably less heart disease), we should be careful about the confidence that we place in our model. This concern arises from the fact that correlation does not imply causation.6 To understand this concern, suppose that the incidence of drinking red wine varies with income. Suppose also that income influences the incidence of heart disease through, say, its effect on access to preventive health services. In this case, reduced form evidence for our hypothesis would be spurious – that is, red wine would be correlated with something that affects heart disease, but wouldn’t affect heart disease per se. Figure 1.2 illustrates how this type of inferential mistake can emerge when reduced form models omit variables (for example, income) that relate to both the hypothesized causal variables (red wine) and outcome measures (heart disease). Income ↑
Red wine ↑ Figure 1.2
Heart disease ↓
Omitted variables bias
In addition to suffering from ‘omitted variables bias,’ reduced form evidence may leave open the hypothesis that causation runs in the opposite direction. Suppose, for example, that heart disease diminishes human capital, and thus one’s earnings capacity. Suppose also that wine is a ‘normal’ good – that is, its demand increases with wealth. Then a lack of heart disease could cause relatively high levels of earnings, which in turn could increase wine consumption. In this case, heart disease and wine consumption share a negative reduced form relationship, but the incidence of heart disease influences wine consumption.
Modeling
13
Structural Evidence The above illustrations suggest that, to the extent that our hypothesized causal variables are not experimentally controlled, we’ll need to be careful about inference drawn from reduced form evidence. Given this suggestion, we may want to evaluate our hypotheses via ‘structural evidence’ instead. Rather than looking at the direct relationship between a hypothesized causal variable and outcome measure, structural evidence looks at the channels through which a causal variable might exert its influence. Continuing with our wine example, grapeskins (which give red wine its color) appear to be a rich source of the chemical ‘resveratrol.’ Resveratrol, in turn, appears to reduce the incidence of genetic mutations and thus curb age-related disorders such as heart disease.7 Finding a chain of evidence as illustrated in Figure 1.3 can thus increase our confidence in the hypothesis that red wine influences heart disease – that is, omitted variables and reverse causation are not clouding our inference. Red wine ↑ → Resveratrol ↑ → Genetic mutations ↓ → Heart disease ↓ Figure 1.3
Structural evidence
Given this apparent superiority of structural evidence, why should reduced form evidence ever deserve our attention? It does, and for the same reason that it creates difficulty – that is, it does not rely upon a particular structure for its validity. Numerous channels exist through which red wine might affect heart disease. Hence, even if red wine truly influences the potential for heart disease, investigators might conclude that it does not if they limit their analysis to an incorrect channel. In other words, unless we identify the correct process (or a process close to what is correct) through which our hypothesized variable affects an outcome of interest, structural evidence could suggest that our variables are unrelated (even if they strongly relate through another channel!). Reduced form evidence, on the other hand, would disclose this relationship since it leaves open the channel of causation. As long as at least one such channel exists, reduced form evidence can support the hypothesis.
CONCLUSION To make any progress in understanding non-trivial social phenomena, we must reduce those phenomena into tractable models. But to produce valid insights, this ‘reduction’ must ultimately rest on solid ground – that is, a set of self-evident assumptions.
14
The economic method of inquiry
Logically deducing hypotheses from such assumptions maintains the attractive potential to ‘explain a lot with a little.’ To evaluate this explanatory power, we’ll compare our models’ observable implications to either reduced form or structural evidence. Relying on reduced form evidence will mitigate the risk of dismissing good models, but also increase the risk of accepting bad ones. Structural evidence exhibits the opposite merits and difficulties. Like many of the conclusions that we’ll draw, this one does not offer a neat set of recipes with which to tackle the ‘real world.’8 Rather, it carefully sets out the trade-offs that we must make to move forward with our understanding of money and banking, and the margins on which those trade-offs can logically take place.9
NOTES 1. We thank Rob Fleck for sharing this illustration. 2. Note that, even if this assumption is a good one for modeling purposes, it does not condone or condemn associated behavior. We will address this issue more carefully when we look at how models facilitate ‘positive’ insights (that is, an understanding of ‘what is’) versus ‘normative’ insights (that is, an understanding of ‘what should be’). 3. Philosophers have long recognized this necessity, perhaps most famously René Descartes (1596–1650) in his ‘Cogito, ergo sum’ foundation to his Discourse on Method. 4. Professor Friedman’s 1967 prediction about the instability of the Phillips Curve exemplifies this feature of a ‘good’ theory (see for example, Woodford, 1999: 16). We’ll consider this example more carefully in Part III. 5. Mishkin (2004) also employs this dichotomy. 6. This concern led Rajan and Zingales (2003: 109) to argue that ‘correlation is the basis for superstition, while causality is the basis for science.’ 7. Evidence to this effect appears in the journal, Nature (August 2003). 8. And for good reason – such a set is unlikely to exist! 9. In particular, it does not say that economic models can rationalize any imaginable outcome – that is, predictions from good economic models are not vacuous.
2.
Foundation
The axioms are like the foundations of a building. No matter how carefully the [social scientist] constructs the walls and the rest of the structure, if the foundations are unsound, the entire structure may collapse. One false axiom, and everything that follows may be wrong or meaningless. (Keith Devlin, 1998)
INTRODUCTION We argued in our first chapter that, to understand complex social phenomena, we must logically reduce those phenomena into models, and those models should build on a parsimonious set of ‘self-evident’ truths. In doing so, however, we must not make our simplifications simplistic – that is, our assumptions must aid tractability without trivializing the question of interest. We push forward in the present chapter by arguing that building models on the assumption of ‘maximizing-behavior’ fulfills this requirement. Although (and perhaps because) it is extremely simple, this assumption can facilitate deep insight to human sociality in general, and thus phenomena associated with money and banking in particular. Absent such an assumption, and a consistent logic for deducing insights from it, understanding what truly motivates these phenomena would be difficult, if not impossible.
AN AXIOMATIC APPROACH The heart of the economic approach, according to Gary Becker (1976b), is its relentless exploitation of the assumptions that agents optimally choose actions subject to a set of stable preferences. So defined, this approach should appear familiar to those with an intermediate training in mathematics – that is, social scientists employ the ‘economic approach’ in much the same way that mathematicians employ axiomatic approaches. In particular, social scientists frequently take Becker’s postulates (i.e., agents maximize according to stable preferences) as given. They then develop insight to how systems behave by logically deriving observable implications therein. Note well that, if our derivation of such implications is valid, then the only part of our approach open to criticism is our choice of axioms. Once 15
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we accept this choice, any implications that logically derive from it must be true for social systems that our assumptions characterize. In other words, any system that obeys these rules necessarily exhibits all of the properties that we can deduce from them.1 This approach will thus advance our understanding of social phenomena to the extent that our axioms meaningfully simplify forces that act on our empirical reality. Before going forward, then, we should be clear about what we are assuming and how we plan to exploit these assumptions.
THE AXIOM OF MAXIMIZING-BEHAVIOR Never assume the animal you are studying is as stupid as the one studying it. (Trivers, 2002)
The axiom about which we’ll be particularly careful is one that frequently appears disagreeable to non-economists – that is, the axiom of ‘maximizingbehavior.’ Perhaps the most important argument to understand from the present chapter is that this assumption not only facilitates our construction of a simple analytical framework, it is also more obvious than superficial assessments suggest. The ‘As If’ Principle, in Principle David Friedman (1996) offers several rationalizations for our assumption that egoistic motives drive economic actors: One reason to assume rationality [that is, maximizing-behavior] is that it predicts behavior better than any alternative assumption. Another is that, when predicting a market or a mob, what matters is not the behavior of a single individual but the summed behavior of many. If irrational behavior is random, its effects may average out . . . A third reason is that we are often dealing not with a random set of people but with people selected for the particular role they are playing. (Italics added)
It is this third rationalization that especially deserves our attention. Social scientists ground their investigations on the axiom of maximizing-behavior, not because they see such behavior as being purposeful, but rather because forces that influenced their subjects’ selection left those who act as if they are maximizers. Note that this axiom embodies the biological principle of natural selection. To be sure, it implicitly treats the social system as an adoptive mechanism that chooses exploratory actions that were most successful in maximizing utility or profits. Our inquiry does not ground itself on the
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assumption that actors explicitly adapt to their environment (that is, explicitly maximize utility or profits), but instead on the assumption that relevant systems adopted for our observation agents who recognized success in this regard (Alchian, 1950). The actors that we observe can thus be usefully modeled as rational, even if they do not explicitly maximize.2 An Illustration of the ‘As If’ Principle Alchian (1950) nicely illustrates the ‘as if’ principle by considering what would happen if thousands of travelers randomly selected roads out of Chicago, but gasoline stations existed on only one of those roads. Given these conditions, only individuals who happened upon the road where gasoline is available can successfully complete their trips. In other words, only those who chose a road as if they were maximizers would make themselves ‘observable’ to an external analyst (for example, a social scientist). Moreover, even if subjects randomly choose roads, the ‘as if’ principle accurately predicts who would succeed if the road on which gasoline was available changed. In this case, a different direction of travel would become optimal. But rather than adapting to this change, newly successful individuals would have been adopted by the changed environment. To be sure, what is optimal in the new environment will differ from what is optimal in the old, but only those that act as if they optimally responded are available for observation (Alchian, 1950). The axiom of maximizing-behavior sometimes receives criticism because households or firms do not appear explicitly rational. After all, when was the last time that you formally measured marginal costs and benefits before making a decision? The trouble that we have in answering this question suggests that explicit rationality is not self-evident. Alchian’s illustration instead suggests that implicit rationality is self-evident. It is this latter characterization of rationality that can be treated as axiomatic, and acts as the foundation on which our models will build.
CAN OUR AXIOMATIC APPROACH PREDICT WELL? In Chapter 1, we argued that good models build insightful predictions from self-evident truths. In this light, and coupled with an understanding of the ‘as if’ principle, models that build on the axiom of maximizing-behavior appear capable of being ‘good.’ To complete our evaluation of whether such models can indeed help us understand human sociality, then, we must consider their potential to rationalize important features of our empirical reality.
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Evidence from (Non-human) Animals The ‘as if’ principle’s power is, perhaps, most clearly evident in the context of (non-human) animals. Consider, for example, a problem that likely confronts moose – that is, ‘choose’ a combination of aquatic and terrestrial plants that maximizes energy. Absent constraints on its behavior, our moose could arbitrarily choose its diet. However, just as households face fundamental constraints when choosing consumption bundles (for example, bounded budgets), so does our moose.3 First, our moose must choose a combination of plants that produces a minimal level of sodium. Indeed, just as travelers who do not choose roads on which gasoline is available become ‘extinct,’ so do moose that ignore this constraint. Second, our moose cannot accumulate energy without bound. In particular, its rumen (the first compartment of its stomach) limits the volume of plants that it can feasibly consume. Rather than facing an unconstrained maximization problem, our moose thus faces a constrained problem – that is, when attempting to maximize energy, it can choose combinations of aquatic and terrestrial plants only from the shaded area in Figure 2.1. If our moose addresses this problem as would a ‘maximizer,’ then it will choose the combination of terrestrial and aquatic plants represented here as (x, y). To see why a maximizing-moose would make such a choice, notice that the moose’s ‘iso-energy curve’ is analogous to the firm’s iso-profit curve or consumer’s indifference curve – that is, any combination of aquatic and Aquatic plants Iso-energy curves
Sodium constraint
y
Rumen constraint x Figure 2.1
The moose’s energy mazimization problem
Terrestrial plants
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terrestrial plants that lies on a particular curve produces an equivalent level of energy. The combination of terrestrial and aquatic plants that lies on the highest such curve, subject to the sodium and rumen constraints, is (x, y) – that is, this combination produces the maximum feasible level of energy. But why would our moose choose this particular diet? After all, if we are skeptical about humans’ cognitive capacity to explicitly optimize, then shouldn’t we be more skeptical about the moose’s capacity? Not when the ‘as if’ principle is empirically relevant. In this case, competitive environments will adopt only those moose who choose diets as if they maximize energy (subject to sodium and rumen constraints). Clearly, the root of causation here is not the moose’s capacity to think formally. Rather, it is the hypothesis that energy influences a moose’s capacity to replicate, and behavioral traits are heritable. Under these conditions, moose who make themselves available for our observation will tend to behave according to the axiom of maximizing-behavior. We’ve certainly succeeded in developing a model of how moose choose their diets. But is this a ‘good’ model? Apparently, yes! Rather than being a cute but empirically irrelevant illustration, our formal analysis of the moose’s diet heavily draws on biological research (see Krebs and Davies, 1993). Evidence from this research is consistent with moose choosing consumption bundles in exactly the manner that we set out here.4 Evidence from Humans We now see that, to advance our understanding of interesting social phenomena (including those associated with money and banking), we must reduce those phenomena into a tractable analytical framework – that is, we must employ models. The manner in which we will make this reduction, and the manner in which social scientists tend to make this reduction more generally, is to assume that the subjects of investigation (for example, households, firms) engage in maximizing-behavior. And while making this assumption appears to ask a lot from our subjects, we should recognize the potential for selection-forces to have favored those who behave ‘as if’ they are maximizers. But to what extent have contemporary humans maintained this potential? It turns out that, time and again, even societies’ most unsuspecting members appear to act ‘as if’ they are maximizers. Consider, for example, the following questions: ● ● ●
Does raising the speed limit decrease safety? Does driving a light truck make you safer? Do airbags increase safety?
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Each of these questions appears rather straightforward. However, raising the speed limit need not decrease safety if doing so encourages individuals to drive on safer roads (for example, divided highways).5 Driving light trucks might increase the risk of injury (or fatality) if it accommodates more dangerous driving habits.6 Airbags, too, can similarly induce ‘unintended consequences.’ A bit of introspection makes this difficulty clear – how would your driving habits change if your airbag deployed razor-sharp spikes? While not immediately obvious to those unfamiliar with the economic way of thinking, each of these consequences logically follows from the axiom of maximizing-behavior. Moreover, just as with our model of the moose’s behavior, received evidence is consistent with these implications being empirical regularities rather than theoretical curiosities. Our axiom is not as abstract as it might first appear, and the insights that it generates can be life-saving! Evidence Against Maximizing-behavior? The logic and evidence developed so far suggests that models based on the axiom of maximizing-behavior can be ‘good.’ That said, we frequently observe phenomena that appear difficult to rationalize within this context. Consider, for example, the case of radical religious militias – how can modeling individuals as ‘maximizers’ shed light on this seemingly irrational behavior? Eli Berman (2003) put this question as follows: The Taliban, Hamas, and other radical Islamic groups present a challenge to behavioral scientists who assume rational choice in individual decisions. How do we explain destructive acts from which individuals derive no direct benefit such as subjugation and institutional abuse of women, minorities and homosexuals, closing of schools and hospitals, enforcement of general strikes, abuse and murder of prisoners, or desecration of holy sites? Why do radical religious sects so often turn to militia activity, and why are their militias so effective?
Addressing these questions is important if we are to have confidence in our analytical method. Indeed, if ‘maximizing models’ miss something fundamental about a particular social phenomenon, then we should question its capacity to rationalize other phenomena about which we are less certain. In this case, before applying the economic way of thinking to any particular question, we would have to know whether that question falls within our method’s scope. Another model would then be necessary to determine when our economic way of thinking can produce valid insights, and when it cannot.
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Evaluated in this light, Berman’s (2003) work appears important not only because it searches for deep social forces at which policies can aim to check radical militias, but also because it increases our confidence that the economic way of thinking is not compartmentalized. Berman (2003) succeeds by realizing that maximizers encounter difficulty when attempting to make promises. To address this difficulty, maximizers may play actions that superficially appear to decrease utility, but ultimately make feasible the expanded set of consumption possibilities that credible individuals can enjoy.7 To see this idea more clearly, consider a set of maximizers who are attempting to produce a ‘local public good’ – for example, a protective wall around a village. Notice that, should any one individual from this set curb his or her effort, others are likely to be able to construct the wall themselves. In other words, no single individual is pivotal in building the wall, so an individual ‘shirker’ may enjoy the wall’s security without forgoing the utility that he or she could have enjoyed from doing something other than contributing to the wall’s construction. But if each individual is a maximizer, then everyone may act in this manner – that is, no one will contribute to the public good’s production. So how might maximizers credibly commit to such production processes? One way is to decrease the opportunity cost of contributing. In the case of radical religious groups, this decrease can come from attempts to ‘limit choices (prohibitions) and to destroy resources and options (sacrifices)’ (Berman, 2003). Here, the utility that members might enjoy from allocating effort to market activities represents the opportunity cost of contributing to the public good. To the extent that prohibitions and sacrifices diminish the attractiveness of such alternatives, members will contribute more effort to the public good – that is, when commitments are important, maximizers can do better by credibly constraining themselves.8 In this manner, Berman (2003) (and contributors to related literatures – for example, Laurence Iannaccone) offer a firmly grounded rationale for why apparently cruel and meaningless destruction can persist. As such, they not only increase confidence in the scope of our analytical framework, they show how that framework can expose the roots of pathologies that might otherwise remain hidden.
POSITIVE VERSUS NORMATIVE ANALYSIS We now see that our economic way of thinking can be a powerful method for carefully rationalizing any social phenomenon of interest. But does the
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fact that we can rationalize a particular phenomenon mean that it is socially desirable? Absolutely not, and it is important that we understand why. Social scientists are tempted to address two types of questions: ‘what is’ and ‘what should be?9 These classes of questions motivate, respectively, ‘positive’ and ‘normative’ modes of analysis. In this context, economic models can be viewed as logical rationalizations of social phenomena or as bases for policy decisions.10 But individuals (even economists) frequently ignore this distinction. Robert Fogel’s (1993) Nobel Prize-winning research on slavery, for example, largely consists of positive analysis (based on the axiom of maximizing-behavior). Nevertheless, popular media widely (and inaccurately) characterized it as an apology for an institution that lacks normative merit. Likewise, pundits frequently dismiss the capacity for egoists to produce socially desirable outcomes. As Baye (2000) observes, however, this capacity is very real:11 [P]rofits signal the owners of resources where the resources are most highly valued by society. By moving scarce resources toward the production of goods most valued by society, the total welfare of society is improved. As Adam Smith first noted, this phenomenon is due not to benevolence on the part of the firms’ managers but to the self-interested goal of maximizing the firms’ profits.
Not only can desirable outcomes emerge from individually egoistic behavior, however, so can unattractive phenomena. This disparity emerges from selection-forces acting at the level of individuals and normative inferences being drawn at the level of groups. When individual-behavior creates external effects, adopted individuals (that is, those that have been selected for observation) will tend to induce inferior equilibria. The selection-based arguments that we developed above thus do not condone associated behavior. Rather, and quite simply, they attempt to identify deep forces that promote it.
ADVANTAGES TO THINKING LIKE AN ECONOMIST The economic approach provides a unified framework for investigating all human behavior. The heart of Becker’s (1976b) argument, for example, is that human behavior is not compartmentalized, sometimes based on optimizing, sometimes not, sometimes motivated by stable preferences, sometimes by volatile ones, sometimes resulting in an optimal accumulation of information, sometimes not. Rather, all human (and even non-human) behavior can be constructively modeled as emerging from individuals that maximize utility from a stable set of preferences.12
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Consequently, the application of this approach does not restrict itself to the market sector. The economic approach predicts the same kind of response to opportunity costs, whether they are measured by money prices in economic markets or imputed prices in political markets. In addition to offering a unified framework for understanding what might otherwise appear to be unrelated phenomena, the economic way of thinking also encourages us to carefully pursue that understanding. Notice, for example, that it will require us to be explicit about our assumptions, and the manner in which we deduce subsequent insights. By clearly linking our conclusions to the assumptions on which they ultimately rest, we will thus establish an ‘audit trail’ for distinguishing unsupported conjectures or claims from logically derived propositions (Besanko et al., 2000: 3). To sum up, once we understand that we must employ models to aid our understanding of human sociality, we need to settle on a foundation that is ‘self-evident.’ Indeed, if we took a less careful approach, nothing would stop us from trivializing important questions by essentially assuming their answers. By thinking in a scientific manner, on the other hand, we hold out the prospect of gaining valid insight to what can otherwise be intractable problems.
NOTES 1. 2.
Kurt Gödel’s celebrated ‘incompleteness theorem,’ nevertheless, shows that properties may truly exist that our consistent system is unable to illuminate. Friedman (1953) summarizes this argument as follows: Let the apparent immediate determinant of business behavior be anything at all – habitual reaction, random chance or whatnot. Whenever this determinant happens to lead to behavior consistent with rational and informed maximization of returns, the business will prosper and acquire resources with which to expand; whenever it does not, the business will tend to lose resources and can be kept in existence only by the addition of resources from outside. The process of ‘natural selection’ thus helps to validate the hypothesis [the ‘as if’ principle] or, rather, given natural selection, acceptance of the hypothesis can be based largely on the judgment that it summarizes appropriately the conditions for survival.
3. 4. 5. 6.
See, however, Koopmans’ (1957) and Blume and Easley’s (1993, 1998) arguments that the ‘as if’ principle is more forceful at the individual than firm level. Our investigation of capital markets (documented in subsequent chapters) appreciates this criticism. Becker (1962) offers a forceful (partial equilibrium) argument for the role of constraints, rather than explicit rationality, in producing behavior that appears ‘as if’ it was generated by maximizers. Robson (2001a: 14–15) offers a related discussion of ‘foraging theory.’ Dee and Sela (2003) review the relevant literature. See, for example, White (2004). Cohen and Dehejia (2004) find related evidence for automobile insurance – that is, insurance coverage accommodates accident-prone drivers, and can thus lead to a significant increase in the rate of traffic fatalities.
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8.
The economic method of inquiry Interestingly, monetary authorities and financial market participants also encounter difficulty when attempting to make credible commitments, and similarly employ ‘handtying’ mechanisms to expand their opportunities. In the case of radical religious militias, individuals who appear more ‘rational’ may lack credibility when promising to act on their financiers’ preferences. We’ll see in Part V that, to the extent that this credibility is missing, demanders of financial capital (in this case, terrorists) must make do with a constrained set of opportunities (that is, they face a ‘cash constraint’). Competitive environments, in turn, tend to select against such individuals. Berman (2003) thus surmises that: Since club members engage in joint production of local public goods during their hours of non-market time, market work is a distraction with a negative externality for other members. So, efficient clubs should tax market wages. Lacking tax authority they might turn to prohibitions on consumption as a crude but feasible way of lowering wages. Sacrifices can be explained as a costly signal of ‘commitment’ to the community . . . A sacrifice is then an initiational rite allowing membership and with it access to club goods.
9. 10.
It is very important to understand that, just because such constraints might make feasible a higher level of utility for members, Berman’s (2003) argument does not condone associated behaviors. For example, to the extent that the constraints export costs to others (for example, those whose resources have been destroyed), militias will not maximize social welfare. Led Zeppelin address the related question of ‘What Is and What Should Never Be’ (Led Zeppelin II album). Silberberg and Suen (2001) nicely make this distinction as follows: Positive economics is concerned with questions of fact, which are in principle either true or false. What ought to be, as opposed to what is, is a normative study, based on the observer’s value judgments.
11. 12.
The validity of Baye’s observation relies on markets being complete (that is, all attributes of goods and services being priced). Early social scientists also identified this merit: It is universally acknowledged that there is a great uniformity among the actions of [individuals], in all nations and ages, and that human nature remains still the same, in its principles and operations. The same motives always produce the same actions: The same events follow from the same causes. (Redman, 1997, quoting David Hume)
3.
A model economy
INTRODUCTION In addition to understanding the necessity of modeling and what constitutes a good model, we now understand why the axiom of maximizing behavior can yield firmly grounded insights to human sociality. We conclude Part I by employing this axiomatic approach to build a very simple model economy. Building this model will not only strengthen our ability to think like a social scientist, it will also let us precisely define the fundamental issues in ‘money and banking’ – that is, how societies economize on transacting in spot and future markets, and how this organization relates to economic performance.
MAXIMIZING-HOUSEHOLDS AND THE DEMAND CURVE Equipped with the axiom of maximizing-behavior, we can now build (from the ground up!) a model economy. We’ll start by considering how households’ egoistic behavior yields the familiar principles-level insight that demand curves slope downward. Suppose that households enter our model economy with preferences represented by the indifference curves shown in Figure 3.1.1 Also assume that, subject to a budget constraint, our households choose consumption bundles ‘as if’ they maximize utility. Characterized as such, our household’s problem is formally identical to that of our moose in Chapter 2 – that is, maximizing-households choose bundles like (x1, x2) from feasible opportunity sets. Why does our axiom yield this implication? In short, any other choice would forgo superior, and feasible, levels of utility. If our household consumed less of good 1 than is represented by x1, for example, then it would not be maximizing. Indeed, for all such inferior bundles, the rate at which the household is willing to forgo units of good 2 to enjoy good 1 (represented by the indifference curve’s slope) exceeds the rate at which the market requires units of good 2 in exchange for good 1 (represented by the budget constraint’s slope). A symmetric argument can be made against choosing 25
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Good 2
Budget constraint
x2 Indifference curve
x1 Figure 3.1
Good 1
The household’s utility maximization problem
bundles where the quantity of good 1 exceeds x1. For a consumption bundle to be an ‘extremum’ (a candidate for maximizing utility), each good’s marginal utility must equal its marginal cost when evaluated at that bundle. We now see that the axiom of maximizing-behavior implies that households choose consumption bundles that equate marginal utility and cost. Pushing the axiom further yields the implication that demand curves slope downward – that is, quantities demanded increase when associated prices decrease. To see this implication, suppose that the relative price of good 1 in Figure 3.1 increases. Following this increase, the ‘budget line’ must rotate inward – that is, the price increase shrinks our household’s opportunities to consume good 1. Presented with this pivot in the boundary of its consumption set, our maximizing-household rationally reduces its consumption of good 1. Figure 3.2 illustrates this implication. Notice that our household’s budget set shrinks (i.e., the triangular set of feasible consumption alternatives becomes smaller). Consequently, if good 1 is ‘normal,’ then a maximizer will demand a lesser quantity of it (that is, a decrease in wealth decreases demand for normal goods). In addition, a maximizer will also substitute toward what has become a less costly good 2. In the end, maximizers demand a lesser quantity of a good when the price of that good increases – that is, maximizing-behavior implies that demand curves slope downward. This theoretical relationship finds such widespread empirical support that economists refer to it as the ‘law of demand.’2
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Good 2
Budget set
Indifference curve Good 1’s price increases x'1
x1
Good 1
Quantity demanded of Good 1 decreases
Figure 3.2 An increase in relative prices shrinks the household’s consumption possibilities
MAXIMIZING-FIRMS AND THE SUPPLY CURVE The firm’s problem, and insights that we can draw from it, essentially mirror those of the household. In short, we can formalize the firm’s problem as choosing input-output combinations to maximize profits on technologically feasible production sets. We denote such a combination in Figure 3.3 as (x*, y*). Notice that, at this combination, the rate at which the firm can transform inputs into outputs (as represented by the technological frontier’s slope) equals that at which the market willingly trades inputs for outputs (as represented by the iso-profit curves’ slope). Any other feasible combination would be inconsistent with profit-maximization – for example, the market’s compensation would exceed the firm’s opportunity cost of inputs for inputlevels below x*, in which case the firm could increase profits by expanding production. In a formally identical manner to that for the consumer’s problem, this condition is necessary for the firm’s input-choice to be a maximand. Maximizers, whether they are firms or households, engage in marginal analysis. We can now derive a firm’s supply curve in a manner that mimics our derivation of a household’s demand curve. Without loss of generality, suppose that
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Outputs Iso-profit curves
y* Profit – 2
Production set
Profit – 1
Inputs Figure 3.3
x*
Profit – 0
The firm’s profit-maximization problem
(real) output prices increase. This increase flattens the firm’s iso-profit curve (to maintain any level of profit, a relatively small increase in output is necessary to offset a given increase in input-cost). Figure 3.4 illustrates this increase and its implications for the maximizing-firm’s choice of factor inputs. Here, we’ve drawn the old iso-profit curve as a dashed line and the new curves as solid lines. By causing our firm’s iso-profit curve to flatten, our hypothetical price change induces the firm to produce a higher level of output. Notice that, at the old profit-level and new iso-profit curve, marginal revenue exceeds marginal cost. Faced with an output-price increase, our firm will thus want to increase production from the level that maximized profit under the old relative prices. In this manner, an upward-sloping supply curve follows logically from the assumption of maximizing-behavior – that is, an increase in output prices causes maximizing-firms to increase the quantity of output that they willingly supply.
GOVERNING MONEY AND CAPITAL MARKETS Having worked this far through our book, you should see more clearly what’s behind a principles-level model of an economy. You should be curious too about why this realization is important for understanding phenomena related to money and banking.
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Outputs
Iso-profit curves
Output – new price Production set
Output – old price
Inputs Figure 3.4
An increase in output prices increases output
This question has at least two very good answers. First, recall that substantive boundaries need not constrain the insights that thinking like an economist yields. Our improved understanding of this analytical method should thus facilitate a fruitful investigation of any social phenomena, including those that fall under the ‘money and banking’ heading. Second, this development sheds a bright light on how a principles-level training can discourage investigations in this direction, and why pursuing such an investigation is nevertheless important. As we’ve built it so far, our model offers insight to how high-level economic properties can emerge from individual-level actions. To achieve this progress, however, we kept our model rather simple. In particular, we implicitly assumed that households and firms expend a negligible amount of resources when choosing, respectively, consumption bundles and production factors – that is, we assumed that economic agents costlessly transact. If we want to investigate phenomena related to money and banking, however, then models that rest on such an assumption cannot be ‘good.’ Indeed, models like these imply that monetary and intermediation services are superfluous, and should thus be absent from economies that consist of maximizing households and firms. The fact that we observe such features strongly implies that something is missing from our preliminary model’s set-up. To see the difficulty that maintaining this relatively simple framework creates, consider our implicit assumption that households maximize utility
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subject only to a budget constraint – that is, households can move costlessly from their endowments to feasible consumption bundles that maximize utility. Here, maximizers cannot have an interest in developing a monetary system. Indeed, forgoing the resources that are necessary to build such a system is inconsistent with maximizing-behavior since households can already costlessly transact. Abstracting from transactions costs can facilitate insights to economies whose monetary systems are ‘well-developed’ – that is, our principles-level model may usefully characterize economies where households readily exchange currency for goods and services. But even here, going forward with such an assumption sweeps aside the important question of how to maintain a well-developed monetary system. Even more, it ignores the questions of what is money, how does money’s management influence economic performance, and why individual maximizers might pursue this management in something other than a socially optimal manner. It is with these and related questions that our principles-level model of the household leaves us, and to which we turn in Parts II–IV. A principles-level model of the household thus appears to be a reasonable point of departure for our examination of ‘money.’ Similarly, a principles-level model of the firm helps set the stage for investigating how financial intermediation influences real activity and why, despite a potentially sound understanding of that influence, individual maximizers might regulate those services in a less than socially optimal manner. To anticipate this investigation, recall that our principles-level model rests on the assumption that firms maximize profit subject only to a technology constraint (that is, choose a feasible input-output bundle that intersects the highest iso-profit curve). Here, price taking firms costlessly access input bundles to maximize residual earnings. But suppose that a firm must purchase inputs before it recognizes payoffs. Suppose also that the firm under consideration is ‘cash constrained’ – that is, it is ‘project rich’ but capital poor in the sense that it controls insufficient resources for financing at least one fundamentally profitable project. Here, the firm cannot maximize profits because accessing necessary factors is not possible. In Figure 3.3, the firm would have to restrict its input choice to what can be funded with internal resources. Input-levels as high as x* may lie outside of this feasible set. So why would we assume that firms do not face a cash constraint? In a manner analogous to that of our household’s problem, making such an assumption might be acceptable when examining firms that operate in well-developed capital markets (markets where moving financial capital consumes little in the way of real resources). But this assumption also begs a number of important questions. For example, what does it mean for a
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capital market to be well developed? And if assuming that capital markets are well developed is innocuous, then why do so many firms find themselves operating in poorly developed markets? Even more, why would maximizers settle for anything less than a well developed capital market? It is with these and related questions that our principles-level model of the firm leaves us, and to which we turn in Part V of the book.
CONCLUSION We have now strengthened our understanding of the foundation on which a principles-level model of the economy rests, and why this foundation appears ‘weak’ if we want to understand phenomena related to money and banking. In particular, we should recognize that maximizing-households have no incentive to develop monetary systems if bartering is costless, and firms have no incentive to develop financial markets if hiring inputs is costless. Absent this recognition, we cannot begin to rationalize why maximizers would expend resources to develop monetary and intermediation systems. But even casual observations suggest that maximizers do allocate resources in this manner, and that economies that maintain well-developed systems in this regard also tend to exhibit superior performance. We thus leave Part I of our book with a set of scientifically interesting and socially important questions, as well as a sound analytical framework for addressing them.
NOTES 1. Frank (2006, Chapter 7), among others, offers a more complete textbook treatment of this topic. 2. ‘Both prestige and signaling effects could result in demand curves that slope upward for some range of prices. Even so, personal experience and countless studies from economics and marketing confirm that the law of demand applies to most products’ (Besanko et al., 2000).
PART II
Money in a static economy
What is money? Why do people accept currency in exchange for, say, a new car? Cars, after all, produce easily observed and valued services – for example, transportation. But what services does money produce? More importantly, how do these services affect economic performance and, thus, how should their production be organized? Addressing these questions in Part II, we’ll learn that money economizes on the cost of transacting in spot markets (that is, it facilitates trades at a point in time). In well-developed monetary systems, transacting exhausts little of an individual’s endowment, and thus leaves large ‘residuals’ with which to facilitate consumption. On the other hand, as monetary services become less developed, individuals must increasingly forgo consumption possibilities to facilitate trade, and thus make do with inferior levels of utility. But even if money influences economic performance, societies can (and often do) fail to productively organize their monetary affairs. This failure emerges, in part, from the incentive for monetary authorities to substitute ‘inflation taxes’ for ‘real taxes.’ Indeed, commitment problems that arise from such incentives may have discouraged all societies, except those from the last several decades, from enjoying the superior economic opportunities that well-developed monetary systems make available. On its face, this ‘failure’ appears inconsistent with our axiom of maximizing behavior. It is not. Rather, deductions from our axiom identify the root cause of such failures, and how organizational strategies can productively respond. In short, our axiom implies that maximizers not only have an incentive to reduce transactions costs, but to also strategically manipulate the mechanisms that produce such efficiencies (that is, favor themselves in distributing efficiency gains). Unless societies can deter such opportunism, their economies will rest at inferior outcomes.
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Money in a static economy
We’ll thus see that constraining maximizers can be necessary to achieve superior outcomes and that, despite the prospect of expanded economic opportunities, societies can exert considerable resistance to developing sound monetary systems (Miller, 1991 investigates the nature of, and organizational responses to, such dilemmas more generally). We’ll build on this understanding in Part III by pushing Part II’s ‘static’ framework (that is, an investigation that abstracts from timing issues) into a ‘dynamic analysis’ of how monetary services relate to economic fluctuations (business cycles). Taken together, Parts II and III uncover money’s relationship to two important features of economic performance – an economy’s consumption possibilities and fluctuations therein. These insights, in turn, point to the governance of monetary authorities as fundamentally influencing economic well-being, and thus set the stage for our investigation of central banking in Part IV.
4.
What is money?
MONEY FACILITATES EXCHANGE What is ‘money?’ On its face, this question appears rather trivial. After all, when a friend asks whether we have money, we know exactly what he or she is asking. Or do we? Is, for example, currency ‘money?’ Here, popular terminology happens to serve us well – currency is money. But why is currency money? In other words, what fundamental feature gives currency its ‘moneyness?’ To address this question, let’s consider what else might be ‘money.’ Could we, for example, employ housing units as money? Your immediate answer to this question is probably ‘no.’ After all, we don’t buy groceries by transferring to store-owners a right to consume housing stocks (at least not directly). But before dismissing this question, let’s consider the following (hypothetical!) proposition. Suppose that we attempt to employ you as a research assistant. Suppose further that, in return for your services, we’ll give you either 20 US dollars or a really big, well-constructed house, located in an attractive neighborhood. Holding all else constant, which of the two forms of remuneration would you choose? The house, of course! So, at least in principle, there exist assets other than those that we commonly refer to as money that can act like money. We can think of numerous other examples, but the bottom line for each is the same. For an asset to act like ‘money,’ it must be acceptable as a ‘medium of exchange’ – that is, anything that an economy’s agents readily accept in return for supplying goods and services.1 We’ll refer to as ‘moneyness’ the extent to which assets produce this type of transaction service. It is this service that currency, and to some extent even housing units, produce for an economy.2 And while this service is relatively hard to see, it strongly influences economic performance.
BOX 4.1
THE ‘ISLAND OF STONE MONEY’
Yap is part of the Federated States of Micronesia, a group of 607 small islands in the Western Pacific Ocean, lying about 2500 miles 35
36
Money in a static economy
southwest of Hawaii, and just above the Equator. This island’s citizens (Yapese) draw considerable attention from both tourists and social scientists for employing crystalline stone as money.This medium of exchange, known as ‘fei,’ consists of thick stone wheels that range in diameter from 1–12 feet (30 cm to 3.5 m), and weighs as much as 4 tons. A hole in the center of larger wheels lets owners transport fei by rolling them with an inserted pole (Friedman, 1992). A noteworthy feature of fei is that its owner does not have to possess the stone money to transact with it. For example, after concluding a trade in which the fei-price is so high that a stone cannot feasibly be moved, the seller is content with accepting a simple acknowledgment of ownership in the buyer’s fei. This feature of Yap’s monetary system is strikingly illustrated by a family whose wealth was acknowledged by all of the island’s citizens, even though no one (not even the family itself!) ever physically observed this wealth. You have probably anticipated that not all stones pass as fei. Rather, the Yapese used to quarry fei from the ‘rock islands’ of Palau. And quarrying was not cheap (imagine the inflation if it was!). Indeed, the Yapese had to canoe over 600 miles (one way) to reach the quarries (Land of Stone Money)! During a return trip from Palau, a Yapese family’s canoe sank, and with it, an enormous fei. But even though the family’s ‘money’ fell to the Pacific Ocean’s bottom, other islanders recognized its purchasing power just as if the stone was readily visible – ‘The purchasing power of that stone remains . . . as valid as if it were leaning visibly against the side of the owner’s house’ (Friedman, 1992). Another interesting illustration emerges from Germany’s colonial occupation of Yap from 1899–1919. During this period, Germans tried to employ Yapese to construct and repair the island’s infrastructure (for example, roads). But the Yapese weren’t very willing agents, at least until the Germans painted large black crosses on the islanders’ fei, many of which were leaning against their owners’ huts. Marked as such, the fei became worthless to the Yapese – no one would accept a defaced fei as an exchange medium. The Yapese were thus persuaded to work for the Germans. And once the islanders’ labor produced sufficient value to pay the Germans’ ‘fine,’ crosses were erased and the fei regained its purchasing power (Friedman, 1992). This story is important for our purposes because it illustrates how money’s value comes from its capacity to facilitate trade, not from anything intrinsic in the money per se. The parallel between
What is money?
37
fei and money in developed economies is striking.3 Consider the family whose fei rests at the ocean’s bottom. Other islanders knew about the stone, and that members of a particular family maintained the right to direct the stone’s purchasing power. They thus readily accepted (unobservable) portions of that fei as an exchange medium. But don’t the same characteristics describe today’s checking accounts? Suppose, for example, that our checking account physically resides in St Louis.Will this remote location discourage a merchant in, say, San Francisco from accepting some of our ‘St Louis stone’s’ purchasing power in return for goods or services? No! Checkable deposits act like money for exactly the same reason as do the Yapese fei – because parties to a trade readily accept it as a medium of exchange. Our deposits have no more intrinsic value than do fei – indeed, neither has any capacity to directly increase our consumption. Rather, both draw their value from being an agreed upon exchange medium, and thus facilitating transactions.
EVOLUTION OF EXCHANGE MEDIA From Commodity to Fiat Money Understanding how money facilitates transactions will help us see how money can influence economic performance. Examining money’s evolution is instructive in this regard. People appear to have first used ‘money’ in the form of livestock over 11 000 years ago. Subsequently, seashells, leather, metals and other commodities found such employment (see the Public Broadcasting Service tutorial The History of Money). Indeed, prior to 1971, every major system of money (directly or indirectly) based itself on a commodity (Friedman, 1992). Remarkably, we are among the first people in recorded history to use ‘fiat currency’ as an exchange medium! Fiat currency has no value outside of its capacity to facilitate transactions. Rather, it creates value by helping traders coordinate on a pure exchange medium. The US dollar, for example, simply declares that ‘This note is legal tender for all debts, public and private.’
38
Money in a static economy
Benefits of Fiat Money The advantages of employing a fiat currency are readily observable. For example, consider the resource cost of transporting paper (or even electronic) money, versus that of transporting a commodity such as gold. By economizing on such costs, fiat systems can leave economies with relatively large residual endowments – that is, resources that are left untouched by transacting, and are thus available to facilitate consumption. In addition, commodity money can distort decisions by raising the relative price of commodities that produce both consumption and exchange services (see Blanchard and Fischer, 1989). To see the consequent constraint on economic well-being, consider Figure 4.1. Suppose that a society employs a commodity as money (for example, silver), and that this commodity also enjoys industrial applications. Also note that, if the services that our commodity produces are not easy to separate, then maximizers will develop and employ monetary services until the marginal benefit of doing so equals the marginal cost of the joint services. In our figure, this equilibrium obtains at one unit of the commodity. But because the marginal cost of joint services exceeds that of either constituent service, this equilibrium cannot be efficient. Indeed, the marginal benefit of monetary services must exceed those services’ marginal cost.
Units
Marginal benefit of currency services
Marginal cost of currency services
Marginal cost of industrial services
Marginal cost of joint services
0
5
1
1
2
1
4
2
2
4
2
3
3
3
6
3
2
4
4
8
4
1
5
5
10
Figure 4.1
Commodity money distorts relative prices
What is money?
39
Here, commodity money precludes mutually beneficial trades of monetary services. Fiat currency, on the other hand, allows for a closer alignment of each service’s marginal benefits and costs, and thus facilitates the recognition of superior outcomes. By separating monetary services from others, a fiat currency makes feasible the types of mutually beneficial trades that are impossible in our example’s first case. In Figure 4.1, such trades induce an equilibrium at two currency units, where the marginal benefit and cost of monetary services are equal.4 By allowing for the separate production of monetary and industrial services, fiat money lets those services migrate more freely to their highest valued uses. Commitment with Commodity Money If fiat currency is so attractive, then why has almost everyone in recorded history used commodity money (or barter) to facilitate trade?5 To answer this question, notice that the generation of any benefit creates a cost. We should thus expect the benefits of fiat money to come at a cost, and this cost to discourage fiat systems from developing. We’ll see in subsequent chapters that monetary authorities face a strong incentive to opportunistically manipulate money’s supply. The cost of acting on this incentive, however, is greater for commodity money than it is for fiat money. Increasing the supply of gold, for example, probably costs more than does increasing the supply of a paper currency.6 Committing against such increases may thus be easier within a commodity system. Data from Figure 4.2 support this hypothesis. Under President Richard Nixon, the US left the gold standard in the early 1970s. Moving to a fiat system, the economy enjoyed benefits described above (for example, see our discussion surrounding Figure 4.1). However, it may have also sacrificed, the capacity for commodity systems to constrain monetary authorities from manipulating the money supply. Consistent with this constraint being relaxed, Figure 4.2 evidences a trend-break in consumer prices (an increase in inflation) in the early 1970s.
CONCLUSION Money is anything that acts as a medium of exchange. Until very recently, history’s societies employed various commodities as exchange media, many of which (for example, stones) strike us as being fundamentally worthless. Remember, however, that money’s value comes from facilitating exchange and thus indirectly expanding consumption possibilities. In
40
Money in a static economy
200.0 150.0 100.0
Source:
January-05
January-99
January-93
January-87
January-81
January-75
January-69
0.0
January-63
50.0
January-57
CPI (less food & energy)
250.0
Federal Reserve Bank of St Louis 2007.
Figure 4.2 Commitment problems when moving from commodity to fiat money?
this sense, fiat money exhibits greater ‘moneyness’ than do its commoditybased counterparts. To enjoy this benefit, however, societies must develop organizational substitutes for producing the commitment benefits of commodity money.
NOTES 1. Note that money must also act as a ‘store of value.’ If money did not store value, it could not facilitate anything but instantaneous exchange (but then money would be superfluous). Note also, however, that money is inferior to other assets as a store of value (consider, for example, interest bearing bonds). ‘What distinguishes money from other stores of value is its liquidity, and what underlies the liquidity of money is the fact that it is the common medium through which other commodities are exchanged’ (Ostroy and Starr, 1990: 4). This distinction has important implications for how the supply of money should be measured, an issue to which we turn in Chapter 10. 2. Note, however, that currency only produces transactions services, and thus mitigates price-distortions for monetary assets that produce other than exchange services. We address this and related issues in the following chapters.
What is money?
41
3. Friedman (1992) highlights this parallel by asking ‘how many of us have literal personal direct assurance of the existence of most of the items we regard as constituting our wealth? What we more likely have are entries in a bank account, property certified by pieces of paper called shares of stock, and so on and on.’ 4. Notice that fiat currency also expands the opportunities for mutually beneficial trades in industrial services. 5. Selgin (2003) addresses this question by examining how the monetary system of ‘adaptive learners’ would evolve. 6. Even systems of commodity money, however, are exposed to the consequences of monetary authorities’ opportunistic incentives – consider, for example, the practice of seignorage.
5.
Money and the level of economic well-being
INTRODUCTION We now understand that money is anything that acts as an exchange medium, and informally developed the idea that money finds value from its capacity to facilitate trade. Our objective for the present chapter is to further develop this idea. We’ll do so by examining how money affects an economy’s consumption possibilities (that is, consumers’ budget sets from Part I), and the level of real economic activity more generally (that is, the level of Q or ‘quantity’ from equilibrating Part I’s demand and supply sides). Leaving this chapter, we should better appreciate how money, despite having no direct effect on consumption possibilities, strongly influences the level of welfare that societies enjoy.1
THE INFERIOR BARTER EQUILIBRIUM An Illustration Suppose, for a moment, that we find ourselves in a money-less world. Suppose also that, while we enjoy a substantial resource endowment (that is, we are ‘rich’), there also exist consumption bundles that would make us happier than would consuming our endowment. How might we trade for these more attractive bundles? For example, if our endowment does not include a car, and we maintain a strong preference for a car, how would we act on this preference? Notice that we cannot simply go to an auto dealer and exchange ‘money’ for a car. Rather, we must happen upon an individual who owns a car we want and maintains a sufficiently strong preference for elements of our endowment. In other words, to enjoy consumption bundles that are superior to our endowment, we have to find individuals with whom there exists a ‘double coincidence of wants.’ Having to satisfy a double coincidence of wants, however, diminishes our opportunities. To see this implication, let’s continue with the assumption that 42
Money and the level of economic well-being
43
Boundary of set of feasible consumption bundles when bartering is costless Good 2
Boundary of set of feasible consumption bundles when bartering is costly
u'
u
e2
e1 Figure 5.1
Good 1
Inferiority of the (costly) barter equilibrium
we are ‘rich’ (that is, our resource endowments are ‘large’). Given our endowment’s size, we might think that obtaining a new automobile is easy. But such is not the case in a money-less economy. Here, unless the party from whom we demand a car has a sufficiently strong preference for elements of our endowments, it will not trade. We may, as a consequence, be stuck with our original resource endowment and the inferior level of utility that it produces. Furthermore, even if we successfully trade for a car, we will likely exhaust a considerable part of our endowment in searching for a suitable trading partner. Figure 5.1 illustrates this phenomenon. Consuming our endowment is feasible in both monetary and barter economies (consuming the bundle of goods (e1, e2) is feasible, with or without money). In a monetary economy, however, we can easily trade away from our endowment. Here, the act of transacting negligibly exhausts our endowment – that is, our trading partner receives almost everything that we give up in a transaction. We thus represent the ease of transacting in a monetary system by assuming
44
Money in a static economy
that our budget constraint maintains the same slope on either side of its endowment. Bartering, by comparison, exhausts a considerable amount of resources. Absent a well-developed monetary system, we must search longer for a suitable trading partner (that is, we have to satisfy a double coincidence of wants) and may find it necessary to make a greater number of trades before reaching an optimal outcome. In either case, transacting exhausts more of our endowment than does trading in a monetary economy, leaving our trading partner with considerably less than what we give up in a transaction. We represent the phenomenon shown in Figure 5.1 by drawing the budget constraint in a barter economy with a kink at the endowment. The different slopes of our constraint represent the increased cost of transacting as we move further away from our endowment (that is, the increased difficulty of satisfying a double coincidence of wants or the increased number of trades that are necessary to reach a superior outcome). Notice that our opportunity set in this economy must be smaller than that in a well-developed monetary system. Demand for each good must thus be (weakly) less in a barter economy than it would be in a monetary economy. Likewise, the car’s supplier must recognize an inferior level of utility. Goods and services (almost) certainly exist for which our potential supplier would willingly trade his or her car. But while our resource endowment is ‘large,’ the supplier’s preferences may be such that he or she does not place much value on its elements. Hence, unless another auto-demander presents him- or herself to our supplier, and that demander’s endowment includes elements that the supplier finds more preferable, the supplier will also be stuck with his or her endowment (and the consequent inferior level of utility). Moreover, even if the supplier ultimately finds a suitable trading partner, having to forgo preferable consumption bundles while searching (as well as relatively high search costs) will constrain consequent increases in his or her utility. A Formal Model Our illustration suggests that the relatively high cost of bartering constrains economic opportunity set. A more formal treatment of this phenomenon confirms our suggestion. Consider, for example, a society of three individuals (to whom we’ll refer as ‘players 1, 2 and 3’) and assume that they reside in a ‘linear city’ as shown in Figure 5.2 (see (i) Players’ locations). In addition, suppose that each individual arrives with an endowment of good X, Y or Z (see (ii) Endowments), but maintains preferences
45
Money and the level of economic well-being
1
2
3
(i) Players’ locations
Figure 5.2
1
2
3
(ii) Endowments
Z
X
Y
(iii) Preferences
X Y Z
Y Z X
Z X Y
(iv) Equilibrium allocation
Z
Y
X
(v) Efficient allocation
X
Y
Z
Inferiority of barter in a ‘linear city’
over those goods as in the figure’s third row (see (iii) Preferences, where players’ most preferred goods are listed first). Let’s examine, then, how well our players can do by trading their endowments. Assuming that trade is feasible only with immediate neighbors (for example, the cost of encountering a distant neighbor may be prohibitive), our society’s members will ultimately rest at the Equilibrium allocation (iv).2 But while this allocation is stable, it is not optimal. Indeed, comparing it to the Efficient allocation in (v), we see that transaction costs induce an ‘inferior equilibrium’ – that is, trading goods Z and X would make both players 1 and 3 better off without making anyone worse off. Nevertheless, our economy cannot reach the optimal outcome because (a) trading takes place only when a double coincidence of wants exits and (b) while player 1’s and 3’s wants ‘coincide,’ the physical distance between them discourages their meeting. We thus see how a barter system, by necessitating a double coincidence of wants, can stop individuals from enjoying the relatively high levels of utility that lower cost transaction-technologies make feasible.
46
Money in a static economy
THE SUPERIOR MONETARY EQUILIBRIUM An Illustration Radford (1945) offers an interesting illustration of how individuals can be better off when money facilitates trade than when trade relies on satisfying a double coincidence of wants. While a prisoner of World War II, Radford observed that his ‘standard of material comfort’ depended on the ease with which he could exchange goods from his ration’s ‘endowment.’ He also observed that, by circumventing the necessity to satisfy a double coincidence of wants, the emergence of cigarettes as the prison camp’s exchange medium expanded his opportunities to consume goods and services that were preferable to his endowment (that is, the camp’s ‘monetary economy’ produced better outcomes than did its ‘barter economy’). Indeed, when the camp’s supply of cigarettes encountered interruptions, prisoners increasingly used barter as an exchange mechanism. During such periods, the camp’s overall level of economic activity also appeared to decrease, as did the prisoners’ material well-being.3 A Formal Model Figure 5.2 shows how the lack of transaction services can stop individuals from realizing attractive equilibria. More importantly, it shows that the associated welfare-loss does not emerge from a resource constraint, but rather from the relatively high cost of trading in barter systems (for example, opportunities that one must forgo while attempting to satisfy a double coincidence of wants). Radford’s account of the POW economy offers empirical support, then, for the hypothesis that monetary systems can facilitate superior outcomes. We can develop this implication more carefully by extending our previous model of an exchange economy. Let’s do so by carrying over each player’s endowment (that is, each player maintains the endowment specified in Figure 5.2 (ii) Endowments), and introducing a ‘clearinghouse’ (CH) that stands willing and able to trade a single ‘piece of paper’ (POP) for a unit of any good X, Y or Z. Why might an equilibrium in this monetary economy (notice that our POPs act as an exchange medium) dominate that which obtains in its barter analog – that is, an economy where a simple medium like POPs is missing? To address this question, suppose that each of our players sells his or her endowment to the CH. Note that the CH now ‘owns’ one unit of each good X, Y and Z, and each of our players owns one POP. But what will our players do with their POPs? After all,
Money and the level of economic well-being
47
POPs are simply pieces of paper and thus cannot increase utility by themselves. Given that our players are maximizers, it follows that they will trade inherently worthless POPs for utility-enhancing commodities. In particular, each maximizer will ‘buy’ from the CH his or her most preferred good (that is, player 1 will exchange a POP for one unit of good X, and so on), and these transactions leave each player with his or her most preferred good. Remarkably, by introducing fundamentally worthless pieces of papers as an exchange medium, we moved from the unattractive barter equilibrium to an attractive monetary equilibrium – an outcome from which no possibility exists to make any player better off without making another worse off. So how did this transformation take place? Why, for example, could our players under the barter system not have simply dumped their endowments into a bucket and taken turns withdrawing each individual’s most preferred good? Notice that such a process would have left our players with the same optimal allocation as does trading under the monetary system. But also notice that bartering players would have confronted an important difficulty. In particular, after dumping their endowments into a bucket, they would have to know whose right it is to grab goods back out. We can easily imagine the resources that our players would have exhausted in coming to and enforcing such an agreement.4 Moreover, the very prospect of exhausting resources in this manner could have dissuaded our maximizers from contributing goods to the bucket in the first place! In either case, our players would again find themselves at an inferior equilibrium. By simply introducing a system of POPs, on the other hand, our monetary system appears to have circumvented such potential difficulties. Indeed, after throwing their endowments into the bucket (the CH), each player’s ‘right’ to grab goods back out is evidenced by how many POPs he or she holds.5 Consequently, as long as the players have confidence that POPs can continually be traded for goods, they will move toward the ‘firstbest’ equilibrium that our principles-level consumers enjoy, and away from the inferior allocation at which maximizers in a barter system must rest.6
BARTER VERSUS MONEY IN A PRODUCTION ECONOMY We now see that money can increase welfare by letting individuals trade, even when their ‘wants’ do not coincide. To motivate this argument, however, we restricted our attention to ‘endowment economies’ – that is, economies (like the POW camp) where individuals do not produce
48
Money in a static economy
anything, but rather attempt to maximize utility by trading elements from their endowments. By considering a production economy (that is, one in which individuals transform raw endowments (such as labor) into consumables), we can recognize even deeper benefits. Notice that, by permitting an economy to operate at a relatively low level of transactions costs, money encourages individuals to specialize in production. Our barter economy, on the other hand, discourages maximizers from specializing by increasing the cost of acquiring goods and services that individuals do not produce themselves. In barter economies, maximizers can do better by making a variety of goods, and thus rationally forgo becoming efficient producers of any. This compromised efficiency ultimately diminishes an economy’s productive capacity. Here, a lack of specialization hinders learning, and thus leaves firms with inferior technologies. At any price level, firms must supply a smaller quantity of goods or services. This supply-side effect exacerbates the adverse demand-side consequences of bartering in an exchange economy (see Figure 5.1) to forgo an even larger part of an economy’s potential. Figure 5.3 illustrates this phenomenon. Households’ demand with costly bartering
P
Households’ demand with costless bartering AS'
AS Firms’ supply with superior technology Firms’ supply with inferior technology
PE P'E
AD' Q'E
QE
AD Q
Figure 5.3 Barter further constrains economic performance in production economies
Money and the level of economic well-being
49
CONCLUSION If monetary systems can greatly improve welfare, then why don’t all economies employ efficient ones?7 This question is important, and the reason that it remains open for now stems from our condition that ‘players have confidence that POPs can continually be traded for goods.’ To carefully address this question, we must understand why players (who are themselves maximizers) should maintain such confidence. We’ll build this understanding in Part IV by investigating how monetary authorities govern themselves to build credibility. Before turning to this investigation, however, let’s be clear about how the present chapter’s problem motivates it. Notice that, if ‘clearinghouses’ are maximizers, they want to exchange new POPs for our players’ endowments, and thus generate real revenues through ‘seignorage’ (a strategic increase in the money supply).8 In cases like this one, money’s ability to ‘store value’ weakens, and thus so does its acceptability as an exchange medium. By assuming that ‘players have confidence that POPs can continually be traded for goods,’ we have set this issue to the side for now. We might also be curious about whether the incentive to pursue seignorage is the only source of skepticism for a monetary authority’s constituents. Indeed, while considerably richer than our principles-level model from Part I, the models that we develop in Part II remain simple in that they abstract from timing issues. Before examining the organization of monetary authorities, then, we should also look at our clearinghouse in a ‘dynamic economy’ (that is, one in which trades take place across different periods). We’ll turn to this issue in Part III, and see that monetary authorities not only have an incentive to raise real revenue by opportunistically increasing the quantity of POPs, they also have an incentive to time monetary changes to influence fluctuations in a production economy’s performance. In addition to promising against inflation taxes, then, a ‘sound’ monetary authority must also promise against opportunistically manipulating the money supply to influence an economy’s output level.
NOTES 1. Economists have heretofore encountered difficulty in attempting to achieve this understanding (see Blanchard and Fischer, 1989). Making progress in this direction is important, however, for seeing how the management of an economy’s money supply influences economic performance. We’ll employ these insights in Part IV to consider how societies should organize their production of monetary services. 2. This particular allocation becomes an equilibrium by exhausting all feasible and mutually beneficial trades.
50
Money in a static economy
3. ‘True, a prisoner is not dependent on his exertions for the provision of the necessaries, or even the luxuries of life, but through his economic activity, the exchange of goods and services, his standard of material comfort is considerably enhanced . . . Everyone receives a roughly equal share of essentials; it is by trade that individual preferences are given expression and comfort increased . . . Cigarettes became the normal currency . . . While the Red Cross issue of 50 or 25 cigarettes per man per week came in regularly, and while there were fair stocks held, the cigarette currency suited its purpose admirably. But when the issue was interrupted, stocks soon ran out, prices fell, trading declined in volume and increasingly became a matter of barter . . . Most of our economic troubles could be attributed to this fundamental instability’ (Radford, 1945). 4. For example, having each player show up at the same time might facilitate agreement. It would also consume more resources, however, than would impersonal trade. 5. Ostroy and Starr (1990: 8–9) offer a related illustration of money’s ability to facilitate ‘record-keeping’ in this regard. 6. The examination of ‘coordination games’ can offer insight to how confidence in a particular exchange-medium emerges. Centralized solutions to such games often dominate decentralized solutions, for example, arguing against the efficiency of competitive markets in producing monetary services. Fitness landscapes that characterize such games can also favor the evolution of norms, such as those that govern individuals’ willingness to accept a particular exchange-media. Richerson and Boyd (2001) offer an introduction to this idea. 7. We might even ask why 11 000 years had to pass for monetary systems to move from those that are commodity-based to those that rely on fiat currency! 8. To the extent that the quantity of goods is stable, increasing the money supply increases nominal prices between the time the CH exchanges money for a good and the time another individual arrives to demand that good. During this period, real goods held by the CH will increase in value (as measured by the number of POPs that can be acquired for goods) and nominal money held by households will decrease in value (as measured by the number of goods that can be acquired with POPs).
PART III
Money in a dynamic economy
In our previous set of chapters, we argued that money ‘matters’ because it can improve an economy’s performance relative to what barter makes available. We also learned that, to enjoy this improvement, economic actors must share confidence that their exchange medium is readily acceptable for trade. (After all, why did maximizers trade real goods and services for the ‘pieces of paper’ (or POPs) that circulated in our model monetaryeconomy?) Realizing this confidence’s importance, we want to address how societies build or maintain it. Before moving in this direction, however, we’ll further motivate in Part III the importance of how societies organize monetary services by considering how money relates to fluctuations in aggregate economic activity (that is, business cycles, or ‘high-frequency’ components of relevant economic time series). One channel through which money might affect fluctuations is that of ‘nominal rigidities.’ ‘Rigidities’ refer to the phenomenon that an economy’s nominal prices (those measured in units of exchange media) need not move together. For example, the ‘price’ of labor (that is, wages) might move more slowly than does that of final goods and services. In cases like this one, expanding money’s supply can cause labor prices to increase more slowly than do output prices. This heterogeneous response, in turn, encourages profit-maximizing firms to expand output until slow-moving increases in marginal costs catch up with more fluid increases in marginal revenue. Nominal rigidities can thus open the door to money exerting a real influence (that is, affecting economic opportunities). While nominal rigidities enjoy pedagogical prominence (and frequently make their way into popular media and policy debates), however, they encounter several problems. For example, we’ll find the above explanation difficult to maintain if we don’t first relax the axiom of maximizing-behavior.
52
Money in a dynamic economy
Our axiom implies that individuals form expectations ‘rationally,’ and thus cannot be systematically fooled by a rate of increase in nominal wages that lags that of output prices. Moreover, important features of the data do not support nominal rigidity theories. For example, contrary to the implication of standard rigidity models, real wages appear to be pro-cyclical, and the rate at which nominal prices actually change appears to be greater than what is consistent with rigid prices. Despite these difficulties, money continues to exhibit a rather robust reduced form relationship with output. Hence, while we might not be comfortable with the capacity of nominal rigidities to rationalize this relationship’s structure, we should still be curious about other channels through which money might exert a real influence. We’ll thus consider alternative channels through which money can influence aggregate fluctuations, including those associated with ‘unexpected inflation,’ ‘efficiency wages’ and ‘credit.’ This consideration will further our understanding of whether and how money affects economic stability. It will also leave open two very important questions. The first is normative – should political agents actively manage the supply of monetary services? In addressing this question, we’ll see that monetary authorities encounter considerable difficulty in ‘fine tuning’ economic performance. Moreover, even if authorities can overcome such difficulties, their capacity to improve economic well-being by dampening economic fluctuations may be small. These arguments suggest that monetary authorities should passively manage money’s supply. Despite such prescriptions, however, our empirical reality is one where monetary authorities tend to pursue activist policies. A second question, then, is why political agents actively manage an economy’s money supply, even if doing so might shrink economic opportunities. To address this question, we’ll consider an interesting paradox that emerges from the problem of ‘time inconsistency’ – that is, even benevolent monetary authorities want to pursue inflationary policies, and this incentive is robust to constituents perfectly anticipating the authorities’ actions. Indeed, bargaining positions can change over time (even if agency and informational problems are absent) and thus ultimately render individual incentives ‘inconsistent’ with socially optimal policies. Economic performance can thus improve when the organization of monetary authorities mitigates this inconsistency or increases the cost of acting on it. Notice that this normative inference is remarkably similar to that in Part II – that is, maximizers can enjoy an expanded set of economic opportunities by constraining themselves from acting in an opportunistic manner. We’ll build on this robust inference in Part IV to consider how societies do and should organize their central banking services.
6.
Money in a classical economy
THE CLASSICAL ECONOMY’S SUPPLY SIDE The Firm’s Problem and Labor Demand Our investigation of how money relates to economic fluctuations starts with a ‘classical’ model of the macroeconomy – that is, a model that firmly grounds itself on the axiom of maximizing-behavior while setting aside potentially important economic frictions. This approach will let us see how far a simple model goes in rationalizing business cycles, and highlight empirical regularities that deserve further attention. Our classical model develops macro-insights from micro-foundations by defining a firm’s (real) profit as follows: f(L) (wP) L where f transforms labor (L) into output, w denotes a nominal wage for which individuals can trade leisure in the labor market, and P denotes the price level of final goods and services. Before moving forward, we should understand some of this representation’s details. First, the firm’s technology can reasonably be characterized as transforming labor into output at a positive but decreasing rate. Stated more formally, fL 0 and 2fL2 0. This latter condition appreciates the diminishing rate at which fixed capital stocks can augment the productivity of marginal labor units (as well as those units’ contribution to congestion costs). In addition, we’ll define the economy’s price level P as an ‘average’ nominal price for each good and service that an economy produces – for example, the ‘consumer price index,’ or CPI, that popular and business media frequently report. Finally, we’ll assume (and ultimately derive the hypothesis) that input and output prices move together (on average). This assumption implies that changes to the economy’s price level P leave the relative price of labor (w/P) unchanged.1 Our axiom of maximizing-behavior thus suggests that firms can be modeled as choosing units of labor to maximize profits as follows:
53
54
Money in a dynamic economy
Goods Y*
f(L); f' > 0,f" < 0 Maximum distance between f(L) and (w/P)L
(w/P)L
L
Profit
f(L) – (w/P)L Profit/L > 0
L*
Profit/L < 0
L
Profit/L = 0 Figure 6.1
The firm’s profit-maximization problem
max f(L) w P L L
Before solving this problem analytically, let’s develop our economic intuition by considering its graphical representation in Figure 6.1. Notice that, given the production function f’s curvature (that is, the rate at which firms can transform inputs to outputs, and changes therein), we can illustrate the firm’s problem as follows. The firm’s optimal choice of labor, L*, equates labor’s marginal product and cost. Evaluated at any other choice of labor, the ‘gap’ between output f(L) and labor’s share of output (w/P)L is less than the maximum feasible difference. Consider, for example, any LL*. Evaluated at these levels of labor, the rate at which f(L) increases exceeds (w/P). Given our axiom of maximizing-behavior, firms will not rest at such choices since labor’s marginal cost falls short of its marginal product.2 Analytically, we can define this optimal choice as having to satisfy the following ‘first order condition.’ f w L P
55
Money in a classical economy
Goods
(w/P)' w/P
Ld L' Figure 6.2
L*
L
The labor demand curve
This expression comes from differentiating the firm’s objective and recognizing that, evaluated at a ‘maximand’ (a choice that fulfills the objective), the objective function’s value cannot change. We’ve thus confirmed our graphical intuition that, presented with any real wage (w/P), profit maximizing firms will employ labor to satisfy the above necessary first order condition. We can now develop the labor demand relationship – that is, the relationship between labor’s price and quantity demanded. This relationship plays an important role in determining the level of output at which our model economy will rest, and we’ll refer to this relationship’s graph as the ‘labor demand curve’ – that is, the quantity of labor that a firm willingly employs at any given real wage (w/P). Figure 6.2 illustrates this relationship. To see why the demand curve for labor slopes downward, note that the firm’s optimal choice of labor L* must satisfy the above first order condition for any real wage (w/P). We can thus examine how the firm’s optimal labor choice changes with the real wage as follows: f(L* ( wP )) wP 0
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Money in a dynamic economy
This expression simply says that an optimal choice of labor must satisfy our necessary first order condition for any real wage. To see how the optimal labor choice relates to the real wage, then, we can differentiate the above expression as follows: 2f L* 10 L2 ( wP ) L* 1 0 ( wP ) (2fL2 ) Since 2fL2 0, the (representative) firm’s labor demand curve must slope downward. Equilibrium in the Labor Market Households constitute the labor market’s supply side, and we can formalize their objective as being symmetric to that of firms – that is, for any real wage (w/P), supply a quantity of labor that maximizes utility. Given this symmetry, we should expect the labor supply curve to slope upward. Indeed, assuming that the incentive to ‘substitute’ labor for leisure as real wages increase overwhelms the incentive to consume more leisure as ‘wealth’ increases, satisfying this objective requires price-taking households to increase the quantity of labor supplied when real wages increase.3 Collecting both the labor supply and demand curves in one figure, equilibrium in the labor market occurs where the labor demand and supply schedules intersect – that is, at (LE, (w/P)E) in Figure 6.3. To see why an economy of maximizers rests at this intersection, notice that any other candidate is either infeasible or leaves open mutually beneficial trades. Consider, for example, a real wage that exceeds the equilibrium level depicted above (that is, (w/P) (w/P)E). Evaluated at these levels, households exist that are willing to supply labor at a lower real wage, and firms exist that are willing to employ them. But if households are maximizing utility, and firms are maximizing profits, then absent bargaining frictions, the economy’s dynamics cannot stop until they exhaust all such mutually beneficial trades. The Classical Aggregate Supply Curve Equilibrium in the labor market thus determines two important macroeconomic variables – that is, the levels of real wages (w/P)E and employment LE. This equilibrium, in turn, fixes the quantity of goods at which our
57
Money in a classical economy
w/P Ls
(w/P)E
Ld LE Figure 6.3
L
Equilibrium in the labor market
model economy must rest. To see this last implication, notice that when each firm employs its share of equilibrium labor, LE, firms aggregately supply m . f(LE/m)F(LE) ‘goods’ to our model economy (where our economy consists of m representative firms). That aggregate supply (AS) cannot change with the price level P follows from our assumption that input and output prices move together. Notice that changes in the price level P do not change the real wage, and thus do not influence the quantity demanded or supplied of labor. Moreover, changing the price level does not affect the firm’s technology or the household’s preferences, and thus leaves the labor demand and supply schedules unaltered. Because changes in P do not affect the labor market’s equilibrium, and output is a function of labor, the classical economy’s aggregate supply curve must thus be vertical at YE as shown in Figure 6.4.
THE CLASSICAL ECONOMY’S DEMAND SIDE We now see how equilibrium in the labor market, coupled with the assumption that nominal rigidities are negligible, determines several important economic variables – that is, equilibrium employment LE, real
58
Money in a dynamic economy
P AS
YE Figure 6.4
Y
Classical (long-run) aggregate supply
wages (w/P)E and output YE. But while we can draw inference about the relative price of labor (w/P), we haven’t said anything about the economy’s price level P. Moreover, our model so far ignores money. To address these issues, we need to develop the demand side of the classical economy’s goods market. Velocity and the Quantity Theory of Money The ‘quantity theory of money’ will aid our thinking about the economy’s demand side. An important ingredient to this theory is the ‘velocity’ of money – that is, the average number of times that a monetary unit (for example, a dollar) turns over to purchase an economy’s final goods and services. To make this idea concrete, let M denote the (nominal) stock of money, Y the real aggregate output in one year, and P a price index. Then money’s velocity can be expressed as the ratio of nominal aggregate income during a period to that period’s money stock: V PY M The ‘equation of exchange’ follows immediately from this definition. It says that aggregate nominal income equals the money stock times money’s average turnover rate:
Money in a classical economy
59
MVPY Notice that this equation is really an accounting identity – that is, by definition, an economy’s money stock must turn over V times to purchase all final goods and services. To construct a theory of aggregate demand, we need to say something about the forces that independently shape these variables. The ‘quantity theory’ lets us push forward in this direction. The classical quantity theory posits that an economy’s institutional features (for example, ATM machines, credit cards, check-writing facilities, and so on) determine money’s velocity.4 Moreover, because the theory assumes that these institutions evolve gradually, it implies that velocity slowly changes and can thus be treated as more or less constant in the short run. Equipped with this ingredient (that is, a process by which one of our variables is pre-determined), we can move forward in developing a ‘theory’ of money demand. Notice that, if institutional features determine velocity, and these features evolve slowly, then money demand can be expressed as a constant multiple of nominal income: Md k·PY where k 1/V. The Classical Aggregate Demand Curve The aggregate demand (AD) curve maps the levels of aggregate output Y that are demanded at each price level P. We can derive this relationship from the monetarists’ classical quantity theory by mapping the points that satisfy the ‘equation of exchange’ for a given velocity and quantity of money (and assuming that money markets equilibrate – that is, Ms Md). The resulting AD curve has the property that as the price level falls, ceteris paribus, the quantity demanded of real output increases. We illustrate this relationship in Figure 6.5. To see why this relationship holds (given our assumptions), consider the case of a price drop (P ↓) and notice what has to happen to the quantities demanded for the equation of exchange to hold. In this case, real money holdings (Md P) increase (at least initially) above the level that households held (in aggregate) before the price drop. But before the price drop, maximizing households must have been holding an optimal level of real cash balances – that is, the level at which cash balances’ marginal cost (for example, forgone interest) equaled the associated marginal benefit (for example, transaction services). Immediately after the price drop,
60
Money in a dynamic economy
P
AD Y Figure 6.5
Classical aggregate demand
households must thus be holding too high a level of real balances (if marginal costs increase and marginal benefits decrease in real balances). The price drop thus encourages households to reduce their real balances by trading them for goods – that is, increasing the quantity of goods demanded above what the original price level warranted.5
EQUILIBRIUM IN THE CLASSICAL ECONOMY Recall that the labor market determines equilibrium employment LE and the real wage (w/P)E (that is, the rate at which households can trade leisure for commodities). This employment level, coupled with the economy’s production technology, determines output in the goods market. And since nominal rigidities are negligible in the classical theory (that is, wages and output prices move together on average), this output level obtains for any price level at which the economy might rest. As a result, aggregate demand (as represented by the AD curve) determines the classical economy’s price level P for a given level of equilibrium output YE, but cannot influence the level of equilibrium output. Figure 6.6 illustrates these relationships.
61
Money in a classical economy
P AS
PE AD
YE Figure 6.6
Y
Goods market equilibrium
MONEY, PRICES AND REAL ACTIVITY Money and Inflation We should now understand how the classical economy comes to rest at particular levels of real wages, employment, output and prices. Ultimately, however, we are interested in how monetary policy affects these variables. Let’s move in that direction by examining how changing the supply of money influences the price level. Recall that, in the monetarist approach, the AD curve relates Y and P for given levels of M and V. Since this model treats V as a constant, it points to the economy’s stock of money M as the primary demand shifter. Figure 6.7 illustrates this influence. The price level and quantity of aggregate demand share a negative relationship for any stock of money. For a given P, however, expanding the money stock increases the quantity of aggregate demand – that is, holding P and V constant, Y must increase with M. Moreover, because increasing M increases the quantity of aggregate demand for any P, the AD curve must shift outward – for example, from AD(M0) to AD(M1) in Figure 6.7, where M1 M0. Changing the money supply thus influences the evolution of the classical economy’s price level.6
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Money in a dynamic economy
P
AS
P(1) AD(M1) P(0) AD(M0)
YE Figure 6.7
Y
Goods market response to an increase in the money supply
Money and Real Activity While money affects the classical economy’s price level, it leaves output unchanged. In other words, money exerts a nominal effect, but is ‘neutral’ with respect to economic opportunities. This neutrality implies that fluctuations in aggregate output come from ‘technology shocks’ – that is, changes to the economy’s production possibilities. Figures 6.8, 6.9, 6.10 illustrate how such shocks create ‘real business cycles’ (RBC), and why the classical model implies that monetary policy is an ineffective tool for dampening fluctuations. In Figure 6.8, a (negative) technology shock shrinks the firm’s production possibilities from those that were available under f(L) to those that remain under g(L). Such a shock can emerge, for example, from a natural disaster (for example, a hurricane) that diminishes an economy’s (physical) capital stock or constrains the supply of complementary inputs (for example, oil). In cases like these, the loss of capital or complementary inputs reduces the productivity of each labor unit. Confronted with a decrease in marginal product, maximizing firms reduce their willingness to employ labor. To see this implication, recall that L* maximizes profits for a given real wage (w/P) under the technology f(L). But since labor’s marginal product is everywhere less under g(L) than under f(L), L* cannot maximize profits after the shock. Indeed, marginal productivity under g(L) must be less than (w/P) when evaluated at L*. Firms thus
63
Money in a classical economy
Goods
f(L) g(L)
(w/P)L
L
Profit
L'
L*
f(L) – (w/P)L g(L) – (w/P)L L
Figure 6.8 A negative technology shock, and its influence on the quantity of labor demanded for any real wage optimally respond to negative shocks by scaling back employment until the marginal productivity of labor again equals the marginal real wage – for example, at L'L* in Figure 6.8. Since this response occurs for an arbitrary real wage, it must occur for any real wage. A negative technology shock thus causes the labor demand curve to shift inward, and decreases the equilibrium level of labor employed. This decrease, coupled with the inferiority of the post-shock production technology, then causes a leftward shift in the economy’s aggregate supply curve. Figures 6.9 and 6.10 illustrate how a negative technology shock ultimately influences the markets for labor and goods/services in this manner. A Case Against Activist Policy Figures 6.9 and 6.10 also highlight an important normative implication of the classical model – that is, because the economy perpetually equilibrates, monetary policy cannot improve upon the level of welfare at any point in the business cycle. Indeed, as Figure 6.10 shows, increasing aggregate demand in the face of a negative supply shock exacerbates the shock’s influence on the price level but does nothing to mitigate the shock’s real effects.7
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Money in a dynamic economy
w/P Ls
(w/P)E (w/P)'E
L'd L'E Figure 6.9
Ld L
LE
Labor market reaction to a negative technology shock
P AS'
AS
AD(M1)
AD(M0) Y'E Figure 6.10
YE
Y
Goods market reaction to a negative technology shock
Money in a classical economy
65
To the extent that the classical model accurately portrays the ‘true’ economy, it suggests that a ‘passive’ monetary authority can do better than can an ‘activist’ authority (where ‘better’ is measured relative to real economic opportunities). It thus argues for organizing monetary authorities in a manner that weakens pressures that might encourage political agents to ‘fine tune’ the economy.8 Before extending our treatment of how monetary authorities are and should be organized, however, we should learn how Keynesian models rationalize fluctuations in economic aggregates. These models hold out a greater prospect for activist policy to improve welfare. Understanding their merits can thus facilitate greater confidence in the normative prescriptions that we’ll soon develop for governing an economy’s money supply.
NOTES 1. We’ll soon see that this last assumption is pivotal to the classical model’s normative implications, and thus pay considerable attention to how an economy might behave when nominal prices are not so fluid. 2. A symmetric argument shows that firms will not rest at a choice of labor that exceeds L*. 3. Given the previous sub-section’s detail, we leave this requirement’s formal derivation to our readers. 4. Notice, for example, that as the supply of ATMs increases, any quantity of money (M) can sustain the purchases of an increasing level of goods and services (PY). 5. Notice that this argument differs from its analog in a model of the microeconomy. There, as the price of a particular good increases, so does the opportunity cost of consuming that good. In addition, a price increase shrinks an individual’s budget set. For normal goods, these substitution and income effects work together to decrease the quantity demanded. In our model of the macroeconomy, however, an increase in P represents an increase in the price level, not an increase in relative prices. Consequently, the aggregate demand curve slopes downward not from substitution and income effects, but because changes in P change the level of nominal balances that households are willing to hold. 6. Even more, if we define ‘inflation’ as a continual increase in the price level, then ‘inflation is always and everywhere a monetary phenomenon’ (Friedman, 1992: 193). While supply shocks and changes in government expenditure may have transitory effects on the price level, they cannot, by themselves, continually increase prices. Both the monetarist theory developed here and the Keynesian counterpart developed below thus agree that inflation comes from continually growing the money supply. 7. Nobel Prize-winning economists Finn Kydland and Edward Prescott are prominent contributors to the RBC literature in this regard, forcefully arguing that, because technology shocks drive economic systems, policies that aim to dampen these shocks tend to be counterproductive (see Rolnick, 1996). 8. This organizational implication is similar to what we developed in Part II. There, we argued that a passive monetary authority can facilitate confidence in fiat exchange media, and thus expand economic opportunities by economizing of bartering costs.
7.
Money in a Keynesian economy
It’s not a moving equilibrium. When we have 11 percent unemployment in 1982 or 25 percent in 1932, I don’t regard that as being a labor market equilibrium with supply and demand equal. And I don’t believe that productivity, technology, go up and down in anything like waves which would be consistent with the business cycles we observe. (James Tobin, quoted by Fettig, 1996)
INTRODUCTION The classical model offers a firmly grounded rationalization of important macroeconomic phenomena such as inflation (especially hyper-inflation), and even fluctuations in real output. Indeed, prominent contributors to the RBC (real business cycles) literature argue that technology shocks explain 70 percent of the post-war (WWII) economy’s fluctuations (see Rolnick, 1996 and Romer, 2001, Table 4.4). But this model encounters difficulty when attempting to rationalize phenomena such as involuntary unemployment, and fluctuations therein. In addition, persistent reduced form evidence suggests that, at least in the short run, money is not neutral.1 The Great Depression shed a bright light on these difficulties, encouraging that era’s most prominent economist, John Maynard Keynes, to consider how aggregate demand can affect employment and output. A distinguishing feature of these early models is an allowance for nominal rigidities. Recall the classical assumption that constituent prices move together (on average), and its implication that aggregate supply does not vary with the price level but remains fixed at a level consistent with the labor market’s competitive equilibrium. By instead assuming that prices are ‘sticky,’ conventional Keynesian models imply that the (shortrun) aggregate supply curve slopes upward, and thus open the door for activist monetary (and fiscal) policy to productively address economic fluctuations.
66
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Money in a Keynesian economy
THE KEYNESIAN ECONOMY’S SUPPLY SIDE Nominal Rigidities, the Phillips Curve and Policy Effectiveness Suppose that, instead of tracking the price level (P), wages (w) do not move in proportion to output prices. This ‘rigidity’ or ‘stickiness’ might emerge from laborers (formally or informally) entering inflexible wage contracts. For any ‘contracted’ nominal wage w, increasing the price level P (say by expanding the money supply M) would decrease the real price of labor w/P. Faced with a lower real price of labor, firms increase the quantity of labor demanded (that is, firms move down their labor demand curves).2 To the extent that households are willing to supply labor at lower real wages, the level of labor that an economy employs will increase with P, and the aggregate supply curve will slope upward per Figure 7.1.3 Notice that, if the aggregate supply curve slopes upward (for example, because wages are sticky), then policy makers might trade off higher inflation for lower unemployment. As in the classical model, expanding the money supply continues to increase the price level. But instead of being neutral in real terms, this increase increases the quantity of labor that firms demand and thus increases employment. Early post-war economists found considerable empirical support for this implication. Indeed, Alban W. Phillips famously graphed the relatively stable negative relationship that, prior to 1970, appeared between P AS
Y Figure 7.1
Keynesian (short-run) aggregate supply
68
Money in a dynamic economy
unemployment and inflation. Coupled with rationalizations like that described above, the ‘Phillips Curve’ encouraged monetary authorities to actively pursue full employment. Rational Expectations and the Phillips Curve’s Breakdown While the Phillips Curve enjoyed considerable popularity (and does so even today), it also encounters important difficulties. For example, notice that a demand-driven ‘economic boom’ should increase the price level, and thus reduce real wages. But during economic fluctuations in general, and the Great Depression in particular, real wages are pro-cyclical – they decrease with economic slowdowns. Moreover, even Keynes realized that assuming that workers (mistakenly, but persistently) focus on nominal wages could not logically produce an upward sloping supply curve (Blanchard, 1990). Before we consider more firmly grounded arguments of why the aggregate supply curve might slope upward, let’s turn our attention to how maximizing-individuals form expectations, and how this formation creates difficulty for the sticky wage channel outlined above. To the extent that inferential mistakes are costly, maximizers avoid systematic errors in judgment. In other words, maximizers optimally collect and evaluate information so that expectations are ‘rational,’ or correct on average.4 Rational laborers, for example, might incorrectly forecast changes in the price level, but those errors would not exhibit bias in a particular direction (unless the costs of mistakes are asymmetric). In this light, the ‘nominal rigidity’ channel for a positively sloped aggregate supply curve appears to rest on a weak ground.
BOX 7.1
THE EFFICIENT MARKET HYPOTHESIS
Models that characterize expectations as being ‘rational’ appear to be ‘good’ by the standards we developed in Part I. Indeed, the rational expectations hypothesis builds from the axiom of maximizingbehavior and finds considerable empirical support, especially from financial market data. Applied to the pricing of financial assets, rational expectations theory is known as the ‘Efficient Markets Hypothesis’ (EMH). Its testable implications include the hypothesis that (risk adjusted) forecast errors equal zero on average – that is, they are unpredictable for a given set of information.
Money in a Keynesian economy
69
To see this implication, suppose that available information tells investors that security prices will increase, but prices have not yet incorporated this knowledge. Investors would thus profit from buying a security today and selling it after realizing the expected price increase. But for such opportunities to be available in the first place, investors must have been ignoring a ‘sure thing.’ In other words, for security prices to reflect something less than the set of information on which individuals can feasibly transact, investors cannot be maximizers! We thus see that the rational expectations hypothesis is another logical implication of our axiom of maximizing-behavior. The extent to which the EMH exhibits empirical merit thus depends on how reasonable and complete is our axiom. Recall that this reasonableness does not rely on individuals consciously maximizing, but rather on how strong are the forces that adopt individuals who act ‘as if’ they are maximizers. In light of how competitive are financial markets, we may thus be relatively comfortable with building asset pricing models from the axiom of maximizing-behavior. (Andrei Shleifer, 2000 critically reviews this evidence, but does not firmly ground the preferences that might give rise to behavioral anomalies. Robert Frank, 2006 offers a textbook treatment of this latter issue.)
By pointing to this weakness, the rational expectations hypothesis increased skepticism among economists such as Milton Friedman and Edmund Phelps about the policy trade-offs that the Phillips Curve implies are feasible.5 Indeed, Friedman used his presidential address to the American Economic Association to predict the Phillips Curve’s collapse and offer the ‘expectations-augmented’ Phillips Curve in its place. The traditional Phillips Curve follows Keynes’ early conjecture that workers focus on nominal wages rather than real purchasing power. But if individuals are maximizers, then they rationally form expectations. In this case, suppliers of labor correctly anticipate (on average) changes in the price level so that, when these changes are realized, real wages tend to remain steady. Friedman thus argued that only unanticipated inflation can cause unemployment to deviate from its natural rate (that is, the rate at which competitive labor markets equilibrate). The ‘expectations-augmented’ Phillips Curve formally characterizes this relationship as follows:6 (Y Yn ) ( e ) s
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Money in a dynamic economy
This more firmly grounded model implies that attempts to inflate one’s way to full employment ultimately result in high inflation and no employment benefits (that is, ‘stagflation’). In particular, it implies that Y increases only when individuals experience surprise-inflation – that is, when ( e ) 0. Moreover, to the extent that expectations improve as individuals learn from new information, any such surprises are unlikely to create long-lasting effects. As workers pressure firms to maintain real wages, for example, the AS curve would shift leftward and offset any employment effect from surprise increases in the money supply. Summary The Phillips curve was absorbed quickly in econometric models, in policy discussions, and in policy decisions. The notion of a stable and reliable ‘trade-off’ between inflation and unemployment made the journey from professional literature to the counsels of policy and even the Councils of Economic Advisers more rapidly than most new ideas. Sociologists or historians of science may one day explain why economists and officials accepted the Phillips curve so readily. Economists are more often attracted by theories without evidence than by evidence lacking a clear relation to theory. (Brunner and Meltzer, 1976: 2, emphasis added)
We should now understand that, if nominal rigidities are considerable, then the aggregate supply curve can slope upward and money can be nonneutral (at least in the short run). We should also recall from our introduction to methodology (see Part I) that when models ground themselves on a weak foundation, they are unlikely to produce valid insights. By apparently wrapping the wrong structure around persuasive reduced form evidence of how M relates to Y, many post-war economists may have realized this problem. The Phillips Curve exhibited considerable power to rationalize the 1960s data, but appears to rest on a weak foundation – that is, one that ignores evolving expectations and the strategic responses of maximizers. Consistent with this criticism, the Phillips Curve relationship broke down when policy makers attempted to exploit it. The 1970s instead saw ‘stagflation’ – that is, high inflation and unemployment.
EFFICIENCY WAGE THEORIES To maintain a consistent analytical framework, we cannot simply give up on the axiom of maximizing-behavior whenever it creates difficulty for rationalizing observed phenomena. For example, if individuals are indeed maximizers, then we cannot readily rationalize a supply curve’s upward slope via the simplistic nominal rigidity story that we criticized above.
Money in a Keynesian economy
71
We may nevertheless be curious about whether nominal rigidities can arise without violating axioms of rationality. ‘Efficiency wage’ theories show that they can. Blanchard and Fischer characterize this class of theories as follows: Efficiency wage theories all start from the assumption that productivity may be affected by the wage the firm pays, though the precise mechanism through which the wage affects productivity varies from theory to theory. When workers’ efficiency is affected by the wage, a reduction in the wage may in the end increase rather than decrease cost. (Blanchard and Fischer, 1989: 455)
Recall that the ‘classical firm’ chooses factors to maximize profits, given real factor prices – that is, factor prices do not affect factor productivity. Extending that model in the present section, we’ll relax the implicit assumption that real wages do not affect the effort-choice of laborers, and thus expand the firm’s problem to include the choice of wages – that is, firms in this section choose L and w. Working through this more general model, we’ll find that firms optimally choose a wage above that which clears the classical labor market. At this relatively high wage, the quantity of labor that households supply exceeds that which firms demand – that is, strictly positive unemployment occurs in equilibrium. This rationalization of strictly positive equilibrium unemployment also offers a more firmly grounded rationalization of why nominal variables (for example, w) might be rigid. A Richer Profit Maximization Problem Our formal investigation begins by specifying the firm’s problem as choosing labor and nominal wages to maximize profits – that is, it characterizes firms as choosing w and L to maximize the following objective:
max f(e( wP )L) w P L w, L
This objective differs from what we examined in the classical model. Importantly, f now transforms ‘efficiency units’ of labor into output at a positive but decreasing rate (that is, f '0, f "0). Here, e transforms (at a positive but decreasing rate) each real wage that the firm indirectly chooses into ‘effort’ that each unit of labor optimally exerts. Output thus becomes a function not only of the quantity of labor units employed (L), but also of how much effort (e) each unit exerts, and that effort depends on the firm’s wage choice. Optimal choices of w and L must simultaneously satisfy the following first order conditions:
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Money in a dynamic economy
f '( · ) e'( wP ) (LP) (LP) 0 and f '( · ) e( wP ) (wP) 0 respectively. We can re-write the first condition as f '( · ) e'( wP ) (LP) (LP) f '( · ) e'( wP ) 1 f '( · ) 1 e'( wP ) and the second as f '( · ) (wP) e( wP ) Recognizing that the firm’s optimal choice of L and w must simultaneously satisfy these conditions, we can substitute the necessary condition for L into that for w and arrive at the following (Solow) condition: 1 e'( wP ) (wP) e( wP ) e( · ) (wP) 1 (wP) e( wP ) In words, firms choose a nominal wage such that the elasticity of effort with respect to the real wage equals 1 (that is, effort changes proportionately with the real wage). Given this wage, the necessary condition for choosing L determines the firm’s choice of (raw) labor units. And since the firm’s optimal choice of w need not coincide with what would have cleared the classical labor market, the firm’s choice of L need not clear the labor market.7 Efficiency Wages and Involuntary Unemployment This firmly grounded, but richer, model of the firm implies that strictly positive and involuntary unemployment can persist in an economy. To see this implication more clearly, let’s examine Figure 7.2.8 Suppose that individuals face a ‘dichotomous’ choice of effort (denoted here as e) where the choice set includes ‘no shirking’ (e 1) and ‘shirking’ (e 0). Recall that utility-maximizing households forgo leisure for labor market opportunities until the marginal cost of doing so (for example, disutility of effort) equals the associated marginal benefit (for example,
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Money in a Keynesian economy
(w/P)
No shirking constraint Ls
(w/P)E
f'(L) = Ld
1
LE Figure 7.2
N
Individuals
Involuntary unemployment with efficiency wages
utility from expanded consumption possibilities). Given our characterization of effort as taking one of two levels, and further assuming that the cost of exerting such effort is uniform across households, we can represent the quantity of labor that households are willing to supply at each level of the real wage (w/P) by the vertical line labeled Ls.9 This curve says that, for any real wage that exceeds the marginal cost of effort (that is, (w/P) 1), households willingly choose e 1. As a consequence, for any (w/P) 1, all N of our economy’s homogeneous households offer their labor services to firms. To see why firms must nevertheless offer a nominal wage above that which compensates households for choosing e1, consider what happens if they do not. When monitoring is costly, a positive probability exists that firms will not detect their employees’ shirking. And employees who escape this detection will be really well-off – that is, they receive a strictly positive (real) wage payment, but do not incur any effort cost. More formally, employees who shirk but are not caught receive a net payoff of (w/P)0, rather than the zero payoff ((w/P) – e0) that they would have realized by not shirking. When the firm catches a shirker, however, it does not remunerate the employee – since the shirker didn’t exert any effort, its payoff nets to zero. So, if employees always choose e 1, then they certainly receive a net payoff of zero. But, if employees always shirk, then they enjoy an expected payoff that strictly exceeds zero (to the extent that verifying effort is costly).
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Absent an efficiency wage, employees always do at least as well shirking as they do not shirking. An interesting question, then, is how much greater than (w/P)1 must the firm raise its wage? Figure 7.2 illustrates the locus of all points that induce no shirking by the ‘No shirking constraint’ curve. Notice that, given our previous paragraph’s argument, the no shirking constraint must lie everywhere above the level of (w/P) 1. Moreover, as the economy’s employment level reaches its potential (that is, as L → N), the wage that firms must pay to guarantee no shirking increases. To see why, notice that the unemployment rate decreases as L → N, and thus so does the expected duration of unemployment for those who are caught shirking. In this manner, increases in the unemployment rate decrease the net benefits of shirking. The efficiency wage that is necessary to discourage shirking thus decreases as (N – L) grows. Finally, let’s consider the firm’s labor demand schedule. Recall that the necessary condition for profit maximization requires the firm to choose L so that labor’s marginal product ( f '(L) ) equals its marginal (real) cost (w/P). We graph all such points in Figure 7.2 via the curve Ld. Given this set-up, we see that the labor market equilibrates at less than ‘full employment.’ Indeed, at the equilibrium real wage (w/P)E, N individuals offer their labor services to firms, but only LE N find employment (that is, the unemployment rate equals (N LE )N .)10 Note, however, that since the real wage is no longer exogenous, we cannot employ our illustration of the classical labor market to see how unemployment might obtain in equilibrium (it is nonsensical to evaluate how the firm’s optimal choice of labor responds to its optimal choice of efficiency wages – these two choices are determined simultaneously). Rather, we have to assume that firms set wages subject to the ‘no shirking constraint’and then ask at what employment level does the marginal product of ‘non-shirkers’ equal the associated marginal cost (that is, the ‘efficiency wage’). And since the efficiency wage exceeds that which fully remunerates a laborer’s effort, the equilibrium level of employment must be less than that obtained in the classical model (where laborers did not enjoy an informational advantage and thus optimally offered labor to the market at a price equal to the marginal cost of effort).11 Micro-based Theories of Nominal Rigidities This efficiency wage model advances our simple Keynesian model by offering a firmly grounded rationalization of involuntary unemployment. It does not, however, yield a positively sloped aggregate supply curve – that is, efficiency wage theory does not (by itself) say that nominal wages are sticky, but rather that efficiency wages do not clear labor markets.12
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However, it is possible to move from our rationality-based explanation of ‘involuntary unemployment’ to a nearly rational explanation of cyclical unemployment. Perhaps the most authoritative research in this regard is that of Akerlof and Yellen (1985). This work develops from an application of the ‘envelope theorem’ – that is, evaluated in the neighborhood of an optimally chosen efficiency wage, the profit function is flat. In other words, firms that do not optimally respond to aggregate demand shocks (by adjusting their choice of efficiency wage) face little in the way of negative selection pressures – that is, they will still act as if they are ‘nearly’ rational.13 Akerlof and Yellen (1985) formalize this notion by showing that the loss to ‘inertial’ firms from not optimally responding to an -small shock to the money supply is proportional to 2, but the economy experiences employment losses (and thus output losses) proportional to . To see why this must be true, consider the case where all firms are inertial – that is, no one reoptimizes in the face of a change in M. Here, while each firm remains near the maximum level of its objective, the response in output must be proportional to the size of the shock (that is, changes in M must pass through to Y in our equation of exchange when P is rigid). In this setting, small departures from maximizing-behavior can let demand shocks move the economy from its classical equilibrium. This implication follows from profits in efficiency wage models being rather robust to nominal rigidities, whereas employment is not. Hall (2003) explores further in this direction. His objective, like that of Akerlof and Yellen (1985), is to rationalize how small nominal rigidities might induce large (real) economic fluctuations. Rather than relying on departures from rationality to motivate rigidities, however, Hall exploits the condition that market clearing wages are elements of a (non-singleton) ‘bargaining set’ – that is, a non-degenerate range of wages that satisfy both households and firms. While firms would profitably hire units of labor at any element of the bargaining set, the surplus that they recognize therein will decrease as realizations of that bargaining process move toward the set’s upper bound. Moreover, the intensity with which firms rationally pursue recruiting activities depends positively on this surplus’s size. Consequently, because small productivity decreases or input cost increases essentially move bargaining realizations toward the set’s upper bound, firms optimally respond by curbing their recruiting activities. As a result, labor market frictions increase (that is, costs for qualified laborers and firms to find each other grow), causing involuntary unemployment to grow as well. From a purely ‘rational’ model, then, Hall (2003) offers an explanation for why we observe cyclical involuntary unemployment.14
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EVIDENCE AGAINST NOMINAL RIGIDITIES For money to affect real activity in a model with nominal rigidities, the period over which prices remain sticky must be longer than what is necessary for monetary authorities to recognize that a policy change would be beneficial, craft and implement that change and have that implementation work its way through the economy. An important question thus becomes for how long can we expect prices to be rigid? Peter Klenow and various co-authors (mainly, Mark Bils) address this question by analyzing data on how frequently different prices in an economy change.15 The resulting evidence creates potentially serious difficulties for models of money and real activity where the causal structure is nominal rigidities. First, these authors find that prices change about three times per year on average – that is, more frequently than a theory of nominal rigidities might predict. Second, the frequency with which individual prices change appears to vary systematically across sectors. For example, while goods prices appear to change every 3.2 months, those for services change much less frequently (every 7.8 months). More generally, goods and services that embody little in the way of value added (for example, gasoline, fresh fruit) exhibit considerably more price flexibility than do their more highly processed counterparts. Indeed, prices for ‘raw goods’ change every 1.6 months and those for ‘processed goods’ change every 5.7 months. But, for monetary policy to affect real activity via the nominal rigidities channel, input prices (that is, prices for ‘raw goods’) need to be rigid! Stock and Watson (1999) review what can be considered corroborating evidence. They argue, for example, that ‘real wages have no predictive content for output growth at the one- or four-quarter horizons’ (Stock and Watson, 1999: 42). In this light, while the microeconomic theories of sticky (nominal) wages can offer firmly grounded rationalization of why aggregate demand might influence economic performance, they nevertheless appear to lack empirical merit. Indeed, to the extent that nominal rigidities (micro-based or not) cause cyclical unemployment, we should observe a rather strong and counter-cyclical relationship between real wages and output.
OTHER MONETARY TRANSMISSION MECHANISMS In the previous subsection, we carefully developed causal channels through which money might influence economic activity. But while these models appear sound in the sense that they build on the axiom of maximizing-
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behavior, we learned that their implications leave unexplained (or are incongruent with) important features of the relevant data. Let’s now recall our evaluation of structural versus reduced form evidence. Notice that our micro-based models of nominal rigidities offer structural explanations of how money might influence an economy’s real aggregates. That the evidence does not support such explanations, however, does not imply that money is neutral. Indeed, money might exert a real effect and we’ve simply looked at evidence through the wrong structure. We thus push forward by looking at reduced form evidence of money’s potential to influence an economy’s real aggregates. Friedman and Schwartz’s (1963) historical ‘experiments’ are frequently cited as being persuasive in this regard. In short, they carefully identify episodes in US monetary history where changes in the money supply can confidently be interpreted as random. They then look at what happens to output and find that it tends to move in the same direction. Contemporary statistical studies largely corroborate Friedman and Schwartz’s evidence that money exerts a gross effect on output. However, we’ll see again that nominal rigidities are an unlikely channel through which money exerts this influence. We’ll thus conclude with a brief review of how money might influence real activity not through labor market channels but rather through those associated with financial markets. Christiano et al. (1999), among others who followed Friedman and Schwartz (1963), evaluate how economies respond to monetary policy shocks.16 They do so by first estimating parameters of the Federal Reserve’s reaction function (that is, the rule by which the Fed transforms economic information into monetary policy) and then treating the corresponding residuals (that is, unexplained variation in the bank’s policy choices) as evidence of exogenous policy shocks. By evaluating how economic aggregates respond to various specifications of these shocks, they find robust evidence that (unexpected) monetary policy exerts real influences as follows: After a contractionary monetary policy shock, short term interest rates rise, aggregate output, employment, profits, and various monetary aggregates fall, the aggregate price level responds very slowly, and various measures of wages fall, albeit by very modest amounts. (Christiano et al., 1999: 69)
However, like that which we review above from Klenow (see Clement, 2003) and Stock and Watson (1999: 42), this evidence also offers little support for nominal rigidities as a causal channel. For example, Christiano et al. (1997) report that real wages decline slightly when money experiences a negative shock, and this decline appears especially prominent in the manufacturing sector. But recall that a nominal rigidities story says that real wages increase in the face of contractionary shocks.
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Moreover, recall that a popular rationalization of nominal rigidities as a causal channel is that laborers (for example, those employed in manufacturing) enter long-term nominal wage agreements. Christiano et al.’s (1997) evidence, however, not only suggests that real wages react in the wrong direction, it suggests that this inconsistency is especially pronounced in a sector that is, in principle, most susceptible to nominal rigidities! The persistence with which scholars find reduced form evidence for money’s real effects, but evidence against nominal rigidities as a plausible transmission mechanism, has motivated searches for alternative channels through which real aggregates respond to money. One such channel emerges from monetary policy affecting the capacity for financial intermediaries to supply credit services. A negative shock, for example, can decrease banks’ reserves, and thus the level of assets from which they can generate loanable funds. To the extent that prospective borrowers cannot readily substitute for this source of financial capital, real economic activity can decline in the face of a negative monetary policy shock.17
CONCLUSION How should a monetary authority respond to demand or supply shocks? Our analysis of aggregate supply in this chapter shows that, in principle, monetary policy can offset shocks and thus enhance economic stability. Note, however, that any such opportunity depends on the rate at which market forces can ‘correct’ deviations from full employment. Given the considerable delay in economic data becoming available, and lags between policy considerations, implementation, and effects, economists are often skeptical about the capacity for ‘fine tuning’ to outpace self-correcting mechanisms. Moreover, as we’ll see in following chapters, financial developments may have contributed to a marked reduction in the cycles that advanced economies experience, and possibly left little room for even the most effective policy to improve economic performance.
NOTES 1. 2. 3. 4.
See, for example, the literature following Friedman and Schwartz (1963). This change does not influence the quantity of labor that firms are willing to employ for any real wage – that is, it does not shift the labor demand curve. In some models, the willingness of households to supply labor constrains increases in the quantity of labor demanded. There, the aggregate supply curve slopes upward only until full employment is reached. Stated more formally, the expectation operator E is ‘rational’ if E[x E[x] ] 0 where the variable x represents an outcome of interest (for example, the price level P).
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5. 6. 7. 8. 9. 10.
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According to this definition, expectations can be rational (that is, an optimal forecast) even if they prove inaccurate after resolving the uncertainty over which they were formed. Both Friedman and Phelps won Nobel Prizes in economics, in part for their prescient criticisms of the Phillips Curve. In this expression, the n-subscript denotes ‘natural rates’ (for example, natural rates of output or unemployment), the e-subscript denotes expected values, and s-denotes a supply shock. Below, we’ll see that this choice is ‘optimally’ too high. This analysis draws heavily from Blanchard and Fischer’s textbook treatment (1989: 456–61, Figure 9.7) which, in turn, draws from Shapiro and Stiglitz’s (1984) seminal contribution to the literature. Implications that we are about to draw from this model appear robust to these apparent ‘over’-simplifications. Yellen (1984: 202–3) explains this implication as follows: If all firms pay an identical wage, and if there is full employment, there would be no cost to shirking and it would pay all workers, assumed to get pleasure from loafing on the job, to shirk. In these circumstances, it pays each firm to raise its wage to eliminate shirking. When all firms do this, average wages rise and employment falls. In equilibrium, all firms pay the same wage above the [classical] market clearing, and unemployment, which makes job loss costly, serves as a worker-discipline device. Unemployed workers cannot bid for jobs by offering to work at lower wages. If the firm were to hire a worker at a lower wage, it would be in the worker’s interest to shirk on the job. The firm knows this and the worker has no credible way of promising to work if he [or she] is hired.
11. 12.
13. 14. 15. 16. 17.
In this sense, it might be more accurate to characterize efficiency wage theories as measuring differences in employment levels due to differences in monitoring technologies, rather than rationalizing involuntary unemployment per se. Woodford (1994: 1), for example, observes that ‘Much of the efficiency wage literature has been partial equilibrium in character, and content with a static analysis of the determinants of a steady-state level of unemployment.’ Yellen (1984: 204) offers a related observation. And while beginning a textbook treatment of this difficulty, Blanchard and Fischer (1989: 461) conclude that ‘Efficiency wages . . . do not necessarily imply that small costs of changing wages will lead to large nominal rigidities.’ ‘Failure to choose wages in precisely optimal fashion results in little loss to the firm, so that sticky wages in response to shocks result in only small losses to a firm that does not exactly maximize’ (Akerlof and Yellen, 1986: 17, italics in original). Note, however, that this model also implies that real wages are counter-cyclical. Clement (2003) summarizes this research. See also, for example, Romer and Romer (1989). Christiano et al. (1999) review evidence on how shocks that work through this mechanism may create different effects for different agents in an economy. For example, large businesses may not realize large direct consequences of a shock since their capital market substitutes for intermediaries subject to reserve requirements are relatively rich.
8.
Should monetary policy be active?
THE LUCAS CRITIQUE AND POLICY EVALUATION Robert Lucas famously extended the rational expectations hypothesis to consider whether historical data can inform considerations about proposed policies. His conclusion is damning – that is, if individuals form expectations rationally, then reduced form models ‘provide no useful information as to the actual consequences of alternative economic policies’ (Lucas, 1976: 20, emphasis in original).1 Lucas’s ‘critique’ builds on Muth’s (1961) seminal insight that expectations depend on the structure in which they develop. This structure shapes how today’s economic conditions evolve into tomorrow’s. Hence, if policies change an economy’s structure, then the manner in which maximizers react to policy variables can also change. In this case, policy makers must predict individuals’ reactions under the new regime from data on the old regime – that is, information about how individuals reacted to policy variables before the economy’s structure changed! Insights to the Phillips Curve’s Breakdown To better understand Lucas’s critique, let’s consider how it rationalizes the Phillips Curve’s breakdown. Recall that the Phillips Curve, on its face, evidences the potential for policy makers to trade higher inflation for lower unemployment – that is, it suggests that monetary authorities can dampen real fluctuations if they are willing to incur nominal fluctuations. But evidence from which this trade-off became apparent takes a reduced form – that is, it largely rests on the negative correlation between price and unemployment levels during the 1960s. Given that correlation does not imply causation (see Part I), we begin to appreciate Friedman’s, Phelps’s, and others’ early concern about the Phillips Curve.2 This concern grows when we note that, before the Phillips Curve, monetary authorities were less likely to pursue an inflation–unemployment trade-off. But evidence for the Curve comes from this relatively ‘passive’ period. There, changes in the price level would have (by definition) largely been unexpected. Consequently, if the ‘Lucas supply curve’ (the supply curve associated with the ‘expectations-augmented’ Phillips Curve) 80
Should monetary policy be active?
Figure 8.1
Passive policy
Active policy
Random inflation
Systematic inflation
Unexpected inflation
Unexpected inflation
Output
Output
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Lucas’s critique and the Phillips Curve’s breakdown
reasonably summarizes forces that act on aggregate supply, then this period’s output would have indeed shared a negative relationship with measured inflation – that is, random changes in inflation would have created unexpected inflation, and thus shared a negative association with unemployment in reduced form evidence. Figure 8.1’s left-hand column illustrates how such a structure could have generated this reduced form relationship. Supported by this relationship, however, policy makers actively pursued an inflation–unemployment trade-off. Once they did, fluctuations in the price level became more systematic, rather than random as they tended to be during the data generating period. Consequently, the reduced form relationship between inflation and output broke down. Realizing a change to more active policy, maximizers rationally updated the manner in which they interpreted price changes, and thus left (again) only unexpected price changes to influence real activity. So while unexpected
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price changes may have still influenced real activity during this latter period, the Phillips Curve relationship would have been overwhelmed by real output’s insensitivity to what became a relatively large expected component of price changes.3 As the right panel of Figure 8.1 illustrates, policy can change how individuals form expectations, and this change can obviate relationships that appear in historical data. Lucas’s critique is much deeper than the simplistic observation that estimates of policy effects are inherently noisy, or even that policies have ‘unintended consequences.’ Rather, it shows how policies not only affect variables of interest, but also the manner in which individuals anticipate those variables’ evolution. Because this anticipation influences expectations, and expectations influence behavior, relationships that appear in historical data may contain little information about how individuals would react to policy changes. Identifying an economy’s structural parameters (that is, parameters that are insensitive to policy changes), and how policies influence social forces that emanate from them, thus becomes necessary to logically evaluate proposed policies. The Lucas Critique: A More Formal Development Suppose that the quantity of output that a firm supplies during any period consists of both permanent and cyclical components as follows:4 yit ypit ycit Here, yit denotes firm i’s (real) output in period t, and superscripts p and c denote ‘permanent’ and ‘cyclical,’ respectively. Let’s also assume that a firm’s cyclical supply varies with the relative price of its output as follows: ycit (pit peit ) Here, pit denotes the price of firm i’s output in period t, while peit denotes firm i’s expectation of the economy’s general price level. This characterization implies that the cyclical quantity supplied by firms depends on how they interpret departures of their own price from the level that obtains in the economy more generally. For example, to the extent that firm i interprets departures as coming from fluctuations in relative (as opposed to aggregate) demand, it will heavily weight that departure in deciding what quantity to supply. In low-inflation/stable price economies, firms will thus tend to interpret the difference (pit peit ) as evidence of a change in relative demand, and a high value of the parameter will govern firms’ quantity choices.
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Now let’s consider how a policy maker might exploit this model’s insight to evaluate whether a proposed policy will achieve its objective. Recall from our examination of the classical and Keynesian models that changing the money supply influences an economy’s price level. One might thus invoke our model of cyclical output to evaluate whether changing the money supply dampens e short-term economic fluctuations – that is, M → (pit pit ) → ycit. To carry out such an evaluation, however, we need to estimate – that is, uncover information about the ‘structure’ through which changes in policy variables influence real activity. But cannot be identified from reduced form evidence. To see this difficulty more clearly, suppose that firms rationally expect price changes, and that available information includes the price at which their own output sells (that is, pit) and the mean of the economy’s past general price levels (which we’ll denote by pt). The firm’s expectation of the economy’s general price level (and thus its relative price) may thus be represented as follows: peit (1 ) pit pt Here, (1) denotes the relative weight that a firm places on information about its own price when forming expectations about the economy’s general price level, given information about the economy’s past price level. Substituting this expression into that for a firm’s cyclical output-component (that is, ycit) and re-arranging terms, we arrive at the following relationship: ycit (pit pt ) Finally, averaging across all firms i (i1. . . N), we find the following expression for the economy’s cyclical component of aggregate supply: yct (pt pt ) In words, this expression says that (aggregate) deviations from trend supply ( yct) vary with deviations from past price levels. This relationship is qualitatively identical to that suggested by the Phillips Curve. However, even if a monetary authority could cause (pt pt ) to differ from zero, it will be unable to evaluate its policy from estimating the above relationship. Indeed, the resulting reduced form evidence would confound the effects of and . In other words, the reduced form evidence would identify the gross effect of a change in (pt pt ) , but fail to distinguish the manner in which information enters a firm’s price level expectation () from that in which a perceived relative price change influences the quantity of output that firms choose to supply ( ).
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Finally, even if policy makers solve this identification problem, the resulting evidence would still have to ground itself on historical data. But if policy influences an economy’s structural parameters, then the estimated values of and will differ (in a perhaps unknowable way) from those that govern the post-implementation economy. Lucas (1976: 37–8) highlights this difficulty by suggesting that, while one can reasonably expect the parameter to be stable, evolution of is sensitive to variability in the economy’s price level and thus inherently unpredictable as a function of demand policy. He thus concludes that ‘the long-run output-inflation relationship as calculated or simulated in the conventional way has no bearing on the actual consequences of pursuing a policy of inflation’ (Lucas, 1976: 39, emphasis in original).
POTENTIAL BENEFITS FROM STABILIZATION POLICY Taking US performance over the past 50 years as a benchmark, the potential for welfare gains from better long-run, supply-side policies exceeds by far the potential from further improvements in short-run demand management. (Lucas, 2003: 1, italics in original).
Lucas’s critique highlights an important difficulty for activist monetary policy – even if a Phillips Curve-type trade-off is available, the effects of policies that might exploit that trade-off cannot be easily estimated. But even setting this serious difficulty aside, stabilization policy may now have little room to improve economic performance. As the above quote from Lucas argues, for example, policies that aim to increase growth rates may be superior to those that attempt to dampen economic fluctuations in terms of potential to improve economic performance. Lucas draws this strong conclusion from a relatively straightforward thought experiment. He asks, quite simply, how much better off consumers would be if consumption’s variability about trend was eliminated. Measuring welfare in this manner (that is, as the average level of consumption that a consumer would forgo to avoid high frequency changes in consumption), Lucas (2003:1) calculates that even the most successful policy would improve welfare by only one-half of one-tenth of 1 percent! Lucas develops this conclusion from the following indifference condition between a stochastic and deterministic stream of consumption (patterns that might emerge from a volatile and stable economy, respectively). In particular, he evaluates how much more consumption (measured by the parameter ) a risk-averse consumer must receive on average when faced with a stochastic consumption stream (measured by the variable ct at each period
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t) than with a deterministic stream Aet (which is constant for each t and equals the average level of the stochastic stream of ct):
E
t0
t
((1 ) ct ) 1 E 1
t0
t
(Aet ) 1 1
The value of that satisfies this condition tells us how much compensation (in terms of average consumption) is necessary to make a consumer indifferent between receiving a risky and deterministic stream of consumption. Doing so, Lucas finds that 0.5 · 2. He then looks to the data for estimates of how risk averse are consumers (an estimate of ) and how volatile is consumption (an estimate of 2). Equipped with these estimates, he calculates that 0.0005. In words, this calculation says that, evaluated at empirically plausible levels of risk aversion and consumption volatility, consumers would willingly forgo only one-twentieth of 1 percent of their average consumption to remove all uncertainty about future consumption prospects! Moreover, this calculation appears robust to particular assumptions about the coefficient of risk aversion (see Lucas, 2003: 8). Lucas thus concludes that stabilization policies (beyond those that steadied monetary aggregates and nominal spending in the post-war United States) promise (at most) negligible increases in welfare. Given this small potential, and the difficulties that we encountered with both the classical and Keynesian models of high-frequency movements, one might be skeptical about the capacity for pursuing such an improvement to create net benefits. Others are investigating, however, the potential for stabilization policy to influence welfare not only via its effect on short-term fluctuations but also from its spillover to long-term trends.5 For example, stability could influence an economy’s equilibrium level of ‘growth-promoting’ activities, such as investment. Barlevy (2004) characterizes this potential as follows: Intuitively, eliminating fluctuations reallocates investment from periods of high investment to periods of low investment. Since the marginal return to investment is higher when there is less investment, this allows agents to achieve more growth from the same resources.
And even if this effect is small, its welfare consequences can be considerable in light of compounding growth rates. Indeed, Barlevy’s (2004) model implies that the ‘cost’ of fluctuations equals the value of annually forgoing 8–10 percent of trend consumption (versus 201 percent for Lucas).
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NOTES 1. Notice that this conclusion is especially relevant for monetary policy since, as we just saw, structural evidence on how money relates to real activity appears relatively difficult to develop. 2. Robert Lucas was a graduate student under Milton Friedman’s instruction. 3. This implication is consistent with observations that, rather than breaking down, the Phillips Curve relationship has simply changed its intercept. 4. This model abstracts from one that Lucas develops in his original ‘critique’ (Lucas, 1976, Section 5.3). 5. Note that Lucas (2003) implicitly assumes that dampening fluctuations would not affect the trend rate of growth to which the economy would return.
9.
Is monetary policy active?
To breed an animal with the right to make promises – is not this the paradoxical task that nature has set itself in the case of man? (Friedrich Nietzsche, 1887)
INTRODUCTION The last chapter’s analysis largely argues against activist monetary policy. We saw, for example, that reduced form evidence offers little guidance to activist policy. Moreover, even if policy could fully eliminate business cycles, consumers may place a negligible value on marginal increases in economic stability. The present chapter turns this analysis in a more positive direction. Here, we’ll address the important question of why, despite discouraging arguments against policy activism, monetary authorities can maintain a strong incentive to actively inflate. This paradox emerges from the problem of ‘time inconsistency’: The problem in a nutshell is as follows: The best policy plan has the property that after following the plan for a while, everybody agrees that there is a better alternative than to continuing the original plan. But, if a group of people cannot commit to its original plan, the ex ante best plan [that which initially appeared optimal] is not feasible. (Edward C. Prescott, quoted by Rolnick, 1996)
We’ll argue that the ‘ex ante best plan’ is a policy that produces price stability. Notice, however, that once individuals anticipate such a policy, expectations in the Lucas supply curve are fixed. At this point, the monetary authority has an opportunity to trade inflation for employment (this opportunity does not exist before expectations are formed). Despite the optimality of low-inflation policies, monetary authorities can thus prefer high-inflation policies. It is important to highlight that the problem here is not one of agency. Rather, dynamic inconsistency emerges from the general manner in which bargaining positions change over time. Actions that comprise an initially optimal plan can induce inferior outcomes after other parts of that plan have been implemented. Even for optimal plans, ‘staying the course’ is a fundamentally difficult objective for maximizers since they (by definition) want to re-optimize as the plan rolls out. 87
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To be productive, then, mechanisms that govern money must either dampen the incentive for opportunistically making such changes or increase the cost of acting on that incentive. Our next set of chapters shows that agents who focus more on price levels than on employment or output gaps face a considerably lesser incentive in this regard. This insight implies that societies can better commit to policies that minimize economic fluctuations by delegating monetary authority to an ‘imperfect agent.’ In other words, an imperfect policy agent can do a better job of maintaining price stability than can a more accountable authority. Moreover, received evidence lends support to this implication – that is, economic performance exhibits a strong and positive relationship with central bank ‘independence.’
THE TIME INCONSISTENCY PROBLEM The folk song (as arranged by Led Zeppelin), ‘Gallows Pole,’ nicely illustrates how optimal policies can be inconsistent in the sense that parts of those policies become sub-optimal when the time comes to implement them. Consider, for example, the following excerpt: Accused to the hangman: Hangman, hangman, hold it a little while, I think I see my brother coming, riding a many mile. Accused to the brother: Brother, did you get me some silver? Did you get a little gold? What did you bring me, my brother, to keep me from the Gallows Pole? Brother to the accused: Brother, I brought you some silver, I brought a little gold, I brought a little of everything to keep you from the Gallows Pole. Hangman to the accused: Your brother brought me silver . . . But now I laugh and pull so hard . . . see you swinging on the Gallows Pole!
At least initially, an ‘optimal’ policy for the ‘hangman’ and the ‘accused’ may be for the accused to bribe the hangman and the hangman to free the accused. As the song illustrates, however, the hangman’s most attractive action after receiving the bribe is to hang the accused anyway – that is, the optimal policy is time inconsistent. The game tree shown in Figure 9.1 formally illustrates this inconsistency. Viewed from the game’s initial node, the actions (Bribe, Don’t Hang) induce an ‘optimal’ outcome – that is, an outcome from which no player can be made better off without making the other worse off. However, once the Accused chooses an action (any action!), the Hangman’s best response is to Hang. Even though both players strictly prefer the payoffs that result from
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Is monetary policy active?
Accused
Don’t bribe
Bribe
Hangman Don’t hang
5 0
Figure 9.1
Hangman Hang
1 1 Inferior equilibrium
Don’t hang
Hang
3 3 Optimal outcome
0 5
Optimal policy in the hangman game is inconsistent
(Bribe, Don’t Hang), pursuing their (unconstrained) interests induces the inferior outcome (Don’t Bribe, Hang). More generally, time inconsistency emerges from the inability of (narrow) maximizers to credibly commit against optimizing at each point of a plan’s implementation (even if continually re-optimizing induces an inferior outcome!). This inability stems from actions that comprise an optimal plan being inconsistent with a player’s objective when the time comes to play them. For example, the action Don’t Hang is part of the hangman game’s optimal plan, but when the time comes for the Hangman to choose an action, Don’t Hang produces an inferior payoff. If the hangman is a maximizer, then promises to implement the optimal policy will lack credibility.
THE PROBLEM FOR MONETARY POLICY The problem of time inconsistency implies that, absent opposing institutional forces, maximizers encounter difficulty in committing to optimal policies. Constituents may thus rationally expect sub-optimal actions from their political agents (even perfect ones), and this expectation will be
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fulfilled in equilibrium. Even if a low-inflation policy is optimal, for example, monetary authorities may be unable to credibly commit to such policies. Constituents, in turn will play actions in expectation of a suboptimal monetary policy. In a manner that is qualitatively identical to the hangman game, an economy of maximizers can become stuck at an outcome that everyone agrees is inferior. Seeing this problem’s root will let us carefully consider the efficacy of how monetary authorities organize themselves. Before we turn to that consideration, then, let’s further develop our insight to why optimal monetary policies can be inconsistent. Our investigation will build from an unremarkable game theoretic model where:1 ● ● ●
constituents begin by forming expectations over monetary policy; given these expectations, a ‘benevolent dictator’ chooses policy;2 and this policy choice influences the economy’s level of social welfare.
We can solve this game by starting at its end and moving backward (that is, by employing a method known as ‘backward induction’). Let’s begin, then, by evaluating the dictator’s ‘best response’ to any expectation that its constituents might form. In particular, suppose that our dictator’s objective is to maximize the following measure of social welfare: Z 2 (Y Yn ) 2 where Y denotes (real) aggregate output, Yn denotes the level of output associated with ‘full employment’, and denotes the inflation rate. Qualitatively, the important feature of our measure is that welfare (Z) increases with the economy’s realized output Y and decreases with departures from stable prices (that is, with 0). If monetary policy only affects nominal prices (and thus inflation), then our authority’s optimal policy would be to induce no inflation, and developing the optimal policy would be trivial, at least from a purely economic perspective (that is, 0 would maximize Z without affecting Y or Yn). But previous chapters suggest that monetary policy can influence real activity if it departs from expected policy (that is, to the extent that ( e ) 0 where e denotes ‘expected’ inflation). Let’s consider a richer specification of social welfare, then, that permits just such a departure. In particular, let’s assume that the following specification of the expectations-augmented Phillips Curve adequately captures the relationship between unexpected inflation and fluctuations from output’s natural rate:
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Y Yn ( e ) (Y Yn ) ( e ) Substituting this last expression into our original objective gives us the following measure of social welfare: Z 2 ( e ) 2 Our policy maker thus confronts the problem of choosing a rate of price change to maximize welfare (that is, choose to maximize Z). To solve this problem, note that an ‘optimal’ choice must (by definition) be one from which our dictator has no incentive to change. In other words, the welfare-maximizing choice of inflation, say *, must exhaust all opportunities to increase Z by changing . Satisfying this condition implies that the authority’s optimal choice of inflation must be such that the first derivative of Z with respect to must equal zero (that is, evaluated at an optimal rate of inflation, social welfare must not vary with a small change in inflation). To see this implication, note that choosing from an interval where inflation increases welfare (that is, where Z 0) leaves superior levels of welfare unrealized. Indeed, any where the first derivative of Z with respect to exceeds zero cannot be an optimal choice since choosing a higher rate of inflation would be feasible and increase welfare. Likewise, any from which decreasing inflation would increase welfare (that is, such that Z 0) also forgoes superior levels of welfare. Policy choices that maximize welfare must thus satisfy the condition that changing the choice negligibly affects welfare (that is, choices of where Z 0). The following set of equations thus tells us that, acting ‘as if’ it is a maximizer, our benevolent dictator will choose 1 for any constituentexpectations e. Notice that, even a perfect policy agent’s best choice (that is, *) can induce strictly positive inflation in equilibrium: Z 2 2 0
* 1 Given the dictator’s best response, we can now work back to how constituents form expectations about monetary policy, and what the process of expectation-formation implies for the level welfare that is feasible for societies (that is, the level at which society rests when each of its members rationally pursues its objective).
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Recall that rational expectations do not systematically induce mistakes. Given this definition, and our deduction that even benevolent dictators will choose 1 when the game’s play reaches them (that is, after constituents form their expectations), rational constituents will expect 1 (re * 1).3 We can thus calculate our economy’s equilibrium welfare level (denoted by ZE) as follows: ZE 2 (* re ) (* ) 2 2 (1 1) (1) 2 1 Our analysis thus far can be summarized as follows. First, note that our model assumes away any prospect of political agents imposing ‘inferior’ policies upon constituents as a function of agent-preferences diverging from constituent-preferences. Indeed, we endowed our dictator with the same objective as that of society – that is, maximize welfare. Given this setup, then, and the order of play (that is, constituents set expectations before dictators choose policy), dictators maximize social welfare by choosing a strictly positive inflation rate. Correctly anticipating (on average) that dictators will choose this policy, constituents rationally expect an inflationary policy. Notice the paradox with which this game leaves us – that is, society settles on an inferior policy, even though the dictator’s objective is to maximize social welfare. To see this implication, consider what would have happened if our dictator could credibly commit to a policy of zero inflation (that is, to setting 0). In this case, our constituents would have rationally expected zero inflation (e 0). Consequently, as Figure 9.2 illustrates, society would have enjoyed a level of welfare in excess of what obtains under a non-commital, but benevolent, policy maker (that is, Z|0 2 (00) – (0)2 01ZE). But because payoffs to inflating exceed those to not inflating for any expectation, our benevolent dictator cannot promise
Figure 9.2
e = 0
e = 1
=0
Z=0
Z = –2
=1
Z=1
Z = –1
The optimal monetary policy is inconsistent
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against maximizing social welfare, and society must rest at an inferior equilibrium!4 In addition, note that society cannot ‘rationally’ fool itself by setting e 0. To be sure, each member of society would be better off if everyone else set expectations in this manner. Here, policy makers would continue to choose 1 (inflating is, after all, a dominant strategy) and society would rest at a superior level of welfare (that is, Z|0 2 (1 0) (1)2 1). But each individual could enjoy a higher level of utility by expecting inflation, while letting others irrationally form expectations – that is, individuals maintain homogeneous tastes over social welfare, but heterogeneous tastes over the distributional consequences of policies that can affect welfare. Each member thus has an incentive to cheat on ‘agreements’ to irrationally form expectations. Absent the enforceability of such agreements, members cannot escape the inferior equilibrium that results from time inconsistency.5
NOTES 1. See Barro and Gordon (1983b) and Blanchard and Fischer (1989, Chapter 11) for slightly more rigorous, though qualitatively identical, illustrations of how the time inconsistency problem relates to monetary policy. 2. While this assumption appears to conflict with our maximizing-behavior axiom, we adopt it here to emphasize that the time inconsistency problem does not emerge from inconsistencies between preferences of policy makers and their constituents. Rather, even when preferences are perfectly aligned, actions that appear optimal when considered today can appear sub-optimal when considered at a future date. Moreover, this inconsistency emerges simply from the passing of time, not because the relevant policy environment might change over time. We’ll thus see that, even when our dictator’s constituents would enjoy maximal feasible utility when the price level remains constant (that is, when the dictator chooses a policy of zero inflation), the benevolent dictator will inflate! 3. The subscript ‘re’ denotes ‘rational expectation.’ 4. This type of problem (that is, one in which expectations influence outcomes which, in turn, feed back to influence policy decisions) is a very common one. It arises in a variety of contexts including the economics of patents and copyrights, capital taxation, nominal government debt and even child rearing! 5. Chari et al. (1989) formally highlight this feature of the time inconsistency problem.
PART IV
Governing money
In Part II, we argued that money can enhance welfare by economizing on bartering costs. To realize this potential, however, an economy’s participants must be confident that prospective trading partners will accept nominal exchange media for real goods and services. Indeed, since money does not directly generate utility, maximizers who lack this confidence will not trade consumption possibilities for ‘money.’ Moreover, absent this willingness to trade via nominal exchange media, individuals must revert to barter, and realize an inferior equilibrium. We thus learned that governing an economy’s monetary authority in a manner that promotes confidence in an exchange medium is important for achieving high levels of social welfare. We then saw in Part III that, in addition to influencing levels of welfare, money can also influence fluctuations in an economy’s aggregate output (and even growth in a model like Barlevy’s (2004)). (In Part V, we’ll see that how an economy governs its financial markets can also influence longerterm trends in output.) To be sure, channels through which money influences fluctuations may not have been satisfactorily identified, but persuasive reduced form evidence supports the hypothesis that this relationship is causal. If this relationship largely emerges from changes in unexpected inflation, however, actively managing monetary policy is unlikely to improve economic performance (and, indeed, may diminish it!). Nevertheless, even ‘perfect’ political agents face strong incentives to pursue such policies (recall the problem of time inconsistency). Parts II and III thus help us understand (a) why monetary systems are desirable and (b) why commitment problems can work against their development. In Part IV, we’ll consider how the organization of monetary authorities can insulate policy makers from these discouraging incentives, or increase the cost of acting on them.
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We’ll start in Chapter 10 by quantifying the level of services that monetary authorities produce. Our measure will build on Part II’s insight that exchange media vary in their ‘moneyness’ – that is, the extent to which these media facilitate transacting. In particular, we’ll see that weighting monetary assets by their degrees of moneyness can more accurately characterize an economy’s production of monetary services than can more traditional simple sum measures. Equipped with an understanding of relevant measurement issues, we’ll think about how an economy should govern its monetary authority. To aid this consideration, recall that Part II’s monetary authority is a passive clearinghouse. But had this authority been a maximizer, it would have opportunistically printed ‘pieces of paper’ (POPs) to acquire real goods and services. Indeed, governments that do not have access to well-developed tax systems frequently resort to the ‘printing press’ in just this manner. And because doing so dampens confidence in the capacity for currencies to act as exchange media, individuals must forgo the superior equilibria that are available in well-developed monetary systems. An important part of our argument, then, will be how societies can discourage monetary authorities from substituting increases in nominal money for increases in real taxes. Moreover, recall from Part III that monetary authorities also face a time inconsistency problem in the realm of economic stability policy. To the extent that authorities enjoy discretion when forming stability policy, they can strategically act on temporal changes in bargaining positions. Constituents that anticipate such behavior (those that rationally form expectations) will, in turn, act in a manner that induces less than optimal outcomes (for example, inflation costs without output benefits). In addition to understanding how the governance of monetary authorities should relate to that of fiscal authorities, we’ll thus want to understand how governing monetary authorities can mitigate opportunistic policy actions as they relate to economic fluctuations. We’ll argue that monetary authorities should organize themselves in a manner that diminishes the incentive to pursue discretionary policies or increases the cost of acting on that incentive. Note well that this prescription does not dissuade policy makers from being maximizers. Rather, it improves welfare within the constraints that emerge from maximizingbehavior – for example, maximizers have an incentive to strategically act on changes in bargaining positions. We’ll learn that, by delegating monetary authority to agents whose objectives encourage time-consistent policies, and discouraging the circumvention of that delegation, ‘central bank independence’ (CBI) maintains an attractive capacity to achieve such improvements. Equipped with an understanding of how monetary authorities should be organized, we’ll conclude this set of chapters on a positive note. Our
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objective is to evaluate the extent to which monetary authorities have adopted our prescriptions and the success of CBI where it has been implemented. We’ll learn that CBI shares a strong and positive relationship with economic performance across countries, and consider the efficacy of a particularly influential central bank (the US’s Federal Reserve System) in mitigating the problems of inflation taxes and time inconsistency.
10.
Measuring monetary services
INTRODUCTION Before we can contemplate how monetary authorities are and should be organized, we should understand how to measure (one of) their output(s) – that is, transactions services. We’ll address this issue by arguing that exchange media should be counted as ‘money’ only to the extent that they contribute to an economy’s stock of transactions services. This method of counting differs from more common ‘simple sum’ methods that implicitly treat different forms of money as equally contributing to an economy’s production of exchange services.
SIMPLE SUM MEASURES To measure an economy’s stock of monetary services, authorities tend to use ‘simple sum’ indexes. As their name suggests, these measures add, one for one, the units of exchange media circulating in an economy during a particular point in time. For example, the United States’ Federal Reserve System measures the US money supply at three levels – that is, M1, M2 and M3. Each level, moving from M1 to M3, progressively includes less liquid forms of money. In particular:1 ●
● ●
M1 includes ‘currency in the hands of the public, travelers’ checks, demand deposits, and other deposits against which checks can be written’; M2 includes M1 plus ‘savings accounts, time deposits of under $100 000, and balances in retail money market mutual funds’; and M3 includes M2 plus ‘large-denomination ($100 000 or more) time deposits, balances in institutional money funds, repurchase liabilities issued by depository institutions, and Eurodollars held by US residents at foreign branches of US banks and at all banks in the United Kingdom and Canada.’2
Notice that each measure treats its components as perfect substitutes. For example, M3 treats each monetary unit held in the form of a 99
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‘large-denomination time deposit’ and ‘currency in the hands of the public’ as producing the same level of monetary services. Clearly, however, we can more readily employ currency as an exchange medium than we can time deposits. Indeed, transferring rights over currency’s transactions services can be as easy as physically handing currency to a trading partner, whereas transferring rights over a time deposit may exhaust a far greater level of resources (for example, those associated with having to wait for the deposit’s maturity). In this light, we see that measuring an economy’s supply of monetary services by (at least implicitly) treating each factor as equally productive can upwardly bias our measure and complicate that measure’s comparison over time.
WEIGHTED AGGREGATES By explicitly accounting for monetary assets’ variation in liquidity, weighted sum aggregates can offer a relatively accurate measure of an economy’s stock of monetary services. Barnett (1987) carefully derives the ‘optimal’ weights for a monetary aggregate by examining a model of optimal cash holdings. In short, Barnett builds from microeconomic foundations (that is, the household’s and firm’s maximization problems) the insight that a monetary asset’s ‘user cost’ should determine its weight in a monetary aggregate. While economically intuitive, this insight leaves open the question of how, exactly, to calculate an asset’s weight. Barnett shows that we can measure an asset’s user cost by evaluating the difference between its nominal rate of return and that which commensurate resources would have earned from buying a ‘benchmark asset.’ In other words, to measure an asset’s monetary services, Barnett simply compares the asset’s rate of return to that of an asset that only transfers consumption capacity across time (that is, a pure savings vehicle). Notice that, for maximizers to rationally hold a monetary asset whose rate of return falls short of a benchmark, the monetary asset must produce alternative benefits. And since these benefits are not (by definition) transferring consumption capacity across time, they must come from the asset’s ‘moneyness.’ To understand this method more clearly, let’s consider the weight with which currency would enter Barnett’s aggregate. Note that currency’s nominal rate of return is zero – for example, a dollar stored in your pocket today will still be a (nominal) dollar tomorrow. Rather than physically possessing a unit of currency, however, you could have traded that unit for the ‘benchmark asset’ – for example, purchased a long-term obligation from a stable and productive government. So why would you rationally forgo the return on the benchmark asset?
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A maximizer does so to the extent that currency produces transaction services. And since the opportunity cost of holding currency exceeds that of holding any other monetary asset, we see that currency logically receives the greatest weight in a monetary aggregate. Other assets earn a strictly positive nominal return (that is, a nominal return in excess of that associated with currency), but not as much as does the benchmark asset. These assets thus receive a weight that is less than that of currency but greater than that of the benchmark asset – their value comes from producing monetary services and transferring consumption capacity over time. And since the benchmark asset only transfers consumption capacity over time, it receives zero weight in a monetary aggregate – none of its value comes from acting as an exchange medium. Weighted aggregates can thus offer a relatively accurate measure an economy’s monetary services because they explicitly account for the ‘user cost’ of monetary services. User costs measure the forgone interest (opportunity cost) of holding a monetary asset when a higher yielding benchmark could have been held. Maximizers rationally incur these costs to the extent that monetary assets produce transaction services. Using these costs to weight monetary assets can thus facilitate a more precise measure of an economy’s stock of transaction services.
NOTES 1. Source: Federal Reserve Bank of New York. Accessed 2 April 2008 at http:// www.newyorkfed.org/aboutthefed/fedpoint/fed49.html. 2. Note that M3’s components are unlikely to find direct employment as an exchange medium.
11.
Organizing the production of monetary services
And people wondered, if we can explain the laws of the universe, can’t we explain the principles that should control the government? (Anthony Kennedy, US Supreme Court Justice, 2006 address to the ABA assembly, Honolulu, HI)
INSTITUTIONS AND COMMITMENT We saw in Part III that ‘time inconsistency’ is problematic in that a policy’s optimality is sensitive to when one evaluates it. The policy that appears best before economic agents play actions can eventually appear sub-optimal as the policy unfolds. This change does not emerge from new information revealing itself over time, or from the preferences of policy makers and constituents diverging, but rather from the manner in which past actions change bargaining positions. As such, time inconsistency is a resistant problem that can leave maximizers able to commit to only suboptimal policies. In this section, we’ll investigate how monetary authorities can govern themselves in a manner that expands this set of commitments. Our model of the monetary authority’s problem (see Chapter 9) highlights a potentially fruitful direction – that is, implement governance features that either increase the cost of acting on inflationary incentives (to choose = 1) or discourage the maintenance of such an incentive in the first place. To the extent that authorities successfully implement such features, constituents will rationally expect the socially optimal policy (for example, = 0 in Chapter 9’s model), and monetary authorities will fulfill that expectation. An interesting insight here is that maximizers can do better by increasing the cost of pursuing their incentives, or even fundamentally changing those incentives! Rules and Optimal Contracts Laws (and institutions more generally) can enhance credibility by raising the cost and lowering the benefit from deviating from a given policy. (Drazen, 2000: 134, italics in original) 102
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As the title of Kydland and Prescott’s (1977) seminal paper suggests, a rule-bound monetary authority can rationally choose policies that dominate those of a discretionary authority (even a benevolent one!). Consider, for example, a rule that would proscribe Chapter 9’s monetary authority from ‘inflating’ (that is, choosing the action = 1). Confronted with this rule, our authority might have been constrained to choose policy in a manner that induces a superior equilibrium – for example, one where authorities choose to not inflate and constituents rationally expect this choice. Flexibility and enforceability We emphasize ‘might’ because rules encounter at least two difficulties in mitigating time inconsistency. The first stems from ‘flexible rules’ being able to dominate rigid ones. To be sure, rigid rules can erase a monetary authority’s inflationary bias. But they also preclude an authority from optimally responding to economic shocks. In principle, then, flexibility can enhance welfare. But allowing for flexibility also exacerbates the enforcement problem. A rule-breaking authority might, for example, masquerade as one that optimally draws on flexibility to dampen economic fluctuations. More generally, as flexibility under the rules grows, so do opportunities for rule breakers to disguise their actions. While flexibility enjoys benefits, then, it also creates costs in terms of forgone detection capacity. Who rules the ruler? The second problem stems from the dilemma of ‘who rules the ruler?’ If authorities are maximizers, then we should be skeptical about their incentive to obey rules for which they also act as enforcers. Indeed, breaking the rules can be attractive (for example, doing so might improve one’s election prospects) while punishing oneself is not (at least not immediately). In this manner, the ‘rules solution’ to time inconsistency pushes back the question of how monetary authorities can enhance credibility to the question of how political agents can credibly enforce rules. Repetition and Reputation Our investigation of the time inconsistency problem, and the potential for formal rules to offer relief from it, implicitly rests so far on the assumption that monetary authorities and constituents meet once – they do not engage in ‘repeated interaction.’ Recall, for example, the games we considered in Chapter 9. There, even allowing for dynamics, players enjoyed only ‘one shot’ at each game.
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We may thus be interested in whether time inconsistency remains problematic when constituents repeatedly interact with monetary authorities. Let’s investigate, then, whether time inconsistency is an artifact of our simplifying assumption that players only meet over bounded lengths of time. Offering players the prospect of infinitely repeated interaction makes feasible a much richer set of equilibria than what emerged from our one-shot games. Notice that, if players sufficiently value the future, they can threaten to punish their opponent for deviations from the optimal path, and these threats can be credible. In this case, the present cost that players incur to punish others is less than the consequent future benefits (since those benefits do not receive an overly heavy discount). A monetary authority that gives sufficient weight to future punishments may thus optimally forgo any short-run benefits of inflating. In addition, repetition facilitates the building of reputations. Notice that ‘reputation’ is a vacuous notion for our one-shot games. But in repeated games, players’ actions can reveal information about their otherwise hidden ‘types.’ To develop this insight, suppose that monetary authorities are endowed with one of two immutable types – that is, one that maintains a strong taste for price stability and the other that does not. Suppose also that this information is private – only the monetary authority knows its true type. Then, by repeatedly sending ‘costly signals’ (for example, not inflating, or playing the action = 0 in our Chapter 9 model), a monetary authority can build a reputation as an inflation hawk. Indeed, an authority whose type is truly ‘inflation-averse’ will see the action of ‘not inflating’ as being dominant. To the extent that constituents continue to expect inflation, they will experience the inferior payoff associated with the actions ( = 0, e = 1). Maintaining an expectation for inflation (e = 1) would be irrational in this case (e re). The problem of multiplicity At least on its face, the prospect of repeatedly interacting with a monetary authority offers an escape from the dismal implications of one-shot interaction. But simply allowing for repetition need not induce a superior equilibrium. First, rather than pushing an economy toward superior outcomes, repeating a one-shot game can push an economy toward any outcome. To be sure, as players’ valuations of the future increase, they become increasingly patient, and the set of credible punishments thus grows. But as this set grows, so does the set of outcomes that can be sustained in equilibrium. In the limit, ‘anything can go.’
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The problem of mimicking A second potential problem for our repetition argument is that maximizers can maintain incentives to masquerade as types other than their own – that is, they can strategically manipulate their reputations (see Backus and Driffill, 1985). Realizing, for example, that a reputation for being an inflation hawk can induce constituents to expect price stability, even authorities that do not maintain a strong aversion to inflation want to appear like they do. Indeed, to the extent that a ‘non-hawk’ authority successfully mimics inflation hawks in this regard, it can enjoy the benefits of inflating (since constituents will have expected no inflation). Delegation and Insulation The final, and perhaps most persuasive, governance ‘solution’ that we’ll consider is delegating monetary authority to an insulated bureaucracy. The idea here is a general (though paradoxical) one – a maximizer can make itself better off by delegating authority to an imperfect agent and credibly promising not to circumvent that delegation. Schelling (1980 [1960]: 143) offers a seminal insight to this possibility:1 Just as it would be rational for a rational player to destroy his own rationality in certain game situations, either to deter a threat that might be made against him and that would be premised on his rationality or to make credible a threat that he would not otherwise commit himself to, it may also be rational for a player to select irrational partners or agents.
Vickers (1985: 138) went on to make the following observation: If control of my decision is in the hands of an agent whose preferences are different from my own, I may nevertheless prefer the results to those that would come about if I took my own decisions.
To see this implication, suppose that a firm enjoys market power, but faces the prospect of entry from a competitor. To protect its profits, the incumbent firm’s management might threaten to sharply drop prices upon the competitor’s entry. But such a threat would lack credibility if incumbent management takes profit maximization as its objective – that is, if the firm’s owners hired managerial agents whose objectives align with their own. By hiring ‘imperfect’ managerial agents (for example, managers that focus on maximizing market share), the firm’s owners might better protect their market power and thus realize greater profits than would have been available with a profit-maximizing manager.2 Gibbard (1973) and Satterthwaite (1975) show that the benefits from this sort of strategic delegation are robust to the particulars of Schelling’s (1980
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[1960]) and Vickers’ (1985) examples. Roughly, the ‘Gibbard-Satterthwaite theorem’ says that truthfully revealing one’s preferences is almost never a dominant strategy (there almost always exist opponent-strategies that encourage players to act in a less than ‘truthful’ manner). But notice that delegating authority to a perfect agent can reveal the principal’s true preferences. And since making such a revelation is almost never ‘dominant’ (the best action that one can play, regardless of what one’s opponent does), then hiring a perfect agent can almost never be dominant. Conservative banker Even if it were possible for the principal to appoint an agent with the same objectives, it may not be optimal to do so. That is, in delegating the decision over a specific policy objective, a government may come closer to achieving its preferred objective by having an agent aim for a different objective! (Drazen, 2000: 141, emphasis in original)
In a series of influential papers, Rogoff (1985, 1987) showed that delegating monetary authority to a ‘conservative’ banker can mitigate the time inconsistency problem. Here, society hires an agent whose preference for inflation is considerably weaker than that of the median voter.3 By endowing this agent with the capacity to manage monetary affairs, society can essentially tie its hands against acting on time-inconsistent preferences that would otherwise induce an inferior, discretionary equilibrium.4 Central bank independence To enjoy the superior ‘hand-tying’ equilibrium, however, society must not only delegate its monetary authority, it must do so in a manner that makes circumventing that delegation costly. Delegation per se does not change society’s preferences. Indeed, while the appointed banker might be conservative, the preferences of relevant constituents will not have changed. Hence, if the cost of circumventing the delegation of monetary authority is low enough, then society will continue to act on its time-inconsistent preference. Delegation without insulation does little to move a society away from the inferior, discretionary equilibrium.5
FISCAL VERSUS MONETARY AUTHORITIES The central bank independence (CBI) literature tends to focus on insulating monetary authorities from pressures to mitigate fluctuations. However, a second type of insulation also deserves attention – insulation from fiscal pressures. The time inconsistency problem highlights how electoral
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pressures can induce inferior equilibria via the time inconsistency dynamics. But also recall our model from Part II where a clearinghouse enhances welfare by passively exchanging a nominal currency for real goods and services. To achieve this end, the clearinghouse has to forgo real tax revenues from strategically ‘printing’ money. Optimal CBI thus appears to require insulation from pressures associated with fiscal issues, in addition to those associated with economic fluctuations.6
CBI, INFLATION AND REAL ACTIVITY Drazen (2000, Chapter 5) surveys the literature on CBI and economic outcomes. In doing so, he highlights this literature’s tendency to agree on two findings. First, CBI negatively correlates with inflation (more independence is associated with less inflation), and this correlation is robust to how independence is measured. In addition, Drazen cites countries (for example, Belgium, the Netherlands) where this correlation persists despite CBI coinciding with high levels of political instability and national debt. This persistence increases confidence that the CBI–low inflation correlation evidences causation.7 Second, contributors to this literature find that low inflation from CBI does not increase output-volatility. This finding weakens concerns that price stability requires passivity in the face of shocks that active policy might productively address (for example, a liquidity crisis after terrorist attacks). Taking a more structural approach to developing this second type of evidence may be instructive. Recall, for example, our Chapter 8 discussion of Lucas (2003) and Barlevy (2004). In Lucas’s model, economic fluctuations (evaluated at their current magnitudes) do not weigh much on economic well-being. But this model excludes a channel through which fluctuations can influence growth. And Barlevy (2004) shows that, once we consider such a channel (for example, investment), dampening fluctuations might significantly improve welfare. Consequently, if a cost of central bank independence is, in the spirit of Rogoff (1985), a heightened insensitivity of monetary authorities to the consequences of aggregate shocks, then we should observe a positive relationship between independence and aggregate fluctuations. In turn, to the extent that Barlevy (2004) identifies an empirically relevant channel through which fluctuations influence economic growth, we should observe a negative relationship between such fluctuations, investment and, ultimately, growth. Alesina and Summers (1993) offer evidence that CBI and inflation share a negative relationship, but fail to find a reduced form relationship between
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CBI and real fluctuations or growth.8 On its face, this evidence increases confidence in Lucas’s (2003) modeling assumptions – namely, that mechanisms for propagating fluctuations into growth are sufficiently unimportant to warrant exclusion from formal investigations. However, Alesina and Summers built their evidence from methods that ignore the potential for unobserved heterogeneity (and endogenous regressors more generally) to bias inference.9 They thus acknowledged that their results ‘are not conclusive’ and called for a more careful investigation (Alesina and Summers, 1993: 159).
NOTES 1. Ideas like this one helped Thomas Schelling win the 2005 Nobel Prize in Economics. 2. This example motivates Vickers’ (1985) analysis. 3. In Chapter 12, we’ll see how delegating some of the Federal Reserve System’s authority to ‘district banks’ is consistent with the prescription. 4. Like any other benefit, however, those associated with delegation to a conservative banker come with a cost (for example, agency costs). In particular, Rogoff (1985) shows that, while delegation can reduce inflation, it also sub-optimally raises the variance of employment when supply shocks are large. 5. Driffill and Rotondi (2003) show that re-appointment costs can facilitate commitment in this regard. Persson and Tabellini (1999) argue that forgone reputational benefits represent another such cost. In this light, delegation appears to accomplish more than relocating the time inconsistency problem. 6. Dixit and Lambertini (2003) investigate the nature of this necessity, while Calvo and Guidotti (1993) consider how a consequent loss of flexibility might move an economy away from an optimal inflation tax. 7. See, however, Posen (1993, 1995, 1998), who argues that CBI may simply reflect deeper societal forces (for example, those associated with the distributional consequences of inflation). 8. Grilli et al. (1991) offer corroborating evidence. Other authors who examine how the organization of central banking relates to economic outcomes include Cukierman (1995), Eijffinger and de Haan (1996) and Falaschetti (2002b). 9. Posen (1995) argues that measures of CBI could reflect congealed preferences, and addresses this source of endogeneity by controlling for ‘financial sector opposition to inflation.’ In doing so, he finds that the relationship between CBI and inflation becomes insignificant.
12.
The case of the ‘Fed’
INTRODUCTION Our previous chapters show how an optimal policy can be time inconsistent in the sense that its normative properties change over time. They also argue that delegating authority over relevant policy domains can mitigate this problem. To be sure, delegation does not obviate the time inconsistency problem. Rather, it enhances welfare by increasing the cost for political actors to act on time-inconsistent objectives. In this light, delegation appears to be a good ‘solution’ only to the extent that otherwise opportunistic political principals cannot circumvent the delegation of policy-making authority. The US Federal Reserve System (the ‘Fed’) exhibits several features that increase the cost of circumventing delegation. We’ll examine these features in the present chapter with the objective of better understanding the paradoxical phenomenon that insulating a delegated authority can enhance welfare by diminishing the ‘accountability’ of proximate decision-makers.
DELEGATION The Federal Reserve System includes 12 district banks, each of which has a president, and the Federal Reserve Board (FRB).1 District bank presidents receive nominations from their respective boards of directors and confirmations from the FRB to renewable five-year terms. The FRB, on the other hand, consists of seven ‘governors,’ each of whom receives a nomination from the President and confirmation from the Senate to nonrenewable 14-year terms.2 On a rotating basis, four district bank presidents combine with all seven Board members and the New York district president to become the Federal Open Market Committee’s (FOMC) voting membership. The FOMC, in turn, directly determines ‘monetary policy.’3
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INSULATION In addition to receiving delegated authority over monetary policy, the Fed enjoys considerable insulation from political pressures. For example, it funds operations from interest earned on a portfolio of government securities.4 But rather than being subject to the appropriations process, this portfolio largely accumulates from the Fed’s ‘open market operations’ (that is, the trading of US Treasury securities through which the Fed implements monetary policy). As a consequence, Congress cannot (easily) circumvent its delegation of monetary authority by strategically manipulating relevant bureaucratic budgets. This organizational feature thus diminishes an important channel through which more ‘accountable’ political agents might otherwise influence monetary policy. The Fed receives additional insulation from its governors serving relatively long, non-renewable terms. One governor’s term expires every other year. Each of the seven governorships thus lasts for 14 years. Moreover, governors who serve a full term cannot be reappointed. Consequently, not only does delegation to the Fed receive protection from governors’ terms lasting longer than do those of potentially influential political overseers, it also receives protection from those agents lacking another familiar bureaucratic control mechanism – that is, strategically manipulating the prospect of reappointment.
PERSISTENCE OF POLITICAL INFLUENCE Despite this insulation, we should recognize that relevant institutions do not (and indeed cannot) completely neutralize opportunistic political forces. Rather, potentially important channels remain through which interested actors can breach the delegation of monetary authority. For example, while the prospect of reappointment seldom sways Fed governors, the original appointment process may still be influential. Interested principals might, for example, affect monetary policy by supporting the appointment of governors whose policy preferences are close to their own. In this manner, the policy decisions of a subset of the FOMC (governors more so than district presidents) may be directly subject to ‘ex-ante’ influence. The prospect of Congressional oversight might also be salient since, as Willett and Keen (1990: 17) argue, while changing the ‘rules of the game’ may be costly for Congress, the prospect is large enough for Fed officials to be considerate.5 Recognizing the potential for influence to flow through these ‘residual channels,’ scholars have found evidence that strategic appointments to the
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FRB and Congressional oversight of the FOMC significantly influence monetary policy. This evidence also suggests, however, that the nature of such influence is sensitive to the party of relevant political agents (see Chappell et al., 1993; Tootell, 1996; Caporale and Grier, 1998). As such, it implies that time inconsistency is problematic for only a subset of political principals (for example, Democrats, but not Republicans, maintain an inflationary bias). Recall the implication of our time inconsistency game, however – to the extent that political agents maintain the same objective as do electoral principals, all agents will maintain an inflationary bias. Here, instead of varying with who is in office, the prospect of realizing an inflationary bias varies with the cost for political agents to act on that bias. Falaschetti (2002b) developed evidence to this effect. In particular, he showed that elected political agents’ (for example, presidents, senators) capacity to influence US monetary policy can be sensitive to whether the same party controls both the executive office and Senate. When either party controls both branches, ‘looser’ FRB governors receive appointments, and incumbent governors tend to favor looser policy. District bank presidents, on the other hand, appear to be relatively insulated from these pressures. This extension is important because it highlights how potentially reproducible organizational features,6 such as increasing the number of ‘veto players’ through which an appointment must pass, can facilitate the insulation of monetary policy from opportunistic political forces.
NOTES 1. District banks reside in Boston, New York, Philadelphia, Cleveland, Richmond (VA), Atlanta, Chicago, St Louis, Minneapolis, Kansas City, Dallas and San Francisco. 2. Board members cannot be fired, forced to resign, or voted out of office (Waller, 1992: 415). 3. The FOMC meets eight times per year to determine monetary policy. ‘Monetary policy’ refers to actions that ‘influence the availability and cost of money and credit to help promote national economic goals’ (the Federal Reserve Board, accessed 21 September 2004 at http://www.federalreserve.gov/FOMC/default.htm). 4. Residual earnings from this portfolio represent seignorage in the sense that the Fed transfers them to the Treasury (the US fiscal authority). 5. This potential for ex-post influence appears to gain strength from the incentives of oversight committee members. For example, Gilligan and Krehbiel (1987) argue that, if not for the ability to parlay strategic advantages into disproportionate influence, legislators would have little incentive to spend time on committee work. 6. Notice that having one party or the other control a legislature or president is not an easily reproduced institutional feature.
PART V
Intermediation, governance and economic performance
We learned in Parts II–IV that a nominal asset, ‘money,’ can influence real activity (levels of wealth and fluctuations therein), and thus began to see why economic performance is sensitive to how societies govern their monetary services. These services can, for example, expand consumption possibilities by economizing on the cost of transacting at a point in time – the cost of trading in spot markets. To realize this potential, however, a society must organize its monetary authority in a manner that discourages strategically acting on changes in bargaining positions to either raise real taxes or dampen economic fluctuations. We’ll extend this analytical approach in the following chapters to understand how societies produce ‘financial intermediation services,’ and why strong economic performance further depends on whether these services govern individually rational actions in a manner that expands social opportunities. Recall that we motivated our examination of money by critically evaluating an assumption on which a principles-level model of households rests – transacting in spot markets negligibly exhausts resources so that bartering is costless. In motivating our examination of financial intermediation, we’ll examine a similar assumption on which a principles-level model of the firm rests – transacting over time negligibly exhausts resources. A principles-level model characterizes firms as maximizing profits by choosing inputs from an unbounded domain (see our review of the firm’s problem in Chapter 3). But just as households incur costs when trading endowments for more preferable consumption bundles (see Part II), firms incur costs when attempting to employ production factors that can increase profits. We’ll thus see that, just as money and its governance are important for mutually beneficial trades at a point in time, financial intermediation
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and its governance are important for mutually beneficial trades across different periods. We’ll develop these insights by extending our simple model of the firm to see what happens when firms cannot freely choose production factors. This investigation will teach us that, when firms are ‘cash constrained’ (that is, they lack direct control over resources that are necessary to hire production factors), they have an incentive to borrow from those who are ‘resource rich,’ but ‘project poor.’ (We’ll characterize economic actors as being ‘project poor’ if employing resources in immediately accessible projects would generate a smaller product than is technically possible from external projects.) Moreover, to the extent that borrowing firms can credibly share consequent increases in output, resource-rich but project-poor financiers have an incentive to lend resources. A principles-level model implicitly assumes that governing this type of exchange is costless. This assumption cannot hold, however, in a world of maximizers. Notice that maximizing borrowers have an incentive to upwardly bias their disclosure of a project’s expected productivity. In addition, once these borrowers obtain a capital market’s proceeds, they have an incentive to pursue projects that are more risky or less productive than those in which their own resources might be invested. Unless an economy can mitigate these difficulties (‘adverse selection’ and ‘moral hazard,’ respectively), prospective borrowers and lenders will rationally forgo otherwise mutually beneficial trades. Just as we learned in Part II that bartering costs foreclose mutually beneficial trades when welldeveloped monetary systems are absent, we’ll learn in Part V that the cost of transacting across time discourages mutually beneficial trades when financial development is lagging. Financial development can thus expand a society’s economic opportunities. But while such development creates widespread benefits, we should also appreciate its capacity to create politically powerful losers. This political-economic phenomenon has an analog in forces that work against efficiency in the monetary sector (see, for example, Part IV). Indeed, just as politically feasible mechanisms for producing monetary services must respect distributional constraints, so must politically feasible mechanisms for producing financial services. These constraints can be obstinate, however, since even an improved education about financial services may not change a) individual preferences over the distribution of more general progress or b) technologies with which interested individuals produce political pressure. We’ll thus conclude that, while well-developed systems of money and financial intermediation can facilitate strong economic performance, even the most advanced economies must resist political forces that constantly work against expanding opportunities.
13.
Asymmetric information
INTRODUCTION Consider, once more, our most simple model of the firm (see Part 1). In this model, firms maximize profits by employing production factors from an unbounded set. By positing that choice-sets are unconstrained, however, this model implicitly assumes that production factors costlessly move to their highest valued use, and thus abstracts from the potential for financial markets to influence economic performance. Just as we saw in Part II that goods and services do not costlessly move to their highest valued use (that is, bartering is costly), we’ll see in the present chapter that financial capital does not costlessly move to its highest valued use. Indeed, just as bartering deters even mutually beneficial trades by creating frictions in goods markets, asymmetric information discourages such trades by introducing frictions to financial markets. Likewise, just as money can enhance economic welfare by mitigating costs associated with bartering, financial intermediation and corporate governance can enhance welfare by mitigating costs associated with asymmetric information. A slightly richer model of the firm will help us develop this insight. Suppose that, instead of choosing from an unbounded set of factors, firms face a ‘cash constraint’ where limited internal resources preclude the hiring of factors that would maximize profits. In Figure 13.1, for example, the firm’s current assets might limit the employment of inputs to X , even though hiring inputs up to X* would increase profits. Even a cash-constrained firm can be a maximizer, however. Consequently, if it could expand production (and thus increase profits) by borrowing resources, it would. Moreover, if it could employ those resources more productively than could a prospective lender, then the lender would be better off employing its resources in the firm and receiving a share of the increased total product (that is, the difference between profit levels ‘1’ and ‘0’ in Figure 13.1). Both the cash-constrained firm and project-constrained lender can thus enjoy superior economic opportunities by having financial capital flow to its highest productivity use. A principles-level model implicitly assumes that this migration occurs without consuming resources. We’ll see in the present chapter, however, that even though trading capital can create mutual benefits, prospective 115
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Outputs Profit (1) + Input price * X Production possibilities frontier Y* Profit (0) + Input price * X Profit (1) Y– Profit (0) Figure 13.1
X–
X*
Inputs
Cash-constrained profit maximization
beneficiaries must overcome considerable frictions. Notice that maximizing borrowers have an incentive to both misrepresent their projects’ potential productivity (that is, ‘adversely select’ themselves into the pool of attractive borrowers) and employ borrowed capital in a less than optimal manner (that is, act in a ‘morally hazardous’ manner). Unless institutions exist to discourage such actions, lenders will thus hold back on supporting what might otherwise be profitable projects.
ADVERSE SELECTION (THE LEMONS PROBLEM) Left unchecked, two types of information asymmetries will leave firms with a ‘binding’ cash constraint – that is, having to choose factors from a bounded set, like X in Figure 13.1. We’ll refer to this first type of asymmetry as ‘adverse selection’ and the second as ‘moral hazard.’ Adverse selection refers to a consequence of information being asymmetrically distributed before a transaction takes place. To see how this asymmetry can discourage mutually beneficial trades (for example, those that would relax Figure 13.1’s cash constraint), let’s consider a celebrated example from the automobile market. Suppose that only two types of automobiles exist, ‘high quality’ and ‘low quality’ (or ‘lemon’), and to ease reference, let’s label these types h and l,
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respectively.1 In addition, let’s assume that the ‘true value’ of h-types is $100, the true value of l-types is $0, and there exists an equal number of hand l-types. Finally, notice that an automobile’s owner likely enjoys better information about his or her auto than does a prospective buyer – information asymmetrically distributes itself before the transaction takes place. Hence, let’s also assume that the seller’s information advantage lets him or her know the true value of any automobile that he or she might sell, while it lets the buyer see only the average value of automobiles that a market makes available. From this set-up, we can see how information asymmetries promote the ‘adverse selection’ of l-types into the market (and thus discourage what could be mutually beneficial trades of h-types). To begin, consider how buyers calculate the average value of automobiles and how suppliers respond to that valuation. If the distribution of marketable automobiletypes is independent of how prospective buyers value the ‘average automobile,’ then the average value of tradable automobiles would be $50 in our example (since we assumed that an equal number of h- and l-types exists). But also notice that this independence opposes the axiom of maximizingbehavior. Indeed, if automobile demanders are willing to pay $50 for any automobile that a seller presents, then owners will only sell l-types. Under such conditions, the market for h-types must unravel. Notice that selling an h-type for $50 creates a $50 loss for its owner. But the owner is a maximizer and ‘knows’ the type of car that he or she is attempting to sell. Consequently, only owners of l-types are willing to sell autos when demanders are willing to pay $50. Moreover, if only l-types ultimately make their way to the market, then the average value of automobiles that are available for trade is not $50, but rather $0. In the end, demanders are willing to pay $0 for any car that makes its way to the market and suppliers are only willing to sell lemons! In this light, the popular apprehension about used cars’ quality appears well-founded. But used cars are not special in making adverse selection problematic. Indeed, adverse selection creates difficulties in numerous markets, including those for labor, insurance, and yes, financial capital. For example, notice that just as a used car’s owner likely enjoys superior information about that car’s quality, a firm’s manager likely enjoys superior information about the firm’s prospects. In particular, managers can likely access superior information about how productive are new inputs (that is, the production function’s slope when evaluated at Figure 13.1’s cash constraint X ). This informational advantage, in turn, can encourage ‘low quality’ projects to adversely select themselves into capital markets. As in the automobile example, relatively well-informed sellers will not trade highly remunerative
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financial assets (rights to share in the product of newly employed inputs) at prices that reflect only average quality. To conclude this discussion, let’s be careful about why this insight into the lemons problem is so important. The lemons problem does not condemn markets to trading only lemons. Rather, it shows that institutions are necessary to facilitate mutually beneficial trades when persistent pressures exist for markets to unravel. In our following two chapters, we’ll investigate how societies can organize financial intermediaries and govern corporations to enjoy the expanded opportunities that such trades make feasible.
MORAL HAZARD Before moving in this direction, we conclude the present chapter by establishing how a second type of asymmetric information can create (welfare-reducing) capital market frictions. Adverse selection refers to how information asymmetrically distributes itself before a transaction takes place. But information remains asymmetric even after a transaction takes place, and can thus continue to discourage mutually beneficial trades. We’ll refer to this second type of asymmetry as ‘moral hazard’ and see that it too can leave firms with binding cash constraints. Like adverse selection, moral hazard affects myriad economic sectors. Consider, for example, the insurance industry and notice that, after an individual buys insurance, the insurer cannot perfectly monitor its client’s actions. Insurance-buyers have better information than do sellers after the transaction takes place. Moreover, equipped with this informational advantage and insulated from insured losses, buyers will act in a more risky manner than they would have without coverage. For example, to the extent that monitoring others’ driving habits is costly, maximizers drive faster with automobile insurance than without it. Insured drivers benefit from driving faster (for example, the value of time that is saved), but pass some of the associated costs onto insurers (for example, the value of an expected claim). A similar phenomenon plays out in financial markets. Just as insured clients have an incentive to play morally hazardous actions (actions that strategically exploit ex post informational advantages), borrowers have an incentive to pass their actions’ costs onto financiers. Figure 13.2 illustrates how opportunistically investing in risky projects works toward this objective. Borrowers can enjoy the upside potential of projects while passing downside risks off to lenders. Moreover, to discourage borrowers from acting on this incentive, lenders must forgo alternative opportunities. Absent institutions that efficiently weaken borrowers’ opportunistic incentives, or constrain
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Figure 13.2
Moral hazard
Demander of loanable funds ignores increased cumulative probability of realizing a ‘large’ loss
0
Probability
‘Safe’ payoffs
Project payoff
‘Risky’ payoffs
Demander of loanable funds enjoys increased cumulative probability of realizing a ‘large’ payoff
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the ability to act on those incentives, financiers will thus forgo otherwise mutually beneficial transactions. Here, again, the problem of asymmetric information can leave firms with a binding cash constraint, and thus shrink an economy’s opportunities.
NOTE 1. A recent Nobel Prize-winner, George Akerlof from the University of California at Berkeley, is frequently cited as bringing the problem of asymmetric information to social scientists’ attention. Indeed, Akerlof’s (1970) seminal work resulted in the adverse selection problem being referred to as the ‘lemons problem.’
14.
Financial intermediaries and their governance
INTRODUCTION Recall from Part II that the cost of bartering discourages goods and services from moving to their highest valued uses. And while ‘money’ can economize on these costs, a sound monetary system must continually resist political forces that threaten efficiency (for example, those associated with time inconsistency problems). By carefully identifying these influences, we set the stage for investigating how societies organize their monetary authorities and how these organizational mechanisms relate to levels of wealth and fluctuations therein. Chapter 13 similarly sets the stage for our investigation of how societies organize their financial markets, and why success on this margin strongly influences economic performance. Just as Part II highlights the costs of barter to motivate the importance of money, Chapter 13 highlights the costs of ‘lemons’ adversely selecting themselves into financial transactions, or individuals acting in a morally hazardous manner, to motivate the importance of financial intermediation and corporate governance. In that chapter, we saw that reducing information asymmetries can expand economic opportunities for both suppliers and demanders of financial capital. Strong incentives can thus exist for market participants (suppliers and demanders of loanable funds) to mitigate asymmetries in a cost-effective manner. In the present chapter, we’ll evaluate how the incentive for proximate suppliers to mitigate asymmetries relates to the organization of financial intermediaries, and what this incentive implies for the efficacy of financial regulation.1 This investigation will show how suppliers can facilitate the productive flow of financial capital by encouraging demanders to reveal otherwise hidden information. It will also carefully identify opportunities for regulation to improve upon such market discipline. Finally, we’ll see that while financial intermediation can expand economic opportunities, it can also affect the distribution of realized benefits. These distributional consequences can (and frequently do) create political forces 121
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that discourage societies from pursuing efficient financial mechanisms. While intermediaries may enhance economic welfare by mitigating information asymmetries, fundamental political obstacles can thus restrict societies to economically inferior outcomes.
ADVERSE SELECTION AND FINANCIAL STRUCTURE Intermediaries employ a number of ‘mechanisms’ to mitigate information asymmetries and thus encourage financial capital to migrate toward more productive uses. While varied in their empirical realization, these mechanisms share a fundamental property – they encourage maximizers to truthfully reveal what would otherwise be hidden information. In short, successful mechanisms ask prospective borrowers to take actions that are cost-prohibitive for lemons, thereby creating an observable ‘separation’ between lemons and non-lemons. At least in principle, mechanisms can treat the source of adverse selection – that is, the propensity for ‘good’ and ‘bad’ types to pool themselves into apparently homogeneous groups. To see how such mechanisms work in practice, let’s consider the widespread requirement that borrowers post collateral. Suppose that you manage an intermediary in which two potential borrowers, A and B, present themselves. Suppose also that agent B maintains a greater appetite for risk than does A, but information about risk-appetites is ‘private’ (you cannot readily observe it). This model lets us see how asking for collateral encourages demanders of loanable funds to truthfully reveal their risk-appetites. Notice that, ceteris paribus, the probability that the high-risk agent (B) ultimately defaults exceeds that of the low-risk agent (A). Consequently, B’s expected cost of posting collateral is greater than that for agent A – that is, (PB C) (PA C) where Pi denotes the probability that agent i defaults and C denotes the cost of defaulting. Low-risk agents can thus distinguish themselves by being more likely to accept collateral requirements than are highrisk agents. At least on their face, mechanisms such as collateral requirements can appear punitive. Prospective borrowers frequently argue, for example, that they wouldn’t demand loanable funds if they already commanded the necessary resources for collateral. We see now, however, that such mechanisms can promote efficiency. To be sure, empirically interesting mechanisms like collateral must err in characterizing some truly productive borrowers as lemons. However, they can more than offset such mistakes by identifying
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would-be lemons, and thus facilitate mutually beneficial trades in markets that can unravel from adverse selection.
MORAL HAZARD AND FINANCIAL STRUCTURE The contract between shareholders and the manager leaves the latter a lot of discretion because the manager has the knowledge and the ability to run the company. The consequence is that the manager may engage in all kinds of behavior that are detrimental to the firm: pure theft (for example, by setting up a company and using transfer pricing to appropriate funds); enjoying private benefits of control (perks, pet projects, empire building, and favoring friends and family); entrenchment (to protect the private benefits of control); exerting insufficient effort; and taking biased decisions (too much or too little risk taking, for example). (Vives, 2000: 4)
As Vives (2000) suggests, a principal-agent problem emerges from separating a firm’s ownership (by stockholder principals) from its control (by managerial agents). Indeed, given our axiom of maximizing-behavior, we expect managers to exploit information asymmetries for their own benefit – that is, to play ‘hidden actions’ that disproportionately benefit themselves at other stakeholders’ cost. In Chapter 15, we’ll look at how markets can discipline corporations (demanders of financial capital) to check this type of moral hazard. In the present chapter, we want to understand how suppliers of financial capital can structure transactions to check the consequences of this type of asymmetric information. Recall that moral hazard emerges from the incentive for demanders to take on ‘too much’ risk, or play unproductive actions, after acquiring the proceeds of a financial market transaction. Here, managers can participate in a project’s net benefits while limiting their exposure to any losses. To mitigate this problem, intermediaries may require borrowers to maintain a minimum level of net worth, and thus expose demanders of financial capital to their activities’ downside risk.2 They may also impose ‘restrictive covenants’ that increase the marginal cost for demanders to act in a morally hazardous manner.3 Even the cost of restructuring debt agreements can help in this regard. For example, while institutions that simplify debt restructurings can reduce financial distress, they also encourage moral hazard by reducing the expected cost of such behavior. Eichengreen and Mody (2004) find interesting evidence of this effect – in the presence of ‘renegotiationfriendly loan provisions,’ borrowing costs are significantly lower for ‘creditworthy’ demanders than they are for less worthy borrowers. This relationship supports the hypothesis that the increased risk of moral
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hazard among less worthy demanders offsets the lower cost of settling realized renegotiations.
INTELLECTUAL PROPERTY PROTECTION AND FINANCIAL STRUCTURE In principle, financial intermediaries can bolster economic performance by reducing information asymmetries and thus freeing loanable funds to find more productive uses. To generate this expansion of economic opportunities, however, intermediaries must also privately benefit.4 In addition to developing mechanisms for checking information asymmetries, then, an intermediary must organize itself with an eye toward protecting the product of its effort (for example, information about the demanders of loanable funds). The observed tendency for intermediaries to ‘privately place’ loans reflects this organizational strategy. Notice that, because restricting informational benefits to those who produced them is costly, the incentive for decentralized maximizers to mitigate the lemons problem can be weak. Indeed, faced with the prospect of producing information about borrowers and having that information become readily available to others, maximizers will attempt to free ride on each other’s efforts.5 Intermediaries can structure themselves in a manner that reduces this problem. Suppliers of loanable funds, for example, frequently make those funds available via ‘privately placed’ debt (as well as ‘private equity’). In doing so, they insulate themselves from the disclosure requirements of public exchanges, and can thus internalize more of the benefits that their governance services produce (see James, 1987; Lummer and McConnell, 1989; Metrick, 2007). This incentive goes far in rationalizing why privately placed debt constitutes an overwhelming share of even large firms’ external funds (Mayer, 1990; Houston and James, 2001).
ILLUSTRATION: BANKS AS DISTINCTIVE INTERMEDIARIES We now have a firmly grounded model of how intermediaries can check information asymmetries. To more clearly see what this abstraction implies for financial organization, let’s evaluate how it explains the organization of an important type of intermediary – banks. This application will illustrate how the organization of banks (and related intermediaries) creates advantages for mitigating information asymmetries and thus why economic
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performance appears so sensitive to how societies produce and regulate banking services. The Firm’s Financing Decision Different forms of financing may not be equivalent when managers have inside information about a firm’s prospects (that is, when asymmetric information exists). Consider what happens when a firm announces its desire to issue new securities. On one hand, this announcement might signal a firm’s profitable investment opportunities. Alternatively, it might represent the firm’s attempt to exploit an informational advantage (for example, managers, but not outsiders, may have information that earnings are less than expected). Market participants may thus impose a ‘lemons’ discount on the issuance of new securities. James and Wier (1988) offer evidence that just such a problem plagues attempts at direct finance – markets react negatively to announcements of new security issues. An important question thus becomes how ‘good’ firms can separate themselves from such reactions when attempting to finance new projects.6 Bank Loans’ Informative Role The organization of banks can facilitate this separation. By repeatedly putting bankers in close contact with demanders of loanable funds, the process of ‘relationship’ banking can generate information that is not readily available to others. A bank’s decision of whether to lend may thus convey better information about a firm’s investment prospects and creditworthiness than would the firm’s own announcement to issue new securities. This theory of banks as ‘special’ generators of information creates several observable implications. For example, the value of a firm’s securities should rise when it reaches a bank loan agreement. James and Wier (1988) find evidence of just such a reaction – client stock prices significantly increase after banks announce new loan agreements. No such increase is evident, however, after non-bank intermediaries announce new agreements. Moreover, consistent with a willingness to pay for such ‘certification services,’ banks appear to command significantly higher (risk-adjusted) prices for loanable funds (Fama, 1985). Are Banks Better Evaluators of Information? Evidence that we’ve summarized so far does not differentiate between two hypotheses about the special role that banks play in capital markets – that
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is, are banks simply better than other intermediaries at evaluating firms’ prospects, or do banks have access to information that other outsiders do not? Lummer and McConnell (1989) address this question by looking at how reactions to new and revised loan agreements differ, and finding evidence of more information in announcements of revisions.7 This evidence is particularly strong for cancelled or reduced agreements where lenders initiate revisions (Lummer and McConnell, 1989: 107, Table 3). Lummer and McConnell (1989) thus conclude that banks have no comparative advantage in evaluating risky lending opportunities, but do have special access to private information that emerges from ongoing relationships.
GOVERNING FINANCIAL INTERMEDIATION In Parts II and III, we learned that well-developed monetary systems ease the way for goods to find higher-valued uses, and then investigated in Part IV how an economy’s governance features should and do contribute to the production of monetary services. We now understand that economic wellbeing also depends on a society’s capacity to produce intermediation services, and are thus similarly interested in how those services should be governed and why societies frequently depart from our normative prescriptions. We conclude our investigation of financial intermediation by addressing this important political economy question. Asymmetric Information, Systemic Risk and Prudent Bank Regulation If information is asymmetric between demanders and suppliers of financial capital in general, then asymmetries must also exist between intermediaries and their financiers (for example, depositors). Moreover, because this type of asymmetry can create risks for the financial system (that is, risks that are ‘external to particular intermediaries’), market discipline may leave open welfare-enhancing governance opportunities. We’ll consider such opportunities in this section’s remainder. We’ll also uncover a discouraging analog to the governance of money – financial regulators, like their monetary counterparts, face persistent pressures to pursue redistributive policies. In this light, regulatory crises appear capable of repeating themselves despite ‘lessons learned’ from past episodes. Adverse selection Following numerous ‘bank runs’ during the Great Depression, the US adopted a system of deposit insurance. To see this system’s economic rationale, suppose that you own uninsured deposits. Suppose also that a bank
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similar to yours experiences a ‘liquidity crisis’ – that is, demands to return deposits exceed the bank’s immediate capacity. Observing this crisis, you might rationally downgrade the expectation of your own bank’s integrity, and thus withdraw your own deposits. If enough depositors take such actions, however, then the original ‘crisis’ can spread to your and other banks – even if they are solvent. Moreover, if the cost of liquidating assets is high enough, then liquidity crises can turn into solvency crises. In this case, banks cannot make depositors whole, even if they sell all of their assets. Depression-era economies may have realized just such a scenario. The resulting loss of intermediation services, in turn, appears to have been an important factor in producing such a large economic downturn. Deposit insurance can check this source of economic fluctuations. To see how, return to our example, but suppose that your deposits are insured. In this case, new information about another bank’s liquidity crisis is less likely to encourage a ‘run.’ After all, even if you suspect that your bank is less sound, the existence of deposit insurance reduces your exposure to realizing that expectation. In this manner, deposit insurance can enhance economic performance by checking the potential for information asymmetries to act as seeds for ‘financial contagion’ in otherwise sound systems. Moral hazard This benefit comes with several costs, however. For example, notice that deposit insurance not only checks the incentive for depositors to ‘run’ on banks, it also discourages them from monitoring banks’ investment activities. Indeed, to the extent that deposits are insured, maximizers will shop for the highest yields without regard to how risky are the underlying assets. In turn, intermediaries may enjoy expanded opportunities to play morally hazardous actions. Financial regulations, such as those that restrict the scope of an intermediary’s operations, require minimum levels of capital, and subject covered intermediaries to audits, may thus be necessary for a sound system of deposit insurance. Repeated Regulatory ‘Mistakes’ The regulatory prescriptions outlined above are well known. Nevertheless, even well-developed financial systems repeatedly experience crises from ignoring them. This pattern suggests that persistent political forces not only work against financial advances, they also constantly threaten development once it is achieved. Instead of relying on ‘lessons learned,’ sound financial policy appears more likely to emerge from addressing obstinate political constraints.
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The US savings and loan crisis To see how regulation can (and often does) promote something other than an efficient outcome, let’s look at how US regulators should have addressed problematic savings and loan organizations (‘thrifts’) in the 1980s. Our investigation will benefit from modeling deposit insurance as a ‘put option.’8 A put option gives its holder the right to sell an asset at a prespecified price (the ‘strike price’). Acting on this right (‘putting’ the asset to the contract’s seller) constitutes an ‘exercise’ of the option. Deposit insurance offers financial institutions an option to transfer liabilities to the insurance contract’s underwriter (for example, the Federal Deposit Insurance Corporation). This option reaches its strike price when the value of a financial institution’s assets decreases to that of its liabilities. Past this ‘price,’ the financial institution cannot fulfill its depositors’ claims, and thus puts those claims to the insurance agency. Figure 14.1 illustrates this feature of the deposit insurance contract, as well as those that we introduce below. When the deposit insurance contract is ‘in the money’ (that is, after the price of the underlying asset reaches its strike), the option clearly creates value for depositors. This value emerges from the insurance contract Value of put option to low-risk thrift
Value of insurance Value of put option to high-risk thrift Increased premium under capital-based pricing
Value of put option to depositors
45º Increased net worth requirement under fixed price contracts
Figure 14.1
Put option analysis of public insurance crises
Net worth
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making depositors whole for any shortfall in the financial institution’s assets. The 45-degree curve in Figure 14.1 represents this value – the insurance contract pays off, dollar for dollar, for each dollar of insolvency that the intermediary realizes. The contract also creates value for the financial institution, whether or not it is in the money. This value emerges from letting intermediaries enjoy the upside potential of their investments while mitigating the downside risk. Absent such protection, depositors would demand an increased default risk premium, and thus increase an intermediary’s cost of funds. The intermediary’s option value is greatest when its net assets equal zero (that is, when the option is ‘at the money’). At this point in Figure 14.1, the intermediary puts all losses to the insurer, but retains the right to all gains. As net worth decreases below zero, the put option’s value also decreases. Over this range, the option’s value (to the intermediary) depends on how likely the intermediary is to ‘resurrect’ itself. As net worth becomes more negative, this likelihood diminishes. In a symmetric manner, the option’s value also diminishes as an intermediary’s net worth grows more positive, since the chance of putting depositors’ claims decreases. Finally, holding all else constant, the intermediary’s valuation of the put grows with the risk of its asset portfolio. For any level of insurance premium or net worth requirement, the financial organization can increase the value of insurance by taking on more risk. Indeed, such a strategy lets organizations enjoy the increased potential for upside gain while transferring increased downside risks to the insurer. Figure 14.2 illustrates this phenomenon. We can now employ our model to see why regulatory responses to the 1980s’ savings and loan crisis diminished economic performance and, more importantly, why efficiency-enhancing regulation must constantly resist political forces that promote such crises. The proximate cause of the crisis appears to be a rapid increase in nominal interest rates. Because savings and loans tended to fund long-term investments with short-term deposits, this increase caused the value of loans from low interest rate periods to plummet and the cost of capital to increase. The net worth of savings and loans rapidly decreased as a consequence, pushing their put option contracts toward or into ‘the money.’ As Figure 14.2 illustrates, an optimal regulatory response would have raised deposit insurance premiums, increased capital requirements, and in any event, restricted the moral hazard that deposit insurance encourages.9 Instead, regulators lowered net worth requirements, maintained deposit insurance premiums while increasing coverage and weakened both accounting standards and monitoring efforts. Moreover, rather than being attributable to remediable ignorance, this failure appears to have emerged from more
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Figure 14.2
0 K
A put option’s value increases with the underlying asset’s risk
The high-risk intermediary is more likely to put the depositors’ claims than is its low-risk counterpart
Probability
Net worth
Distribution of probabilities for low-risk intermediary
Distribution of probabilities for high-risk intermediary
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obstinate political pressures. Indeed, regulators’ actions (and those of their overseers) tended to concentrate benefits on politically influential constituents while diffusing associated costs. While such transfers, and even their prospect, diminish economic performance, their political attractiveness lets them resist even considerable public outrage. A looming pension crisis?10 To better appreciate this resistance, let’s apply our model to an emerging US crisis with defined-benefit pension programs. Defined-benefit plans compensate retirees through specified monthly benefits, which tend to vary with salary and years of service. The Pension Benefit Guaranty Corporation (PBGC) guarantees most of these plans, and funds itself with premiums from the plans’ private-sector ‘sponsors’ (that is, employers). When an employer experiences financial distress, the PBGC may take control of the plan’s management and use the plan’s assets and its own funds to pay retirees a capped portion of promised benefits. The same types of problems that plagued savings and loans, however, can also create difficulties for the public insurance of pensions. In particular, market fluctuations appear to have interacted with rules that govern how employers participate in the defined-benefit system to weaken PBGC’s ability to fulfill its obligations. Decreasing interest rates and stock market valuations, coupled with the exposure of pension plan assets to market fluctuations, coincided with a marked increase in the underfunding of defined-benefit plans. For privately sponsored pensions, the value of assets to fund retirement obligations thus began to decrease in 2000 while the value of promised benefits began to increase. The total underfunding of private pension plans grew from less than $50 billion at the end of 2000 to over $400 billion in 2006. At the same time, PBGC’s capacity to insulate workers from employer defaults turned from a $10 billion surplus in 2000 into a deficit that now totals more than $20 billion. The same types of regulatory reforms that could have mitigated the savings and loan crisis should also be a part of pension reforms. Recent legislation, however, loosely ties pension insurance premiums to relevant risks, weakly encourages sound levels of net assets and ignores restrictions on the risks that insured portfolios can take. Rather than reflecting any ignorance of economics, this crisis may instead reflect more obstinate political forces that work against economic efficiency (for example, those that emanate from the incentive to pass private costs onto others). Glass-Steagall’s efficacy and implications for corporate governance reforms In addition to advancing the ‘public’s interest’ (for example, by checking systemic risks), centrally produced governance services can be captured to
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advance narrow interests at the public’s expense. Given this realization, one might be curious about the extent to which market discipline, by itself, can encourage private agents to govern themselves in a socially optimal manner. Kroszner and Rajan (1997) address this issue by looking at the organization of historical ‘universal banks.’ Universal banks can enjoy scope economies from jointly producing ‘commercial’ and ‘investment’ services.11 In doing so, however, they confront an important conflict, which Kroszner and Rajan (1997) characterize as follows: If a bank had private bad news about a firm it had lent to, it could use its underwriting arm to certify and distribute securities on behalf of the firm to an unsuspecting public and have the firm use the proceeds to repay the outstanding bank loan.
Left unchecked, this conflict would curb a financial system’s productivity by creating a lemons problem. The Glass-Steagall Act of 1933 attempted to diminish this conflict by prohibiting the joint production of commercial and investment banking services. In doing so, it facilitated mutually beneficial trades of financial capital by increasing the cost for intermediaries to strategically act on informational advantages. Indeed, by checking the lemons problem that might have otherwise plagued primary markets for underwritten securities, the Act encouraged loanable funds to migrate toward more productive applications. But like all benefits, this one comes with a (perhaps undue) cost. For example, Glass-Steagall’s coarse partitioning of commercial and investment banking services not only mitigated information asymmetries, it also increased costs by discouraging organizational forms that generate scope economies (for example, universal banks). By imposing a complete (as opposed to marginal) separation in this regard, the public interest motivation for Glass-Steagall relies on forgone economies being small (relative to the benefits from weakening the lemons problem). If these economies are considerable, however, then markets might encourage a less than complete separation of commercial and investment services. Here, universal banks would separate constituent operations until the (private) marginal benefit from reducing information asymmetries equaled the marginal cost from forgoing scope economies. Kroszner and Rajan (1997) find evidence that markets disciplined the governance choices of universal banks in this manner. They begin by citing evidence (including that from Kroszner and Rajan, 1994) that default rates on securities underwritten by pre-Glass-Steagall universal banks were less than those on securities underwritten by contemporary investment banks. This relationship exactly opposes what one would expect if private organizational structures did not address the commercial–investment bank
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conflict of interest. They then develop evidence that banks recognized significantly lower prices on underwritten securities when they lacked internal controls on the commercial–investment conflict of interest (for example, placing underwriting activities in a separate affiliate and placing independent directors on the affiliate’s board). To the extent that firms fully internalize their organizational implications, this evidence supports the hypothesis that Glass-Steagall’s formal separation went too far.12 Market Discipline Versus Public Regulation Kroszner and Rajan’s (1997) question remains an important one for contemporary regulators – that is, do markets go far enough in disciplining private governance decisions? One might ask this question, for example, when evaluating the Sarbanes-Oxley Act of 2002 (SOX). Here, the salient conflict occurs between auditing and consulting divisions within accounting service firms. To the extent that jointly producing auditing and consulting services creates scope economies, regulations (like SOX) that coarsely partition production processes appear inefficient (at least from a technological perspective). However, this partition also creates commitment benefits since jointly producing these services can exacerbate the principal-agent problem between auditors and financial statement readers. Whether regulatory intervention can advance the public interest thus turns on whether markets adequately discipline decentralized choices of auditintegrity. We’ll turn to this issue, and those of corporate governance more generally, in the following chapter.
NOTES 1. 2.
3. 4. 5.
We’ll look at demanders in Chapter 15. The capacity for collateral and net worth requirements to mitigate asymmetric information is central to arguments for strong creditor rights. Manove et al. (2001), however, offer an interesting argument for why creditor protections can be ‘too strong.’ In short, they suggest that collateral and screening are substitutes from the creditor’s perspective – that is, both check the risk of debtors playing morally hazardous actions. Because some types of creditors may have a comparative advantage in evaluating entrepreneurial projects, however, these tools are not equivalent from ‘society’s’ perspective – that is, collateral represents a contingency transfer, whereas screening can more productively allocate resources by checking bad projects before they get started. Such restrictions may even be necessary for financial market efficiency – see Chan et al. (1992). A maximizing-intermediary’s objective is its own profit, not that of society more generally. Frank et al. (2004) develop interesting evidence of this phenomenon for ‘copy cat’ mutual funds. Here, requiring fund managers to disclose portfolio holdings can mitigate moral hazard (on behalf of fund managers), but can also exacerbate information asymmetries by strengthening the ability to free ride on others’ efforts.
134 6.
7. 8. 9. 10. 11. 12.
Intermediation, governance and economic performance Note well the source of this question’s importance. If capital markets cannot distinguish ‘good’ firms from ‘lemons,’ the market for good firms will unravel (just as that for h-type autos in Chapter 13). In this case, the economy will forgo truly productive projects – that is, individuals will realize an inferior level of economic well-being. Here, we are beginning to see the importance of financial development for social welfare. We’ll address this topic more fully in Chapter 16. See Lummer and McConnell (1989: 104–5 and 108–9) for examples of credit agreement revisions. Merton (1977) is frequently cited as seminal in showing that deposit insurance can be modeled as a put option. In a model like that of Chan et al. (1992), portfolio restrictions appear necessary for sound deposit insurance. This sub-section heavily draws from the Economic Report of the President (Bush, 2006: 74–7). Commercial banking refers to an intermediary’s production of lending services, while investment banking refers to an intermediary’s production of underwriting services. Kroszner and Rajan (1997) acknowledge the potential for spillover effects to rationalize regulation as enhancing efficiency, but their research design limits their investigation to own-firm effects.
15.
Corporate governance
INTRODUCTION Asymmetric information constrains the set of mutually beneficial trades that an economy can support. Consider, for example, the firm’s profitmaximization problem, and recall that our most simple model (see Part I) implicitly assumes that acquiring inputs is costless – that is, the act of transacting negligibly consumes resources. But when a firm’s internal resources cannot fund input choices, it must demand capital from financial markets. This demand, in turn, must address constraints from asymmetric information. This asymmetry can emerge from those who might supply financial resources having less information about a firm’s prospects than does the firm itself. In addition, potential suppliers likely have little information about how a firm would, after receiving a financial market’s proceeds, actually employ those funds. Absent organizational features that check such asymmetries, suppliers will rationally forgo investing, even in technically valuable projects. In Chapter 14, we examined how intermediaries can economize on such costs and thus push economies toward the superior levels of performance that more simple treatments of the firm imply. We restricted our attention, however, to how proximate suppliers of financial capital can mitigate information asymmetries. But the axiom of maximizing-behavior applies to all economic actors. Consequently, if suppliers of financial capital want to mitigate information asymmetries, then so should demanders. They do, and recent corporate governance scandals (such as those associated with Adelphia, Enron, Tyco, WorldCom) highlight the important role that acting (or not acting) on this incentive plays in an economy’s performance. Absent productive actions from firms (that is, demanders of financial capital) on this dimension, financiers will confront a less than optimal level of information about both a firm’s investment prospects and the manner in which a capital market’s proceeds will ultimately be employed. An economy in which firms do not economize on information costs must thus forgo profitable projects. Our objective for the present chapter is to understand how organizational features that influence a firm’s investment and distribution decisions address this problem, and the extent to which markets can be expected to discipline firms in this regard. 135
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To facilitate reference, we’ll refer to this set of features as an economy’s ‘corporate governance’ system. Our examination will let us see that, just as suppliers of loanable funds can mitigate information asymmetries by strategically organizing themselves, and thus push an economy away from inferior equilibria, demanders can structure their governance systems so as to facilitate the same type of welfare gains. We’ll learn, for example, that profit-maximizing firms can have an incentive to mitigate the adverse selection problem by increasing their financial transparency (and thus revealing their true ‘types’). Here, accounting rules, and those rules’ enforcers (for example, financial statement auditors), strongly influence a society’s economic opportunities. We’ll also see that profit-maximizing firms have an incentive to constrain managers’ capacity to play morally hazardous actions, and pay particular attention to how a firm’s capital structure (mix of debt and equity financing) can produce this governance service. This approach will let us consider other salient features as well, including the manner in which ownership- and directorship-structures influence an economy’s capacity to produce governance services. Finally, it will further our consideration of how market forces relate to economic performance, and the conditions that are necessary for centrally produced governance services (for example, those that stem from public regulation) to facilitate superior outcomes.
ACCOUNTING SYSTEMS AND ASYMMETRIC INFORMATION Study after study has shown that better accounting standards help make firms more transparent, making it easier for them to inspire confidence in investors. Of course, firms can adopt a policy of better disclosure by choosing a transparent accounting standard on their own. . . . But without sanctions for improper disclosure or omissions, this would just be cheap talk. (Rajan and Zingales, 2003: 161)
Recall our discussion of how Akerlof (1970) motivated the ‘lemons’ problem – that is, to the extent that used-car sellers enjoy informational advantages, they will bring only ‘lemons’ to the market. Also recall, however, that our axiom of maximizing-behavior ultimately rationalizes the behavior of all economic agents, whether they’re selling used cars or financial securities. Hence, just as we expect lemon-automobiles when information asymmetries remain unchecked, we expect lemon-financial assets when demanders of financial capital (that is, suppliers of financial assets) enjoy informational advantages. Absent forces to the contrary,
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financial markets should unravel, leaving both demanders and suppliers of loanable funds at an ‘inferior’ equilibrium (stable outcomes from which both prefer to move). Private Incentives to Truthfully Disclose Financial Performance Wealthy economies tend to maintain well-developed and stable markets for financial assets. One reason for this correlation is that demanders of loanable funds have an incentive to credibly commit to financial transparency. Absent this transparency, financiers can require such a high price for loanable funds that even productive demanders rationally forgo technically sound projects. The very incentive to maximize profits can thus encourage firms to adopt reporting rules that increase transparency. But also note that maximizers have an incentive to enhance confidence in reported results while strategically obscuring information about fundamental performance. To the extent that potential suppliers of loanable funds recognize this incentive, they will continue to charge demanders a relatively high price for financial capital. Consequently, profit-maximizing firms not only have an incentive to adopt accounting rules that facilitate transparency, they have an incentive to credibly bind themselves to following such rules – for example, by employing ‘independent’ auditors to certify financial disclosures. To What Extent can Regulation Improve upon Market Discipline? Understanding how, and the extent to which, market incentives address this governance issue helps us evaluate the potential for financial regulations to improve economic performance. Consider, for example, popular arguments that motivated the Sarbanes-Oxley Act of 2002 (SOX). Here, coincident increases in (a) financial restatements and (b) accountants consulting for audit clients bolstered popular calls to de-couple the production of audit and non-audit services. This (reduced form) evidence suggested to many that regulation is necessary to make auditors better agents of financial stakeholders and less susceptible to managerial pressure. These arguments ignore, however, the private incentives for firms to economize on information costs. Scholars such as Holmstrom and Kaplan (2003) suggest that such incentives are considerable. They even hypothesize that expanding regulations on how private parties govern themselves (measures that SOX embodies) risks an over-reaction to ‘extreme events.’ To see Holmstrom and Kaplan’s (2003) concern, notice that if the United States was producing a less than optimal level of governance services, or inefficiently producing a given level of such services, then its securities
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market performance should have lagged that of foreign substitutes. But US markets have outperformed their foreign competitors over several different time periods.1 The relatively high rate at which US aggregate output has grown corroborates this evidence. Any difficulties that the US corporate governance system is experiencing may thus weigh less heavily on economic performance than do related difficulties in other economies. Others offer a more favorable evaluation of recent regulatory reforms. Kane (2003) even calls for a stronger response, arguing that the more frequent use of ‘high-powered’ compensation schemes (for example, stock options) strengthens managers’ incentive to strategically act on asymmetric information. Moreover, Kane observes, substitute governance services have not kept pace with this increased risk. Rather than maintaining the status quo, or even reigning in ‘excessive’ regulations, Kane thus argues for stronger regulations, especially those that address the ‘self-interested ethical codes of the auditing industry and accounting profession’ (Kane, 2003: 24). Both received and developing empirical research can help us evaluate these theoretical arguments’ merits. Consider, for example, the GlassSteagall Act, a Depression-era banking regulation that precluded intermediaries from simultaneously producing investment and commercial banking services. And recall that the concern for public welfare in this case stemmed from universal banks’ potential to opportunistically act on informational advantages – that is, having investment arms exploit commercial information to adversely select financial assets into primary capital markets (see Chapter 14). Glass-Steagall hoped to improve welfare by separating these services’ production. Contemporary interventions, such as SOX, hold out an essentially identical promise. Policy proscriptions like these tend to ignore, however, the potential for factors other than auditor independence to produce corporate governance services, and thus financial statement integrity. For example, director independence, audit committee experience and executive compensation structures create only a few of the many forces that researchers cite as influencing the credibility of reported financial performance. Moreover, building on Kroszner and Rajan’s (1997) research, Falaschetti and Orlando (2004a, 2004b) and Brown et al. (2007) find evidence that the extent of substitution in governance factors is considerable, and that proscriptive regulations like SOX may have sacrificed scope economies without improving upon market discipline. This evidence supports the hypothesis that auditors’ dependence on non-audit fees compromises earnings quality, but market discipline (perhaps enhanced by disclosure mandates) left little room for the SOX proscription on non-audit services to expand financial market opportunities.
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CAPITAL STRUCTURE AND GOVERNANCE SERVICES Cash-constrained firms finance their operations by selling debt and equity securities to outsiders. We’ll refer to the particular mix of securities employed in this manner as a firm’s ‘capital structure.’ Simultaneous to addressing cash constraints, this structure influences the types of obligations (both formal and informal) that managers owe financiers, and thus produces corporate governance services as well. Equity Finance and the Production of Governance Services Absent mitigating institutional structures, conventional equity securities appear to be inferior factors in producing governance services.2 To be sure, note that equity investments are sunk in the sense that, once a financier commits equity capital to a firm, managers confront little in the way of formal obligations to share that investment’s product (for example, managers do not face an explicit obligation to pay dividends). Moreover, informal obligations may not fully substitute for this shortfall since, once a firm receives financing, the cash constraint that originally motivated its capital market demands may be less binding. The prospect of having to repeatedly interact with equity market suppliers may thus only weakly encourage the development of reputations for sharing an equity investment’s product. Faced with the prospect of enjoying relatively little in the way of formal control rights, equity financiers may be willing to supply capital only if they are relatively concentrated. When the centralized production of governance services discourages efficiency, owners have an incentive to independently produce those services. Collectively acting on this incentive may not be easy, however. For example, relative to diffuse owners, concentrated owners are more likely to be pivotal in producing the general benefits that come from governance services (for example, monitoring). Indeed, since these services tend to benefit all owners, concentrating ownership can discourage the free riding to which individually inconsequential investors might otherwise be attracted. But, while concentrating ownership can strengthen control rights (and thus mitigate agency costs that discourage financial transactions), it can also constrain access to equity financing by exposing minority shareholders to the prospect of expropriation (that is, a ‘tyranny of the majority’). Similarly, large owners may be unable to commit against expropriating the product of other stakeholders’ firm-specific efforts (for example, see Shivdasani, 1993 and Falaschetti, 2002a). As a substitute for concentrating ownership, financiers may thus employ a board of directors to act as a
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‘monitoring intermediary.’ Boards, in turn, might address managerial agencies while protecting managers from the moral hazard of owners. In any event, firms can benefit from addressing managerial agencies via incentive compensation schemes. But while these schemes can elicit productive activity, they can also encourage managers to strategically maximize the performance measure, rather than pursue an investor’s objective per se. Managers can, for example, strategically manipulate the accounting data from which their compensation derives, control the release of information in a manner that favors stock option payments, or even ‘capture’ the very process through which the compensation mechanism develops (Vives, 2000: 5). In this last case, the ‘regulator’ (directors) acts in the interest of the ‘regulated’ (managers) rather than that of its principal (equity investors).3 Debt Finance and the Production of Governance Services By far the dominant form of lending around the world is bank lending. (Shleifer and Vishny, 1997: 763)
Confronted with these difficulties, investors have tended to supply loanable funds via debt securities. Debt constitutes an overwhelming share of even large firms’ external funds (Mayer, 1990; Houston and James, 2001). This large share, in turn, can be rationalized by looking at debt’s comparative governance benefits. Free cash flows The incentive for managerial agents to play morally hazardous actions always exists – after all, they’re maximizers. To act on this incentive, however, agents must have access to requisite resources. One source of such resources is ‘free cash flows.’4 Debt contracts strongly encourage the disbursement of otherwise free cash flows, and thereby check even loosely monitored managers’ capacity to engage in morally hazardous behavior (Jensen, 1986). Indeed, absent funding for such actions, managerial agents can more credibly commit to financiers that loanable funds will find productive employment. Maintaining a debt-heavy capital structure can, in this manner, create a comparative governance advantage. Even if a firm completely distributes its free cash flows, however, it can never fully inform capital market participants about its operations. In other words, a residual level of asymmetric information always persists. And if this residual is considerable, then it will preclude the firm from attracting capital with which to fund projects (even those that are technically profitable). Had
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the firm maintained its free cash flows, it would have increased its asymmetric information problem (ceteris paribus). At the same time, however, it would have also internally maintained resources for funding projects that capital markets may have otherwise dismissed. In this manner, free cash flows offer a financial benefit and governance cost. The cost emerges from the potential for free cash flows to fund morally hazardous actions. The benefit comes from the fact that asymmetric information can never be fully eliminated – firms always face a ‘cash constraint.’ And to the extent that they find this constraint binding, free cash flows will let them adopt (potentially profitable) projects that do not find support from capital market participants.5 Monitoring services Holders of privately placed debt appear to maintain a comparative advantage in producing monitoring services. Recall, for example, that capital suppliers face an important free-rider problem when attempting to produce evaluation and monitoring services. By (largely) internalizing the benefits that their governance services produce, however, banks and other private lenders face a relatively small problem in this regard (see James, 1987 and Lummer and McConnell, 1989). In addition, debt contracts tend to be written over relatively short terms, and thus allow for repeated interaction with demanders of loanable funds. Finally, violations of debt contracts are rather transparent, and may thus facilitate remedies at a relatively low cost.6 Compared to public equity, debt appears to be a ‘governance-rich’ form of capital on these dimensions. Firm-specific investment Finally, debt may enjoy a comparative governance advantage in encouraging non-financial stakeholders (for example, employees, suppliers) to make ‘specific investments.’ Specific investments confer disproportionate benefits onto the firm in which they are made – that is, they are difficult to externally market. And once stakeholders sink resources into such investments, residual claimants (for example, financiers) are tempted to expropriate associated returns. Here, again, equity finance can exacerbate governance problems – this time by increasing productive investments’ exposure to the prospect of opportunistic expropriation. To see this temptation more clearly, consider the case of equity shareholders accepting a hostile takeover bid. Contributors to academic and popular media frequently interpret associated increases in target share prices as evidence that takeovers expand firms’ production possibilities. Shleifer and Summers (1989) recognize, however, that the tendency for target share prices to increase with hostile bids may also reflect the capacity for takeovers
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to redistribute (rather than increase) a firm’s product.7 The post-takeover firm may, for example, enjoy an increased ability to renegotiate wage contracts and thus redistribute residual earnings from employees to owners. This feature of equity financing can retard efficiency since, confronted with the prospect of opportunistic redistributions, employees, suppliers and other non-equity stakeholders have relatively little incentive to make otherwise optimal firm-specific investments.8 Debt capital, on the other hand, shelters stakeholders from this exposure (see Burkart et al., 1997). By limiting themselves to fixed payments from residual earnings, debt-holders pose relatively little threat to expropriating proceeds that are necessary for motivating specific investments. Illustration – Tax Policy and Capital Structure Economists tend to agree that the United States’ recent reduction of dividends taxes maintains considerable expansionary potential. By treating dividends as taxable distributions and interest payments as deductible expenses, the pre-cut code biased capital structures toward debt. This bias arguably reduced the economy’s productive capacity by distorting investment decisions and increasing financial distress costs. Federal Reserve Board chair Alan Greenspan thus ‘spoke warmly’ in congressional testimony ‘about the benefits of eliminating the double taxation of dividends’ (The Economist, 2003: 31). But these benefits may be offset (at least partially) by an increase in associated governance costs. Consider, for example, the relatively rich set of information that emerges from debt-holders’ relationship with financial capital demanders. As we learned above, holders of privately placed debt (for example, banks) can face a lesser free-rider problem than do those of publicly placed equity when attempting to produce evaluation and monitoring services. By removing a bias toward debt-heavy capital structures, the dividends tax cut can thus exacerbate information asymmetries between suppliers and demanders of loanable funds, thereby foreclosing at the margin otherwise mutually beneficial capital market trades. Information asymmetries may grow even further if, in the face of a tax cut, dividend distributions do not fully offset associated interest payment reductions. Recall, for example, that debt contracts create a relatively strong incentive for managers to disburse ‘free cash flows,’ and can thus check even loosely monitored managers’ capacity to employ residual earnings in a manner that opposes shareholders’ interests. Finally, cutting the dividends tax can magnify the potential for owners to play morally hazardous actions. By expanding the capacity for residual claimants to expropriate returns from ‘firm-specific’ investments, removing
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a policy-bias for debt finance can discourage non-equity stakeholders from optimally employing their efforts. Relative to equity claim holders, debtholders pose a small threat since their contracts essentially cap the residual earnings that can feasibly be extracted from firms. Debt-holders’ potential to opportunistically expropriate the product of firm-specific investments is thus likely to be smaller than that of associated equity holders. By removing the bias for debt obligations, and thus increasing (non-owner) stakeholders’ exposure to opportunistic expropriation, cutting the dividends tax might again offset gains to productive economic activity. Debates over how the dividends tax cut might affect such activity tend to focus on the technical merits of removing capital structure distortions. In doing so, however, they ignore how these same distortions can influence the economy’s stock of governance services. Ultimately, this ignorance may prove innocuous. Indeed, benefits from reduced distortions and financial distress may very well overwhelm any associated governance costs. If they do not, however, then the cut’s welfare consequences may rest on how strongly private governance production responds. Here, we recognize the incentive for firms to substitute for governance services that may have been produced via biased capital structures (for example, move to private equity). An open question, however, is whether this incentive has the right magnitude. This question is important since cutting the dividends tax can work against capital structures producing governance services, and firms may not fully or quickly respond to this negative force. First, if privately produced governance contributes to broader market integrity, then policies that bias capital structures toward producing governance services can sustain superior levels of social welfare. Indeed, absent such a bias, firms face a reduced (if any) incentive to produce governance services at levels that exceed those that are privately optimal. Second, to the extent that firms substitute for forgone features of governance-rich capital structures, they are likely to do so slowly. An unbiased capital structure represents a new technology with which to produce governance services, and firms will recognize adjustment costs while learning to employ this alternative mechanism. Governance costs associated with the tax cut may thus be especially important in the short run. In either case, productivity gains from the tax cut are likely to be less positive than those that are popularly reported.
NOTES 1. Here, ‘performance’ is measured by the rate of return on assets being traded on a particular exchange.
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2. This discussion focuses on conventional equity securities, as opposed to those that venture capital and private equity channels might employ. 3. In various and influential writings, Lucian Bebchuk argues that increasing the boards’ accountability to shareholders can mitigate this type of agency problem. Recall from our discussion above, however, that such an increase can also threaten the product of other stakeholders’ efforts. Absent a more careful evaluation, adopting prescriptions like those of Bebchuk may thus create ‘unintended,’ and adverse, consequences. 4. Jensen (1986) offers a seminal examination of the governance implications of free cash flows. Burkart and Ellingsen (2004) offer a related rationalization for the prominence of ‘trade credit’ (that is, a loan bundled with an exchange of goods or services). Here, managers can more easily divert cash than they can physical inputs. 5. Carpenter et al. (1994), among others, develop evidence on how private investment relates to free cash flows. 6. ‘Legal protection of creditors is often more effective than that of the shareholders, since default is a reasonably straightforward violation of a debt contract that a court can verify’ (Shleifer and Vishny, 1997: 752). 7. Stout (2002) reviews and extends this type of argument. 8. Falaschetti (2002a) offers evidence that golden parachutes strengthen commitments against such opportunistic behavior.
16.
Financial development and economic performance
INTRODUCTION I think the question, ‘Why isn’t the whole world rich?’ is the most important question facing economists. (Edward C. Prescott, quoted by Rolnick, 1996)
In Parts II–IV, we argued that monetary systems strengthen economic performance by facilitating spot transactions. We now understand that, in addition, financial systems facilitate transactions across time. To the extent that such systems economize on transactions costs, they free up resources that the process of trading might have exhausted, and thus ease the flow of resources to higher-valued uses. Rather than benefiting a narrow group of financial market participants, financial development can thus expand economic opportunities more generally. We conclude the present set of chapters with a more careful evaluation of this last implication – that is, financial development strongly influences general economic opportunities. In doing so, we’ll also address this chapter’s opening quotation by arguing that, just as persistent political forces can work against efficiency in monetary systems, they can also constrain financial systems from realizing their potential. Unless a society’s political organization weakens these influences, individuals must forgo the expanded opportunities that financial development offers. Variation in societies’ success on this political dimension says a lot about why the whole world is not rich.
CHANNELS FROM FINANCE TO ECONOMIC PERFORMANCE Several channels exist through which financial development can influence economic performance. Recall from this part’s motivating example that ‘cash-constrained’ firms must forgo fundamentally profitable projects (see Chapter 13). Economies that enjoy productive financial systems, however, need not rest at the resulting inferior equilibrium. Indeed, financial 145
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development makes superior outcomes feasible by facilitating mutually beneficial trades between ‘idea-rich’ entrepreneurs and ‘liquidity rich’ financiers. Production factors encounter relatively little friction in such settings when moving from lower- to higher-valued uses. Financial development also creates opportunities for firms to employ relatively skilled managers. Indeed, the pool of managers from which diffusely held firms can draw is larger than that from which closely held firms draw (the latter must, by definition, restrict management to owners). Moreover, by allowing for the independent production of management and ownership services, separating ownership from control can expand opportunities by encouraging individuals to specialize. Financial development thus not only expands economic opportunities by relaxing constraints on a given set of projects (through the cash constraint channel), it also enlarges the set of projects that are technically feasible (through the managerial expertise channel). Finally, financial development can strengthen competitive forces. Notice that, as financial development wanes, information asymmetries discourage the separation of management from control. A reduction in separation, in turn, can insulate inefficient incumbents from competition that might have otherwise drawn resources to more productive sectors or firms. In cases like this, potential entrants must overcome barriers of having to embody both technical competence and financial capital. By lowering such barriers, financial development can strengthen competitive forces that select for productive firms and thus free resources from inferior employment. We’ll refer to this third channel from financial development to economic performance as the ‘competition channel.’1 Figure 16.1 summarizes how financial development can promote economic performance through each of these channels. As our previous chapters show, financial intermediation and corporate governance can increase financiers’ confidence that (a) managers will productively employ an investment’s proceeds and (b) distribute the consequent product in a manner that meets or exceeds the investors’ opportunity cost. Likewise, such systems can protect the product of managerial (and other stakeholders’) efforts from being expropriated, and thus strengthen incentives to productively employ a financier’s capital from the beginning. The consequent reduction in friction that capital experiences when attempting to move to highervalued uses thus relaxes cash constraints, facilitates specialization and eases market entry. Working through these channels, financial development can expand economic opportunities by making feasible more productive uses of a given technology, expanding technological frontiers and selecting for profit maximizers.
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Output Production technology with specialized managers
Profit** Profit*
Production technology with manager-owners
Capacity to separate facilitates specialized management
Share of output to production factors
Profit
–
K
K*
K**
Capacity to separate ownership from control relaxes cash constraint
Input Capacity to separate increases competition, leaving firms that act ‘as if’ they are maximizers
Figure 16.1 Channels from financial development to economic performance
EVIDENCE FOR FINANCIAL DEVELOPMENT AND ECONOMIC PERFORMANCE Consistent with the hypothesis that financial development encourages superior outcomes, economies that enjoy productive financial systems tend to perform more strongly than those where financial development lags. Indeed, increased financial development shares a strong association with dampened and less frequent economic fluctuations, as well as relatively high rates of economic growth. That plausible channels exist for financial development to exert this influence, and associated empirical support for this hypothesis addresses difficulties with reduced form evidence,2 increases confidence that this association is more than a simple correlation. In an influential article, Rajan and Zingales (1998) report that industries that heavily rely on external finance (that is, those that tend to face binding cash constraints) grow significantly faster in countries that maintain welldeveloped financial systems. A qualitatively identical relationship appears at higher levels of aggregation, where the rate of macroeconomic growth increases with financial development.3 This type of evidence also emerges from cross-state investigations. The relaxation of multi-state branch banking restrictions since the mid-1970s,
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for example, appears to have improved the quality of bank lending (as measured by a decline in non-performing loans). This improvement, in turn, appears to have increased entrepreneurial activity and thus pushed state-level economies onto higher and more stable growth paths (Jayaratne and Strahan, 1996). The breadth of this evidence is impressive. Looking at the (micro) firm and (macro) economy levels, as well as across countries and US states, researchers find evidence that living standards and growth prospects strongly depend on financial development. Moreover, achieving these longterm benefits may not risk short-term stability. Indeed, financial development may also help reduce economic volatility.4
WHY ISN’T THE WHOLE WORLD RICH? The models reviewed above are ‘good’ in that they build on a firm ground (that is, the axiom of maximizing-behavior) and ‘predict’ well (that is, they rationalize empirical regularities without trivializing problems of interest). They leave open, however, an important question: if financial development really expands economic opportunities, then ‘why isn’t the whole world rich?’ Recall a related problem from Parts II and III – if price stability is so important for economic performance, then why do monetary authorities persistently deviate from price-stabilizing policies? We argued there, and in Part IV, that if the axiom of maximizing-behavior is a reasonable starting point for modeling human sociality, then it must also be reasonable for modeling monetary authorities.5 ‘Maximizing’ monetary authorities, however, constantly face incentives to fund public expenditures through inflation (see Part II) and opportunistically boost economic performance (see Part III). In this light, rather than being the rule, societies that organize political affairs in a manner that mitigates such unproductive forces appear exceptional.6 For similar reasons, societies that productively organize their financial systems also appear exceptional. In our present set of chapters, we have so far argued that well-developed systems mitigate information asymmetries that discourage capital from reaching productive employment. While such a migration can benefit societies in general, however, it can also lessen the economic opportunities of politically (but not economically) powerful constituents. And since a society’s capacity to check inefficient political forces depends on these constituents’ strength, inferior economic performance can persist (even if everyone understands such effects!).
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Saving Capitalism from the Capitalists Financial development appears to be so beneficial that it seems strange that anyone would be opposed to it. However, financial development is not always a win-win. It could pose a threat to some. (Rajan and Zingales, 2003: 166)
Rajan and Zingales (2003) show that even capitalists can benefit from sabotaging financial development. We’ve already learned that ‘idea-rich’ but ‘capital-poor’ innovators have a strong incentive to support financial development. However, as those innovators grow to be incumbents, the dimensions on which they can compete expand. In particular, not only can continual innovation strengthen their market position, so can political barriers to new (and potentially more productive) entrants. Sabotaging the financial sector can be an effective strategy for pursuing this latter objective. Notice that ‘losers’ from financial regulations can be rather anonymous – for example, try to identify innovators who failed from a lack of financial access rather than good ideas. In addition, while deteriorating financial systems can create widespread costs, those costs can disproportionately burden firms for which information asymmetries are greatest – potentially innovative entrants. Acting in their own self-interest, political agents may thus find attractive policies that impede (rather than promote) financial development. And since these forces emerge from individually rational actions, they can persistently discourage financial systems from developing in a productive manner, or even reverse the development of successful systems. Social Democracy Market mechanisms have to compete for votes with alternative resource allocation schemes more favorable to the underdogs; and in this competition, fairness to me is my primary concern, efficiency is someone else’s problem. (McFadden, 2006: 6)
Roe (2003) offers an additional rationalization of why, despite its potential to create widespread economic benefits, financial development frequently faces strong political resistance. For Roe, an important constraint on societies’ financial opportunities is the extent to which governments can be characterized as ‘socially democratic.’ Here, ‘social democracy’ refers to institutions (formal and informal) that define property rights in a manner that favors labor over capital in distributional considerations – that is, ‘a nation in which employee pressures are strong’ (Roe, 2003: 24). By favoring manager–labor coalitions, social democracies can widen the agency gap between suppliers of financial capital and their managerial agents. The
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resulting increase in moral hazard, in turn, can discourage what might otherwise be mutually beneficial financial market trades. In particular, the relatively high ‘systemic’ level of moral hazard in social democracies can constrain an economy’s set of organizational opportunities – that is, the capacity to separate ownership from control. Roe (2003) finds empirical support for this conjecture from cross-country evidence that ownership concentration increases with social democracy. Here, again, we observe a channel through which persistent pressures for ‘accountability’ can, paradoxically, work against economic performance.
CONCLUSION Roe’s (2003) argument, like that of Rajan and Zingales (2003), does not require individual irrationality for its validity. Politically dominant coalitions can strictly prefer lesser-developed financial systems. For Rajan and Zingales, this coalition includes incumbent capitalists who benefit from discouraging innovative newcomers. Roe identifies a related constituency – laborers whose economic opportunities shrink as financial development fuels the process of ‘creative destruction.’ In both cases, educating individuals about the merits of financial development may do little to encourage productive reforms (or discourage unproductive policies). Indeed, unless reforms address fundamental distributional issues (for example, by mitigating adjustment costs), even the most (technically) productive financial developments must go unrealized, and those that already exist will face considerable political risks.
NOTES 1. Rajan and Zingales (2003) examine this channel in an authoritative book-length manuscript. Levine (1997) reviews a broader set of such channels. 2. Chapter 2 reviews these difficulties. 3. See Levine (1997) for an authoritative review of this and related research. 4. Jayaratne and Strahan (1996) and the Economic Report of the President (Bush, 2006: 203–4) offer suggestive evidence to this effect. 5. And recall from Part I that we must model. 6. Recall from Part II, for example, that fiat currency has only enjoyed success during the last 35 years or so.
Questions Whether in a classroom or other setting, our readers might enjoy a better understanding of money, financial intermediation and governance by contemplating the following questions.
PART I 11. True, false, explain: We must, either explicitly or implicitly, employ ‘models’ to understand social phenomena. 12. True, false, explain: Even if individuals do not consciously ‘maximize,’ assuming that they do can facilitate insight to how economies behave. 13. Under what conditions is the assumption of maximizing-behavior reasonable? Do the markets in which monetary and financial services trade satisfy this condition? 14. A ‘good’ model builds on self-evident truths to generate accurate predictions: A. True, false, explain: Models that logically derive from the axiom of maximizing-behavior can be ‘good.’ B. Please describe a model built on the axiom of maximizingbehavior that predicts well. C. Did the decision-maker in your example (human or non-human) explicitly engage in maximizing-behavior? D. Even if decision-makers do not explicitly engage in maximizingbehavior, why can we gain insight from models that assume maximizing-behavior? 15. Congratulations! Congress just approved your nomination to the Federal Reserve Board of Governors (that is, the United States’ monetary authority). As a Board member, you will be presented with numerous models of the economy. How will you evaluate these competing models’ merits? 16. Why does the axiom of maximizing-behavior imply that the marginal cost of one’s actions equals the marginal benefit? 17. ‘Intellectual honesty’ has been characterized as requiring the precise specification of ‘conditions under which one is willing to give up one’s
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position’ (Lakatos, 1978: 8–9). How does being transparent about modeling encourage ‘intellectual honesty’? 18. How does a principles-level model of an economy (that is, one that ignores transactions costs) diminish money and banking topics? Why is it nevertheless important for us to investigate these phenomena? How can models build on the axiom of maximizing-behavior to advance this investigation?
PART II 11. Why is bartering costly? 12. What is money? 13. How can money economize on bartering costs and therefore improve economic performance? 14. True, false, explain: If bartering is costless, then maximizers have little incentive to develop monetary systems. 15. If equilibriums in monetary economies can be superior to those in barter economies, then why don’t all societies employ well-developed monetary systems? 16. What distinguishes fiat currency from other assets that can produce transactions services? (Hint: what is fiat currency’s non-monetary value?) 17. Why is a well-developed system of fiat money superior to that of commodity money? Why did societies take so long to adopt fiat money (that is, about 11 000 years!)? 18. How can agreeing to use a particular form of money (for example, the euro or US dollar) improve everyone’s economic well-being? What difficulties might we encounter in attempting to achieve this end?
PART III 11. Congratulations! You are an elected official, and your prospect for reelection is sensitive to the economy’s performance (that is, the level, variance and growth of wealth). Suppose that the classical model is a ‘good’ one. Do you want the monetary authority to pursue an ‘easier’ policy (that is, increase the money supply)? Why or why not? 12. How do market forces mitigate deviations from ‘full employment’ (that is, the level of employment that clears the classical labor market) and what does their effectiveness imply for activist policy opportunities? 13. What does the axiom of maximizing-behavior imply for how individuals form expectations? Given this implication, please evaluate the
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potential for ‘active’ monetary policy to improve economic performance. Suppose that only ‘classical’ forces influence an economy’s evolution: A. Given this assumption, carefully evaluate the potential for activist monetary policy to mitigate economic fluctuations. B. How confident are you in this evaluation (that is, do the insights that you developed come from a good model)? Suppose that only Keynesian forces influence an economy’s evolution: A. How can involuntary unemployment arise in this model? Why might this strictly positive level of unemployment fluctuate? B. How confident are you in this evaluation (that is, do the insights that you developed come from a good model)? Congratulations on your confirmation to the Federal Reserve Board of Governors (that is, the United States’ monetary authority)! As a Governor, you are receiving pressure from elected politicians (for example, the President, Senators) to ‘fine tune’ the economy’s performance: A. Suppose that you are a ‘classical Governor’ – that is, one who sees the classical model of the aggregate economy as a ‘good model.’ Given this assumption, please carefully argue to our elected politicians that you maintain little (if any) capacity to influence fluctuations in real economic activity (for example, employment, output). B. Now, suppose that you are a ‘Keynesian Governor’ – that is, one who sees the Keynesian model of the aggregate economy as a ‘good model.’ Relative to your incarnation as a classical Governor, are you more or less confident about your ability to influence real economic activity? Why? C. If individuals form expectations rationally, and holding all else constant, would the welfare consequences of your policy prescriptions tend to be better as a classical or Keynesian Governor? Why? D. Finally, why would the same elected political officials who are attempting to influence your monetary policy decisions have delegated authority to you in the first place? In other words, how might those officials have benefited from abdicating authority over this policy domain? True, false, explain: If individuals form expectations rationally, then the capacity for monetary policy to influence real activity (for example, output) is relatively small. Congratulations on your continued service as a Federal Reserve Board (FRB) Governor! While preparing you for the next Federal Open Markets Committee (FOMC) meeting, a staff member notes that the
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12. 13.
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US economy is experiencing a negative supply shock (that is, the relative price of oil is increasing), but that economic performance appears relatively unaffected. This staff member further argues that this robust performance reflects an offset to the supply shock from an increased foreign demand for US goods and services (that is, an increase in US aggregate demand). Please carefully consider whether your staff member’s argument is a good one as follows: A. Begin by considering the ‘pre-shock’ economy. In particular, please show how the labor market equilibrates. Your answer should reference how the choices of (a) profit-maximizing firms and (b) utilitymaximizing households ultimately determine the economy’s equilibrium real wage (that is, (wp) E ) and employment level (LE). B. Sticking with the ‘pre-shock’ economy, please show how the goods market equilibrates. Your answer should reference how (a) equilibrium employment from part A (LE), (b) the manner in which maximizers form expectations, and (c) the level of aggregate demand (before the increased foreign demand) determine the economy’s equilibrium price level (PE) and level of output (YE). C. Now show how the supply shock and increased demand from abroad ( AD ↑) together affect each of the variables that you developed in parts A and B (that is, (wp) E , LE, PE and YE). D. In light of how (wp) E , LE, PE and YE ultimately respond in part C to the supply shock and increased foreign demand, please assess the validity of your staff member’s rationalization of robust economic performance. In light of Lucas’s critique, should policy makers evaluate structural or reduced form evidence? Why? Leaving considerations of how expectations are formed aside, please evaluate the potential for activist monetary policy to improve welfare. Your argument should draw on our discussion of how fluctuations affect welfare when we hold growth rates constant (that is, Lucas’s argument) and when we let fluctuations affect growth rates (that is, Barlevy’s argument). Please critically evaluate Edward Prescott’s assertion that ‘What we should be worrying about is increasing the average rate of increase in economywide productivity and not smoothing business cycle fluctuations’ (quoted by Rolnick, 1996). What does it mean for a policy to be ‘time inconsistent’? Applied to the case of monetary policy, why is time inconsistency problematic? Recall from Part II that systems of fiat money are a recent development. How might the problem of time inconsistency have slowed societies’ move from commodity-based to fiat systems?
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14. Why might elected political agents, despite their interest in monetary policy’s real consequences, delegate authority over monetary policy to an insulated bureaucracy? What incentives do political agents (for example, legislators, presidents) face to circumvent this delegation? What do these incentives imply for the optimal organization of monetary authorities?
PART IV 11. Congratulations! You have been appointed to a select committee with the task of improving economic data. One measure in which you are interested is the economy’s stock of monetary services. What types of assets should this measure include, and how should this measure aggregate those assets? 12. In which direction (that is, upward or downward) do simple sum measures bias measures of monetary services? Why? What difficulties might this bias create for policy makers? How can a weighted aggregate address this bias? 13. Why do monetary authorities face a time inconsistency problem? How can the organization of these authorities mitigate this problem? Why don’t all governments act on this organizational prescription? 14. Why might elected political agents, despite their interest in monetary policy’s real consequences, delegate authority over monetary policy to an insulated bureaucracy? What incentives do political agents (for example, legislators, presidents) face to circumvent this delegation? How does the Federal Reserve System’s design mitigate the potential for such circumvention? 15. Conventional regulatory agencies are subject to political control via several mechanisms. For instance, such agencies may depend on legislatures for budgets or reappointments. Please describe how controls over the Federal Reserve System are different. In particular, how does the Fed finance its operations? How does the term structure for Federal Reserve Board Governors differ from more conventional structures? What incentives does this institutional framework provide for individuals who directly influence monetary policy? 16. True, false, explain: The Federal Reserve System has too much autonomy from the rest of the government. 17. Nobel Prize-winner Edward Prescott once said that, ‘An independent Fed, I think, is something that is a valuable commitment technology for Congress, for the same reason an independent judiciary is a good arrangement’ (see Rolnick, 1996). Please refer to the ‘time inconsistency
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problem’ to carefully identify the source of value for this ‘commitment technology.’ 18. Suppose that society prefers higher output to lower output and lower inflation to higher inflation, and note that the Federal Reserve System insulates monetary authorities from these preferences. Can such an ‘undemocratic’ organization nevertheless improve social welfare? Why? 19. Nobel Prize-winner James Tobin argues that there should not be ‘votes on the Federal Open Market Committee [FOMC] for people who are not appointed as public servants by the president and who are not subject to confirmation by the Senate. I think either the bank presidents should have no votes, or, to achieve voting status, they should be appointed and confirmed in the same manner as the governors . . . I just think it’s contrary to democratic politics to have private citizens voting on the most important questions of macroeconomic policy’ (quoted from Fettig, 1996): A. How would monetary policy change if the US adopted Tobin’s recommendation to make the FOMC more ‘accountable’? B. Does maximizing ‘democracy’ appear to be a dominant strategy? 10. Tobin also recommends that ‘we go back to the practice, as before 1933, of having the Secretary of the Treasury on the [Federal Reserve] Board’ (see Fettig, 1996). How would monetary policy change if the US adopted this recommendation?
PART V 11. Two types of asymmetric information exist: adverse selection and moral hazard. Please define these asymmetries and explain how they restrict economic performance (that is, levels, fluctuations, or growth of consumption possibilities). 12. True, false, explain: If information is symmetric, then maximizers have little incentive to develop systems of intermediation (financial or otherwise). 13. Why might a used car dealer be more truthful about an automobile’s quality than would a direct seller? 14. How can collateral or net worth let borrowers ‘signal’ financial markets about the quality of their prospective projects? Put more formally, how might the availability of (asymmetrically) costly actions induce a separating equilibrium and thus help channel loanable funds to more productive uses? 15. Why do demanders of loanable funds tend to acquire those funds primarily through intermediaries in general and banks in particular?
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16. True, false, explain: Holding all else constant, economic performance strengthens with intermediaries’ capacity to economize on transaction costs. 17. Is market discipline sufficient for optimally organizing a financial market? If not, how can public regulation improve upon decentralized outcomes? What obstacles must public regulation overcome to achieve such improvements? How likely is public regulation to overcome these obstacles, and what does this likelihood say about the efficiency of regulations that we observe? 18. Suppose that information technology can reduce information asymmetries. What do advances in this technology imply for (a) the importance of traditional intermediaries (for example, banks), (b) the cost of protecting intellectual property in financial information via traditional organizational forms, and (c) systemic risks, and thus the scope for productive financial regulation? 19. Systems of ‘micro finance’ have emerged in a number of developing economies. Because these systems’ lending-terms frequently include high interest rates or severe covenants (for example, strong collateral requirements), they risk being characterized as usurious (that is, extortive). If policy makers respond by sanctioning associated intermediaries, will (holding all else constant) productive capacity increase or decrease in these economies? Why? 10. Why might economic performance be sensitive to the potential for bank panics? What does your answer say about the potential for financial market regulations to enhance welfare? 11. In a model that characterizes insurance as a put option, why should net worth requirements increase with the risk of the underlying asset? Why shouldinsurancepremiumsincreasewiththeriskof theunderlyingasset? Why are portfolio restrictions necessary for a sound insurance system, even if capital requirements and premium prices are risk sensitive? 12. Public insurance for US defined benefit pensions is experiencing considerable difficulties, and these difficulties parallel those from the 1980s’ saving and loan crisis. True, false, explain: If policy makers understood economics, then regulatory crises like these would not repeat themselves. 13. You are a corporate executive and demand financial capital to fund a new project. If interest on bond obligations can be deducted for tax purposes, why would decreasing dividend tax rates reduce economic distortions and thus enhance productivity? What ‘unintended consequences’ might emerge from such a policy? 14. True, false, explain: Policies that increase auditor independence enhance financial statement transparency, and thus ultimately bolster economic performance.
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15. An economy’s system of corporate governance strongly influences its productive capacity. For example, an economy’s production of financial audit services can help check the problem of adverse selection (that is, the ‘lemons’ problem): A. Confronted with a spike in corporate governance scandals, US policy makers implemented the Sarbanes-Oxley Act of 2002, part of which separates the production of audit and consulting services. Why might this separation be superfluous – that is, why might private financial service firms have already organized themselves (without regulation) in a manner that checked the adverse selection problem? B. Why, even if private firms maintain an incentive to check the adverse selection problem, might you still want to encourage regulations that separate the production of audit and consulting services? 16. Why is financial development important for economic performance? Why, nevertheless, do so many economies remain undeveloped, and why do even developed economies face a persistent threat of ‘reversal’? 17. Congratulations! You have just been named President of the World Bank. As President, your objective is to raise developing economies’ aggregate output (that is, the variable Y in our models from Part III). You decide to work toward this objective by reforming markets for financial capital. To implement your plan, however, you must gain the support of the World Bank’s backers. Please carefully argue to these backers that an economy’s capacity to generate wealth rests, in large part, on its capacity to produce intermediation and corporate governance services, and thus mitigate information asymmetries between suppliers and demanders of loanable funds. 18. Having addressed an important technical issue in Question 17, you must now confront what can be even more fundamental political issues: A. While implementing your reform-proposals would expand economic opportunities, doing so might also diminish the welfare of certain constituents. Please explain why these constituents (for example, incumbent firms) might oppose performance-enhancing reforms. B. Does this opposition imply that individuals are not always ‘maximizers’? Please explain. C. How might you craft policies that are not only economically sound, but also address relevant political constraints?
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Index accountability 150 accounting service firms 133 accounting systems 136–8, 140 activist monetary policy case against 63, 65 inflation–unemployment trade-off policy 70, 80–82 Lucas critique and policy evaluation 80–84 and stabilization policy, benefits of 84–5 and time inconsistency problem 87–8, 89–93 adverse selection 116–18, 126–7, 136–7 adverse selection mitigation 122–3, 126–7, 132, 136 agency costs 139 agency problems 131–3, 140 see also separation aggregate demand in classical economy’s demand side 59–60, 61–2, 64 and money stock changes in classical economy 61–2 and wage stickiness 76 aggregate demand shocks 75 aggregate output, and time inconsistency problem 90 aggregate supply in classical economy’s supply side 56–8, 60, 61, 62–3, 64 in Keynesian economy 67–8, 69–70 Lucas critique and Phillips Curve breakdown 81 and negative technology shocks in classical economy 62–3, 64 Akerlof, George 75, 79, 136 Alchian, Armen 17 Alesina, Alberto 107–8 animal evidence, in maximizingbehavior axiom 18–19
appointed political agents, and time inconsistency problem 111 ‘as if’ principle 16–17, 18–19, 69 asset prices 68–9 asset weights, in monetary service measurement 100–101 assets, ‘moneyness’ of 35–7 assumptions, in models 10, 11 see also axiomatic approach; maximizing-behavior axiom asymmetric information and accounting systems 136–8, 140 and adverse selection 116–18, 136 managers’ incentives for strategic use of 138, 140–41, 142 and moral hazard 118–20, 140–41, 142 and tax policy 142 asymmetric information mitigation and adverse selection in financial intermediaries 122–3, 125 and banks 124–6, 138 and governance of financial intermediaries 124–6 and moral hazard in financial intermediaries 123–4 auditing 133, 137, 138 axiomatic approach 15–16 see also maximizing-behavior axiom backward induction, and time inconsistency problem 90 banks asymmetric information mitigation 124–6, 138 debt finance 140, 141, 142 in model economy 28–31 monitoring 141, 142 restriction reductions and economic performance 146–7
175
176
Index
see also central bank independence (CBI); checkable deposits, ‘moneyness’ of; commercial banks; conservative banker; investment banks; relationship banking; universal banks bargaining sets, and efficiency wage theories 75 Barlevy, Gadi 85, 107 Barnett, William 100 barter economy 42–5, 46, 47, 49, 50 see also commodity money Baye, Michael 22 Becker, Gary 15, 22, 23 benchmark assets, in monetary service measurement 100, 101 benevolent dictators, and time inconsistency problem 90–93 Berman, Eli 20, 21, 24 Besanko, David 23, 31 bias, omitted variable 12 Blanchard, Olivier Jean 68, 71 boards of directors 139–40 Brown, James 138 Brunner, Karl 70 budget constraints barter economy 43, 44 and maximizing-households in model economy 25, 26, 27, 30 see also cash constraints business cycles, real (RBCs) 62–3, 64, 65, 66 see also cyclical output; cyclical unemployment capital, higher-value uses 115, 146 capital markets 30–31, 136, 137 capital structure debt finance and governance services 140–43 equity finance and governance services 139–40, 141–2 and tax policy 142–3 capitalists 149 ‘capture’ 131–3, 140 see also separation cash constraint channel 146, 147 cash constraints and asymmetric information 120 and debt finance 140–43
and dividends tax reduction 142–3 and equity finance 139–40, 141–2 and financial development 149 and maximizing-firms in model economy 30–31, 115 and project-constrained lenders 115, 145–6 see also budget constraints cash flows 140–41 causation 12, 13, 107 central bank independence (CBI) 106–8 CH (clearinghouse), in formal model of superior monetary equilibrium 46, 47, 49, 50, 107 checkable deposits, ‘moneyness’ of 37 Christiano, Lawrence 77, 78, 79 cigarettes, as currency 46, 50 classical economy, money in activist monetary policy, case against 63, 65 demand side 57–60 equilibrium 60–61 money, prices and real activity 61–3, 64 supply side 53–7, 58 clearinghouses (CH), in formal model of superior monetary equilibrium 46, 47, 49, 50, 107 collateral requirements, and adverse selection mitigation 122 commercial banks 132–3, 134, 138 commitment 21, 24, 39, 40, 89–90, 102–6 commodity money 36–7, 38, 39 compensation schemes, managers’ 138, 140 competition 146, 147, 149 concentration of ownership 139, 150 confidence of financiers in firms 136, 137, 146 in money as exchange medium 49 conflicts of interest 131–3, 140 see also separation Congress 110, 111 conservative banker 106
Index constituents’ rational expectations, and time inconsistency problem 87, 89–90, 91, 92–3, 106–7 constraints 18, 21 see also budget constraints; cash constraints; ‘No shirking constraint’ curve; project constraints; technology constraints consultation 133 consumer prices 39, 40, 53 consumption 84–5 consumption bundles 42, 43, 44 control, separation from ownership 139–40, 146, 147, 150 corporate governance accounting systems and asymmetric information 136–8 capital structure and governance services 139–43 reforms, and efficacy of GlassSteagall Act (1933) 131–3 correlation 12, 107 costs 49, 141 see also agency costs; currency service costs; governance costs; information costs; marginal costs; opportunity costs; resource costs; transaction costs; transportation costs; user costs CPI (consumer price index) 53 creative destruction 150 credibility 21, 24, 103, 138 credit services 78 see also banks; debt finance currency 35, 100–101 see also barter economy; exchange and exchange media; monetary economy; money currency service benefits 38–9 currency service costs 38, 39 cyclical output 82, 83 cyclical unemployment 75 debt finance 140–43 see also banks; credit services; debt restructuring debt restructuring 123–4 debt violations 141
177
delegation 105–6, 109–11 demand in barter versus money endowment economy 44 in barter versus money production economy 48 in classical economy 57–62 law of 26, 31 and Lucas critique and Phillips Curve breakdown 82 and maximizing-households in model economy 25–7 see also aggregate demand; aggregate demand shocks; labor demand deposit insurance, United States 126–7, 128–31 Devlin, Keith 15 disclosure of financial performance 136, 137, 138 distributional issues 149, 150 dividends tax reductions 142–3 ‘double coincidence of wants,’ in barter economies 42–3, 44, 45, 46 Drazen, Allan 102, 106, 107 dynamic economy, money in see classical economy, money in; Keynesian economy, money in; monetary policies economic fluctuations see aggregate demand shocks; cyclical output; cyclical unemployment; ‘liquidity crises’; monetary policy shocks; negative supply shocks; real activity; real business cycles (RBCs); technology shocks economic method of inquiry advantages of 22–3 described 15–16 foundation see foundation of economic method of inquiry importance 8–9 model economy see model economy modeling 9–14 see also maximizing-behavior axiom economic models see model economy; modeling economic performance 137–8, 143, 145–50
178
Index
economic stability 148 economic well-being see welfare efficiency, in barter versus money endowment economy 48 efficiency wage theories 70–75, 79 efficient market hypothesis 68–9 effort, and efficiency wage theories 71, 72–4 egoists, in models 9 see also maximizing-behavior axiom Eichengreen, Barry 123–4 elected political agents, time inconsistency problem 111 employment 67–8 see also efficiency wage theories; employment equilibrium; employment policies; labor demand; labor-manager coalitions; labor markets; labor prices; labor supply; nominal wages; real wages; unemployment; wage agreements; wage stickiness employment equilibrium 56–8, 60, 74 employment policies 68, 70, 80–82 endowment economies 42–5, 46–7 enforceable rules, monetary services 103 entrepreneurs 146, 148, 149 ‘envelope theorem’ 75 equity finance 139–40, 141–2 evaluation, of models 10–11, 17–21 evaluation services 141, 142 evidence, in modeling 11–13, 18–21 exchange and exchange media 35–40, 50, 99–101 see also barter economy; monetary economy; money expectations-augmented Phillips Curve 69–70, 80–81, 90–91 Falaschetti, Dino 111, 138, 139 Fama, Eugene 125 Federal Open Market Committee (FOMC) 109, 110, 111 Federal Reserve Board (FRB) 109, 110, 111, 142 Federal Reserve System 99–100, 109–11
fei 36–7 fiat money 37–9, 40 financial crises see ‘liquidity crises’; monetary policy shocks; pensions crisis, emerging (US); savings and loan crisis (US); financial development, and economic performance 145–50 financial intermediaries adverse selection 117, 126–7, 136–7 adverse selection mitigation 122–3, 126–7, 132 and disclosure of financial performance 136, 137 financial structure 122–4 governance see governance of financial intermediaries monetary policy shocks, effect on credit services 78 moral hazard 118–20 moral hazard mitigation 123–4, 127, 140 project constraints 115 see also accounting service firms; banks; credit services; debt finance; equity finance; monetary services financial performance disclosure, and financial intermediation 136, 137, 138 financial statements 133, 137, 138 financial structure of financial intermediaries 122–4 firm-specific investment 141–3 firms, maximization see profitmaximization fiscal versus monetary authorities 106–7 see also tax policy Fischer, Stanley 71 flexible rules, monetary services 103 FOMC (Federal Open Market Committee) 109, 110, 111 foundation of economic method of inquiry advantages of economic method 22–3 axiomatic approach 15–16
Index maximizing-behavior axiom 16–17 positive versus normative analysis 21–2 prediction from maximizingbehavior axiom 17–21 FRB (Federal Reserve Board) governors 109, 110, 111, 142 free cash flows 140–41, 142 free riders 139, 141, 142 Friedman, David 7, 16 Friedman, Milton 10–11, 23, 36, 37, 41, 69–70, 77 full employment policies 68, 70 games, and time inconsistency problem 88–9 Gibbard, Alan 105–6 Glass-Steagall Act (1933) 131–3, 138 governance, corporate see corporate governance governance costs 141, 142–3 governance of financial intermediaries asymmetric information 126–7, 129, 131 market discipline versus public regulation 132–3 regulatory ‘mistakes,’ repetition of 127–33 governance of money and capital markets 28–31 governance services, and capital structure 139–43 Great Depression (US) 126–7 Greenspan, Alan 142 Hall, Robert 75 hangman game, and timeinconsistency problem 88–9 higher-value uses, capital 115, 146 Holmstrom, Bengt 137–8 hostile take-overs 141–2 households, maximization see maximizing-households housing units, ‘moneyness’ of 35 human evidence, in maximizingbehavior axiom 19–20 hypothesis-testing 11–13, 14
179
‘idea rich’ entrepreneurs 146, 149 incentives 137, 138, 139, 140–41, 142 indifference curve 25–7 induction, backward, and time inconsistency problem 90 industrial services 38, 39 inferior barter equilibrium 42–5 inferior economic performance 148–50 inflation and central bank independence (CBI) 107–8 and fiat money supply 39, 40 and Keynesian economy’s supply side 67, 68 and Lucas critique and Phillips Curve breakdown 81, 82, 84 and money in classical economy 61–2 and Phillips Curve 68, 69, 70, 80–82, 83, 84 and time inconsistency problem 90, 91, 92–3, 111 inflation–unemployment trade-off policy 70, 80–82 information see asymmetric information; asymmetric information mitigation; information costs; information evaluation; information generation; price information; private information information costs 137 information evaluation 125–6 information generation 125 input prices 67 institutions, monetary services 102–6 insulation and delegation of fiscal authority 106–7 and delegation of monetary authority 105–6 Federal Reserve System 110, 111 intellectual property protection 124 interest payments 142 investment, and stabilization policy 85 investment, firm-specific 141–3 investment banks 132–3, 134, 138
180
Index
involuntary unemployment, and efficiency wage theories 72–4, 75 irrationality, and prediction 16, 17 iso-profit curve, maximizing-firms in model economy 27, 28, 29, 30 James, Christopher 125, 141 Jayaratne, Jith 148 Jensen, Michael 140 Kane, Edward 138 Kaplan, Steven 137–8 Keen, Edward 110 Keynesian economy, money in efficiency wage theories 70–75, 79 monetary transmission, other mechanisms 76–8 nominal rigidities, evidence against 76 supply side 67–70 Klenow, Peter 76, 77 Kroszner, Randall 132–3, 134, 138 Kydland, Finn 103 labor see efficiency wage theories; employment; employment equilibrium; employment policies; labor demand; labor-manager coalitions; labor markets; labor prices; labor supply; nominal wages; real wages; unemployment; wage agreements; wage stickiness labor demand 53–6, 57, 62–3, 67–8 labor-manager coalitions 149–50 labor markets in classical economy’s supply side 53–6, 57, 62–3, 64 and efficiency wage theories 71–3 equilibrium 56–8, 60, 74 labor prices 53, 54–5, 56, 57, 67 labor supply 56, 57, 67, 72–4 law of demand 26, 31 laws, monetary services 102 see also Glass-Steagall Act (1933); Sarbanes-Oxley Act (2002) (SOX) leisure 53, 56, 72–3 ‘lemons’ problem see adverse selection ‘liquidity crises’ 127 living standards 148
loan and savings crisis (US) 128–31 Lucas, Robert E. Jr. 11, 80, 84, 85, 107, 108 see also Lucas critique Lucas critique 80–85, 107, 108 Lummer, Scott 126, 134, 141 manager–labor coalitions 149–50 managerial expertise channel 146, 147 managers incentives, for using asymmetric information 138, 140–41, 142 skills, and financial development 146 and social democracies 149–50 marginal analysis, in maximizing-firms in model economy 27 marginal benefits in classical economy’s demand side 59, 60 commodity money 38 and efficiency wage theories 72–3 fiat money 38 marginal costs in classical economy’s demand side 59, 60 in classical economy’s supply side 54 commodity money 38 and efficiency wage theories 72–3 fiat money 38 and maximizing-households in model economy 26 marginal productivity 54, 62–3 marginal utility, and maximizinghouseholds in model economy 26 market discipline 132–3, 137–8 market incentives 137, 139 market opportunities 146 maximizing-behavior axiom ‘as if’ principle 16–17, 18–19, 69 efficient market hypothesis 68–9 in models 9 and Phillips Curve 68, 69–70 predictions 16, 17–21 self-evidence 11, 17 and time inconsistency problem 87, 88–93 see also maximizing-households; maximizing-managers; profitmaximization
Index maximizing-firms see profitmaximization maximizing-households in classical economy’s demand side 59–60 in classical economy’s supply side 56 and demand curve in model economy 25–7, 30 and efficiency wage theories 72–3 and money 30 maximizing-managers 138, 140–41 McConnell, John 126, 134, 141 McFadden, Daniel 149 meaningfulness, of models 11 Meltzer, Allan H. 70 mimicking, problem of 105 model economy cash constraints 30–31, 115 governing money and capital markets 28–31 maximizing-firms and supply curve 27–8, 29 maximizing-households and demand curve 25–7 project constraints 30, 115 modeling 9–14 see also model economy Mody, Ashoka 123–4 monetary economy 43–4, 46–7, 48, 49, 50 monetary policies 70, 76 see also activist monetary policy; inflation–unemployment tradeoff policy; monetary policy shocks; money supply changes; optimal monetary policies; passive monetary policy; stabilization monetary policy; tax policy monetary policy shocks 77, 78 monetary services institutions and commitment 102–6 measurement 99–101 see also accounting service firms; auditing; banks; consultation; credit services; debt finance; equity finance; evaluation services; financial intermediaries; monitoring services
181
monetary versus fiscal authorities 106–7 money confidence in monetary system 49 in a dynamic economy see classical economy, money in; Keynesian economy, money in; monetary policies in model economy 28–31 monetary economy 43–4, 46–7, 48, 50 ‘moneyness’ 35–7 quantity theory 58–9 and real activity in classical economy 62–3, 64 in static economy see static economy, money in turnover 58–9 money stock in classical economy’s demand side 59, 61–2 in Keynesian economy’s supply side 67–8 simple sum measures of monetary services 99–100 and velocity of money 58–9 money supply changes in classical economy’s demand side 61–2 commodity versus fiat money 39, 40 costs 49 and efficiency wage theories 75 in Lucas critique and Phillips Curve breakdown 83 and output 77 money supply shocks 77, 78 monitoring services 139, 140, 141, 142 moral hazard and debt finance 140–41 and deposit insurance 127, 129, 131 described 118–20 and dividends tax reductions 142–3 and equity finance 140 and financial intermediaries 118–20 and social democracies 150 moral hazard mitigation in financial intermediaries 123–4, 127, 140 multiplicity, problem of 104 Muth, John 80
182
Index
negative monetary policy shocks 77, 78 negative supply shocks 63 negative technology shocks 62–3, 64, 66 net worth 123, 129, 130, 131 ‘No shirking constraint’ curve 73, 74 nominal prices, and time inconsistency problem 90 nominal rigidities defined 51 and efficiency wage theories 71–5 evidence against 76, 77–8 in Keynesian economy’s supply side 67 nominal wages and efficiency wage theories 71–2, 73, 74, 75 and money in a classical economy 53, 54 non-audit services 137, 138 non-equity stakeholders 141, 143 non-human evidence, in maximizingbehavior axiom 18–19 normative analysis versus positive analysis 21–2 omitted variable bias 12 opportunism 88, 111, 143 see also free riders; moral hazard opportunity costs 21, 27 opportunity set 44, 46 optimal contracts, monetary services 102–3 optimal monetary policies 87, 89, 90, 91 Orlando, Michael 138 output in classical economy’s demand side 59, 60 in classical economy’s supply side 57, 58 and financial development 146, 147 and Lucas critique and Phillips Curve breakdown 81, 82, 83 and money stock in classical economy 61–2 and negative technology shocks in classical economy 62–3, 64
and Phillips Curve breakdown 81 and time inconsistency problem 90, 91 and velocity of money 58–9 output prices 28, 29, 67 ownership concentration 139, 150 separation from control 139–40, 146, 147, 150 passive monetary policy 63, 65 Pension Benefit Guaranty Corporation (PBGC) 131 pensions crisis, emerging (US) 131 permanent output, Lucas critique and Phillips Curve breakdown 82, 83 Phillips Curve described 67–8, 80 expectations-augmented Phillips Curve 69–70, 80–81, 90–91 and Lucas critique 80–85, 107, 108 and monetary policy 70, 80 and rational expectations 68, 69–70, 80–81 pieces of paper (POP), in formal model of superior monetary equilibrium 46, 47, 49, 50 Poirier, Dale 9 politics and Federal Reserve System 110–11 and financial development 148–50 and regulatory ‘mistakes’, repeated 131 and rule enforcement of monetary services 103 and time inconsistency problem 111 see also employment policies; monetary policies POP (pieces of paper), in formal model of superior monetary equilibrium 46, 47, 49, 50 positive analysis versus normative analysis 21–2 POWs (prisoners of war), economy of 46, 50 predictions, from models 10–13, 16, 17–21 Prescott, Edward C. 87, 103, 145 price changes 81–2, 83, 90, 91 price indexes 53, 58–9
Index price information 68–9, 83 price stickiness 66, 67, 76 prices in classical economy’s demand side 59, 60, 61, 62 in classical economy’s supply side 53, 54–5, 56, 57 financial intermediation and transparency of firms 137 in Keynesian economy’s supply side 68, 69 and Lucas critique and Phillips Curve breakdown 82, 83 and maximizing-firms in model economy 28, 29, 30 and maximizing-households in model economy 26–7 and money stock in classical economy 61–2 see also asset prices; consumer prices; input prices; labor prices; output prices; price changes; price indexes; price information; price stickiness; relative prices; strike prices principal-agent problem 131–3, 140 see also separation prisoners of war (POWs), economy of 46, 50 private information 124, 126 production economy, barter versus money 47–8 production function, in classical economy’s supply side 53, 54 profit-maximization and cash constraints 30, 115, 116 in classical economy’s supply side 53–7, 62–3 and efficiency wage theories 71–2, 74 and financial development 146, 147 as incentive for disclosure by financial intermediary demander 137 and project constraints 115 supply curve 27–8, 30 profits 53, 54, 75 see also iso-profit curve, maximizingfirms in model economy; profitmaximization
183
prohibitions, in maximizing-behavior axiom 21 project constraints 115, 146 ‘project rich’ firms 30, 115, 146 property rights 149 see also intellectual property protection; ownership public regulation see regulation, public ‘put options’ 128–31 quantity theory of money 58–9 Radford, R.A. 46, 50 Rajan, Raghuram 132–3, 134, 136, 138, 147, 149, 150 random inflation, and Lucas critique and Phillips Curve breakdown 81 rational expectations and Lucas critique and Phillips Curve breakdown 82, 83 and Phillips Curve 68, 69–70 and time inconsistency problem 87, 89–90, 91, 92–3, 106–7 rationality see maximizing-behavior axiom real activity and central bank independence (CBI) 107–8 defined 113 and deposit insurance 127 and Lucas critique and Phillips Curve breakdown 81–2, 83 and money in classical economy 62–3, 64 and money supply 77 and Phillips Curve breakdown 68–70 and time inconsistency problem 90 real business cycles (RBCs) 62–3, 64, 65, 66 see also cyclical output; cyclical unemployment real cash balances, in classical economy’s demand side 59, 60 real wages in classical economy’s supply side 55–8, 60, 62–3, 64 and efficiency wage theories 71–2, 73, 74 in Keynesian economy’s supply side 67, 68, 69, 70
184
Index
and money supply shocks 77, 78 negative monetary policy shocks, effect on 77, 78 reduced form evidence 11–12, 13, 14, 77–8 regulation, public 132–3, 137–8 see also laws, monetary services; regulatory ‘mistakes’, repetition of; rules, monetary services regulatory ‘mistakes’, repetition of 127–33 relationship banking 125, 126 relative price changes, Lucas critique and Phillips Curve breakdown 82, 83 relative prices 38, 82, 83 repeated interactions of monetary authorities 103–5, 141 repetition, regulatory ‘mistakes’ 127–33 reputation 104 resource costs 38, 39 restrictive covenants, and moral hazard mitigation 123 rigidities 51 see also nominal rigidities risk and deposit insurance 127, 128, 129, 130 and moral hazard 118–20, 123, 127 risk aversion, and stabilization policy 84–5 Roe, Mark 149–50 Rogoff, Kenneth 106, 107 rules, monetary services 102–3 see also laws, monetary services; regulation, public sacrifices, and maximizing-behavior axiom 21 Sarbanes-Oxley Act (2002) (SOX) 133, 137, 138 Satterthwaite, Mark 105–6 savings and loan crisis (US) 128–31 Schelling, Thomas 105–6 Schleifer, Andrei 69, 140, 141–2 Schwartz, Anna Jacobson 77 securities markets 137–8 see also capital structure seignorage see money supply changes self-evident assumptions 10, 11, 17
separation auditing and consultation 133 commercial and investment services 132, 133, 138 ownership and control 139–40, 146, 147, 150 see also conflicts of interest shirking, and efficiency wage theories 72–4, 79 shocks 79 see also aggregate demand shocks; ‘liquidity crises’; monetary policy shocks; negative supply shocks; pensions crisis, emerging (US); savings and loan crisis (US); technology shocks simple sum measures, monetary services 99–100 skilled managers 146, 147 social democracy 149–50 SOX (Sarbanes-Oxley Act 2002) 133, 137, 138 specialization, in barter versus money production economy 48 specialized managers 146, 147 ‘specific’ investments 141–3 stabilization monetary policy 84–5 stagflation 70 stakeholder investments 141, 142–3 stakeholders, non-equity 141, 142–3 static economy, money in evolution of exchange media 37–9, 40 inferior barter equilibrium 42–5, 46, 47, 50 money as exchange facilitator 35–7 superior monetary equilibrium 46–7, 50 stickiness see price stickiness; wage stickiness Stock, James 76, 77 stock option payments 138, 140 store of value 40 Strahan, Philip 148 strike prices 128–9 structural evidence, in modeling 13, 14 sub-optimal monetary policies, and time inconsistency problem 87, 89, 90, 91, 92–3
Index Summers, Lawrence 107–8, 141–2 superior monetary equilibrium 46–7 supply in barter versus money endowment economy 44 in barter versus money production economy 48 in classical economy 53–7, 58, 60, 61, 62–3, 64 in a Keynesian economy 67–70 and maximizing-firms in model economy 27–8, 29 see also aggregate supply; labor supply; money supply changes; money supply shocks; negative supply shocks; Phillips Curve surprise inflation, and unemployment in Phillips Curve 69, 70 systematic inflation, in Lucas critique and Phillips Curve breakdown 81 systematic risk 127–31 take-overs, hostile 141–2 tax policy 142–3 see also fiscal versus monetary authorities technology in barter versus money endowment economy 48 in classical economy’s supply side 53, 60 and financial development 146, 147 technology constraints 27, 30 technology shocks 62–3, 64, 66 time inconsistency problem and active monetary policy, reasons for 87–8, 89–93 and central bank independence (CBI) 107 described 87, 88–9 and Federal Reserve System 111 and inflation 90, 91, 92–3, 111 and repeated interaction of monetary authorities 103–4 and rule enforcement of monetary services 103 transaction costs 30, 43–4, 45, 46, 48 transparency 136, 137, 141 transportation costs 38
185
unemployment and inflation trade-off policy 70, 80–82 involuntary, and efficiency wage theories 72–4, 75 and Lucas critique and Phillips Curve breakdown 81, 90 and Phillips Curve 68, 69, 70, 80 and time inconsistency problem 90, 91 unexpected inflation, and Phillips Curve breakdown 81, 90 unexpected price changes, in Lucas critique and Phillips Curve breakdown 81–2 United States bank restriction reductions and economic performance 146–7 commitment problems, commodity versus fiat money 39, 40 corporate governance 137–8 deposit insurance 126–7, 128–31 money supply and output 77 repeated regulatory ‘mistakes’ 128–33 see also Congress; Federal Open Market Committee (FOMC); Federal Reserve Board (FRB); Federal Reserve System universal banks 132–3, 138 user costs 100, 101 validity, of models 10–11, 13 value 40, 128–9 velocity of money 58–9 veto players 111 Vickers, John 105, 106 Vishny, Robert 140 Vives, Xavier 123, 140 wage agreements 67, 78 wage stickiness 67, 68, 76 wages see efficiency wage theories; nominal wages; real wages; wage agreements; wage stickiness Watson, Mark 76, 77 weighted aggregates, in monetary service measurement 100–101
186
Index
welfare barter versus money in production economy 47–8, 49 financial development and living standards 148 financial development and politics 148–50 and Glass-Steagall Act (1933) 131–3, 138 inferior barter economy 42–5, 50 stabilization policy 84–5 superior monetary economy 46–7 and time inconsistency problem 90, 91, 92
welfare maximization, and time inconsistency problem 90, 91, 92, 93 well-being see welfare well-developed financial systems 30–31, 137, 147–8 Wier, Peggy 125 Willett, Thomas D. 110 Yap 35–7 Yellen, Janet 75, 79 Zingales, Luigi 136, 147, 149, 150