Full text of Statements and Speeches of Roger Walton Ferguson, Jr. : Asset Price Levels and Volatility: Causes and Implications : Remarks to the Banco de Mexico International Conference, Mexico City, Mexico

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To the Banco de Mexico International Conference, Mexico City, Mexico
November 15, 2005
Asset Price Levels and Volatility: Causes and Implications
The variability of real activity and inflation in the United States has declined substantially
since the mid-1980s--a development often termed the Great Moderation. During roughly the
same period, equity valuations have risen, and term premiums for fixed-income assets have
fallen. The obvious question is whether these real economy and financial market phenomena
are measurably related. Put differently, has less-variable real activity helped increase the
value of financial assets, as some have claimed? It is certainly possible to see how such a
link might occur. If perceived to be persistent over sufficiently long periods of time, greater
economic stability could support higher asset prices by reducing risk premiums on financial
assets. It is also plausible that more stability in output and inflation could lead to lower
volatility in financial asset prices.
In my remarks today, I want to discuss what researchers are uncovering about the links
between the volatility of real activity and asset prices. As a monetary policy maker, I am
interested in these links because the prices of financial assets affect the spending decisions
of firms and households and because these prices may reveal forward-looking information
relevant for setting policy. In addition, I want to discuss changes in financial markets
themselves that may contribute to asset price volatility. Before proceeding, I must indicate
that the views I am about to express are my own and do not necessarily reflect the views of
other members of the Board of Governors or the Federal Open Market Committee.
The volatility of GDP has fallen while equity prices have risen
A number of researchers have documented that the volatility of economic activity has
moderated since the mid-1980s (Kim and Nelson, 1999; McConnell and Perez-Quiros,
2000). Moreover, the decline does not appear to be the result of a long-term downward
trend but appears to conform more to a structural break around the mid-1980s. The
moderation is substantial: The standard deviation of the quarterly growth rate of real gross
domestic product from 1985 to 2004--about 2.1 percent--is only about one-half its standard
deviation from 1960 to 1984. Similar-sized declines in volatility have been evident in many
of the components of GDP, including consumption and residential investment, and also in
inflation. Declines have also occurred in the volatility of business investment and corporate
profits, but these declines have been more modest.
A variety of explanations for this Great Moderation have been put forth, and each has
garnered some empirical support. First, the U.S. economy might have been lucky, and the
shocks to the economy have been milder than in the past (Stock and Watson, 2002; Ahmed,
Levin and Wilson, 2004). Another explanation is that firms may have adopted information
technologies that allow them to more efficiently manage their inventories (Kahn,
McConnell, and Perez-Quiros, 2002), thus limiting destabilizing imbalances and rectifying
them more quickly when they arise. Better conduct of monetary policy could also lead to
lower inflation and economic volatility (see, for example, Clarida, Gali, and Gertler, 2000;

and Romer and Romer, 2002). Finally, financial innovations, such as risk-based loan pricing
and expanded securitization, may have enhanced the ability of households to borrow, which
would make them less sensitive to fluctuations in income (Dynan, Elmendorf, and Sichel,
2005).
Importantly, equity valuation, as measured by the price-earnings ratio of the S&P 500, has
been higher in the past two decades than in the two decades before that. The price-earnings
ratio averaged 14 from 1960 to 1984 and rose to an average of 19 over 1985-2004. The
average since 1984 falls only slightly, to 18, if we exclude the late 1990s and 2000, when
valuations reached record levels. The rise in equity valuations at the same time that
macroeconomic volatility fell is circumstantial evidence of a link between the two.
Interest rates also could potentially have been affected by the Great Moderation. Investors
in Treasury bonds require a risk (or term) premium to compensate them for the risk of loss
on longer-maturity bonds resulting from movements in interest rates. Term premiums could
be lower when inflation expectations are well anchored or the macroeconomy is less
volatile. Ongoing research by Board staff suggests a notable downward trend in term
premiums since 1990 (Kim and Wright, 2005). This secular decline in term premiums since
1990 appears to be correlated with the decline in long-run inflation uncertainty and in
short-term interest rate uncertainty.
Does volatility of real activity affect the level of asset prices?
Now, I would like to explore some of the research that might explain whether and, if so, how
the Great Moderation affected the level of asset prices. Structural models of asset prices
provide a consistent framework for understanding both equity prices and interest rates. In
these models, each asset price contains a risk premium that represents the additional return
demanded by risk-averse investors for bearing risk. A reduction in macroeconomic volatility
that reduces uncertainty about earnings or dividends could reduce the equity risk premium
and, as a result, lead to higher equity prices. Less uncertainty about future inflation could
lower the risk premiums on nominal Treasury bonds, lowering the risk-free interest rate.
There is, however, a potential offset as well. Lower volatility may reduce the motive for
precautionary savings and thus put upward pressure on interest rates and, all else equal,
downward pressure on equities.
One recent paper has directly examined whether the recent decline in economic volatility
contributed to a lower long-run equity premium and the steep run-up in stock prices in the
late 1990s (Lettau, Ludvigson, and Wachter, 2005). This model supposes that investors learn
about the new, low-volatility regime only gradually. The researchers estimate that investors
revised up the probability of being in a low-volatility regime starting in the early 1990s. This
revision, if perceived to be persistent, could explain the magnitude of the decline in the
long-run equity premium in the late 1990s. However, one concern that has been raised about
this model is that it does not also address the behavior of interest rates over the past decade.
Some other studies address the effect of macroeconomic volatility on both stock prices and
the risk-free interest rate. However, the focus of these papers is not explicitly on a
downward shift in volatility, as implied by the Great Moderation, but instead on a temporary
drop in volatility that is eventually reversed. These papers find that lower volatility leads to
higher interest rates and a lower equity premium, but the net effect on stock prices depends
on how the researchers choose to model investors' risk and savings preferences (see, for
example, Bansal and Yaron, 2004; Bekaert, Engstrom, and Xing 2005). Ongoing research by
Board staff members (Bekaert, Engstrom and Xing 2005) suggests that when a more flexible

specification for investor preferences is adopted, macro volatility has little net effect on
stock prices. That is, this research finds that the downward pressure of the higher interest
rates on equity prices roughly offsets the upward pressure of a lower equity premium.
The effect of a reduction in the variability of inflation, rather than output, on equity
premiums has also been examined. Against the backdrop of a long-term downward trend in
the equity premium, from unusually high levels in the late 1930s and 1940s, Blanchard
(1993) shows that year-to-year moves in the equity premium are correlated with changes in
inflation. In particular, lower deviations of inflation from past trends are correlated with
lower-than-average equity premiums, an indication that the decline in the volatility of
inflation is a factor behind the observed decline in the equity premium in the 1980s.
In short, although the data are suggestive, tests based on asset pricing models have not firmly
established an empirical link between reduced macroeconomic volatility and higher asset
prices. The ability to establish such a link is limited, in part because many of the
fundamental concepts underlying asset prices, such as risk aversion and expected volatility
of growth, are difficult to measure and the model outcomes depend greatly on assumptions
regarding these key variables.
Does volatility of real activity affect the volatility of asset prices?
I would like to turn now from the level of asset prices to their volatility. In brief, evidence of
a decline in this volatility is scarce. For S&P 500 returns, the annualized standard deviation
was 13.2 percent over 1985-2004, about matching the 12.9 percent figure over 1960-84. For
the ten-year Treasury bond, the annualized standard deviation of interest rate changes was
1.1 percentage points over 1985-2004, down only slightly from 1.4 percentage points over
1960-84. These data indicate clearly that the Great Moderation of volatility in GDP and
many of its components has not carried over to the volatility of asset prices.
To better understand what could appear to be an anomaly, a theoretical framework is
helpful. Asset price volatility can be decomposed into two pieces--one that depends on the
volatility of future cash flows and one that depends on the volatility of the discount rate
applied to those cash flows. For the stock market, the relevant cash flows might be thought
of as dividends or earnings, and the discount rate would be the sum of the real risk-free
interest rate and the equity risk premium. Research has suggested that the variation in
dividends or earnings accounts for no more than one-fourth of stock market volatility,
whereas variation in the discount rate accounts for the bulk of the volatility.
Recent research by Board staff members (Campbell, 2005) has shown that the volatility of
investors' forecasts of future corporate earnings or dividends has declined substantially,
which would tend to lower the volatility of stock prices. However, this paper also showed
that the volatility of the discount rate, which historically has been the main driver of stock
market volatility, has not declined. This result could arise if the volatility of investors' risk
aversion is independent of macroeconomic volatility, as would be consistent with asset
pricing models that are based on habit formation (Campbell and Cochrane, 1999). Other
researchers (Bekaert, Engstrom, and Xing, 2005) also find evidence consistent with this
hypothesis. Another reason why the volatility of discount rates may not have fallen is that
investors learn only gradually about changes in macro volatility and thus have greater
uncertainty about the current volatility regime. Alternatively, investors may fear that
volatility will revert back to a higher level in the future. The bottom line is that some big
questions remain unanswered and that this topic remains very much an active area of
research.

Volatility of asset prices may also be affected by changes in financial markets
So far I have focused on how macroeconomic volatility can affect asset prices. I have
argued that observable macroeconomic variables, such as the volatility of news about future
earnings or the volatility of macroeconomic factors, such as consumption, can explain only a
fraction of the asset price volatility that we observe. At this point, it seems sensible to look
elsewhere to try to explain asset price volatility. Microeconomic factors seem like the logical
next place to look.
The microeconomic factor I want to focus on is the greater effect of market liquidity on
asset prices. The liquidity of financial markets has expanded significantly in recent years, to
the great benefit of many segments of our economy. As liquidity has grown, some of the
volatility we have seen in asset prices may be related to shifts in market liquidity. Some
believe that liquidity may now be a more significant factor in three particular areas: financial
innovations that enable a wider range of risks to be traded, the trading behavior of large
investors, and the growing role of hedge funds.
Financial engineering has produced many innovations that enable risks to be unbundled and
dispersed throughout the financial system. For example, the new technologies of
securitization and credit derivatives help banks better manage their exposure to credit risk
by offloading some of their risk to institutional investors who appear to be more willing and
able to bear it. Dispersing risk widely creates a more resilient financial system, which in turn
allows the economy to better weather disruptions. High-profile defaults in recent years, such
as those of Enron, WorldCom, Parmalat, and Delphi, have not caused financial distress
among large financial institutions or disrupted the supply of credit to the nonfinancial sector
in any noticeable way.
Some people have argued, however, that because these financial innovations rely on market
liquidity, they impose costs by increasing asset price volatility when demands for liquidity
are unusually high. For example, some blame the stock market crash of 1987, either wholly
or in part, on portfolio insurance strategies practiced by some market participants at that
time. Likewise, some have blamed past bouts of volatility in fixed-income markets partly on
investors who dynamically hedge the prepayment risk of mortgage-backed securities.
It seems clear that large and sudden changes in asset prices can occur when market
participants do not sufficiently consider liquidity. Fortunately, however, recent episodes have
served as painful lessons for some market participants of the need to actively manage market
liquidity risk. For example, swaps dealers now routinely estimate mortgage-related hedging
flows to try to anticipate the changes in liquidity that could accompany swings in mortgage
prepayment risk.
Effectively managing market liquidity risk can limit the effects on asset price volatility.
Market participants have learned that lesson and have strong incentives to manage liquidity
risk by means that include the stress-testing of their portfolios with scenarios such as a
sudden absence of liquidity in key markets. It is, in my judgment, important for supervisors
to reinforce that incentive and encourage more institutions to conduct such stress tests.
Recent research at the Federal Reserve Board sheds some light on how liquidity conditions
can be influenced by the trading behavior of large investors and can, in turn, affect asset
price volatility (Pritsker, 2005). The research shows that the presence of large investors can
affect market price dynamics if they become forced sellers. Specifically, forced sales by
large investors can temporarily cause assets to be mispriced, no longer reflecting long-run

fundamentals, past pricing relationships to break down, and liquidity factors to take on
importance for asset pricing. The results of this research would appear to be relevant to our
thinking about markets dominated by large investors. However, this finding merely
reinforces the earlier comment that all investors need to consider liquidity risk carefully, and
it puts a special focus on the class of large investors that has emerged in the last decade as
the financial sector has undergone a period of consolidation and growth.
No discussion of liquidity and volatility would be complete without a mention of hedge
funds. Hedge funds have grown rapidly in recent years: Assets under management are
estimated to have grown from $50 billion in 1993 to $600 billion in 2003 and close to $1
trillion today. However, with 8,000 hedge funds in existence, according to industry
estimates, the average size of a hedge fund is less than $120 million. Therefore, few, if any,
hedge funds seem to be of systemic scale. Hedge funds provide valuable liquidity and reduce
the mispricing of financial assets that might occur across markets, making markets more
efficient. They appear to have an advantage over other market participants in the provision
of these services because they have more-flexible investment strategies and can adapt
quickly to changing market opportunities.
Some observers are concerned that the features of hedge funds that promote liquidity and
efficient pricing might also contribute to higher asset price volatility. One concern along
these lines is that sudden withdrawals by investors could force hedge funds to sell into a
falling market. Of course, this is a risk that hedge fund managers have an incentive to
manage by taking into account the liquidity of both their assets and their liabilities. One tool
that hedge funds appear to actively use when managing this risk is lock-up periods on
investors' capital. Therefore, this concern seems misplaced, in my assessment.
A second concern is that excessive leverage at hedge funds could lead their counterparties to
close out their positions in the event of an adverse shock, again potentially increasing
volatility. Sound credit-risk management by hedge fund counterparties is important for
effectively addressing this risk, and supervisors are promoting such techniques among the
institutions they oversee. Although these institutions have made progress at improving their
management of hedge fund credit risk, some work remains to be done, but the counterparties
of hedge funds are undertaking that work.
Finally, some hedge funds do appear at times to crowd into niche markets to exploit
mispricings, and their actions have occasionally caused price volatility in those niches to
rise. However, this behavior would be expected to self-correct as the overcrowded trades
produce low returns that disappoint hedge fund investors. In any case, price volatility in
niche markets poses little danger of systemic risk as long as other market participants
manage their exposure to such events prudently.
Summary and lessons for policymakers
To sum up, macroeconomic volatility has declined over the past two decades. Some of this
decline appears to have fed through to financial markets in the form of lower risk premiums
and higher asset valuations. To some extent, the lack of a clear link between macroeconomic
volatility and the level of asset prices in existing research and models should not be a
surprise. Explaining asset prices is difficult because they are determined by many complex
factors, such as risk aversion, expected future earnings, and expected earnings volatility,
which are inherently difficult to measure.
A more concrete finding is that the decline in macroeconomic volatility has not led to a
decline in asset price volatility. News about corporate earnings appears to have become less

volatile, but this factor explains only a small part of the reduction in the volatility of asset
prices. Rather, existing research suggests that asset price volatility remains largely a
reflection of variation in investors' discount rates rather than of changes in forecasts of
fundamentals. On a micro level, financial innovations and new types of market participants
appear to have led to greater market efficiency and liquidity. Still, growing pains in the
markets are inevitable, and policymakers need to watch financial markets carefully for any
warning signs that may appear. It certainly feels like market liquidity, investor behavior, and
asset price volatility are more important considerations for policymakers now than they were
decades ago. That said, the benefits of a more efficient financial system seem to me and
most others to outweigh the costs.
From my perspective as a policymaker, the lesson I take from these developments is that the
best course of action is good preparation for potential problems. First and foremost is
maintaining low and stable inflation. Inflation expectations that are well anchored provide
policymakers much greater flexibility to respond as unexpected events unfold in financial
markets. Second, policymakers need to encourage sound risk management by private market
participants because that is the primary line of defense against financial instability.
Supervisors should create incentives for sound risk management at supervised institutions,
and central banks should ensure that the infrastructure of financial markets, especially
arrangements to clear and settle financial market transactions, is subject to robust risk
management.
In conclusion, a policymaker today probably has a different perspective on the world
compared with that of a policymaker forty years ago, long before the Great Moderation.
Without targeting asset prices, we need to be more attentive now to financial markets
because asset prices affect spending to a greater degree than before and because asset prices
provide us with a greater amount of timely information to guide policy. Moreover, we have
become an even more receptive audience for research that enables us to better understand
the links between the real economy and financial asset prices. It is for that reason that I wish
to thank the Banco de Mexico for giving me an opportunity to participate in this conference.
References
Ahmed, S., A. Levin, and B. Wilson, 2004, "Recent U.S. Macroeconomic Stability: Good
Policies, Good Practices, or Good Luck?" Review of Economics and Statistics 86 (3),
824-832.
Bansal, R., and A. Yaron, 2004, "Risks for the Long-Run: A Potential Resolution of Asset
Pricing Puzzles," Journal of Finance, 59(4), 1481-1509.
Bekaert, G., E. Engstrom, and Y. Xing, 2005, "Risk, Uncertainty, and Asset Prices," FEDS
Working Paper 2005-40, Board of Governors of the Federal Reserve System.
Blanchard, O. J., 1993, "Movements in the Equity Premium," Brookings Papers on
Economic Activity, 2, 75-138.
Campbell, J., and J. Cochrane, 1999, "By Force of Habit: A Consumption-Based
Explanation of Aggregate Stock Market Behavior," Journal of Political Economy, 107,
205-251.
Campbell, S., 2005, "Stock Market Volatility and the Great Moderation," FEDS Working

Paper 2005-47, Board of Governors of the Federal Reserve System.
Clarida, R., J. Gali, and M. Gertler, 2000, "Monetary Policy Rules and Macroeconomic
Stability: Evidence and Some Theory," Quarterly Journal of Economics, 115(1), 147-180.
Dynan, K., D. Elmendorf, and D. Sichel, 2005, "Can Financial Innovation Help to Explain
the Reduced Volatility of Economic Activity?" Journal of Monetary Economics,
forthcoming.
Kahn, J. A., M. M. McConnell, and G. Perez-Quiros, 2002, "On the Causes of the Increased
Stability of the U.S. Economy," Federal Reserve Bank of New York, Economic Policy
Review, 8 (1), 183-202.
Kim, C., and C. Nelson (1999), "Has the U.S. Economy Become More Stable? A Bayesian
Approach Based on a Markov-Switching Model of the Business Cycle," Review of
Economics and Statistics, 81(4), 608-616.
Kim, D. H., and J. H. Wright (2005), "An Arbitrage-Free Three-Factor Term Structure
Model and the Recent Behavior of Long-Term Yields and Distant-Horizon Forward Rates,"
FEDS Working Paper 2005-33, Board of Governors of the Federal Reserve System.
Lettau, M., S. Ludvigson, and J. Wachter, 2005, "The Declining Equity Premium: What Role
Does Macroeconomic Risk Play?" paper presented at the Federal Reserve Board conference
on Financial Market Risk Premiums: Time Variation and Macroeconomic Links, July 21.
McConnell, M. M., and G. Perez-Quiros, 2000, "Output Fluctuations in the United States:
What Has Changed Since the Early 1980s?" American Economic Review, 90 (5),
1464-1476.
Pritsker, M., 2005, "Large Investors: Implications for Equilibrium Asset Returns, Shock
Absorption, and Liquidity," FEDS Working Paper 2005-36, Board of Governors of the
Federal Reserve System.
Romer, C., and D. Romer, 2002, "The Evolution of Economic Understanding and Postwar
Stabilization Policy," (439 KB PDF) in Rethinking Stabilization Policy. Kansas City:
Federal Reserve Bank of Kansas City, 11-78.
Stock, J., and M. Watson, 2002, "Has the Business Cycle Changed and Why?" in M. Gertler
and K. Rogoff, eds., NBER Macroeconomics Annual. Cambridge, Mass: National Bureau of
Economic Research.
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