speeches · September 29, 2015
Regional President Speech
William C. Dudley · President
FEDERAL RESERVE BANK of NEW YORK ServingtheSecondDistrictandtheNation
SPEECH
Regulation and Liquidity Provision
September 30, 2015
William C. Dudley, President and Chief Executive Officer
Remarks at the SIFMA Liquidity Forum, New York City
As prepared for delivery
The financial crisis and the ensuing recession exacted a high cost on the country. Real gross domestic product (GDP) declined by
over a half of a trillion dollars. Total nonfarm payroll employment declined by 8.7 million jobs, and 5.8 million households lost
their homes to foreclosure. Extraordinary fiscal and monetary policy efforts were required to prevent a collapse of the financial
system and the onset of a world-wide economic depression. In the aftermath, new regulations, such as Basel III and the Dodd-
Frank Act, were implemented to strengthen the financial system and to limit the risk of a future financial crisis.
Some opponents of tougher bank regulation claim that the increased regulatory requirements, such as the higher capital
requirements and new liquidity standards, that have been imposed on large financial institutions in the aftermath of the financial
crisis have reduced these firms' market-making capacity. As a result, so the argument goes, this is leading to less liquidity for
trading securities, and to more illiquidity events in which the prices of financial assets move sharply and become temporarily
unmoored from their fundamental valuations. The contention is that higher liquidity costs and more frequent illiquidity events
will, over time, drive up the borrowing costs of households, businesses and the U.S. government; and that this is a substantial,
largely unintended cost imposed by tougher regulation. Thus, the argument concludes, the regulatory burden should be rolled
back.
This is a noteworthy assertion and would have significant implications for regulatory policy if it were correct. However, as I will
lay out in my remarks, I don't think the hypothesis is well-supported by the available evidence. First, the evidence to date that
liquidity has diminished markedly is, at best, mixed. Second, even if one were to interpret the evidence as indicating that liquidity
has been reduced, it is not clear whether regulation is the primary driver, as other changes have played important roles as well.
Moreover, even if higher capital and new liquidity requirements were found to result in greater transaction costs, these costs
would need to be assessed against the benefits of having a more robust and resilient financial system and a reduced risk of
financial crises in the future.
That said, more work should be undertaken to fully assess this issue. There is much that is still unknown. The available market
liquidity data primarily focus on the inter-dealer markets and thus do not shed light on possible liquidity changes between dealers
and customers. In addition, the financial system is adjusting in complex ways in reaction to regulatory, technological and other
changes. We need to better understand the degree to which any changes in the nature of liquidity reflect the evolving structure of
financial markets, changes in regulatory policy or other factors. With respect to regulatory policy, an important objective should
be to achieve the best balance between the benefits of increased safety and soundness versus any costs imposed by these regulatory
changes on market function and liquidity.
In my remarks today, I will focus on market liquidity rather than funding liquidity, although I recognize that the two are related in
important ways. I will examine market liquidity in two important fixed-income markets—the U.S. Treasury market and the U.S.
corporate bond market. The Treasury and corporate bond markets provide a useful contrast in evaluating liquidity conditions as
they differ with respect to the homogeneity of their securities, how their securities are traded and how regulatory changes may
have affected the incentives of dealers to make markets in these securities.
The Treasury market is much more homogeneous and the average size of each issue is much larger. Trading volume and average
trade sizes are much larger, and much of the trading activity for interdealer on-the-run securities is conducted electronically
through the use of central limit order books (CLOB). In contrast, the corporate bond market is much more heterogeneous; there
are many more distinct bonds available; and bond sizes are much smaller. As a result, corporate bond trading is fragmented
across a large number of distinct outstanding bonds. Consequently, trading tends to occur infrequently and largely on a bilateral
basis.
Through the prism of these two asset classes, I hope to provide some preliminary answers to five key questions. First, what do we
mean by liquidity and how can we measure it? Second, what does the available evidence show in terms of how liquidity has
changed in recent years in the U.S. Treasury and corporate bond markets? Third, what factors could influence liquidity
provision? Regulation might be one factor, but there also could be others. Fourth, what are the costs associated with shifts in
liquidity and how do these costs compare to the benefits of a more resilient and robust financial system? Fifth, what future work is
needed to better assess whether increased regulation has damaged liquidity provision and whether the resulting costs exceed the
benefits of higher capital and liquidity standards in terms of financial stability? As always, what I have to say today represents my
own views and not necessarily those of the Federal Open Market Committee (FOMC) or the Federal Reserve System.1
What do we mean by liquidity and how can we measure it?
I would define liquidity as the cost—both in expense and in time—of buying or selling an asset for cash. This would incorporate
any direct transaction expense, such as fees or brokerage costs, the price the transaction was executed at relative to the midpoint
of bid-ask spreads, how much—if at all—the size of the transaction moved market prices, and the immediacy or speediness with
which the transaction could be completed. How quickly prices revert back to earlier prices after a large trade also is relevant in
assessing liquidity costs. The costs of liquidity would go up if the costs of execution rose, the bid-ask spread widened, if prices
moved more in response to a given sized transaction or if it took a longer period of time to complete the transaction and receive
cash.
In assessing liquidity, we also need to distinguish between those liquidity conditions that generally prevail versus those that arise
during periods of market stress when liquidity may become constrained. Liquidity risk is the risk that liquidity might be impaired
in the future when one wants to buy or sell an asset. If liquidity risk is high, this means that there is a substantial risk that the
price received could be at a greater concession to the prior trade than anticipated.
Liquidity is dynamic, unobservable and multi-dimensional in nature, and, as such, can only be measured indirectly. We can
measure liquidity using a number of metrics, including bid-ask spreads, market depth and price impact. Bid-ask spreads are a
measure of the potential compensation for market makers for liquidity provision. Market depth measures how thick the central
limit order book is at any point in time. If the CLOB is denser and thicker, then a large trade should result in a smaller price
concession, everything else equal. Price impact measures how the price of a security changes in response to trades of a given size.
To measure liquidity risk, we combine the various measures of liquidity discussed above into a single liquidity index. Large jumps
in illiquidity are identified as days in which the liquidity index deteriorates by an unusually large amount. We benchmark this as
moves of greater than two standard deviations. Liquidity risk is calculated as the number of such jumps in illiquidity over a two-
year rolling window. Constructed in this manner, we are implicitly assuming that the risk of an illiquidity event in the future is
correlated with the frequency of such illiquidity events in the recent past.
What does the available evidence show in terms of how liquidity has changed in recent years in the U.S.
Treasury and corporate bond markets?
With respect to the U.S. Treasury market, we do not find much evidence based on available measures consistent with a significant
deterioration in liquidity. For example, quoted bid-ask spreads, after widening sharply during the financial crisis, subsequently
narrowed and have remained stable at pre-crisis levels since 2010. (Exhibit 1) Other measures paint a more mixed picture. While
order book depth is appreciably lower now than in 2012 and 2013, it is much higher than during the financial crisis, and does not
appear to be unusually low by historical standards. (Exhibit 2) Similarly, the price impact of trades appears to have risen a bit
since the October 15 flash rally indicating some deterioration of liquidity, but is still not high relative to its longer-run experience.
(Exhibit 3) Average trade sizes have followed a similar pattern to the order book depth and have recently declined somewhat.
(Exhibit 4)
Another way to assess liquidity conditions is through the potential impact on Treasury yields. If liquidity had deteriorated
markedly, then we would expect to see larger deviations of actual yields compared to the yields predicted by an empirically fitted
yield curve. If liquidity were more costly, the deviations of actual yields from fitted yields would increase because the costs of
arbitrage to eliminate those divergences would be higher. During the financial crisis, for example, there was a sharp deterioration
in liquidity, which was associated with a sharp rise in some measures of yield curve fitting errors to a peak of about 20 basis
points. This compares to less than 2 basis points prior to the crisis. In contrast, yield curve fitting errors have been low and stable
recently and not outside historical norms. (Exhibit 5) Of course, the Federal Reserve's large scale interventions in the Treasury
market over this period may also have had an impact on this measure.
Turning to corporate bonds, given their heterogeneous nature, liquidity in the corporate bond market depends on the ability and
willingness of dealers to hold these securities on their balance sheets while they find buyers. Disaggregated data on dealer balance
sheet holdings have only been published since April 2013. While limited in terms of its history, these data indicate no clear
reduction in investment grade security holdings over time, but do show a significant reduction in high-yield security holdings since
the end of the financial crisis. This might be indicative of deterioration in market liquidity in corporate bonds.
To investigate corporate bond market liquidity in more detail, let's examine three liquidity measures: the average trade size,
"effective" bid-ask spreads and price impact. The evidence on the average trade size for investment grade corporate bonds
indicates a slight reduction from between $700,000 to $800,000 in the early 2000s to around $500,000 in the last few years.
(Exhibit 6) However, price measures of corporate bond liquidity do not substantiate the trend in this quantity measure. The
effective bid-ask spread has been trending down since the early 2000s, around the same time that TRACE reporting was
introduced. The spread spiked during the financial crisis, but is now lower than its pre-crisis levels. (Exhibit 7) Similarly, price
impact—the effect on price from a $1 million trade—has also been trending down since the early 2000s apart from the jump
during the financial crisis. (Exhibit 8)
Although liquidity in the Treasury and corporate bond markets does not appear to have changed much recently, liquidity risk may
have risen. For the Treasury market, our liquidity risk measure increased sharply with the financial crisis, and declined from 2009
to 2013. However, over the last two years Treasury liquidity risk has moved higher and relative to the pre-crisis period is currently
somewhat elevated. For the corporate bond market, liquidity risk also increased sharply during the financial crisis, and then
quickly fell as the crisis passed. Corporate bond liquidity risk subsequently increased again in 2012 and early 2013, but is now
back down close to its pre-crisis level. (Exhibit 9)
In sum, there is limited evidence pointing to a reduction in the average levels of liquidity. However, there are reasons to think
liquidity risk may have increased, and there are some data to support this conjecture.
Two cautionary notes are warranted in evaluating the available evidence. First, the Treasury market evidence is based on the
inter-dealer markets, and we do not have comparable evidence on liquidity conditions in the dealer-to-customer market. Second,
it is important to note that the FOMC's unconventional monetary policy may have affected recent measures of liquidity in ways
that could make it more difficult to clearly discern any potential changes. To the extent that this may be the case, then a clearer
picture on liquidity conditions may only emerge as monetary policy is normalized.
What factors could influence liquidity provision?
Clearly many factors could affect liquidity provision. On the regulatory side, capital and liquidity requirements are probably the
most important factors. Dealers have been an important provider of liquidity. Higher capital requirements reduce dealers'
returns on equity for a given level of intermediation activity and margin. At the same time, liquidity requirements increase the
cost of holding less liquid assets. To compensate for the higher capital and liquidity requirements, dealers can shrink their activity
in lower margin businesses and raise the price for the liquidity services they provide. Presumably, both adjustments occur in most
markets with the ease of entry, the degree of economies of scale, business model and overall client profitability influencing
whether the adjustment occurs more through a resizing of the activity or a change in unit trading margins.
For the U.S Treasury market, the most important change in regulatory requirements is probably the introduction of the
supplementary leverage ratio (SLR) in the United States. The SLR limits how leveraged a dealer balance sheet can be. Because in
the SLR all assets require regulatory capital, the SLR is much tougher on low risk assets compared to the risk-based capital
measures it complements. Of note, the long-standing U.S. tier 1 leverage ratio also requires the same amount of regulatory capital
for all assets, but the SLR has been more binding given its higher calibration and more expansive coverage of exposures. The SLR
is currently the binding capital requirement for some dealers, and it has significantly increased the amount of capital that needs to
be held against low-risk assets. This has resulted in significant adjustments in the composition of dealer balance sheets. For
example, the imposition of the SLR has been cited as an important factor in the shrinkage of dealer repo financing activity. In
contrast, the risk-based capital standards and new liquidity standards are unlikely to be important for Treasuries and repo backed
by Treasuries because Treasuries are treated as posing less risk to the banks that hold them and count as high-quality liquid
assets.
For the corporate bond market, the most relevant factors are probably the increase in the Basel risk-weighted capital ratio, the
Comprehensive Capital Analysis and Review (CCAR) stress tests—which subject the dealer trading book to additional global
market shocks that include a sudden increase in general risk premiums and credit risk combined with significant market
illiquidity—and the Volcker Rule, which prohibits proprietary trading for a number of asset classes including corporate bonds, but
not U.S. Treasuries.
However, for both markets, other non-regulatory factors are also important. Liquidity provision is affected by changes in market
structure, how trades are executed and by competition from outside of the regulatory boundaries that have been established for
systemically important financial institutions. The market structure for many asset classes has evolved from a bilateral OTC
structure toward a more open, centralized structure through the adoption of electronic trading platforms, post-trade
infrastructures and higher degrees of transparency. For example, in the U.S. Treasury market, firms specializing in high-
frequency algorithmic trading have become much more important and now make up more than half the trading in the electronic,
interdealer cash market. This change in market structure has reduced the cost of trading in the interdealer market, especially for
small trade sizes. Electronic trading enables the use of automated trading strategies which tend to employ speed for executing
small-size trades, and the liquidity on electronic trading platforms allows traders to get in and out of positions quickly. The
growth in high-frequency trading likely accounts for the reduction in trade size discussed earlier rather than this reduction being
indicative of less liquidity. The movement toward electronic trading has allowed a more diverse set of actors to participate in the
market, thereby increasing competition and likely leading to improved market liquidity. These changes, though, may have
reduced the profitability of providing liquidity for dealers engaged in trading activity in the Treasury market.2
Liquidity risk in the Treasury market may also reflect the growth in high-frequency trading rather than the impact of regulation.
Temporary illiquidity events may reflect unanticipated, complex and dynamic interactions among high-frequency trading
strategies that can play out faster than the timeframe in which human intervention can occur. In addition, high-frequency trading
activity, by undercutting the returns to providing liquidity services on a lower frequency and a higher trade size basis, may have
both increased liquidity in the small—hence narrowing bid/offer spreads in normal trading conditions—but decreased it in the
large—when selling or buying pressure on one side of the market predominates.
For the corporate bond market, market structure has also changed in important ways. For example, bond mutual funds and
exchange traded funds now hold a much higher proportion of corporate bonds than before the financial crisis. Presumably, this
shift in the structure of the market has affected liquidity provision and liquidity risk in the corporate bond market through the
redemption risk faced by these funds. Also, shifts in market structure and regulation have undoubtedly affected other markets
related to the corporate bond market. For example, changes in capital requirements for single name credit default swaps have
presumably—and appropriately from a supervisory perspective—increased hedging costs and affected dealer market-making
appetites and capabilities.
What are the costs associated with shifts in liquidity and how do these costs compare to the benefits of a more
resilient and robust financial system?
Even if one were to read the evidence as supporting the notion that liquidity has become somewhat more costly, this does not
imply that we should simply unwind recent regulatory requirements. First, as I discussed, there are non-regulatory factors that
could be more important factors. Second, even if a connection could be made to regulatory causes, the costs of any reduction in
liquidity or increase in liquidity risk might be low relative to the benefits of the regulations.
As I noted at the outset of my remarks, recent regulatory changes have been designed to produce a safer and sounder financial
system. Higher capital and liquidity requirements have made major financial institutions less prone to failure. This can be seen in
the sharp fall in credit default swap spreads for major dealers in recent years. Moreover, other steps have made the financial
system more robust to the failure of a systemically important firm. For example, the shift to central clearing of over-the-counter
derivatives through central counterparties (CCPs) has reduced bilateral risk exposures, and significant progress is being made on
how to resolve the failure of a systemically important financial firm in a way that does not threaten the entire financial system.3
As I see it, the prior regime did not sufficiently foster financial stability, a necessary condition for sustained economic growth.
Most noteworthy to me is the fact that the regulatory regime that was in place in 2008 and 2009 was associated with an episode of
the most illiquid market conditions since at least the Great Depression. A return to such a regime could lead to a higher cost for
liquidity over the long-run.
I think we are in a much better place today. We have a financial system that is much more resilient, and the available evidence
suggests that this transformation has not resulted in any significant erosion in market liquidity.
What future work is needed?
There is a tendency to compress a complex world into a sound bite—such as, "tougher regulation is increasing the cost of liquidity
and driving up liquidity risk." Policy needs to be based on evidence and the available evidence supporting this claim is mixed, at
best. Most importantly, I think it ignores the complex nature of the changes underway in financial markets. The methods of
intermediation are changing and will likely continue to evolve. There are new players with different objectives and goals, and
technology is evolving rapidly. These factors strike me as just as important as the increase in regulatory requirements for the large
dealers.
The recent work analyzing the October 15 Treasury market flash rally illuminates the complexity of today's market structure. After
a careful examination of the evidence, the authors of the October 15 flash rally report conclude that "the events of October 15
underscore the importance of efforts by the official and private sectors to understand more fully the implications of the evolving
Treasury market structure for liquidity, trading and risk management practices, data access, and monitoring and surveillance."
The report goes on to suggest "further study of the evolution of the U.S. Treasury market and the implications for market structure
and liquidity;" "continue monitoring of trading and risk management practices across the U.S. Treasury market;" "an assessment
of the data available to the public and to official sectors on U.S. Treasury cash securities;" and "continued efforts to strengthen
monitoring and surveillance and to promote interagency coordination related to trading across the U.S. Treasury market."4 I
concur with all these recommendations.
There is much more work to do—not just with respect to the U.S. Treasury market, of course, but also on the broader issue of how
changes in regulation and market structure influence liquidity conditions across the different financial markets. For example,
electronic trading was introduced to the foreign exchange market well before recent regulatory changes. Consequently, a study of
the foreign exchange market may shed some additional light on the role of electronic trading on liquidity risk in an environment
prior to recent regulatory changes. Only through much more careful study and data analysis can we thoughtfully address the two
most important questions—not whether regulation should be rolled back in order to return to the liquidity conditions prior to the
financial crisis, but instead:
• whether there is a diminution of liquidity and/or an increase in liquidity risk that is costly or poses risks to financial stability or
macroeconomic performance; and, if this this is the case,
• whether financial market regulation could be altered in a way that improves the balance between the benefits of tougher
regulation in terms of enhanced financial stability versus the costs of such regulation, including any adverse impacts on market
liquidity provision. In addition, whether microstructure reforms aimed at improving the functioning of markets could be
promising in that respect.
We certainly don't want to undermine the progress we have made in making the financial system more robust and resilient. But if
there are adjustments to regulation that could improve liquidity provision without increasing financial stability risks, we should be
open to considering such changes. I suspect, however, making this determination will require considerably more data, research
and reflection before we reach any definitive conclusions.
Thank you for your kind attention. I would be happy to take a few questions.
Charts
_________________________________________________
1 Tobias Adrian, Dianne Dobbeck, James Egelhof, Michael Fleming, Joshua Frost, Lorie Logan, Michael McMorrow, Matthew
Raskin, Ernst Schaumburg, Katherine Tilghman-Hill, Joseph Tracy and Nathaniel Wuerffel assisted in preparing these remarks.
2 The Federal Reserve's large scale asset purchases presumably have also played a role by removing a large volume of Treasury
securities from the marketplace.
3 This includes requirements for total loss-absorbing capital (TLAC), Title I resolution plan requirements and the option of Title II
single point of entry resolution
4See Joint Staff Report: The U.S. Treasury Market on October 15, 2014, pp 6-7.
RELATED NEW YORK FED CONTENT
Cite this document
APA
William C. Dudley (2015, September 29). Regional President Speech. Speeches, Federal Reserve. https://whenthefedspeaks.com/doc/regional_speeche_20150930_william_c_dudley
BibTeX
@misc{wtfs_regional_speeche_20150930_william_c_dudley,
author = {William C. Dudley},
title = {Regional President Speech},
year = {2015},
month = {Sep},
howpublished = {Speeches, Federal Reserve},
url = {https://whenthefedspeaks.com/doc/regional_speeche_20150930_william_c_dudley},
note = {Retrieved via When the Fed Speaks corpus}
}