Rise and Fall of Securitization
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Transcript of Rise and Fall of Securitization
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The Rise and Fall of Securitization
Sergey Chernenko [email protected]
The Ohio State University
Sam Hanson [email protected]
Harvard University
Adi Sunderam [email protected] Harvard University
December 2013
Abstract
The rise and fall of nontraditional securitizationscollateralized debt obligations and mortgage-backed securities backed by nonprime loansplayed a central role in the financial crisis. Little is known, however, about the factors that drove the pre-crisis surge in investor demand for these products. Examining insurance companies and mutual funds holdings of fixed income securities, we find evidence suggesting that both agency problems and neglected risks played an important role in driving investor demand for nontraditional securitizations prior to crisis. We also use our holdings data to shed light on the factors that drove the dramatic collapse of securitization markets beginning in mid-2007. Contrary to conventional crisis narratives, we find little evidence of widespread fire sales. Instead, our evidence is more consistent with the idea that a self-amplifying buyers strike drove the dramatic collapse of securitization markets.
We are grateful to Josh Coval, Robin Greenwood, David Scharfstein, Erik Stafford, and seminar participants at Harvard for helpful comments. Hanson and Sunderam gratefully acknowledge funding from the Division of Research at the Harvard Business School.
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The rise and fall of nontraditional securitizationscollateralized debt obligations and
mortgage-backed securities backed by nonprime loanswas at the heart of the recent financial crisis.
Although traditional securitizations of prime mortgages, commercial mortgages, and consumer debt
had existed for decades, nontraditional securitizations grew exponentially from 2003 to mid-2007.
The primary market for nontraditional securitizations then collapsed in dramatic fashion in mid-2007,
and secondary market prices for these products fell precipitously throughout 2007 and 2008. These
price declines generated enormous losses for large financial intermediaries, ultimately imperiling
their soundness and helping to trigger a full-blown systemic crisis in 2008.
Despite general agreement on this broad narrative, surprisingly little is known about the
underlying factors that drove the pre-crisis surge in investor demand for these nontraditional
securitizations and the subsequent collapse of demand. While competing theoretical explanations
abound, there has been little detailed empirical work assessing these narratives. In this paper, we use
new micro-data on mutual funds and insurance companies holdings of fixed income securities to
shed light on the factors that drove the rise and fall of securitization.
Explanations of the rapid rise of nontraditional securitizations from 2003 to mid-2007 point to
specific investor types that drove growing demand for these products due to either bad beliefs or
bad incentives. Explanations that emphasize bad beliefs argue that some agents misunderstood
the risks of investing in securitizations.1 For instance, demand may have been driven by rating-
sensitive investors who were misled by the AAA ratings granted to many securitizations.
Alternatively, demand may have been driven by investors who neglected the risk of a large
nationwide downturn in house prices, and thus believed that a diversified exposure to subprime
mortgages was virtually riskless.
By contrast, bad incentives explanations for the securitization boom emphasize the role of
principal-agent problems between professional investors and their principals.2 According to these
narratives, investors took on tail risk by buying securitizations. Because these investors received
equity-like compensation, buying securitizations rationally maximized investors own gains while
ultimately destroying value for their principals. Agency explanations for the boom come in many
flavors, which differ primarily in where they locate the critical agency conflict within the financial
1 See, for instance, Coval, Jurek, and Stafford (2009), Gennaioli, Shleifer, and Vishny (2011). 2 See, for instance, Rajan (2005).
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system. Some explanations emphasize agency problems between external capital providers and
managers at financial institutions. Other explanations emphasize agency conflicts between firm
management and individual firm employees (e.g., traders) who wanted to take excessive risks. By
studying both mutual funds and insurance companies, we are able to shed light on the role of both
types of incentive problems.
A key question in assessing these competing narratives is: which investors drove the boom
and bust in securitizations? For instance, in the case of bad beliefs explanations, it is natural to ask
which types of investors were most prone to these mistaken beliefs. Similarly, in the case of bad
incentives explanations of the boom, we want to know which types of investors were most prone to
these incentive problems and what factors exacerbated the incentive conflicts.
Investor heterogeneity also plays a key role in explanations of the collapse of the market for
securitizations from mid-2007 to 2009. A broad theoretical consensus points to fire salesthe forced
sale of securities by investors with high valuations to others with low valuationsas the key
amplification mechanism at work during the bust.3 In these explanations, binding leverage constraints
forced financial intermediaries, who were natural holders of complex securitizations, to sell to other
investors with lower valuations. The resulting decline in prices further tightened intermediary
leverage constraints, leading to further forced sales. A central, yet largely untested, prediction of
these theories is that the decline in prices was associated with increased trade between levered
intermediaries and other investors. In other words, prices declined because large amounts of forced
trading significantly changed the identity of the marginal holder. An alternative to the conventional
fire-sales view is that investors staged a buyers strike, refusing to trade due to adverse selection or
some other friction.4
In this paper, we examine data on investors holdings of securitizations to shed light on the
types of investors who drove the boom and bust. Specifically, we study quarterly fixed income
holdings of mutual funds and insurance companies from 2003 to 2010. These real money
3 See, for instance, Shleifer and Vishny (1992, 2011), Kiyotaki and Moore (1997), Lorenzoni (2008), Brunnermeier and Pedersen (2009), Geanakopolos (2010), Stein (2012), Brunnermeier and Sanikov (2012), and Dvila (2011) for theoretical treatments of the fire-sale amplification mechanism. 4 See, for instance, Dang, Gorton, and Holmstrom (2010), Hanson and Sunderam (2013), Milbrandt (2013), and Morris and Shin (2012).
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investorsintermediaries with access to stable capital from household saversare two of the largest
investors in credit assets, owning close to 30% of all corporate bonds and private securitizations.5
Throughout the analysis we distinguish between traditional securitizationswhich were
backed by prime residential mortgages, commercial mortgages, and consumer debtand
nontraditional securitizations that consisted of securitizations backed by nonprime home mortgages
and collateralized debt obligations. While traditional securitizations had existed for decades,
nontraditional securitizations were a far more recent innovation. And the rapid growth in
securitization markets during the 2003-2007 boom was concentrated in nontraditional products.6
We begin by presenting two key aggregate stylized facts about the boom in nontraditional
securitizations from 2003 to 2007. First, there was significant variation in credit spreads at issuance
on highly-rated securitizations backed by different types of collateral. Spreads on AAA-rated
traditional securitizations were negligible. By contrast, spreads on AAA-rated nontraditional
securitizations were much wider, in line with spreads on BBB-rated corporate bonds. This suggests a
more nuanced view of the boom than simple tellings of either bad beliefs or bad incentives theories,
which tend to lump all AAA-rated securitizations together. Regardless of whether demand from some
investors was elevated due to bad incentives or bad beliefs, it appears that there were other investors
who clearly differentiated between traditional AAA-rated securitizations and the nontraditional
AAA-rated structure products that were at the heart of the financial crisis.
Our second aggregate fact is that mutual funds and insurers as a whole were below market
weight in securitizations, particularly in nontraditional securitizations. This suggests that the
proximate surge in demand for structured finance products did not stem primarily from real-money
investors. Nonetheless, to the extent that real-money investors are affected by the same incentive
problems and expectational errors as other investors, cross-sectional patterns in their holdings can
help shed light on the drivers of the boom in securitization. Given that nontraditional securitizations
grew most explosively during the boom, we focus our analysis on these securitizations. A simple
5 According to the Flow of Funds, as of 2007Q2, total outstanding corporate and foreign bonds, which include privately-issued securitizations, were $10.88 trillion. Of this, mutual funds (excluding money market mutual funds) owned $0.84 trillion (7%), and insurers (both life and property and casualty) owned $2.13 trillion (20%). 6 It should be noted that both traditional and nontraditional securitization markets collapsed in the bust, with traditional securitization recovering more quickly and strongly.
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variance decomposition underscores the role of investor heterogeneity: variation across investors, as
opposed to common variation over time, is crucial for understanding our panel of holdings data.
To flesh out the drivers of this investor-level variation, we study the relationship between a
host of investor characteristics suggested by theory and holdings of nontraditional securitizations
during the boom. For mutual funds, we focus on a key prediction of the incentives narrative:
managers facing stronger performance-flow relationship should take more risk. We find little
evidence of this. However, we find that inexperienced mutual fund managers invest significantly
more in these products than more experienced managersdespite the fact that inexperienced and
experienced managers faced similar performance-flow incentives. This is consistent with the idea that
inexperienced managers are more prone to bad beliefs. Moreover, we find a discrete shift away from
nontraditional securitizations for managers who were active during the market dislocations of fall
1998, consistent with theories of reinforcement learning. Finally, we find that team-managed mutual
funds invest far more in these products than individual-managed funds. This is consistent with the
social psychology literature on group polarization in risk-taking, which argues that social dynamics
can lead groups to take on beliefs that are more extreme than the beliefs of any single group
member.7 Overall, the results are consistent with the idea that bad beliefs played an important role in
driving mutual fund demand for nontraditional securitizations.
Turning to insurance companies, we find that holdings of nontraditional securitizations are
concentrated among insurers that are poorly capitalized and have low financial strength ratings. In
addition, insurance companies that manage their portfolios internally hold more nontraditional
securitizations than those whose portfolios are managed externally, and insurance companies
organized as mutuals tend to hold fewer nontraditional securitizations than those organized as stock
companies. These findings are consistent with the idea that incentive conflicts play an important in
role in explaining insurer demand for nontraditional securitizations. In summary, our evidence
suggests that both bad beliefs and bad incentives are likely part of the explanation for the pre-crisis
surge in investor demand for these products.
Finally, we turn to investor behavior during the bust. We find little evidence of increased
transaction volume as prices of securitizations declined throughout late 2007 and 2008. Instead, 7 See, for example, Myers and Lamm (1976) and Isenberg (1986) in the social psychology literature and Bliss, Potter, and Schwarz (2008) and Br , Ciccotello , and Ruenzi (2010) in the mutual funds literature.
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trading in nontraditional securitizations declined through the boom from 2003 to 2007 and was
extremely low during the 2007 to 2009 bust. In contrast, trading in corporate bonds remained
relatively constant from 2003 to 2010. This suggests that the collapse of the secondary market for
these products may be better described as a buyers strike or market freeze than a fire sale.
A brief note on our approach is in order. First, the aim of this paper is not to advance one
specific narrative of the crisis. Indeed, it is unlikely that one theory alone can completely explain a
complex phenomenon like the rise and fall of nontraditional securitization. Second, our analysis is
largely descriptive. Lacking clean natural experiments, we are not able to definitively identify causal
effects. Instead, we pursue a series of descriptive tests that can help us begin to discriminate between
alternative explanations. We carefully consider factors that may confound our interpretations of these
tests, but ultimately our tests remain descriptive. Nonetheless, we believe they are a useful first step.
In summary, our goal in this paper is to document a series of robust stylized facts that can inform
future theoretical and empirical work on the crisis. In this way, our approach is similar to that of
Griffin, Harris, Shu, and Topalugua (2011), who study investor behavior in the dot-com boom and
bust.
The plan for the paper is as follows. Section I provides some background on traditional and
nontraditional securitizations. Section II outlines different theoretical narratives of the crisis and
develops a number of testable hypotheses. Section III explains the numerous data sources we use in
the paper. Section IV analyzes our holdings data to explore drivers of the boom, while Section V uses
our data to shed light on the mechanics of the bust. Section VI offers some concluding observations.
I. Background on Securitization
This section provides a brief background on securitization. Securitizations are created through
the process of poolingassembling a pool of cash-flow-generating financial assets such as loans or
debt securitiesand tranchingissuing claims of various priorities backed by that pool.
In the United States, the securitization of home mortgages dates back to the late 1960s and
early 1970s when various Government Sponsored Enterprises (GSEs), corporations that were
implicitly or explicitly backed by the US government, began issuing securities backed by residential
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mortgage pools.8 Only conforming mortgagesloans to borrowers with high credit (FICO) scores,
with low loan-to-value ratios, below a Congressionally-approved loan size limit (non-Jumbo
loans), and with sufficient documentationare eligible to be securitized in GSE mortgage-backed
securities (GSE MBS). The market for GSE MBS grew exponentially during the 1980s, and by the
early 2000s it had overtaken the market for US Treasuries to become the single largest debt market in
the US (Fabozzi 2005).
The late 1980s saw the advent of several types of private securitizations that were not
implicitly backed by the government. We broadly refer to these securitizations as traditional
securitizations.9 They include:
Commercial Backed Mortgage Securities (CMBS): The securitization of commercial mortgages into CMBS was pioneered by investment banks in the early 1980s. However,
this market only grew to prominence in the early 1990s when the US Governments
Resolution Trust Corporation began relying heavily on CMBS securitizations to sell off
the commercial real estate loan portfolios of failed depository institutions. The CMBS
market grew rapidly throughout the 1990s and 2000s.
Consumer Asset-Backed Securities (ABS): The securitization of credit card debt, auto loans, and student loans began in the late 1980s. These markets developed rapidly
throughout the 1990s, and by 2000 over 30% of all non-mortgage consumer debt had been
securitized. However, the market for consumer ABS grew more slowly during the 2003-
2007 boom, and the fraction of consumer debt that had been securitized actually fell to
25% by 2007Q2.
Prime non-GSE MBS: Beginning in 1977, investment banks began securitizing prime jumbo home mortgages that conformed to all GSE MBS criteria other than size
(Fabozzi 2005; Gorton 2008).
8 Ginnie Mae issued its first MBS in 1968, and Freddie Mac followed in 1971. Fannie Mae did not begin issued MBS until 1981. Ginnie Mae is a government owned corporation and is explicitly guaranteed by the US government. Fannie Mae and Freddie Mac receive a variety of unique government benefits and have historically been perceived as being implicitly backed by the government. 9 The exact definitions of these different types of securitizations are not universally agreed upon. We typically hew closely to conventional investor categorizations. However, we sometimes make simplifications for the sake of clarity.
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The boom in securitization from 2003 to 2007 prominently featured new types of
securitizations that developed after these traditional securitizations. We label the second set of
securitizations nontraditional. They include
Nonprime RMBS: The securitization of subprime and Alt-A home mortgages began in the mid 1990s (Lehman Brothers 2004). Alt-A mortgages are non-conforming due to high
loan-to-value ratios or a lack of sufficient documentation. Subprime mortgages are non-
conforming because the borrower has a low FICO score. The origination and
securitization of nonprime mortgages exploded during the boom from 2003-2007.10
Collateralized Debt Obligations (CDOs): CDOs are securitizations backed by a portfolio of fixed income assets. Depending on the underlying assets, CDOs are classified
as collateralized bond obligations (CBOs), collateralized loan obligations (CLOs), or ABS
CDOs. CBOs are collateralized largely by corporate bonds and were the most common
type of CDO in the late 1990s and early 2000s. However, this market grew slowly after
the prominent downgrades of several CBOs backed by high yield bonds in 2002. CLOs
primarily use unsecured loans to highly leveraged corporations (levered loans) as
collateral. CLO issuance boomed from 2003 to 2007. ABS CDOs use bonds from other
securitizations as the underlying collateral. ABS CDOs, particularly those using nonprime
RMBS as collateral, grew explosively over the course of the boom. Many of the most
dramatic losses by large financial intermediaries announced during 2007 and 2008 were
linked to ABS CDOs.11
Although our classification of securitizations into traditional and nontraditional is not universally
used in the academic literature, the classification is meaningful and also serves as a useful short-hand.
Furthermore, it is motivated by the historical evolution of these markets described above,
classifications widely employed by practitioners, as well as by the differences in new-issue pricing
that we discuss below. 10 See Fabozzi (2005), Gorton (2008), and Ashcraft and Schuermann (2008) for further background on nonprime MBS. Oddly, market participants sometimes refer to subprime mortgages as home equity loans (HEL). This is because the first subprime MBS securitizations in the mid-1990s actually contained second lien mortgages or home equity loans (Lehman Brothers 2004). Over time, these were replaced by first lien mortgages, but the name stuck. 11 See Shivdasani and Wang (2013) for further background on CLOs. See A. K. Barnett-Hart (2009) and Cordell, Huang, and Williams (2012) for more detail on ABS CDOs.
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II. Narratives of the Rise and Fall
In this section, we discuss competing narratives of the boom and bust in nontraditional
securitization with an eye towards motivating our empirical tests. Our description of these narratives
and their predictions is deliberately stark. Our goal in this paper is not to provide definitive tests of
the different narratives. Instead, our goal is to document a series of robust stylized facts that can
inform future research about the mechanisms that drove the rise and fall of securitization.12 In
pursuing this goal, our approach is to document correlations, even if they reflect endogenous
relationships between investor characteristics and holdings of structured products.
A. Narratives of the Rise
Explanations of the boom in securitization can broadly be grouped into two categories: bad
beliefs and bad incentives.13 We describe each of these narratives in turn, outlining their empirical
predictions for prices and patterns in investor holdings.
A.1 Bad beliefs
In the context of the 2003-2007 securitization boom, bad beliefs explanations argue that
investors misunderstood the risks of investing in nontraditional securitizations. Essentially, investors
treated all AAA-rated securitizations as though they were virtually risk-free. For instance, Gerardi,
Lehnert, Sherlund, and Willen (2008) and Gennaioli, Shleifer, and Vishny (2012) argue that investors
neglected the risk of a substantial nationwide downturn in house prices and therefore believed that
diversified exposure to residential mortgages was almost riskless. Coval, Jurek, and Stafford (2010)
argue that investors focused on credit ratings which reflected expected losses, but neglected the
systematic risk embedded in securitizations. Ashcraft, Goldsmith-Pinkham, and Vickery (2010) and
Rajan, Seru, and Vig (2012) argue that investors and rating agencies failed to update their models of
12 Erel, Nadauld, and Stulz (2013) carry out a similar exercise for bank holding companies. However, they are not able to examine variation across the type of collateral backing the securitization. 13 We do not explicitly focus on explanations of the boom that emphasize the demand for safe, money-like assets (e.g., Caballero, 2009; Caballero and Farhi, 2013; Gorton and Metrick 2009, 2010). While these explanations are surely important, they can fall into either the bad beliefs or bad incentives categories depending on the reasons that investors perceived nontraditional securitizations to be money-like. Similarly, we largely bypass explanations focusing on the role of international demand for safe assets (e.g., Bernanke 2005, Bernanke, et. al. 2011, Caballero, 2009; Shin, 2012). Since our data only included US-based mutual funds and insurers, it is not particularly useful for addressing these questions.
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loan default in the face of deteriorating loan underwriting standards, thus neglecting the risks
associated with lending to riskier households.
We begin with predictions about prices. Simple versions of the bad beliefs narrative for the
boom have strong predictions for security prices. Specifically, if the demand from investors who
neglected these risks was large enough, then the yield of all AAA-rated securitizations should have
been similar and close to those on default-free government bonds.
Bad Beliefs 1: Prices of AAA-rated nontraditional securitizations should have been highly homogeneous and close to risk-free rates.
We next turn to predictions about holdings. In bad beliefs narratives, a key question is which
types of investors were the optimists who bought large quantities of nontraditional securitizations
during the boom. In the simplest version of the bad beliefs narrative, all investors incorrectly assessed
the risks of securitizations. This suggests that most of the variation in our holdings data should be
driven by common variation over time.
Bad Beliefs 2: Under a simple version of the narrative, most variation in holdings of nontraditional securitizations should be common variation over time.
In more nuanced versions of this narrative, particular subsets of investors may have been
more susceptible to bad beliefs. For instance, Gennaioli, Shleifer, and Vishny (2012) argue that
unsophisticated investors were shocked by the swift decline of nationwide home price. Consistent
with this, anecdotal accounts suggest that demand from smaller, less sophisticated investors like
small insurance companies and pension funds played an important role in fueling the boom.14 Coval,
Jurek, and Stafford (2010) argue that rating-sensitive investors, and the rating agencies themselves,
were crucial because ratings measure expected loss rather than systematic risk. From a security
design perspective, the AAA-rated tranches of securitization are economic catastrophe bonds that
load heavily on tail risk and therefore maximize yield for a given expected loss.
In the context of mutual funds, the literature has argued that inexperienced managers may be
more prone to bad beliefs (e.g., Greenwood and Nagel, 2009; Malmandier and Nagel, 2011;
Campbell, Ramadorai, and Ranish, 2013). Similarly, the literature on group polarization in social
14 For instance, the town of Narvik, Norway suffered significant losses on CDO investments and appeared in the infamous stick figure Subprime Primer (http://www.nytimes.com/2007/12/02/world/europe/02norway.html). Springfield, MA also suffered similar losses (http://dealbook.nytimes.com/2008/01/28/in-this-city-cdo-spells-trouble/).
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psychology argues that groups tend to make decisions that are more extreme than the initial
inclinations of its members. This suggests that team-managed mutual funds may take more extreme
positions in securitizations than individually-managed funds. Finally, the level of expertise of a
mutual fund family in evaluating fixed income securities may proxy for the accuracy of its beliefs.
Specifically, under the bad beliefs view, it seems natural to think that unsophisticated mutual funds
seeking safe assets would be large holders of securitizations, while more sophisticated funds would
correctly avoid these products.
Bad Beliefs 3: Mutual funds managed by less experienced managers and mutual funds managed by teams should have purchased more nontraditional securitizations.
A.2 Bad incentives
In contrast to bad beliefs narratives, bad incentives narratives of the boom emphasize agency
problems within the financial sector.15 In these explanations of the boom, sophisticated actors within
financial institutions correctly understood the risks of securitizations all along. However, due to
incentive frictions between these agents and their ultimate principals, these agents purchased more
securitizations than their ultimate principals would have if acting on their own behalf.
For prices, the bad incentives narrative has similar implications to the bad beliefs narratives.
In very simple versions of the narrative, given enough demand from financial institutions fraught
with agency problems, the prices of AAA-rated securitizations should have been highly homogenous.
Essentially, if principals treated all AAA-rated securities as though they were risk free, agents would
demand as much of these securities as possible, regardless of their true riskiness.
Bad Incentives 1: Under the bad incentives narrative, prices of AAA-rated nontraditional securitizations should have been highly homogeneous and close to risk-free rates.
Different versions of the bad incentives narrative locate the critical agency friction at different
points within the financial system. Some emphasize agency problems between external capital
providers and managers at financial institutions. For instance, the mutual fund literature typically
argues that agency problems between fund managers and investors stem from the relationship
between fund performance and future flows (Chevalier and Ellison, 1997, 1998). Since expected fund
inflows are a convex function of past fund outperformance, managers face incentives to take on 15 There is a large literature studying the incentives faced by loan officers in the origination process (e.g., Keys, Mukherjee, Seru, and Vig 2009). We focus on incentive problems with investors who ultimately purchased those loans.
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significant risk to thus maximize their expected future compensation even if this does not maximize
expected fund returns. Thus, according to the bad incentives view, the stronger the performance-flow
relationship facing a fund manager, the larger her holdings of securitizations should be.
Bad Incentives 2: Mutual funds holdings of nontraditional securitizations should be correlated with the strength of the performance-flow relationship faced by funds.
Because insurance companies sometimes outsource the management of their portfolios to
external asset managers, they also offer a venue for studying this type of incentive problem. In this
kind of delegated asset management, the central conflict is between traders, who are compensated
based on risk-adjusted performance, and external capital providers. If capital providers cannot
perfectly observe risk-taking and therefore perfectly risk-adjust performance, traders may have
incentives to take excessive risks. This benchmarking problem may be particularly acute for highly-
rated securitizations since, almost by construction, they perform well outside of adverse, low-
probability economic states (e.g., Acharya, Pagano, and Volpin, 2013; Adrian and Shin, 2013).16
Bad Incentives 3: Under the bad incentives narrative, insurers that have externally managed portfolios should buy more nontraditional securitizations.
Agency problems between external capital providers and managers at financial institutions
can also take the form of risk-shifting in the tradition of Jensen and Meckling (1976). In these
narratives (e.g., Landier, Sraer, and Thesmar, 2011), managers acting on behalf of existing
shareholders bought securitizations to take on tail risk, increasing the expected payoff to equity,
while reducing total firm value at creditors expense.17,18 For instance, the capitalization levels and
ratings of insurance companies may reflect the strength of the agency conflict between their equity
holders and their creditors, implicit (i.e., the government) and explicit (i.e., policyholders).19
Specifically, less well-capitalized insurers may have stronger risk-shifting incentives, and may
therefore be more likely to hold nontraditional securitizations. Finally, insurance companies are 16 Ellul and Yerramilli (2012) provide evidence that banks with stronger risk management took less tail risk in the boom. 17 Beltratti and Stulz (2011), Fahlenbrach and Stulz (2011), and Erel, Nadauld, and Stulz (2013) argue that incentive conflicts between shareholders and managers have little power to explain the performance of banks during the crisis. 18 The too big to fail version of this story focuses on the governments role as an implicit creditor of large financial institutions. Under this explanation, these institutions bought securitizations to rationally maximize the value of their implicit government guarantees. See e.g., Acharya, Cooley, Richardson, and Walter, 2009; Acharya and Richardson, 2009; Acharya, Schanbl, and Suarez, 2011; and Iannotta and Pennacchi, 2012. 19 The literature on risk-taking incentives in insurance companies is less well-developed than the comparable literature on mutual funds. Important exceptions include Becker and Ivashina (2013), who show that within rating insurers tend to hold riskier corporate bonds, and Koijen and Yogo (2013), who study regulatory capital arbitrage by insurers.
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typically organized either as public companies with external shareholders or as mutuals, which are
owned by policyholders. These differences in organizational form also create differences in the
strength of the agency conflict between equity holders and creditors. In the case of mutual companies,
policy holders are effectively providing both equity and debt to mutual insurance companies,
potentially reducing the scope for risk-shifting.
Bad Incentives 4: Insurers with less capital and low ratings should buy more nontraditional securitizations. In addition, insurers organized as mutuals should buy less.
Note that both the bad beliefs and bad incentives narratives provide reasons why some
investors may have had elevated demand for nontraditional securitizations. The large literature on
limits to arbitrage initiated by DeLong et al (1990a) and Shleifer and Vishny (1997) suggests that
other investors may have been reluctant to aggressively lean against these demand shocks. This
combination of demand shocks and limited arbitrageur risk-bearing capacity would then explain why
these demand shocks raised equilibrium prices and led to a surge in issuance. Going further, rational
investors may even have had incentives to ride a bubble rather than leaning against it as in DeLong
et al. (1990b) and Abreu and Brunnermeier (2002).
B. Narratives of the Bust
In contrast to the strong disagreement about the drivers of the boom in securitizations, there is
wider consensus about the ensuing market collapse from mid-2007 to 2009. The frictionless null
hypothesis is that the decline in the prices of securitizations during the financial crisis was driven by
bad news about their fundamental values (i.e., news about discounted expected cash flows). If all
investors simultaneously revised their assessment of fundamental value, we would not expect the
collapse in prices to be associated with a surge in trading volume. By contrast, narratives of the bust
have typically emphasized amplification mechanisms that led prices to over-react to this bad news.
B.1 Fire sales
The most common narrative of the bust suggests that fire sales significantly amplified the
impact of this initial bad news on prices. In these explanations, binding leverage constraints forced
financial intermediarieswho were the natural holders of securitizationsto sell to other investors
with lower valuations. The resulting decline in prices further tightened leverage constraints, leading
to further forced sales. In other words, fire-sales theories articulate a natural amplification mechanism
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whereby some initial moderately bad news could have ultimately had a severe impact on prices.20 A
critical feature of these explanations is that the decline in the prices of securitizations was associated
with increased trade between levered intermediaries and other investors. Put differently, these
explanations for the bust emphasize fire sales not fire holds. Prices declined because the identity of
the marginal investor changed as natural holders were forced to sell their holding to others.21
In this way, different explanations for the bust have very different implications for aggregate
trading patterns. The fundamentals-driven narrative suggests no reason for trading behavior to change
with the onset of the financial crisis, while the fire sales narrative suggests increased trade at the
beginning of the crisis.
Fire Sales 1: Under the fire sales narrative, transaction volume in nontraditional securitizations should have risen during the crisis.
In addition, we can examine the cross-section of our transactions data to further distinguish
between different narratives of the bust. For instance, fire sales narratives predict that mutual funds
suffering large outflows are forced to liquidate their structured product holdings. A related prediction,
from the large literature on limited arbitrage, suggests that externally managed funds may have been
forced to sell more of their risky holdings than internally managed funds due to frictions between
fund managers and external capital providers.
Fire Sales 2: Under the fire sales narrative, mutual funds facing outflows and insurance companies with externally managed portfolios should sell more nontraditional securitizations.
B.2 Buyers strikes
A second explanation that has received less attention is that investors uncertainty about the
valuations of securitizations changed dramatically. In these narratives, investors staged a buyers
strike, and prices entered a downward spiral characterized by a near absence of trade. Precipitous
price declines and a collapse of trading volume may be explained by a variety of frictional
amplification mechanisms. In Diamond and Rajan (2012), for instance, institutions that would 20 See Kiyotaki and Moore, 1997; Shleifer and Vishny, 1992, 2011; Geanakoplos, 2009; Brunnermeier and Pedersen, 2009; Stein, 2012 for fire-sale explanations. 21 Merrill, Nadauld, Stulz, and Sherland (2012) provide evidence that some insurers sold some nonprime residential mortgage backed securities at fire sale discounts. However, the aggregate volume of transactions they study is quite small. Ellul, Jotikasthira, Lundblad, and Wang (2012) exploit a difference in regulation between property and casualty insurers and life insurers to argue that mark-to-market accounting can exacerbate fire sales. Ellul, Jotikasthira, and Lundblad (2011) argue that regulation forced insurers into fire sales of corporate bonds before the crisis. Coval and Stafford (2007) study fire sales by mutual funds in equity markets.
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otherwise sell assets at fire-sale prices instead refuse to do so due to a risk-shifting problem. By
contrast, Dang, Gorton, and Holmstrom (2010) and Hanson and Sunderam (2013) rely on adverse
selection mechanisms. In these models, bad news lowers prices and raises uncertainty about asset
valuations; as a result, the scope for adverse selection between informed and uninformed investors
becomes too large and trade collapses. Milbrandt (2012) presents a model where trade freezes
because financial intermediaries wish to avoid recognizing losses that tighten their capital constraints.
In the model, prices fall until the potential profits from transacting exceed the shadow cost of the
tightening capital constraints.
Buyers Strikes 1: Under the buyers strikes narrative, transaction volume in nontraditional securitizations should have collapsed during the crisis.
III. Data
The data we use in our analysis comes from a number of different sources which are
described below.
A. Mutual Fund and Insurance Holdings
Our primary data set is the Thomson Reuters eMAXX database of quarterly security-level
holdings of asset-backed securities by US-domiciled mutual funds and insurance companies.
Thomson Reuters obtains par value holdings data from regulatory filingsSchedule D for insurance
companies and Forms N-CSR(S) and N-Q for mutual fundsas well as directly from these firms.
Our sample period runs from 2003Q1 to 2010Q4, which is long enough to allow us to study changes
in the demand for securitizations during the boom as well as trading during the crisis. The sample of
firm-quarter observations conditions on having at least one asset- or mortgage-backed security in the
investment portfolio, including GSE MBS securities. Our cross-sectional results are therefore
conditional on having some exposure to securitizations. The firms that are missing from the data are
largely those that by regulation or choice never invest in securitizations.22
22 There are two exceptions to this general statement. The first is that some money market mutual funds (MMMFs) are included in the eMAXX data during the early part of our sample period, but disappear over time. Because of these coverage issues and because risk taking by MMMFs has been studied before (Kacperczyk and Schnabl, 2013; Chernenko and Sunderam, 2013), we exclude MMMFs from our analysis. The second exception is that separate accounts of insurance companies are included in the eMAXX data during 2003-2004 and 2009Q4-2010Q4, but not during 2005Q1-2009Q3. We therefore exclude separate accounts from the analysis.
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B. Securities
We supplement our holdings data by collecting detailed security-level data from a number of
sources. To obtain comprehensive data on the collateral backing each security, we collect security
data from the three major credit rating agenciesFitch, Moodys, and S&Pand from Bloomberg.23
Some examples of collateral descriptions in these data are MBS - Prime Jumbo, CDO - Cash ABS
- Mezzanine, ABS - Floorplans - Auto Dealer, or Subprime/Home Equity RMBS. These
descriptions allow us to differentiate between traditional and nontraditional securitizations. To
simplify the analysis, we classify securitizations into six broad collateral types: (1) GSE MBS, (2)
CMBS, (3) consumer ABS, (4) prime private-label RMBS, (5) nonprime private-label RMBS, and (6)
CDOs. Our focus is on explaining the demand for the nontraditional securitizations that were at the
heart of the credit boom and crisis. We therefore calculate the share of nonprime RMBS and CDOs in
a given investors overall bond portfolio and label it nontraditional share.
In addition to information on collateral, we collect data on the coupon or spread at issuance
from Moodys and Bloomberg, the initial credit rating from Fitch, Moodys and S&P, and the time
series of outstanding amounts from Bloomberg.
C. Mutual Funds
We also collect data on the characteristics of the investors in our eMAXX data. We obtain
mutual fund characteristics from the CRSP Mutual Fund Database. We construct a fund-level link
between eMAXX and CRSP. We first match funds based on the spelling distance between their
names and then manually check both matched and unmatched observations. We are able to link 84%
(2,355 out of 2,813) mutual funds in eMAXX to CRSP.
Our cross-sectional analysis excludes index funds since they follow a passive investment
strategy. We also exclude funds that invest solely in government securities since the mandates of
these funds routinely restrict them from investing in private securitizations. Finally, we exclude the
handful of equity and municipal bond funds that show up in our data because they account for a very
23 eMAXX provides some information on the collateral backing each security, but the information is not granular enough for our purposes. The most common value of the collateral variable, accounting for 68.5% of all security-level observations, is Single Family Mortgage Loans. This is a very broad category that mixes agency securities together with private-label subprime RMBS.
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small fraction of aggregate securitization holdings and invest a very small share of their portfolio in
securitizations.
From Morningstar we obtain data on the portfolio managers of all US mutual funds, including
their age, educational background, and their start and end dates managing different funds. We use
birth year when available and educational background information to infer each managers age. We
measure managers experience using the first time we observe them managing a mutual fund.
D. Insurance Companies
We obtain insurance company data from AM Best. The AM Best data includes information on
insurers assets, capitalization, income, realized and unrealized capital gains, insurance premia, and
AM Bests financial strength rating for individual insurers. We are able to match 84% (3,630 out of
4,302) of insurance companies in eMAXX to AM Best. Overall, our data on insurance companies is
similar to our data on mutual funds, except that we do not have biographic data on insurer portfolio
managers.
IV. The Rise
A. Aggregate Facts
In this section, we use our data to shed light on the drivers of the boom in securitization between
2003 and 2007. As discussed in Section III, the two main explanations we explore are those based on
bad incentives and those based on bad beliefs. We start by examining aggregate time-series facts
about the boom, before turning to more detailed cross-sectional analyses.
A.1 Aggregate issuance during the boom
We begin by providing some background statistics on the explosive growth of the market for
securitizations between 2003 and 2007. Figure 1 shows the dramatic rise and fall of issuance of
securitizations. Issuance of nontraditional securitizations almost quadrupled from $98 billion in
2002Q4 to $420 billion at the peak in 2006Q4. By comparison, issuance of traditional securitizations
roughly doubled from $103 billion in 2002Q4 to $200 billion at its peak in 2007Q2. Panel B shows
that out of traditional securitizations, consumer ABS was roughly stable, and most of the growth took
place in CMBS. Panel C shows that the growth of nontraditional securitizations was dominated by
nonprime RMBS, while CDO issuance was concentrated in 2005-2006.
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A.2 Primary market pricing during the boom
As this rapid growth in issuance and outstanding amounts was taking place, there was
surprisingly little adjustment in the prices of securitizations. In Panel A of Figure 2, we plot the
quarterly time series of average credit spreads for AAA-rated securitizations backed by different
types of collateral from 2003Q1 to 2007Q4. We compute value-weighted averages of new-issue
spreads, restricting attention to the spreads on floating rate notes indexed to 1-, 3-, and 6-month
LIBOR to avoid benchmarking issues.
Panel A shows that during the boom, credit spreads on AAA-rated nontraditional
securitizations were significantly wider than those on other comparably-rated credit assets, including
AAA-rated traditional securitizations and corporate bonds. The data reject the conventional view that
investors were willing to buy any AAA-rated asset at nearly risk-free rates. The difference in spreads
between nontraditional AAA-rated products and traditional AAA-rated bonds, while modest in
absolute terms, is economically meaningful relative to typical spreads on AAA-rated assets. Indeed,
spreads on AAA-rated nonprime RMBS, CMBS, and CDOs were closer to those on BBB-rated
corporate bonds than to those on AAA-rated corporate bonds. During the height of the boom from
2004Q1 to 2007Q2, AAA-rated consumer ABS spreads averaged 9 bps, AAA-rated nonprime RMBS
spreads averaged 22 bps, and AAA-rated CDOs spreads averaged 34 bps. This can be compared with
corporate bond spreads that averaged 4 bps (over LIBOR) for AAA-rated bonds and 37 bps for BBB-
rated bonds.
Panel B of Figure 2 shows similar variation in the prices of BBB-rated securitizations. BBB-
rated tranches of traditional consumer ABS securitizations largely traded in line with BBB-rated
corporate bonds. By contrast, BBB-rated nonprime RMBS, CMBS, and CDO tranches traded in line
with BB-rated and B-rated corporate junk bonds. Specifically, from 2004Q1 to 2007Q2, spreads on
BBB-rated consumer ABS averaged 81 bps, spreads on BBB-rated RMBS averaged 179 bps, and
those on BBB-rated CDOs averaged 231 bps. This compares with corporate bond spreads that
averaged 37 bps (over LIBOR) for BBB-rated bonds, 131 bps for BB-rated bonds, and 231 for B-
rated bonds.
At the same time, we find little difference in the cross-sectional dispersion of spreads within a
given rating and collateral class. For instance, from 2004Q1 to 2007Q2 the cross-sectional standard
deviation of spreads among AAA-rated consumer ABS averaged 10 bps, whereas the cross-sectional
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dispersion for AAA-rated CDOs averaged 12 bps. Thus, the bulk of variation in credit spreads within
a given rating was across collateral classes as opposed to within collateral class.24
The very wide spreads on nontraditional securitizations are an underappreciated fact about the
boom, and one that creates problems for simple versions of both bad beliefs and bad incentives
explanations. As discussed above, if bad beliefs or bad incentives affect the demand for all
securitizations similarly, then we would expect the prices of securitizations to be quite homogenous.
For instance, taken literally, in Gennaioli, Shleifer, and Vishnys (2012) neglected risks model of the
boom, all investors should have treated all securitizations as a perfect substitute for riskless
Treasuries. Instead, the price variation we observe suggests that the marginal buyer of nontraditional
securitizations believed these assets were significantly more risky than traditional securitizations.25
Moreover, the observed variation in spreads lines up with ex post loss rates, at least directionally.
Figure 3 plots average spreads on different asset classes during the boom, against their cumulative
loss rates in the bust as reported by Moodys (2012). The figure shows a positive correlation,
indicating that the securities investors regarded as more risky during the boom did in fact suffer more
losses during the bust. This does not mean that investors got prices right during the boom. Given
the ex post losses, investors should have been charging spreads an order of magnitude larger.
However, it does show that investors correctly understood the ordering of risk across products.
Of course, this does not rule out bad beliefs or bad incentives as key drivers of the boom. It
merely suggests a more complex story in which agents disagreed about the risks of nontraditional
ABS, but investors with more conservative valuations had limited risk-bearing capacity.
A.3 Who bought securitizations during the boom?
The variation in prices documented above suggests that data on investor holdings are critical
for understanding drivers of the boom. They suggest important heterogeneity in investor attitudes
towards different types of securitizations, making it important to know which intermediaries were
driving demand. Relatively little is known about which intermediaries bought subprime RMBS and
24 Thus, our results do not contradict those in Adelino (2010), who finds that, in the cross-section of AAA-rated subprime RMBS, new issue credit spreads have very little predictive power for future downgrades or default. His findings within an asset class and rating are consistent with our between asset class findings. 25 It seems plausible that the pricing differences between traditional and nontraditional securitizations were, to a significant degree, about expected losses as opposed to differences in risk premia. Since all highly-rated securitization tranches are like economic catastrophe bonds which only incur losses in systematically bad times, it is difficult to appeal solely to risk premia to explain the differences between traditional and nontraditional ABS pricing.
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CDOs during the boom. To some extent, this gap in our knowledge reflects shortcomings in
reporting: prior to the crisis, regulatory filings for banks and insurers did not readily distinguish
between securitizations and traditional corporate bonds. Fortunately, we can use our eMAXX data to
begin to fill in these holes in our understanding.26
Tables 1 and 2 report estimates of the outstanding quantity of various private credit securities
and the estimated holdings of insurers and mutual funds from 2003 to 2010. In Table 1, we report
holdings of all private credit securities, which include corporate bonds, foreign bonds, and privately
issued ABS. In 2003Q2, insurers owned 26% of private credit securities which trended down to 20%
by 2010Q4. Mutual funds owned 7% of private credit securities in 2003Q2 which trended up to 11%
by 2010Q4. Thus, our data capture two of the largest investors in credit assets. We use these numbers
as a benchmark for assessing the overall weight of insurers and mutual funds within private credit
securities markets.
We next report holdings of traditional consumer ABS and CMBS. Both insurers and mutual
funds were underweight traditional consumer ABS. However, insurers were consistently overweight
CMBS, holding approximately one-third of outstanding CMBS from 2003 to 2010. This is consistent
with insurers long-standing expertise in commercial real estate. According to the Flow of Funds,
insurers market share of all commercial mortgages, not including CMBS holdings, averaged 28%
from 1952 to 2000.27
Table 2 shows the evolution of outstanding amounts and holdings for nontraditional
securitizationsprivate RMBS and CDOs/CLOs. As shown in Table 2, outstanding RMBS and
CDOs/CLOs surged during the boom. However, both insurers and mutual funds were lightening up
on subprime RMBS, alt-A RMBS, and CDOs/CLOs exposure from 2003 to 2007. Specifically,
comparing insurers market shares in Panel B with their share of all private credit securities in Panel
26 Previous estimates, put together in the midst of the crisis, include Lehman Brothers (2007, 2008). 27 According to the National Association of Insurance Commissioners (2012), insurers invest in commercial real estate for three primary reasons: (1) to increase the level of asset type diversification in their investment portfolio; (2) to match long-term assets with long-term liabilities, because commercial mortgage loans are generally long-term with fixed interest rates and almost always include prepayment (call) protections; and (3) to minimize credit losses, because, based on historical experience, commercial mortgage loans have had modest realized credit losses. See http://www.naic.org/capital_markets_archive/121026.htm for further background.
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A, we see that insurers became more underweight RMBS and CDOs as issuance boomed from 2003
to 2007Q2.28 We see similar patterns for mutual funds.29
This suggests that demand for these assets was not primarily coming from the regulated,
unlevered sector. If regulatory arbitrage was driving the surge in investor demand, it was not the
desire of insurance companies to arbitrage their capital regulations in order to hold high-yielding
securities. Indeed, looking across collateral types, the share of real money investors appears to be
negatively correlated with the new issue credit spreads shown in Figure 2. Moreover, the distribution
of ratings for insurance company and mutual fund holdings, shown in Figures 4 and 5, shows that
they were not tilting their portfolios towards tranches with a particular rating. Approximately 80% of
their holdings are rated AAA, which is roughly the share of issuance volume that was AAA-rated.
The one exception is holdings of CDOs, where only 40% of holdings are AAA-rated. This suggests
that regulatory arbitrage was not creating demand for AAA-rated CDOs among insurers and mutual
funds.
Though the evidence suggests that mutual funds and insurers did not drive the growth of
securitizations, they were still important holders of these products, with about $90 billion in total
holdings as of 2007. In the next sections, we turn to more detailed cross-sectional determinants of
insurance company and mutual fund holdings. To the extent that these investors were affected by the
same incentives and biased beliefs as other investors, cross-sectional patterns in their holdings should
shed light on drivers of the boom in securitization more generally.
B. Mutual Funds
In this section we examine portfolio weights of nontraditional securitizations in the
investment portfolios of mutual funds, before turning to insurance companies in the next section.
B.1 Variance Decomposition
We start by reporting the results of a simple variance decomposition of the share of
nontraditional securitizations in a funds bond portfolio. The results in Table 3 suggest that variation
28 The National Association of Insurance Commissioners also finds that insurer holdings of CDOs are quite low. See http://www.naic.org/capital_markets_archive/110218.htm. 29 The finding that mutual funds and insurers held very few CDOs is consistent with data on publically announced structured finance write-downs as of January 2009. In short, with the exception of AIG, US-based life and P&C insurers announced few CDO write-downs. Furthermore, few stand-alone commercial banks had large CDO write-downs: almost all bank CDO write-downs were in banks with a broker-dealer. See http://www.docstoc.com/docs/45701126/Creditflux-writedowns-Microsoft-Excel-Spreadsheet_-78-kb-xls.
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across funds, as opposed to common variation over time, is crucial for understanding mutual fund
holdings of securitizations. Specifically, common variation over time can explain less than 2% of
total variation in the portfolio share of nontraditional securitizations. Fund fixed effects, on the other
hand, explain more than 60% of total variation.
We might expect funds within the same fund family to face similar incentives and to have
access to similar information. As a result, fund investment decisions are likely to be correlated within
a family. Columns 5-7 confirm this intuition. Fund family fixed effects can explain about 30% of
total variation in nontraditional share. Nevertheless, in large families, those with at least 10 funds,
there is significant variation across different funds that belong to the same family, suggesting that
heterogeneity across individual portfolio mandates and managers plays an important role. The R2 of
family fixed effects for these funds is only 11%.
Overall, the results of this variance decomposition underscore the role of investor
heterogeneity. To assess the bad beliefs and bad incentives narratives of the boom, we therefore
examine the cross-sectional patterns in mutual fund holdings of nontraditional securitizations.
B.2 Mutual Funds versus Variable Annuities
To begin our analysis, we focus on a key prediction of the incentives narrative: managers
facing strong performance-flow relationships should take more risk. Our ideal experiment would hold
fixed fund managers information and vary their incentives. This suggests comparing the investment
decisions one manager makes for two different funds with different performance-flow sensitivities.
Of course, different funds managed by the same manager are likely to have different investment
objectives and restrictions, which would confound the comparison. We would like to isolate cases
where the same manager is in charge of multiple funds with the same investment objective and
benchmark but different performance-flow sensitivities.
Variable annuities provide an excellent laboratory to approximate this ideal experiment.
Variable annuities are a type of insurance contract whose value depends on the performance of the
investment options selected by the purchaser of the insurance policy. The underlying investment
options are typically mutual funds. These variable annuity funds are regulated and structured just like
regular mutual funds under the Investment Company Act of 1940. The only difference is that variable
annuity funds are available only to purchasers of variable annuities. Because they are not widely
available and sold as part of an insurance product, variable annuity funds are likely to face different
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performance-flow relationships, and therefore risk-taking incentives, than regular mutual funds.
Table 4 shows that variable annuity funds face lower performance-flow sensitivities than
regular mutual funds. CRSPs coverage of variable annuities does not start until 2008Q3.30 As a
result, we can only look at the performance-flow relationship after the crisis. Specifically, we use
monthly data for the January 20009 to June 2013 period. We include all bond and hybrid funds and
do not limit the sample to funds in our eMAXX data. Comparing the coefficients on past returns
interacted with regular and variable annuity fund dummies, performance-flow relationship is 2-3
times stronger in regular mutual funds than in variable annuity funds. Given such large difference in
the performance-flow relationship, the incentives story would predict that regular funds would
engage in more risk taking than comparable variable annuity funds.
We therefore study a sample of fund pairs where one fund is a variable annuity fund, and its
paired fund is a regular mutual fund managed by the same portfolio manager. To construct this paired
sample, we start with a sample of 328 variable annuity funds in our eMAXX data as of 2003Q4. We
then manually search for a regular mutual fund that is offered by the same fund adviser.
For example, Hartford High Yield HLS Fund is a variable annuity fund in our data. It is
offered by Hartford Life Insurance Company and its affiliates and is managed by Hartford Investment
Management Company (HIMCO). We search the list of regular mutual funds managed by HIMCO
for a regular fund with the same investment objective and find onethe Hartford High Yield Fund.
According to their prospectuses, the two funds have the same investment goalhigh current income
with growth of capital a secondary objectiveand investment strategy. The text describing the
investment goals and investment strategies of the two funds are virtually identical. The two funds are
also managed by the same team of three portfolio managers. The only difference between the two
funds is that Hartford High Yield HLS Fund serves as an underlying investment option[s] for certain
variable annuity and variable life insurance separate accounts of Hartford Life Insurance Company
and its affiliates.
We are able to find matching funds for 158 variable annuities (about one half of the original
sample). A handful of regular funds serve as matches for multiple variable annuities. Figure 6 shows
the time series of nontraditional share for matched pairs. The number of fund pairs peaks in 2003Q4,
30 CRSP does have some variable annuities before 2008Q3. But their number jumps by about an order of magnitude in 2008Q3. Furthermore, before 2008Q3, just four insurance companies account for 90% of all variable annuities.
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the point in time as of which we actually form matched pairs, and declines over time. Nontraditional
shares track each other quite closely. Figure 6 does not control for differences in size which could in
principle affect nontraditional share. However, controlling for size does not affect our results.
Despite significant differences in the performance-flow relationship, Figure 6 shows that
managers make similar investment decisions in their regular and variable annuity funds. The fact that
we see such similar behavior despite meaningful differences in incentives points to the importance of
information and beliefs. One caveat is that in addition to facing weaker performance-flow
relationship, variable annuity funds also experience somewhat less volatile fund flows.31 Having
more stable funding could have made variable annuity funds more willing to invest in securitizations,
offsetting the effects of facing weaker incentives. The difference in the volatility of fund flows is
smaller, however, than the difference in the performance-flow relationship. Controlling for objective
and size, the volatility of fund flows into variable annuities is lower by around 7%. This is about 13%
of the average annualized volatility of 51%.
B.3 Manager Experience
Manager experience is another characteristic that may affect the strength of the performance-
flow relationship facing a mutual fund. Career concern stories emphasize the importance of strong
performance for young inexperienced managers. For instance, Chevalier and Ellison (1999) also find
that the relationship between fund flows and past performance is stronger in younger funds, and that
the termination of younger managers is more sensitive to performance than the termination of older
managers. If younger fund managers face stronger performance-flow incentives we might expect
them to tilt their portfolios towards higher-yielding, riskier securitizations. In this section, we
examine this prediction in more detail.
In our analysis, we use two alternative proxies for manager experience, both from
Morningstar. Our first proxy is age. Morningstar provides birth year information for about 20% of
managers in our data. Otherwise, we impute the age of managers based on their graduation
information (Chevalier and Ellison, 1999). Specifically, we have information on the year fund
managers received their undergraduate, masters, MBA, and PhD degrees. We assume that managers
receive these degrees when they are 22, 27, 27, and 29 years of age. These numbers correspond to the
31 Based on data for the January 2009 June 2013 period.
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median age of mutual fund managers receiving these degrees in our data. Our imputed age measure is
available for about 60% of fund-quarter observations in our sample.
Our second proxy for experience is the number of years each manager has been managing
mutual funds. Using the start and end dates for fund-manager pairs in our Morningstar data, we
calculate the first time each manager appears in our data. We then compute the managers experience
as the difference between December 31, 2004 and this date.
Of course, the experience of the fund manager is potentially endogenous to the funds
investment strategy. For example, a fund that intends to invest more heavily in complex
securitizations might want to hire younger portfolio managers, or more managers, to analyze these
securities. Such endogeneity concerns are one reason we measure manager experience and the
number of portfolio managers as of a single point in time.32 To the extent that the boom in
securitization was largely unanticipated in 2004, then if we measure experience as of 2004 it is less
likely that funds chose the experience of their managers in response to the boom.
Table 5 reports summary statistics for mutual fund managers in our data. The average
manager is 45 years old and has 8.5 years of experience managing mutual funds. In addition to
experience, we also contrast the behavior of individually-managed and team-managed funds. About
64% of funds in our data are team-managed. The median fund has 2 managers.
In Figure 7 we plot the average nontraditional share of funds managed by experienced versus
inexperienced managers. The plot on the left splits managers based on their experience managing
mutual funds. Both experienced and inexperienced funds start with about a 3% portfolio weight in
nontraditional securitizations. Starting in 2004, all managers increase their nontraditional share, but
inexperienced managers increase their nontraditional share by significantly more than experienced
managers. The nontraditional share of inexperienced managers peaks at around 8% while that of
experienced managers peaks at around 5%.
The plot on the right splits managers based on their age instead of experience. Here the
picture is less clear. Although younger managers tend to have higher nontraditional shares, especially
around the peak of the credit boom, the difference is smaller at around 1%. Overall, the difference in
results highlights the importance of experience managing mutual funds as opposed to age per se.
32 Greenwood and Nagel (2009) use the same approach.
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We examine the association between experience and nontraditional share more rigorously in
Table 6. Except for 2009, where it is close to zero, the coefficient on experience is negative and
statistically significant. Consistent with Figure 7, the coefficient is largest in magnitude during 2007.
At that point, the nontraditional share of experienced managers was 3.4% less than the nontraditional
share of inexperienced managers. This effect is economically large compared to the average
nontraditional share of 6.1%.
These splits are consistent with the idea that incentives motivated young managers to take on
more risks. However, the incentives narrative rests on the premise that young managers face stronger
performance-flow relationships. The existing literature shows that this is the case for equity mutual
funds. However, Table 7 shows it is not the case for the bond mutual funds in our data. Consistent
with prior literature, we find that fund flows respond strongly to past performance. However, when
we interact past performance with experience, we do not find any differences in the performance-
flow relationship for young and inexperienced managers on one hand and old and experienced
managers on the other hand.
If not differences in incentives, what explains the tendency of young managers to invest in
nontraditional securitizations? It could be that experience directly affects managers beliefs. This idea
is explored by Greenwood and Nagel (2009), Malmandier and Nagel (2011a, 2011b), and Campbell,
Ramodarai, and Ranish (2013). For example, Greenwood and Nagel (2009) find that young managers
were more heavily invested in technology stocks at the peak of the technology bubble, and that they
were more likely to exhibit return-chasing behavior. In the context of bond markets, managers who
have not managed through a credit cycle, experienced sharp movements in interest rates, or sudden
unwinding of carry trades, might be less likely to fully appreciate the risks involved in investing in
securitizations.
We find evidence consistent with this in Table 8. The effect of experience seems to be highly
nonlinearin our data it appears to matter most when a manager has at least 7-8 years of experience.
These are the managers who were active during the market dislocations of fall 1998which saw
turbulent fluctuations in credit spreads following Russian default in August which endangered a
highly leveraged hedge fund called LTCMand perhaps learned about risk in that episode.33 One of
33 At the same time, it is possible that the crisis was a period during which investors learned a lot about the ability of fund
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the key results of career concerns models is that learning about skill takes place early on. Here we
find the opposite resultlittle learning appears to take place for the first seven years. Overall, the
nonlinearity in the effect of experience on nontraditional share is more consistent with managers
learning about risk than with investors learning about manager ability.
B.4 Team-managed Funds
The size of the management team is another dimension along which funds may differ in their
propensity to act on biased beliefs. The social psychology literature on group polarization suggests
that social dynamics can lead groups to take on beliefs that are more extreme than the beliefs of any
single group member. For example, if the initial tendency of individual group members is to take on a
risky gamble or to engage in an altruistic act, then following group discussion, members will take on
even more extreme beliefs and attitudes.
The social psychology literature has explored two main explanations for the group
polarization phenomenon. The informational influence or persuasive argument theory suggests that a
kind of non-Bayesian updating tends to occur in groups. Essentially, group discussion tends to elicit
arguments in favor of the initially preferred alternative, and group members do not adjust for the fact
that they are exposed to a subset of information and possible arguments.34 According to the
interpersonal comparison explanation, group members perceive the group ideal to be more extreme
than their individual positions. In an attempt to gain acceptance and to be perceived more favorably
by the group, members end up exaggerating their personal preferences.
Figure 8 shows that team-managed funds tend to have higher nontraditional share than
individually managed funds. Nontraditional share of experienced individuals is virtually flat
throughout our sample period. Inexperienced individuals appear to increase their nontraditional share
somewhat early on in 2003 and 2004, but otherwise their holdings of securitizations are mostly flat
throughout the boom. Inexperienced individuals do appear to dramatically reduce their holdings in
early 2009. In contrast, team-managed funds and, in particular, inexperienced team-managed funds
stand out. These funds more than double the share of their portfolios allocated to nontraditional
managers active at the time. According to career-concerns stories, prior learning about manager ability would result in weaker performance-flow relationship and weaker incentives for experienced managers to invest in securitizations. Although career concerns and learning about manager ability could potentially explain the importance of being active during 1998, they are inconsistent with experience not mattering for managers with less than 7 years of experience. 34 This is related to the idea of persuasion bias explored in DeMarzo, Zwiebel, and Vayanos (2003).
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securitizations. Once the crisis starts, their holdings fall rapidly back to the 2003-2004 levels. Table 9
formalizes these results in a regression setting. Team-managed mutual funds have 2.7% higher
nontraditional share in 2007 than individually managed funds.
These results are consistent with the idea that team-managed funds take on exposure to
nontraditional securitizations due to bad beliefs. Moreover, the results in Table 7 show that team-
managed funds do not face stronger performance-flow relationships. Thus, differences in incentives
are unlikely to explain our results.
Overall, our analysis of the cross section of mutual fund holdings of securitizations is more
consistent with bad beliefs narratives of the boom than bad incentives narratives. The securitizations
holdings of mutual funds do not appear to vary with the strength of the performance-flow
relationships they face. However, funds managed by teams and young individuals take more risk,
consistent with bad beliefs narratives. Of course, this evidence is simply suggestive, not definitive.
Moreover, mutual funds may not face the type of incentive problems relevant for bad incentives
narratives of the boom. Therefore, we next turn to our data on insurance company holdings.
C. Insurance Companies
Insurance companies are the single largest institutional holder of credit securities. Moreover,
they are large regulated financial intermediaries, so their holdings may give us insight into the
behavior of other such intermediaries including banks and broker dealers.
C.1 Variance Decomposition
We again start by a simple variance decomposition of the share of nontraditional
securitizations in an insurers portfolio. As with mutual funds above, the results in Table 10 suggest
that variation across insurers, as opposed to common variation over time, is crucial for understanding
insurer holdings of securitizations. Specifically, common variation over time can explain less than
1% of total variation in the portfolio share of nontraditional securitizations. Insurer fixed effects, on
the other hand, explain more than 58% of total variation.
Among insurers, life insurers account for roughly 18% of corporate bond holdings, while
property and casualty (P&C) insurers account for 3%. Figure 9a shows that P&C insurers tend to
invest less in nontraditional securitizations than life insurers, though the time-series patterns are
similar for both types. Holdings fall in 2003, rise from 2004-2008, and then fall afterwards. The
difference in levels between P&C and life insurance holdings of nontraditional securitizations is in
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line with the general tendency of P&C insurers to have safer portfolios. For instance, according to the
2007Q2 Flow of Funds, Treasuries and Agencies made up 17% of the total assets of P&C insurers. In
contrast, Treasuries and Agencies made up 10% of total life insurance assets. These differences can
be explained by differences in regulations and the demand for liquidity of P&C and life insurers.
Specifically, P&C insurers have a stronger precautionary demand for liquidity because the payouts on
their policies tend to be lumpier and harder to predict than the payouts on life policies. Indeed, as we
will see in Section V.B, P&C insurers tend to transact more than life insurers, particularly in their
holdings of GSE MBS.
C.2 Financial Strength
We now turn to more detailed analysis of cross-sectional determinants of insurance company
holdings. Insurance companies offer an interesting laboratory for testing different versions of the bad
incentives view. There are a number of frictions that could generate agency problems within
insurance companies. For instance, equity holders are residual claimants on the values of insurers
asset portfolios net of policyholder claims. Thus, insurers capitalization levels and financial strength
ratings may reflect the strength of the agency conflict between their equity holders and their creditors.
To combat this problem, regulation requires insurance companies to maintain minimum levels of
capital on a risk-adjusted basis. That is, like banks, insurers with riskier portfolios are subject to
higher capital requirements. However, to the extent that these regulations are imperfect, less well-
capitalized insurers may have stronger risk-shifting incentives, and therefore be more likely to hold
nontraditional securitizations.
To test this hypothesis, in Figure 9c we split insurers by their capital-assets ratios as of 2003.
Since capital-assets ratios are correlated with size, we define high-capital insurers to be those with
above median capital-assets ratios within a given size decile (based on total assets). We hold the
classification constant over time to ensure that the results are not driven by a compositional shift in
the set of insurers that have low versus high capital ratios.
Figure 9c shows insurers with low and high capital ratios initially have similar holdings of
nontraditional securitizations in 2003. Over the course of the boom, both types of insurers increase
their portfolio allocations to securitizations. However, insurers with low capital ratios increase their
portfolio weights far more than insurers with high capital ratios. This is consistent with the notion
that these poorly capitalized insurers engaged in risk-shifting. Tables 11 and 12 formalize this
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evidence in regressions. Table 11 shows that the level of nontraditional share is negatively correlated
with insurer capital ratios, with the magnitude of the effects growing over time. The effect is
economically significant. The standard deviation of the capital-assets ratio is around 20%, so that a
one standard deviation increase in capitalization is associated with a 2.4% (percentage points) lower
nontraditional share in 2007, relative to a mean nontraditional share of 2.2%. Panel B of Table 11
shows that the results also hold in differences. Between 2003 and 2007, insurers with low capital
ratios increase their nontraditional share more than insurers with high capital ratios.
Of course, the capital-assets ratio is a crude proxy for insolvency risk, which is the ultimate
driver of risk-shifting behavior. For instance, insurers may have a similar risk of insolvency, but
optimally have different capital because their policy liabilities have different risks. To address this
concern, we obtain data from A.M. Best on the financial strength of insurers. A.M. Best is a credit
rating agency dedicated to the insurance industry. Its credit ratings are based on a quantitative and
qualitative evaluation of an insurers ability to meet its ongoing policy and contract obligations.
In Figure 9b, we split insurers into those with high and low financial strength ratings as of
2003. To ensure that the results are not driven by size, we again define highly-rated insurers to be
those with above median ratings within a given size decile. The figure shows a pattern similar to our
splits based on capital ratios. Low-rated insurers have initial portfolio allocations to nontraditional
securitizations similar to those of high-rated insurers. However, over the course of the boom, low-
rated insurers increase their nontraditional shares more than high-rated insurers. Table 12 formalizes
this evidence in a regression setting. Again, the magnitudes are economically and statistically
significant. In 2007, highly-rated insurers have nontraditional shares 2.3 percentage points lower than
low-rated insurers, relative to a mean nontraditional share of 2.4%. Overall, although not conclusive,
the evidence is consistent with the notion that financially weaker insurance companies engaged in
risk-shifting by purchasing nontraditional securitizations.
C.3 Organizational Form
Insurers are organized as either stock companies with external shareholders or mutuals which
are owned by policyholders. These differences in organizational form may create differences in the
strength of the agency conflict between equity holders and other claimants. Specifically, in the case
of mutual companies, policy holders effectively provide both equity and debt, which may reduce the
scope for risk-shifting.
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To examine this difference, Figure 9d compares the nontraditional shares of mutual insurance
companies versus non-mutuals. Note that here we cannot adjust for size in the way we did when
examining insurer capitalization, since insurers are either mutuals or not. Nevertheless, Figure 9d
shows that mutual insurance companies tend to have lower nontraditional shares than non-mutuals
and this difference increases over the 2003-2007 boom in securitization. Table 13 shows that this
difference is not statistically significant. However, the magnitudes are still economically meaningful.
Mutuals have about a nontraditional share about 1% lower than non-mutuals of the same size,
consistent with the notion that agency conflicts between external shareholders and insurance
company policyholders could affect holdings of nontraditional securitizations.
In addition to variation in their organizational form, insurers also vary in the way they manage
their investment portfolios. Specifically, insurance companies sometimes outsource the management
of their portfolios to external managers. The difference between internally managed portfolios and
externally managed portfolios may shed light on the impact of agency frictions on portfolio
allocations to nontraditional securitizations. On one hand, external managers may have incentives to
take excessive risk due to performance-based compensation. On the other hand, internal risk
management may bring its own set of agency problems.
To examine this difference, Figure 9f compares the nontraditional shares of internally
managed versus externally managed insurance portfolios. Again, we cannot adjust for size here since
portfolios are either internally managed or not. Nevertheless, Figure 9f shows that internally managed
portfolios tend to have higher nontraditional shares than externally managed portfolios during the
2003-2007 boom in securitizations. This is consistent with the idea that externally managed portfolios
are more subject to stricter limits on portfolio allocations, possibly due to agency conflicts. Table 14
shows that the difference in levels is not statistically significant. However, the magnitudes of the
p