limits to arbitrage and the asset growth anomaly eric f.y.c. lam and k.c. john wei hong kong...
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Limits to Arbitrage and the Asset Growth Anomaly
Eric F.Y.C. Lam and K.C. John Wei
Hong Kong University of Science and Technology
Literature Review
• Capital investment anomaly or asset growth anomaly– Fairfield, Whisenant, and Yohn (AR, 2003)
• Changes in long-term net operating assets
– Hirshleifer, Hou, Teoh, and Zhang (JAE, 2004)• Levels of net operating assets scaled by lagged total assets
– Titman, Wei, and Xie (JFQA, 2004)• Abnormal levels of capital expenditures
– Richardson, Sloan, and Tuna (WP, 2006)• Levels of net operating assets scaled by total assets
– Cooper, Gulen, and Schill (JF, 2008)• Total asset growth• Composite measure, most powerful cross-sectional predictability
Literature Review (cont’d)
• Investors misprice unfavorable signal on firm value?– Titman, Wei, and Xie (JFQA, 2004)
• Investment discretion• Hostile takeovers period in mid-to-late 1980s• Earnings announcements
– Chan, Karceski, Lakonishok, and Sougiannis (WP, 2008)• Underperformance of high asset growth firms• Past profitability• Corporate governance
Why not arbitrage?
Hypothesis Development
•De Long, Shleifer, Summers, and Waldmann (JPE, 1990)•Noise trades
•Shleifer and Vishny (JF, 1997)•Capital constraints and margin calls
•Liu and Longstaff (RFS, 2004)•Optimized arbitrage is still risky
Arbitrage is risky?
Hypothesis Development (cont’d)
Arbitrage is not always obvious?
•Information can be sparse, imprecise, or ignored•Zhang (JF, 2006)
•Information with higher uncertain flow slower
Hypothesis Development (cont’d)
Arbitrage is costly to exploit?
•Trading costs, short-sale constraints, and liquidity•Mashruwala, Rajgopal, and Shevlin (JAE, 2006)
•Not easy to exploit accrual mispricing documented by Sloan (AR, 1996)
Hypothesis Development (cont’d)Limits to arbitrage may slow down arbitrage activities hence correct pricing of fundamental information
•Main hypothesis:If the asset growth anomaly is due to mispricing of fundamental information, it should be more pronounced when limits to arbitrage are more severe
1. When arbitrage is more difficult, the asset growth anomaly is stronger
Preview of Major Findings
2. When arbitrage risk is low or when firms are followed by S&P, the anomaly is insignificant
Preview of Major Findings
Contribution• Related studies– Ali, Hwang, and Trombley (JFE, 2003)• The book-to-market anomaly increase in limits to arbitrage
– Mashruwala, Rajgopal, and Shevlin (JAE, 2006)• The accruals anomaly increase in limits to arbitrage
– Polk and Sapienza (RFS, forthcoming)• CAPEX and discretionary accruals are positively correlated
? Why this paper???
Contribution (cont’d)• The asset growth anomaly is distinct– Asymmetric vs. symmetric cross-sectional predictability – Mis-react to unfavorable information on firm value vs. errors in
expectations about future earnings– Wei and Xie (FAJ, forthcoming)
• Non-overlapping information about future stock returns in growth and discretionary accruals
– Titman, Wei, and Xie (WP, 2008)• The anomaly remains after controlling for discretionary accruals or book-to-market
Findings in Ali et al. (JFE, 2003) and Mashruwala et al. (JAE, 2006) not necessarily hold here– Coverage by rating agency and information quality not studied
Contribution (cont’d)We perform stricter empirical tests on the hypothesis of
investors mispricing fundamental informationEstablish limits to arbitrage as the major reason that the
asset growth anomaly is not arbitraged awayFurther understanding on the broader nature of the
efficiencies of financial markets:Persistence of inefficiency may depend on difficulties to arbitrageArbitrageurs seems to be willing to eliminate mispricing only when
associated trades have low riskMispricing on neglected firms may persist
Measures of Variables1. Overall asset and investment expansion– Cooper et al. (JF, 2008)– Total asset growth (TAG)– Percentage growth of total assets (COMPUSTAT item 6) over
previous fiscal year
2. Arbitrage risk– Pontiff (QJE, 1996), Wurgler and Zhuravskaya (JB, 2002),
Mashruwala et al. (JAE, 2006)– Idiosyncratic stock return volatility (IVOL)– Standard deviation of the 36-month market model residual
Measures of Variables (cont’d)
3. Information costs and qualityi. Coverage by informed investors
• Ederington and Yawitz (1987)• A dummy that equals one if the firm has a long-term S&P credit rating as indicated
in merged CRSP/COMPUSTAT and zero otherwise (RATING)
ii. Shareholder sophistication• Bhusan (JAE, 1994), Bartov, Radhakrishnan, and Krinsky (AR, 2000), Chen, Hong,
and Stein (JFE, 2002), Ali et al. (JFE, 2003)• Number of institutional shareholders (INSTN)
iii. Information quality• Barry and Brown (JFQA, 1985), Zhang (JF, 2006)• Number of years a stock had appeared in CRSP (AGE)
Measures of Variables (cont’d)
4. Transaction costsi. Overall
• Bhardwaj and Brooks (JF, 1992), Ball, Kothari, and Shanken (JFE, 1995), Stoll (JF, 2000)• Share price (PRICE)• Market value of equity (SIZE)
ii. Short-sale constraints• Dechow, Hutton, Meulbroek, and Sloan (JFE, 2001), Nagel (JFE, 2005)• Percentage of outstanding shares held by institutions (INSTH)
iii. Bidask spread (BIDASK)iv. Liquidity
• Amihud (JFM, 2002) illiquidity (ILLIQRET)
• Bhusan (JAE, 1994)• Dollar trading volume (DVOL)
Sample description• NYSE, AMEX, and Nasdaq domestic firms• COMPUSTAT, CRSP, CDA/Spectrum Institutional (13f)
Holdings• Filters:
i. Fama and French (JF, 1992, JFE, 1993)• Exclude certificates, ADRs, SBIs, unit trusts, closed-end funds, REITs, and financial firms
ii. Banz and Breen (JF, 1986)• Survivorship or selection bias• Require appearance in COMPUSTAT for two years
iii. Titman, Wei and Xie (JFQA, 2004)• Exclude firms with less than $10 million in sales
• Final sample: 1,123,905 stock-month observations and monthly stock returns from 07/71 to 12/07
Sample Statistics• Table I• High asset growth firms– Lower book-to-market, larger size, and higher net share
issuance– Less difficult to arbitrage
• Mashruwala et al. (JAE 2006): similar arbitrage risk, b/m, and transaction cost
• Buy-and-hold annual returns– Decile 1 similar to Decile 9– Decile 10 much lower
• Ali et al. (JFE, 2003), Mashruwala et al. (JAE 2006): symmetric
Sample Statistics (cont’d)• Low-high growth return spread– Positive but declining over first three years
• Ali et al. (JFE, 2003): positive and increasing– Insignificant over the fourth and fifth years
• TAG is not correlated with the limits to arbitrage proxies
• Information cost proxies positively correlated but not high
• Transaction cost proxies positively correlated but not high
Methodology• 10 by 3 independent sorts• Equally weighted portfolios at the end of June• Delisting returns to mitigate survivorship bias• Portfolio returns (D1, D10, D1 – D10)
i. Raw return (Raw)ii. Characteristics-adjusted return (Adj)– Excess stock returns over matching Fama and French (JF, 1992) 25 size-
and-book-to-market benchmark portfoliosiii. Risk-adjusted return (α)– Fama and French (JFE, 1993), Carhart (JF, 1997)– Intercept of four-factor regression
• Data from Professor Kenneth French
Asset Growth Anomaly and Arbitrage Risk(Table II)
• Insignificant when arbitrage risk is low• Increases in arbitrage risk
TAG rankIVOL rank Return (%) 1 (low) 10 (high) 1-10 t(1-10)
1 (low)Raw 1.127*** 1.047*** 0.080 [0.51]Adj -0.186 -0.117 -0.070 [-0.44]α 0.016 -0.086 0.102 [0.63]
2Raw 1.594*** 0.584* 1.010*** [5.70]Adj 0.270*** -0.597*** 0.867*** [5.79]α 0.359*** -0.438*** 0.797*** [4.67]
3 (high)Raw 1.576*** 0.088 1.489*** [7.16]Adj 0.366** -0.952*** 1.318*** [7.95]α 0.411* -0.775*** 1.186*** [5.80]
3-1Raw 0.450 -0.959*** 1.408*** [6.43]Adj 0.552** -0.835*** 1.388*** [6.32]α 0.395 -0.690*** 1.085*** [4.79]
*, **, and *** indicates significance at 10%, 5%, and 1%, respectively
Asset Growth Anomaly and Information Cost(Table III)
TAG Rank
Return (%) 1 (low) 10 (high) 1-10 t(1-10)
Coverage by Informed Investors Proxied by RATINGRATING
1 (rated)
Raw 1.733*** 1.128*** 0.605*** [2.81]
Adj 0.401** 0.025 0.376* [1.96]α 0.490** 0.093 0.397* [1.84]
2 (unrated)Raw 1.475*** 0.009 1.466*** [8.10]Adj 0.212* -0.989*** 1.202*** [8.46]α 0.395** -0.826*** 1.220*** [6.92]
2-1Raw -0.258 -1.119*** 0.861*** [4.08]Adj -0.189 -1.014*** 0.825*** [4.06]α -0.095 -0.918*** 0.823*** [3.68]
• Weak when covered by informed investors• Remains strong otherwise
Rated versus unrated firms
• 609 rated firms vs. 2,038 unrated firms at formation• Unrated firms are around 13 years old–Not IPO
• Unrated firms are about 10 times smaller in assets and size–But about 34% of the market capitalization in our
sample• No economic difference in book-to-market
Asset Growth Anomaly and Information Cost(Table III, cont’d)Shareholder Sophistication Proxied by INSTN
INSTN
1 (more)Raw 1.538*** 0.513 1.025*** [4.48]Adj 0.275* -0.549*** 0.824*** [4.02]α 0.326* -0.472*** 0.799*** [3.61]
2Raw 1.507*** 0.096 1.411*** [6.26]Adj 0.192 -0.956*** 1.148*** [5.68]α 0.532** -0.819*** 1.351*** [5.71]
3 (less)Raw 1.740*** -0.148 1.888*** [7.41]Adj 0.292* -1.216*** 1.507*** [6.57]α 0.700** -0.900*** 1.599*** [6.21]
3-1Raw 0.202 -0.661*** 0.863*** [3.27]Adj 0.016 -0.666*** 0.683*** [2.75]α 0.373 -0.427* 0.801*** [2.97]
• Decreases in shareholder sophistication
Asset Growth Anomaly and Information Cost(Table III, cont’d)
Information Quality Proxied by AGE
AGE
1 (old)Raw 1.347*** 0.744** 0.603*** [3.16]Adj 0.036 -0.422*** 0.458*** [2.82]α 0.1118 -0.403*** 0.515*** [2.73]
2Raw 1.546*** 0.220 1.326*** [6.13]Adj 0.293** -0.801*** 1.094*** [6.46]α 0.344* -0.701*** 1.045*** [4.99]
3 (young)Raw 1. 489*** 0.116 1.373*** [5.99]Adj 0.244 -0.859*** 1.103*** [5.89]α 0.520** -0.685*** 1.206*** [5.19]
3-1Raw 0.142 -0.628*** 0.770*** [3.44]Adj 0.209 -0.436** 0.645*** [3.06]α 0.409* -0.282* 0.690*** [2.90]
• Decreases in information quality
Asset Growth Anomaly and Transaction Cost (Table IV)
TAG RankReturn (%) 1 (low) 10 (high) 1-10 t(1-10)
Overall Transaction Cost Inversely Proxied by PRICEPRICE
1 (high)Raw 1.330*** 0.678** 0.651*** [3.32]Adj 0.080 -0.338*** 0.418** [2.43]α 0.100 -0.219* 0.320* [1.90]
2Raw 1.343*** 0.295 1.048*** [6.62]Adj 0.117 -0.712*** 0.830*** [5.95]α 0.226** -0.620*** 0.846*** [5.69]
3 (low)Raw 1.540*** -0.248 1.788*** [8.87]Adj 0.263* -1.295*** 1.558*** [8.10]α 0.452* -1.092*** 1.544*** [7.39]
3-1Raw 0.210 -0.927*** 1.137*** [4.38]Adj 0.183 -0.957*** 1.140*** [4.71]α 0.351 -0.873*** 1.224*** [4.91]
• Increases in overall transaction cost
Asset Growth Anomaly and Transaction Cost (Table IV, cont’d)
Overall Transaction Cost Inversely Proxied by SIZESIZE
1 (large)Raw 1.570*** 0.450 1.121*** [5.67]Adj 0.260* -0.553*** 0.813*** [4.77]α 0.332** -0.360*** 0.692*** [3.84]
2Raw 1.174*** 0.208 0.965*** [5.17]Adj 0.107 -0.734*** 0.840*** [5.12]α 0.121 -0.738*** 0.859*** [4.42]
3 (small)Raw 1.632*** -0.242 1.873*** [8.04]Adj 0.300** -1.085*** 1.386*** [7.12]α 0.551** -1.169*** 1.720*** [7.03]
3-1Raw 0.061 -0.691** 0.752*** [2.71]Adj 0.040 -0.532*** 0.572** [2.44]α 0.220 -0.809*** 1.028*** [3.76]
• Increases in overall transaction cost
Asset Growth Anomaly and Transaction Cost (Table IV, cont’d)
Short-sale Constraints Inversely Proxied by INSTHINSTH
1 (high)Raw 1.456*** 0.597 0.859*** [4.09]Adj 0.150 -0.470*** 0.619*** [3.48]α 0.240 -0.435*** 0.676*** [3.34]
2Raw 1.631*** 0.072 1.559*** [6.59]Adj 0.269* -0.934*** 1.203*** [5.98]α 0.611*** -0.847*** 1.458*** [6.06]
3 (low)Raw 1.669*** -0.166 1.835*** [6.89]Adj 0.250 -1.258*** 1.507*** [6.35]α 0.647** -0.924*** 1.571*** [5.75]
3-1Raw 0.213 -0.763*** 0.977*** [3.53]Adj 0.100 -0.788*** 0.888*** [3.32]α 0.407 -0.488** 0.896*** [3.13]
• Increases in short-sale constraints
Asset Growth Anomaly and Transaction Cost (Table IV, cont’d)
Transaction Cost Proxied by BIDASKBIDASK
1 (low)Raw 1.506** 0.346 1.160*** [3.13]Adj 0.368 -0.708*** 1.076*** [3.10]α 0.800** -0.318 1.118*** [2.90]
2Raw 1.686** 0.209 1.476*** [3.90]Adj 0.396 -0.966*** 1.362*** [3.99]α 0.789** -0.748*** 1.537*** [4.10]
3 (high)Raw 2.169*** -0.412 2.582*** [7.10]Adj 0.688*** -1.609*** 2.297*** [6.69]α 1.301*** -1.126*** 2.426*** [6.83]
3-1Raw 0.663 -0.758* 1.421*** [3.32]Adj 0.319 -0.901*** 1.220*** [3.06]α 0.501 -0.808** 1.309*** [3.32]
• Increases in bid-ask spread
Asset Growth Anomaly and Transaction Cost (Table IV, cont’d)
Liquidity Inversely Proxied by ILLIQRET
ILLIQRET
1 (low)Raw 1.581*** 0.332 1.249*** [5.82]Adj 0.337** -0.640*** 0.978** [5.24]α 0.447*** -0.400*** 0.847*** [4.26]
2Raw 1.386*** 0.256 1.1318** [5.92]Adj 0.198 -0.724*** 0.922*** [5.23]α 0.338* -0.675*** 1.013*** [5.09]
3 (high)Raw 1.526*** -0.236 1.762*** [8.43]Adj 0.225* -1.360*** 1.585*** [7.99]α 0.318 -1.264*** 1.582*** [7.45]
3-1Raw -0.056 -0.568** 0.513* [1.92]Adj -0.113 -0.720*** 0.607** [2.48]α -0.129 -0.864*** 0.734*** [2.93]
Unreported results based on ILLIQRNG are similar to those based on ILLIQRET
• Increases in illiquidity
Asset Growth Anomaly and Transaction Cost (Table IV, cont’d)
Liquidity Proxied by DVOLDVOL
1 (high)Raw 1.402** 0.275 1.127*** [5.28]Adj 0.151 -0.708** 0.859*** [4.62]α 0.572*** -0.410*** 0.788** [3.84]
2Raw 1.230** 0.171 1.059** [4.91]Adj 0.050 -0.860*** 0.910*** [4.74]α 0.142 -0.924*** 1.066** [4.86]
3 (low)Raw 1.719*** 0.138 1.581*** [7.51]Adj 0.407*** -0.960*** 1.367*** [6.91]α 0.378** -0.953*** 1.529*** [7.04]
3-1Raw 0.317 -0.138 0.455 [1.74]Adj 0.256 -0.252 0.508** [2.08]α -0.194 -0.544* 0.738*** [2.87]
• Decreases in liquidity
Fama-MacBeth Regressions (Table V)TAG interacted with
Slope TAG IVOL RATING AGE lnPRICE lnSIZE lnSIZE lnBM NS
The period from 1971 to 2007
Est. -0.420 -0.006 0.198 -1.312(-3.61) (-0.11) (2.28) (-4.96)
Est. 0.241 -5.314 -0.015 0.191 -1.269(0.89) (-2.01) (-0.30) (2.23) (-4.91)
Est. -0.551 0.800 -0.016 0.192 -1.324(-4.34) (4.37) (-0.32) (2.20) (-5.10)
Est. -0.534 0.010 -0.010 0.193 -1.300(-3.61) (2.06) (-0.20) (2.29) (-4.93)
Est. -1.266 0.298 -0.016 0.200 -1.223(-4.03) (2.88) (-0.32) (2.29) (-4.93)
Est. -2.866 0.128 -0.018 0.1971 -1.316(-2.45) (2.09) (-0.37) (2.23) (-5.09)
• Asset growth anomaly increases in limits to arbitrage
Subperiod Fama-MacBeth Regressions (Table V, cont’d)TAG interacted with
Slope TAG IVOL RATING AGE lnPRICE lnSIZE lnSIZE lnBM NS
The period from 1971 to 1989
Est. -0.501 0.055 0.297 -1.500(-2.33) (0.72) (2.21) (-4.04)
Est. 0.470 -8.243 0.042 0.289 -1.453(1.18) (-1.85) (0.58) (2.19) (-3.88)
Est. -0.604 0.814 0.044 0.294 -1.506(-2.58) (3.25) (0.60) (2.18) (-4.16)
Est. -0.622 0.010 0.050 0.290 -1.470(-2.18) (1.33) (0.67) (2.23) (-3.95)
Est. -1.285 0.251 0.047 0.299 -1.444(-2.25) (1.35) (0.62) (2.20) (-4.07)
Est. -2.206 0.093 0.046 0.301 -1.500(-1.04) (0.84) (0.65) (2.21) (-4.20)
• Same conclusions
Subperiod Fama-MacBeth Regressions (Table V, cont’d)The period from 1990 to 2007
Est. -0.336 -0.069 0.093 -1.114(-3.86) (-1.18) (0.91) (-3.20)
Est. -0.001 -2.223 -0.074 0.088 -1.076(-0.00) (-1.43) (-1.29) (0.86) (-3.16)
Est. -0.495 0.786 -0.080 0.084 -1.131(-5.04) (3.20) (-1.37) (0.82) (-3.24)
Est. -0.440 0.010 -0.073 0.090 -1.120(-6.56) (1.78) (-1.27) (0.88) (-3.15)
Est. -1.245 0.347 -0.083 0.096 -0.989(-5.47) (5.11) (-1.47) (0.93) (-3.09)
Est. -3.562 0.165 -0.085 0.088 -1.121(-4.88) (4.39) (-1.52) (0.84) (-3.21)
• Same conclusions
Conclusion• We investigate and find evidence that limits to arbitrage
plays a significant role in the asset growth anomaly• It seems that limits to arbitrage slow down the flow of
information about fundamental changes into stock prices and delay mispricing from being corrected
• Also help reconcile recent mixed findings– Cooper et al. (JF, 2008)
• Among all size firms, but weaker among large firms
– Fama and French (JF, 2008)• Insignificant for big firms
– Both consistent with limits to arbitrage• Thanks!