ࡱ>  fhcde#` Nbjbjmm 45 +NNNF4 0 0 08X0,2Xd7V@l@@@}N}N}N$hT9S}N}NSS9@@ NxxxS@@xSxxx@X7 w 0hdx7d0x,lR,x,xt}N,OxP+Q}N}N}N99Yrj}N}N}NSSSSD( 0 0  Mutual Fund Industry Selection and Persistence Jeffrey A. Busse Qing Tong February 2008 Abstract We analyze mutual fund industry selectivitythe ability of funds to skillfully allocate assets across industries. We estimate that industry selection influences mutual fund performance about as much as individual stock selection. We find that persistence across the full range of performance deciles is attributable to industry selection. After removing industry effects from gross mutual fund returns, we find that the performance of poorly performing funds strongly reverses. We also find that, unlike individual-stock-selection ability, industry selectivity is not subject to diminishing returns to scale. 1. Introduction Mutual fund studies typically analyze fund performance either at the fund level or at the individual security level. At the fund level, shareholder returns are usually compared to one or more benchmarks, such as the S&P 500. At the security level, individual stock returns are evaluated relative to stock-specific benchmarks. Examples of the former range from the earliest mutual fund studies, including Jensen (1968), up to the present. Examples of the latter include Grinblatt and Titman (1989) and Wermers (2000), among many others. The interpretation of these performance studies invariably emphasizes the fund managers stock-picking ability. For instance, a positive alpha suggests that the manager has stock-picking skill. However, the specific reason why a fund manager holds a top-performing stock can go far beyond his ability to pick individual stocks. For example, a manager may have skill to interpret the economy and shift his portfolio towards the types of stocks that do well during certain macroeconomic environments. When interest rates begin to decrease, for instance, banks tend to outperform as their margins improve. The stock-picker label seems most appropriate for those that employ a bottom-up investment technique. In this type of approach, the manager focuses on the analysis of individual companies and de-emphasizes economic cycles and industry trends. The alternative to the bottom-up investment style is the top-down approach. In this approach, managers first make decisions regarding broad industry allocations before moving on to the finer details and eventually selecting individual stocks. In this paper, we explore manager skill in making decisions regarding broader allocations. Specifically, we examine the relative importance of industry selection compared to stock selection in the performance of a managers portfolio. That is, we examine the extent to which a managers industry allocations drive his performance vs. his specific stock choices within the industries held in his portfolio. Top-performing managers may do well because they choose stocks in top-performing industries, where average stocks in those same top industries would have performed just as well as the stocks chosen by the managers. Alternatively, top-performing managers may choose the best stocks in average or even underperforming industries. We show that industry selection contributes substantially to fund performance, accounting for roughly half of a funds abnormal performance, on average. Our analysis indicates that the importance of industry selection is remarkably stable across time, with little year-to-year variation in the mean contribution across funds. The skill sets associated with industry- and stock-selection ability could differ considerably, with industry-selection ability relying on understanding macroeconomic relationships, and individual-stock-selection skill relying on the ability to size up firm-specific drivers, such as innovative products or managerial competence. We analyze the extent to which each component of skill persists. Numerous papers examine the extent to which overall skill persists, including Grinblatt and Titman (1992), Hendricks, Patel, and Zeckhauser (1993), Goetzmann and Ibbotson (1994), Brown and Goetzmann (1995), Malkiel (1995), Elton, Gruber, and Blake (1996), Carhart (1997), and Bollen and Busse (2005). We find that only the industry-selection component of performance persists across the full range of performance deciles. Whereas past industry selectivity predicts future industry selectivity, a monotonic relation does not exist between past and future stock selectivity. This result suggests that industry selection, rather than stock selection, drives the evidence of overall performance persistence documented in the literature. Berk and Green (2004) hypothesize that the large flows of capital into successful funds eventually lead to the successful funds losing their performance edge. Successful funds face increasing transaction costs (due to greater-size trades) and/or the addition of less attractive stocks to their portfolio. Consistent with the results of Chen et al. (2004) for overall performance, we find a negative relation between fund portfolio size and stock-selection skill. By contrast, we find no evidence of a negative relation between fund size and industry-selection skill. Although funds are unable to maintain their stock selectivity when their assets increase, they do maintain their industry-selection ability at large levels of assets. Thus, flows into successful funds do not appear to erode industry skill. Apparently, unlike individual stocks, industries provide ample opportunities for further investments. Examining the industry features of fund portfolios has received little attention among mutual fund studies, as most articles that categorize portfolio stocks focus more broadly on size, value, and momentum classifications, consistent with trends in the empirical asset pricing literature. Notable exceptions include recent papers by Kacperczyk, Sialm, and Zheng (2005) and Avramov and Wermers (2006). Kacperczyk, Sialm, and Zheng (2005) find that funds that concentrate their holdings in fewer industries tend to outperform funds that diversify more across industries. Avramov and Wermers (2006) examine the industry allocations of funds predicted to outperform based on manager skill, risk loadings, and benchmark returns. They find that optimally-chosen funds show ability to time industry allocations across the business cycle and have larger exposure to the energy, utilities, and metals industries. In a paper widely cited among practitioners, Brinson, Hood, and Beebower (1986) explore the importance of allocations one step higher in the investment process for portfolios managed by institutional money managers. They analyze allocations among stocks, bonds, and cash, and find that these allocation decisions explain more than 90 percent of the variation in a portfolios total return. By construction, our sample of mutual funds already primarily holds equities. Consequently, we begin at the industry, rather than asset-class, level. Furthermore, we focus on determining the extent to which industry allocations explain risk-adjusted performance, rather than variation in total return. The paper proceeds as follows. Section 2 describes the data. Section 3 defines our measures of industry and stock selection. Section 4 presents our empirical analysis, including performance persistence, investor flows, and issues related to scale. Section 5 concludes the paper. 2. Data We obtain mutual fund holdings from Thomson Financials CDA/Spectrum Mutual Fund Holdings database. The database consists of quarterly stockholdings data for virtually all U.S. mutual funds between January 1980 and December 2006 (inclusive), with no minimum survival requirement for a fund to be included. For each stock holding of each fund, the data include CUSIP, company name, and number of shares held. Thomson Financial collects these data both from reports filed by mutual funds with the SEC, as required by amendments to Section 30 of the Investment Company Act of 1940, and from voluntary reports generated by the funds. Although mutual funds have been required to file holdings reports with the SEC on a semi-annual basis since 1985, quarterly reports were obtained from more than 80 percent of funds during most of the 1985 to 2006 time period. Prior to 1985, more than 90 percent of funds reported on a quarterly basis. We focus on domestic equity funds and include those with the following investment objective codes as indicated by Thomson Financial: Aggressive Growth, Growth, and Growth & Income. Since we are interested in analyzing the skill associated with actively managed funds, we remove funds that are likely to be passively managed. We obtain individual stock returns, prices, shares outstanding, and Standard Industry Classification (SIC) codes from the Center in the Research of Security Prices (CRSP) Daily and Monthly Stock files. We collect the data from CRSP for the 27-year sample period from 1980 to 2006. We combine the portfolio holdings with the daily stock returns to form daily frequency buy-and-hold portfolio returns. The return series for each fund-quarter begins the day after the portfolio holding snapshot and ends the last day of the quarter. For example, for a portfolio holding snapshot dated June 30, 1990, we compute returns from July 1, 1990 through September 30, 1990. This procedure is similar to that used by others, such as Grinblatt and Titman (1989) and Wermers (2000). The return series differ from actual shareholder returns because they ignore expenses, transaction costs, non-U.S. equity holdings, and intra-quarter portfolio adjustments. The extent to which these differences affect our results is unclear, although no specific bias is obvious. Table 1 provides portfolio statistics of our fund sample for select years during our sample period. The number of funds increases dramatically from 1980 through 2006, consistent with the explosive growth in the mutual fund industry over the last 25 years. The number of stocks per portfolio also increases considerably during the sample period, coinciding with an increase in average assets under management per fund. Increasing the number of stocks in a portfolio can help to mitigate the increase in transaction costs that would normally accompany an increase in assets. The table also reports the number of industries per portfolio, where we use the four-digit SIC code to define industries. SIC codes can be used at the two-, three-, or four-digit level. We choose the lowest level because large differences often exist in companies with identical two-digit SIC classifications. For example, automobile manufacturers and photographic equipment are in the same two-digit SIC group (50), but in different four-digit SIC groups (5012 and 5043). A fund manager could be optimistic about car companies, but pessimistic about photo equipment. The relatively precise four-digit system should better capture managers sentiments towards specific types of closely-related stocks. Alternatives to the SIC classification system include North American Industry Classification System (NAICS) codes and Global Industry Classification System (GICS) codes. We choose the SIC system because of its widespread use. As a robustness test, we repeat our main analysis with six-digit NAICS codes, which we take from Compustat, and find very similar results. GICS codes are not available until the mid-1990s, and would therefore be unavailable for more than half of our sample period. A total of 1,012 unique four-digit SIC codes exist, ranging from 0111 (Wheat) to 9999 (Nonclassifiable Establishments). At any point in time, our sample funds in aggregate hold stocks in about 80 percent of these four-digit SIC codes. With roughly 8,000 stocks in operation and available on CRSP at any given point in time during our sample period, an average of about eight CRSP stocks exist per specific four-digit SIC code. As indicated in Table 1, each fund in our sample holds a median of 49 stocks in a median of 36 unique four-digit SIC industries. Thus, on average, funds hold from 15 to 20 percent of the stocks within the industries included in their portfolio. 3. Performance Decomposition Here and elsewhere in the paper, we evaluate performance using three different standard base models: a one-factor model, based on the capital asset pricing model, that uses the excess returns on a proxy for the overall stock market as the factor; the three-factor model that uses size (SMB) and value (HML) factors together with the market factor (see Fama and French (1993)); and the four-factor model that adds a momentum (UMD) factor to the three-factor model (see Jegadeesh and Titman (1993) and Carhart (1997)):  EMBED Equation.3 , (1) where  EMBED Equation.3  is the excess return of a fund portfolio at time t, and  EMBED Equation.3  are the returns of the k = 1 to 4 factors. We use the value-weighted CRSP return series for our market proxy, and take the SMB, HML, and UMD factors and the risk free return (to compute excess portfolio returns) from Ken Frenchs website. The intercept,  EMBED Equation.3 , is a standard estimate of mutual fund skill, and it captures the ability of funds to outperform the market on a risk-adjusted basis, with adjustments for size, value, and momentum anomalies in the three- and four-factor models. We interpret the standard estimate of skill, alpha, as the sum of two distinct components of skill: industry-selection skill and individual-stock-selection skill. Hereafter, we use industry-selection skill synonymously with industry alpha and individual-stock-selection skill synonymously with stock alpha. Industry-selection skill is the ability to allocate assets to industries that subsequently outperform other industries. For many fund managers, industry-selection skill captures expertise in one of the early steps in the investment processthe ability to choose the broad areas of the market that will outperform. Individual-stock-selection skill is the ability to pick the best stocks within the industries in which a fund invests. We decompose standard alpha into industry and stock alphas as follows. First, for each fund, we construct a corresponding time series of industry returns,  EMBED Equation.3 , consistent with the funds industry exposures. To do so, we replace each stock in the funds portfolio with its value-weighted industry return, excluding the stock it replaces. Thus, we replace Microsoft, for example, by the value-weighted return associated with four-digit SIC industry 7370 (excluding Microsoft), which is Microsofts four-digit SIC industry assignment. We exclude from each industry return the stock it replaces in the portfolio in order to isolate the portion of industry performance not attributable to that particular stock. Each industry return receives the same weight as the stock it represents in the fund portfolio. Thus, this new time series of returns strips out the dynamics of individual stocks, leaving only that which is attributable to the funds industry exposures. We use this fund-specific industry time series two different ways. First, we use its excess returns as a regressand in a regression similar to equation (1),  EMBED Equation.3 , (2) where  EMBED Equation.3 . We interpret the intercept in these models,  EMBED Equation.3 , as fund industry-selection skill, the ability to allocate assets to industries that outperform other industries. Second, we orthogonalize each funds excess industry return series with respect to the factors in regression equation (1) and then include the orthogonalized factor,  EMBED Equation.3 , as an additional regressor:  EMBED Equation.3 . (3) We interpret the intercept,  EMBED Equation.3 , as individual-stock-selection skill, the ability of funds to pick stocks that outperform other stocks in the same industries held by the fund. Note that regression equation (3) is fund specific, since each fund has a different final factor tailored to its own unique industry exposures. We estimate regression equations (1), (2), and (3) each quarter, and take the mean of the skill estimates each quarter and then across quarters. Table 2 shows the mean  EMBED Equation.3 ,  EMBED Equation.3 , and  EMBED Equation.3  and t-statistics (based on the standard error of the mean of the time series of mean quarterly alphas) for the base one-, three-, and four-factor regression models. Note first that the mean estimates of overall skill are positive. On an individual fund basis, most of these skill measures are not statistically significantly different from zero, which is not surprising given the short quarterly time series of returns associated with their estimation. However, across funds, the mean alpha is statistically significantly different from zero. Recall that our returns are gross of expenses and transaction costs, so it is perhaps not surprising that these results are not directionally consistent with the results of studies that examine shareholder returns (net of expenses and transaction costs). Examining shareholder returns typically leads to evidence of negative risk-adjusted performance (see, for example, Gruber (1996)). Our mean overall skill estimate is similar to the results of Wermers (2000), who finds evidence of positive mean gross performance net of DGTW benchmarks (Daniel et al. (1997)). The table also shows positive mean estimates for the industry and stock components of alpha for all three regression models. These again are not statistically significant on a fund-by-fund basis, but the mean across funds is strongly statistically significant. The positive mean results suggest that, on average, the industries that fund managers include in their portfolios outperform the average industry, and the stocks that managers select outperform other stocks in the same industry. That is, fund managers pick better than average stocks in better than average industries. Our main goal in examining these skill estimates is to provide an initial indication of the relative importance of the industry component of alpha. Based on the sample means, industry-selection skill appears to drive slightly less than half of the funds overall performance. For example, for the three-factor model, industry-selection skill is roughly 40 percent of total skill (0.047 percent out of 0.047+0.073 percent). We next assess the relative importance of industry-selection skill versus individual-stock-selection skill fund by fund. For each fund each quarter, we compute the ratio of industry alpha to total alpha for funds in which industry alpha and individual-stock alpha are of the same sign. Table 3 reports the ratio for various sub-sample periods. Across all fund quarters, the ratio is 0.58, 0.53, and 0.52 for the single-, three-, and four-factor model, respectively. This result provides additional evidence that a meaningful fraction of the skill managers bring to the table is the skill associated with their industry selections. The ratio suggests that if funds invested in passive industry indices, rather than individual stocks, with weights identical to those in their actual portfolios, they would earn roughly half of the abnormal performance that they realize with their actual stock selections. Note also in Table 3 the stability of the estimated industry contribution over time. Across all three models and all five five-year sub-sample periods, the portion of performance attributable to industry selection is no less than 51.2 percent and no greater than 58.4 percent, with less than a 4 percent difference across time for a particular factor model. Finally, in a result not shown in the table, the mean cross-sectional correlation between the industry and stock components of alpha is 0.06. The small correlation suggests that the two components of skill are not closely related, perhaps because the skill sets that drive each differ considerably. Thus, among fund managers, skillful industry selection often does not coincide with skillful individual stock selection. In fact, 47 percent of our sample funds have industry- and stock-skill point estimates of opposite sign. 4. Empirical Analysis 4.1 Persistence We next examine performance persistence, the ability of top-performing funds to consistently outperform, and the tendency of poorly performing funds to continue to underperform. Numerous papers have examined persistence in overall skill, finding evidence of persistence in total return and single- and three-factor alphas over one-year intervals (see, for example, Grinblatt and Titman (1992), Hendricks, Patel, and Zeckhauser (1993), Brown and Goetzmann (1995), Malkiel (1995), Elton, Gruber, and Blake (1996), and Carhart (1997)) and in four-factor alphas over shorter quarterly horizons (Bollen and Busse (2005)). We explore whether the prior findings are associated with industry-selection ability, individual-stock-selection ability, or both. Most studies also find evidence of persistence specifically in poor performance regardless of the performance measure or measurement interval, which is typically attributed to high expenses. Since we analyze returns gross of expenses, we are unable to shed light on that form of poor performance persistence. We analyze persistence by sorting into deciles based on performance and then examining the performance of the deciles the following period. We examine persistence in all three estimates of skill: total alpha, industry alpha, and stock alpha. As before, we base our performance estimates on the gross returns imputed from the portfolio holdings. Furthermore, we assess each measure of performance relative to the three different factor models in regression equations (1), (2), and (3). Our total alpha analysis merely repeats that of earlier papers using our specific sample. The most promising evidence of persistence beyond that attributable to momentum is associated with shorter post-ranking horizons (see Bollen and Busse (2005)). Consequently, we focus on short-term persistence and examine performance continuation across quarters, which is also consistent with the quarterly snapshot frequency of our holdings data. Thus, we sort funds into deciles based on their performance estimate over a quarterly ranking period and then compute the mean performance estimate of each decile over the subsequent quarterly post-ranking period. We assess persistence by comparing the post-ranking performance of the best and worst ranking-period deciles and via the Spearman rank correlation coefficient, which we measure between the ranking-period performance decile and the post-ranking-period performance decile. Table 4 shows the persistence results. Panel A reports the results for total alpha, and panels B and C report the results for the two components of total alpha, industry alpha (Panel B), and stock alpha (Panel C). Each panel reports the results using one, three, and four factors in the base regression model. The table shows the mean post-ranking performance estimate for each decile, the difference between the mean of decile 10 and the mean of decile 1, and the Spearman rank correlation coefficient that assesses the relation between ranking period and post-ranking-period performance deciles. The results in Panel A are consistent with the results documented elsewhere in the literature. For all three sets of factors, the results strongly suggest that performance persists from one quarter to the next, with Spearman rank correlation coefficients statistically significant at the five percent level or better. Performance persists at the quarterly horizon even relative to the four-factor model. Recall that Carhart (1997) found no evidence of persistence for yearly measurement horizons after controlling for momentum. The four-factor results here are consistent with the short-term persistence results of Bollen and Busse (2005). Persistence appears to be economically meaningful as well: the difference in performance between the top and bottom deciles ranges from 1.3 basis points per day (approximately 3 percent annualized) for the four-factor model to 2.5 basis points per day (approximately 6.5 percent annualized) for the single-factor model. Panel B reports the persistence results for industry selection skill. Similar to the results in Panel A, the results in Panel B strongly suggest that performance persists, with Spearman rank correlation coefficients significant at the one percent level or better. Furthermore, the differences in post-ranking performance between the top and bottom deciles are all positive and economically meaningful, ranging from 1.2 basis points per day (approximately 3 percent annualized) to 2.1 basis points per day (approximately 5.5 percent annualized). The differences here are similar in magnitude to those in Panel A, which could suggest that much of the persistence apparent in total alpha is attributable to persistence in industry alpha. These results indicate that managers who allocate to the better industries during one quarter tend to do so again during the following quarter. Panel C reports results that assess persistence in individual-stock-selection skill. Unlike panels A and B, the results in this panel show no evidence of a monotonic relation between past performance and future performance. The Spearman correlation coefficient is not statistically significant for any of the three factor models. This result suggests that the evidence of persistence in total alpha documented in Panel A and in numerous other studies is driven by industry selection. A closer examination of the post-ranking-period performance of the deciles indicates evidence of persistence in the top-performing deciles, but reversion in the bottom-performing deciles. That is, the prior quarters top performing funds, as indicated by their individual stock selection ability, continue to perform well, and the prior quarters poor stock selectivity performers show remarkable improvement. The reversal among poor performers would not seem to be attributable to return reversals in the individual stocks held in the portfolio (see Jegadeesh (1990)), since Jegadeesh and Titman (1993) find no evidence of reversals in tests based on three-month formation periods followed by three-month holding periods. Reversals also cannot explain why the top performers persist. We further explore this result later in the context of portfolio size and diseconomies of scale. Given that investors main priority is maximizing total performance, rather than either of the two components of alpha, we next examine the extent to which total alpha, industry alpha, and stock alpha predicts future total alpha. To do so, we use a different methodology. Each quarter, we regress cross sectionally future performance on past performance:  EMBED Equation.3 , (4) where  EMBED Equation.3  is from regression equation (1). We then compute the mean of the regression coefficients across quarters and compute Fama MacBeth (1973) t-statistics. A significant positive b coefficient would be consistent with predictability. We repeat the cross-sectional regressions in equation (4) except replacing the  EMBED Equation.3  regressor first with  EMBED Equation.3 ,  EMBED Equation.3 , (5) then with  EMBED Equation.3 ,  EMBED Equation.3 , (6) and finally with both  EMBED Equation.3  and  EMBED Equation.3  simultaneously,  EMBED Equation.3 . (7) The cross-sectional regression methodology allows us to jointly assess the importance of past industry and stock alphas in predicting future total alpha. Similar to the decile analysis in Table 4, we repeat our analysis here for alphas based on all three sets of factors. Table 5 reports the cross-sectional regression results. The table reports the mean b and c coefficients (averaged across the quarterly regressions), Fama MacBeth (1973) t-statistics, and mean r-squares. The left, center, and right sets of columns in the table report the results associated with the single-, three-, and four-factor models, respectively. Similar to the decile results, the results here again reflect persistence in total alpha. For all three factor models, a statistically significant relation exists between past and future total alpha (regression equation (4)). The results also show a relation between past industry alpha and future total alpha (regression equation (5)), although the results are statistically significant only for the single- and three-factor models. The past four-factor industry alpha is positively related to the future total alpha, but the relation is not statistically significant. By contrast, no significant relation exists between past stock alpha and future total alpha (regression equation (6)). This result makes sense given that we found no evidence of persistence in stock alpha in Table 4. That is, if past stock alpha does not predict future stock alpha, then we would not expect it to predict future total alpha. The last set of results in Table 5 jointly examines the relation between future total alpha and past industry and stock alpha, as in regression equation (7). The results confirm that the persistence in total alpha is driven by the industry component of alpha, rather than the stock alpha. For all three models, future total alpha is positively and statistically significantly related to past industry alpha, but insignificantly related to past stock alpha. However, the positive relation between total alpha and industry alpha is only marginally significant in the four-factor model. Overall, these results suggest that investors would be better served by emphasizing the industry component of total alpha when using past performance to help them allocate their assets across funds. 4.2 Fund Flows Sirri and Tufano (1998) show that investors chase winners, since cash flows correlate positively with past performance. Gruber (1996) and Zheng (1999) find that the choices investors make, as indicated by their new investments in funds, outperform an equal-weighted benchmark of mutual fund returns. More recently, Frazzini and Lamont (2007) find that investor flows underperform an equal-weighted benchmark. In this section we further explore the sagacity displayed by investors via their mutual fund flows. Given the results in Section 4.1, which indicate that industry selection predicts future performance while individual-stock-selection ability does not, we examine whether flows respond differently to performance driven by industry-selection skill compared to individual-stock-selection skill. We are particularly interested in whether investors prudently focus on the industry-selection portion of total alpha rather than the stock-selection component. To examine the relation between performance and subsequent cash flow, we repeat the cross-sectional analysis of Section 4.1, except we replace the next quarter alpha regressand with next quarter estimated cash flow:  EMBED Equation.3 , (8) where  EMBED Equation.3  is from regression equation (1), and CFp refers to fund total cash flow. Since actual cash flows are unavailable, we estimate cash flow as  EMBED Equation.3 , (9) where  EMBED Equation.3  are fund portfolio assets at the end of quarter t, and  EMBED Equation.3  is gross portfolio return during quarter t. We use past estimated cash flow ( EMBED Equation.3 ) as a regressor in equation (8), similar to Gruber (1996). The cash flow regressor controls for the strong tendency for cross-sectional differences in total cash flows to persist, largely because of great differences in the size of funds included in the analysis. That is, controlling for performance, large funds tend to realize larger inflows and outflows relative to smaller funds. We run the regressions in equation (8) each quarter, take the mean of the regression coefficients across quarters, and compute Fama MacBeth (1973) t-statistics. A significant positive b coefficient indicates that investors are attracted to funds that performed well during the most recent past quarter. We repeat the cross-sectional regressions in equation (8) except replacing the  EMBED Equation.3  regressor with  EMBED Equation.3 ,  EMBED Equation.3 , (10)  EMBED Equation.3 ,  EMBED Equation.3 , (11) or both  EMBED Equation.3  and  EMBED Equation.3  simultaneously,  EMBED Equation.3 . (12) Table 6 shows the results. The left, center, and right sets of columns in the table report the results associated with the single-, three-, and four-factor models, respectively. The total alpha results confirm the findings of many others indicating that cash moves into the better-performing funds, as gauged by total risk-adjusted performance. Flows significantly relate to total alpha regardless of the number of factors in the regression model. The results also suggest that investor flow is positively related to the two components of total alpha: industry and stock alpha. Focusing first on industry alpha, the evidence suggests that flows follow this portion of alpha in much the same manner that they follow total alpha. Note that these results do not indicate that investors specifically seek out funds with high industry-selection alphas. Rather, they may simply pursue high overall performance, with the industry-selection component of total alpha being highly correlated with overall performance. Focusing next on stock alpha, we again see evidence of a correspondence between performance and cash flows, although the evidence is slightly weaker than for industry alpha, particularly for the three- and four-factor models. Once again, these results could be attributable to investors chasing total alpha, with stock alpha being related to total alpha contemporaneously. However, the earlier results indicate that the stock portion of total alpha persists less than the industry portion of total alpha (Tables 3, 4, and 5). Consequently, investors could be better off by shifting emphasis further toward past industry alpha and away from past stock alpha. Finally, when we include industry and stock alphas as regressors simultaneously, the results confirm the results based on including each by itself. Investors respond to both the industry and stock components of alpha, with a slightly greater emphasis on industry alpha. 4.3 Stock and Industry Selectivity vs. Fund Size The results in the previous section indicate that funds that perform well (poorly) experience subscriptions (redemptions) as investors respond to past performance. As their asset bases swell, top-performing funds find it increasingly difficult to maintain stellar performance. Popular funds experience diseconomies of scale, as indicated in Chen et al. (2004) and Berk and Green (2004). One key implication from Berk and Greens (2004) theoretical model is that top performance should not persist indefinitely, as increasing transaction costs associated with larger transactions (e.g., price pressure), the exhausting of ones preferred stock list, or greater fees charged by the managers work to eliminate excess performance. Similarly, poor performance could reverse. For instance, if their asset bases shrink, lagging funds may find it easier to manage their remaining assets, perhaps because they can focus on their best ideas. In this section, we examine the effects of fund size on the industry-selection and stock-selection components of mutual fund performance. Ex ante, reasons exist to believe that the size of a funds asset base could differentially affect the two components of performance. As mentioned above, one of the main contributors to diseconomies of scale is the increase in transaction costs associated with large stock trades. That is, if a 100-stock fund grows its asset base ten-fold, but continues holding the same 100 stocks, the fund will need to trade ten times as many shares per stock. What previously could be accomplished with a 1,000-share trade would now require a 10,000-share trade. For all but the most liquid stocks, transacting substantially larger quantities is considerably more difficult, as market impact tends to move prices in the wrong direction. To avoid larger per-share transaction costs, funds may eliminate from consideration stocks that lack sufficient liquidity. Alternatively, funds may choose to increase the number of stocks to hold in their portfolios, an effect consistent with the portfolio data in Table 1. However, since their favorite stocks are typically already in their portfolio, the new additions could hurt fund performance. That is, they almost certainly are less optimistic about the new additions, or they would have already had them in their portfolio. Alexander, Cici, and Gibson (2007), for example, find that the stocks that funds purchase in order to absorb excess cash underperform their valuation-motivated purchases. So, unless a fund can continue to generate additional stock picks that they like as much as their core holdings, getting larger would be expected to hurt their stock selectivity. Consider, however, a fund that focuses on maintaining a particular industry allocation. A given industry consists of numerous individual issues, often consisting of an assortment of market capitalizations, share prices, and trading volumes. A manager that finds it too costly to transact too much in one stock could add another stock in the same industry. The fund manager would, thus, have numerous opportunities to maintain a specific industry exposure without having to exert undo pressure on any one particular stock. Alternatively, the fund manager could begin investing in a closely-related industry. Consequently, we might anticipate industry-selection ability to suffer less from a larger base of assets than individual-stock-selection ability. To examine the relation between fund size and performance, we sort funds into quintiles based on the size of their stock portfolios at the beginning of the quarter, and then examine the performance of the portfolios over the course of the quarter. Similar to Chen et al. (2004), we examine total alpha, but we also examine the two distinct components of total alpha, industry and stock alpha. We assess the relation between fund size and performance with the Spearman rank correlation coefficient, measured between the beginning-of-quarter size quintile and the subsequent performance quintile. Table 7 shows the results. Panel A reports the results for total alpha, Panel B reports the results for industry alpha, and Panel C reports the results for stock alpha. The total alpha results in Panel A show a negative correspondence between fund size and total alpha. For the single- and four-factor models, the negative correspondence is statistically significant. Thus, on a total alpha basis, larger funds tend to underperform smaller funds, on average, consistent with the findings of Chen et al. (2004). The picture that emerges from these results and the earlier ones is that good performance generates inflows and a larger base of assets, which eventually leads to a subsequent deterioration in performance, as in Berk and Green (2004). However, the performance hit is not sufficient to eliminate persistence as early as the following quarter (Table 5, Panel A). The industry results in Panel B are mixed. For the single-factor model, we see marginal evidence of diseconomies of scale. By contrast, the three- and four-factor results show no evidence of a deteriorating industry alpha as fund size increases. For these models, we see weak evidence consistent with the opposite result, with a statistically significantly positive Spearman correlation between fund size and industry alpha. The mean industry alpha of the largest size decile, however, does not statistically significantly differ from that of the smallest-size decile for any of the factor models. Overall, then, no strong relation exists between fund size and industry alpha. It appears that fund managers find ample opportunities either in their current industries or possibly in others to maintain their industry performance even as their asset bases grow. The lack of a relation between size and industry alpha helps to explain why the industry component of alpha persists, as indicated in Table 4, Panel B. In Panel C, the stock alpha results strongly point to diseconomies of scale, with Spearman rank correlations between the size quintile and subsequent stock alpha near -0.9 for all three factor models. Furthermore, the mean stock alpha of the largest size decile is statistically significantly less than the mean stock alpha of the smallest size decile for all three factor models. The evidence of diseconomies of scale in total alpha thus appears to be driven entirely by the stock-selection component of alpha. Although funds appear to maintain an equally attractive industry allocation as their size increases, they apparently have a difficult time adding stocks that do as well as their original choices. In the context of the persistence results in Panel C of Table 4, these results may help to explain why funds with poor stock alphas subsequently reverse. That is, outflows lead to a smaller base of assets, which positively impacts fund performance. It is unclear, however, why inflows do not adversely affect the stock alphas of top performing funds, since Panel C of Table 4 shows continuation in the stock alphas of top performing funds. The outflow effects may be more immediate because, on average, fund managers are forced to deal with redemptions expeditiously, since investors can redeem shares daily. Inflows, on the other hand, could be dealt with more deliberately. Thus, funds may experience the full brunt of the adverse effects of the inflows after the subsequent quarter. 5. Conclusion Some funds excel at picking individual stocks; others stand out with their industry allocations. We find that both types of skill play an important role in ultimately determining a funds concurrent risk-adjusted performance. We also find that only the industry-selection component of total alpha ability persists across all performance deciles. Although the stock-selection component of alpha persists among top performing funds, it reverses among the poor performers. These results suggest that industry selection drives the evidence of persistence documented elsewhere in the literature. Investors chase total performance, regardless of whether the performance is driven by industry- or stock-selection skill, leading to large inflows at the top-performing funds. We find that larger fund sizes do not erode the industry-selection component of performance, possibly because fund managers have ample room to further add to their current industries, or because they are able to find other industries that are equally attractive. By contrast, we find that stock selectivity suffers as fund size increases, consistent with the total performance results of Chen et al. (2004). This result suggests that diseconomies of scale in mutual funds are specifically attributable to the stock-selection component of performance. References Alexander, Gordon, Gjergji Cici, and Scott Gibson, 2007, Does motivation matter when assessing trade performance? An analysis of mutual funds, Review of Financial Studies 20, 125-150. Avramov, Doron, and Russ Wermers, 2006, Investing in mutual funds when returns are predictable, Journal of Financial Economics 81, 339-377. Berk, Jonathan, and Richard Green, 2004, Mutual fund flows and performance in rational markets, Journal of Political Economy 112, 1269-1295. Bollen, Nicolas, and Jeffrey Busse, 2005, Short-term persistence in mutual fund performance, Review of Financial Studies 18, 569-597. Brinson, Gary, L. Randolph Hood, and Gilbert Beebower, 1986, Determinants of portfolio performance, Financial Analysts Journal 42 (Jul-Aug), 39-44. Brown, Stephen, and William Goetzmann, 1995, Performance persistence, Journal of Finance 50, 679-698. Carhart, Mark, 1997, On persistence in mutual fund performance, Journal of Finance 52, 57-82. Chen, Joseph, Harrison Hong, Ming Huang, and Jeffrey Kubik, 2004, Does fund size erode mutual fund performance? The role of liquidity and organization, American Economic Review 94, 1276-1302. Daniel, Kent, Mark Grinblatt, Sheridan Titman, and Russ Wermers, 1997, Measuring mutual fund performance with characteristic-based benchmarks, Journal of Finance 52, 1035-1058. Elton, Edwin, Martin Gruber, and Christopher Blake, 1996, The persistence of risk-adjusted mutual fund performance, Journal of Business 69, 133-157. Fama, Eugene, and Kenneth French, 1993, Common risk factors in the returns on stocks and bonds, Journal of Financial Economics 33, 3-56. Fama, Eugene, and James MacBeth, 1973, Risk, return, and equilibrium: Empirical tests, Journal of Political Economy 81, 607-636. Frazzini, Andrea, and Owen Lamont, 2007, Dumb money: Mutual fund flows and the cross-section of stock returns, Journal of Financial Economics, forthcoming. Goetzmann, William, and Roger Ibbotson, 1994, Do winners repeat? Patterns in mutual fund performance, Journal of Portfolio Management 20, 9-18. Grinblatt, Mark, and Sheridan Titman, 1989, Mutual fund performance: An analysis of quarterly portfolio holdings, Journal of Business 62, 393-416. Grinblatt, Mark, and Sheridan Titman, 1992, The persistence of mutual fund performance, Journal of Finance 47, 1977-1984. Gruber, Martin, 1996, Another puzzle: The growth in actively managed mutual funds, Journal of Finance 51, 783-810. Hendricks, Darryll, Jayendu Patel, and Richard Zeckhauser, 1993, Hot hands in mutual funds: Short-run persistence of performance, 1974-1988, Journal of Finance 48, 93-130. Jegadeesh, Narasimhan, 1990, Evidence of predictable behavior of security returns, Journal of Finance 45, 881-898. Jegadeesh, Narasimhan, and Sheridan Titman, 1993, Returns to buying winners and selling losers: Implications for stock market efficiency, Journal of Finance 48, 65-91. Jensen, Michael, 1968, The performance of mutual funds in the period 1945-1964, Journal of Finance 23, 389-416. Kacperczyk, Marcin, Clemens Sialm, and Lu Zheng, 2005, On the industry concentration of actively managed mutual funds, Journal of Finance 60, 1983-2011. Malkiel, Burton, 1995, Returns from investing in equity mutual funds 1971 to 1991, Journal of Finance 50, 549-572. Sirri, Erik, and Peter Tufano, 1998, Costly search and mutual fund flows, Journal of Finance 53, 1589-1622. Wermers, Russ, 2000, Mutual fund performance: An empirical decomposition into stock-picking talent, style, transactions costs, and expenses, Journal of Finance 55, 1655-1695. Zheng, Lu, 1999, Is money smart? A study of mutual fund investors fund selection ability, Journal of Finance 54, 901-933. Table 1. Summary sample statistics The table shows fund portfolio statistics over select years during the 1980-2006 sample period. We define industry using four-digit SIC codes. YearNumber of fundsMedian assets ($M)Median stocksMedian industries19804144132261985489823830199076484383019952,17597463720002,265223543720061,62342365471980-20063,9591564936 Table 2. Factor model estimates The table reports statistics from single- and multi-factor model regressions estimated over quarterly horizons:  EMBED Equation.3 , (1)  EMBED Equation.3 , (2)  EMBED Equation.3 , (3) where  EMBED Equation.3  represents fund gross excess returns,  EMBED Equation.3 represents industry excess returns,  EMBED Equation.3  represents market, size, value, or momentum factors, and  EMBED Equation.3  represents an industry factor. t-statistics for the skill estimates are shown in parenthesis. The sample consists of 3,959 funds over a 1980-2006 sample period. Skill type EMBED Equation.3  EMBED Equation.3  EMBED Equation.3  EMBED Equation.3  EMBED Equation.3  EMBED Equation.3  EMBED Equation.3 Panel A. Single-factor EMBED Equation.3 0.0115 (3.17)1.0390.713 EMBED Equation.3 0.0034 (2.07)1.0300.828 EMBED Equation.3 0.0082 (6.89)1.0391.1370.876Panel B. Three-factor EMBED Equation.3 0.0125 (6.02)1.0730.256-0.0040.771 EMBED Equation.3 0.0047 (3.39)1.0510.176-0.0200.871 EMBED Equation.3 0.0073 (5.42)1.0730.256-0.0041.0610.882Panel C. Four-factor EMBED Equation.3 0.0131 (5.47)1.0570.243-0.0130.0240.779 EMBED Equation.3 0.0047 (3.08)1.0400.166-0.0260.0160.877 EMBED Equation.3 0.0078 (6.55)1.0570.243-0.0130.0241.0540.883 Table 3. Fraction of alpha attributable to industry selection The table reports the mean ratio of industry selection alpha,  EMBED Equation.3 , to total alpha,  EMBED Equation.3 , estimated over quarterly horizons:  EMBED Equation.3 , (1) and  EMBED Equation.3 , (2) where  EMBED Equation.3  represents fund gross excess returns,  EMBED Equation.3 represents industry excess returns, and  EMBED Equation.3  represents market, size, value, or momentum factors. The sample consists of 3,959 funds over a 1980-2006 sample period. Time periodSingle-factorThree-factorFour-factor1981-19850.5690.5450.5501986-19900.5840.5480.5321991-19950.5820.5340.5381996-20000.5760.5240.5142001-20060.5710.5170.5121981-20060.5750.5270.522 Table 4. Performance persistence The table shows average daily percentage performance estimates over a quarterly horizon for deciles of funds sorted according to fund performance estimated over the previous quarter. Total alpha (Panel A) is the intercept,  EMBED Equation.3 , in a standard regression model:  EMBED Equation.3 . (1) Industry alpha (Panel B) is the intercept,  EMBED Equation.3 , in a regression model where we use industry returns,  EMBED Equation.3 , as the regressand:  EMBED Equation.3 . (2) Stock alpha (Panel C) is the intercept,  EMBED Equation.3 , in a regression model that includes an additional industry factor,  EMBED Equation.3 :  EMBED Equation.3 . (3)  EMBED Equation.3  represents fund gross excess returns,  EMBED Equation.3  represents market, size, value, or momentum factors, and  EMBED Equation.3  represents an industry factor. 10 refers to the best past performance decile, and 1 refers to the worst past performance decile. *, **, and *** indicate significance at the 10, 5, and 1 percent level, respectively. The sample consists of 3,959 funds over a 1980-2006 sample period. Ranking decileSingle-factorThree-factorFour-factorPanel A. Total alpha100.03090.02700.022990.02110.01950.015880.01520.01640.014370.01140.01380.013760.00920.01170.012950.00810.01070.011240.00780.00940.010130.00590.00780.010820.00510.00520.011210.00570.00610.010210-10.0252***0.0210***0.0127***Spearman0.988***0.988***0.915***Panel B. Industry alpha100.01550.01510.009690.00800.00940.007780.00620.00910.006970.00350.00720.006160.00380.00520.005350.00220.00390.004740.00220.00300.00463-0.00010.00200.00392-0.0004-0.00150.00091-0.0038-0.0063-0.002110-10.0193***0.0214***0.0117***Spearman0.988***1.000***1.000*** Table 4 continued. Ranking decileSingle-factorThree-factorFour-factorPanel C. Stock alpha100.01780.01580.016190.01060.00920.009080.00890.00730.007770.00780.00630.007160.00500.00510.005450.00540.00520.005240.00510.00560.005830.00520.00500.005520.00560.00500.006210.01210.01020.011410-10.0057*0.0056*0.0047*Spearman0.3580.5150.345 Table 5. Predicting total alpha with total alpha, industry alpha, or stock alpha The table shows results from cross-sectional regressions of total alpha vs. past performance:  EMBED Equation.3 , (4)  EMBED Equation.3 , (5)  EMBED Equation.3 , (6) and  EMBED Equation.3 . (7) where  EMBED Equation.3 ,  EMBED Equation.3 , and  EMBED Equation.3  refer to total alpha, industry alpha, and stock alpha, respectively, estimated over quarterly horizons:  EMBED Equation.3 , (1)  EMBED Equation.3 , (2)  EMBED Equation.3 . (3)  EMBED Equation.3  represents fund gross excess returns,  EMBED Equation.3 represents industry excess returns,  EMBED Equation.3  represents market, size, value, or momentum factors, and  EMBED Equation.3  represents an industry factor. The table reports mean coefficient estimates, Fama MacBeth t-statistics (in parenthesis), and mean r-squares. The sample consists of 3,959 funds over a 1980-2006 sample period. Single-factorThree-factorFour-factora0.0080.0090.0090.0090.0110.0110.0110.0110.0110.0120.0120.011(2.93)(3.11)(3.05)(3.07)(5.30)(5.29)(5.30)(5.21)(5.74)(5.80)(5.78)(5.73) EMBED Equation.3 0.0500.0630.035(2.41)(3.74)(2.47) EMBED Equation.3 0.0730.0740.0960.0980.0370.041(2.24)(2.32)(3.27)(3.49)(1.43)(1.63) EMBED Equation.3 0.0280.0200.0340.0240.0190.017(1.25)(0.94)(1.59)(1.26)(1.01)(0.96) EMBED Equation.3 0.0420.0440.0190.0600.0280.0340.0170.0470.0180.0230.0130.035 Table 6. Cash flow vs. performance The table shows the results from cross-sectional regressions of total estimated cash flow vs. past performance and past cash flow:  EMBED Equation.3 , (8)  EMBED Equation.3 , (10)  EMBED Equation.3 , (11) and  EMBED Equation.3 , (12) where  EMBED Equation.3 ,  EMBED Equation.3 , and  EMBED Equation.3  refer to total alpha, industry alpha, and stock alpha, respectively, estimated over a quarterly horizon:  EMBED Equation.3 , (1)  EMBED Equation.3 , (2)  EMBED Equation.3 . (3)  EMBED Equation.3  represents fund gross excess returns,  EMBED Equation.3 represents industry excess returns,  EMBED Equation.3  represents market, size, value, or momentum factors, and  EMBED Equation.3  represents an industry factor. We estimate cash flows as:  EMBED Equation.3 , (9) where TNA refers to fund portfolio assets. The table reports mean coefficient estimates, Fama MacBeth t-statistics (in parenthesis), and mean r-squares. The sample consists of 3,959 funds over a 1980-2006 sample period. Single-factorThree-factorFour-factora10.0010.4210.6110.6310.5710.3210.6710.5110.4310.3510.5710.43(1.78)(1.82)(2.06)(1.86)(2.15)(2.30)(1.81)(2.10)(2.07)(2.02)(2.06)(2.05) EMBED Equation.3 5381.3721.2890.(2.54)(2.15)(2.00) EMBED Equation.3 8871.8716.6462.6420.4641.4540(2.39)(2.37)(2.30)(2.32)(2.09)(2.08) EMBED Equation.3 4470.4018.3127.2847.2864.2844.(2.27)(2.08)(1.81)(1.70)(1.73)(1.73)CF0.230.230.230.230.230.230.230.230.230.230.230.23(4.06)(4.05)(4.10)(4.05)(4.09)(4.10)(4.10)(4.09)(4.10)(4.10)(4.10)(4.09) EMBED Equation.3 0.200.200.200.200.200.200.200.200.200.200.200.20 Table 7. Performance vs. fund portfolio size The table shows average daily percentage performance estimates over a quarterly horizon for quintiles of funds sorted according to fund portfolio size at the end of the previous quarter. Total alpha (Panel A) is the intercept,  EMBED Equation.3 , in a standard regression model:  EMBED Equation.3 . (1) Industry alpha (Panel B) is the intercept,  EMBED Equation.3 , in a regression model where we use industry returns,  EMBED Equation.3 , as the regressand:  EMBED Equation.3 . (2) Stock alpha (Panel C) is the intercept,  EMBED Equation.3 , in a regression model that includes an additional industry factor,  EMBED Equation.3 :  EMBED Equation.3 . (3)  EMBED Equation.3  represents fund gross excess returns,  EMBED Equation.3  represents market, size, value, or momentum factors, and  EMBED Equation.3  represents an industry factor. 10 refers to the largest size decile, and 1 refers to the smallest size decile. *, **, and *** indicate significance at the 10, 5, and 1 percent level, respectively. The sample consists of 3,959 funds over a 1980-2006 sample period. Size decileSingle-factorThree-factorFour-factorPanel A. Total alpha100.00560.01200.012090.00850.01260.012980.00850.01200.012070.01170.01240.012460.01180.01190.012350.01300.01260.013640.01260.01140.012130.01520.01420.014720.01350.01180.012610.01470.01440.016210-1-0.0089**-0.0024-0.0042*Spearman-0.952***-0.103-0.648**Panel B. Industry alpha100.00110.00580.005790.00210.00530.005480.00260.00560.005370.00380.00520.005060.00400.00460.004750.00370.00420.004340.00400.00360.003830.00470.00460.004720.00500.00440.004810.00330.00350.003410-1-0.00220.00230.0022Spearman-0.685**0.855***0.806*** Table 7 continued. Size decileSingle-factorThree-factorFour-factorPanel C. Stock alpha100.00480.00490.005290.00660.00680.007480.00630.00580.006070.00750.00640.006660.00790.00730.007550.00930.00830.008940.00860.00750.007930.01040.00920.009620.00920.00740.007810.01130.00960.011210-1-0.0065**-0.0047*-0.0060**Spearman-0.927***-0.903***-0.879*** Both authors are from Goizueta Business School, Emory University, 1300 Clifton Road, Atlanta, GA 30322-2722. Email: HYPERLINK "mailto:Jeff_Busse@bus.emory.edu"Jeff_Busse@bus.emory.edu and Qing_Tong@bus.emory.edu. We appreciate the comments of Byoung-Hyoun Hwang.  The standard research databases do not identify passively managed funds. Consequently, our approach for removing these funds is imperfect. We remove from the sample funds whose names contain any of the following text strings: Index, Ind, Idx, Indx, Mkt, Market, Composite, S&P, SP, Russell, Nasdaq, DJ, Dow, Jones, Wilshire, NYSE, ishares, SPDR, HOLDRs, ETF, StreetTRACKS, 100, 400, 500, 600, 1000, 1500, 2000, 3000, 5000. We remove a total of 193 funds out of 4,152.  49/36 stocks held per industry out of eight stocks total per industry.  When we use NAICS codes to define industries rather than SIC codes, the corresponding three-factor industry-selection skill fraction is 36 percent.  It is unclear how to quantify the fraction of total alpha attributable to industry selection for cases in which industry and individual stock alpha are of different sign, so we exclude those funds from our fund-by-fund attribution estimates. One approach is to assign a 100 percent contribution to whichever component is the same sign as total alpha. This approach produces contribution estimates very similar to the results reported elsewhere in this section.  In untabulated results, the corresponding ratios associated with NAICS industry groupings are 0.56, 0.52, and 0.52.  Differences based on NAICS industry groupings range from 1.0 basis points per day to 2.0 basis points per day.  The reversal among poor performers is also evident when we use NAICS-based industry factors.  Although not shown in Table 5, the persistence results are very similar when we use NAICS codes rather than SIC codes to define industries, with significant positive relations between future total alpha and past industry alpha and weaker relations between future total alpha and past individual stock selection alpha.  The flow results are not sensitive to our choice of industry definition. NAICS-based results also indicate that investor flows are sensitive to both industry- and individual-stock-selection components of performance.  NAICS-based results are very similar to the SIC-based results shown in Table 8, with evidence of negative relations between size and total alpha and between size and stock alpha, and mixed evidence for the relation between size and industry alpha.      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