ABSTRACT

This article examines three models for pricing risky assets, the capital asset pricing model (CAPM) from Sharpe and Lintner, the three factor model from Fama and French, and the four factor model from Carhart, in the Brazilian mark et for the period from 2002 to 2013. The data is composed of shares traded on the São Paulo Stock, Commodities, and Futures Exchange (BM&FBOVESPA) on a monthly basis, excluding financial sector shares, those with negative net equity, and those without consecutive monthly quotations. The proxy for market return is the Brazil Index (IBrX) and for riskless assets savings accounts are used. The 2008 crisis, an event of immense proportions and market losses, may have caused alterations in the relationship structure of risky assets, causing changes in pricing model results. Division of the total period into pre-crisis and post-crisis sub-periods is the strategy used in order to achieve the main objective: to analyze the effects of the crisis on asset pricing model results and their predictive power. It is verified that the factors considered are relevant in the Brazilian market in both periods, but between the periods, changes occur in the statistical relevance of sensitivities to the market premium and to the value factor. Moreover, the predictive ability of the pricing models is greater in the post-crisis period, especially for the multifactor models, with the four factor model able to improve predictions of portfolio returns in this period by up to 80%, when compared to the CAPM.

Keywords
CAPM; market anomalies; multifactor model; prediction; 2008 financial crisis

RESUMO

Este artigo analisa três modelos de apreçamento de ativos de risco, o CAPM (do inglês capital asset pricing model), de Sharpe e Lintner, o modelo de três fatores, de Fama e French, e o de quatro fatores, de Carhart, no mercado brasileiro para o período de 2002 a 2013. Os dados são compostos por ações negociadas na Bolsa de Valores, Mercadorias e Futuros de São Paulo (BM&FBOVESPA) com periodicidade mensal, excluídas ações do setor financeiro, com patrimônio líquido negativo e sem cotações mensais consecutivas. A proxy para o retorno de mercado é o Índice Brasil (IBrX) e para o ativo livre de risco é a poupança. A crise de 2008, evento de imensa proporção e prejuízo para os mercados, pode ter causado alterações na estrutura de relação dos ativos de risco, gerando mudanças nos resultados dos modelos de apreçamento. Utiliza-se a estratégia de divisão do período total em pré-crise e pós-crise para atingir o principal objetivo: analisar os efeitos da crise sobre os resultados dos modelos de apreçamento de ativos e seu poder de previsão. Verifica-se que os fatores considerados são relevantes no mercado brasileiro nos dois períodos, mas entre os períodos ocorrem mudanças na relevância estatística das sensibilidades ao prêmio de mercado e ao fator valor. Além disso, a capacidade preditiva dos modelos de apreçamento é maior no período pós-crise, em especial para os modelos multifatoriais, sendo o modelo de quatro fatores capaz de melhorar em até 80% a previsão do retorno das carteiras, neste período, quando comparado ao CAPM.

Palavras-chave
CAPM; anomalias de mercado; modelo multifatorial; previsão; crise de 2008

1. INTRODUCTION

The capital asset pricing model (CAPM), developed by Sharpe (1964Sharpe, W. F. (1964). Capital assets prices: a theory of market equilibrium under conditions of risk. Journal of Finance , 19(3), 425-442. ) and Lintner (1965Lintner, J. (1965). The valuation of risk assets and the selection of risky investments in stock portfolios and capital budgets. Review of Economics and Statistics, 47(1), 13-37. ) has been the model that is most widely used by the market for calculating expected rates of return on risky assets. Although the CAPM calculates expected excess return on risky assets as the only function of their systematic risk, subsequent empirical studies indicate the existence of other factors that influence achieved historic returns. Banz (1981Banz, R. W. (1981) The relationship between return and market value of common stocks. Journal of Financial Economics, 93-18. ) found evidence of greater historic records for small stock companies. Stattman (1980Stattman, D. (1980). Book values and stock returns. The Chicago MBA: A Journal of Selected Papers, 4, 25-45. ) showed that the average return on US shares is greater for value companies, or rather, those with a high book value of net equity to market value ratio (high book-to-market index [BM]). Based on these market anomalies, Fama and French (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.) proposed an empirical model in which they identified three risk factors that would determine expected return on shares: the market factor, the factor related to the size of the firm, and another to the BM index. Subsequently, Carhart (1997Carhart, M. M. (1997). On persistence in mutual fund performance. The Journal of Finance , 52, 57-82.) added a fourth factor, related to momentum, based on evidence from Jegadeesh and Titman (1993Jegadeesh, N., & Titman, S. (1993). Returns to buying winners and selling losers: implications for stock market efficiency. Journal of Finance, 48, 65-91. ) regarding significantly positive historic returns from adopting a strategy of buying winning shares funded by the sale of losing shares.

Garcia and Ghysels (1998Garcia, R., & Ghysels, E. (1998). Structural change and asset pricing in emerging markets. Journal of International Money and Finance , 17(3), 455-473. ) documented the importance of studying structural changes in emerging markets, and recently, articles that address estimating systematic risk in a dynamic way have gained more ground in the literature, since the structure of correlation between the factors involved in the models suffers from an alteration over time, especially when structural breaks exist in the time series, arising for example from a crisis period. Silva, Pinto, Melo, and Camargos (2009Silva, W. A. C., Pinto, E. A., Melo, A. O., & Camargos, M. A. (2009). Análise comparativa entre o CAPM e o C-CAPM na precificação de índices acionários: evidências de mudanças nos coeficientes estimados de 2005 a 2008. Anais do IX Encontro Brasileiro de Finanças, São Paulo, SP, Brasil, ), Garcia and Bonomo (2001), Machado, Bortoluzzo, Martins, and Sanvicente (2013Machado, O. P, Bortoluzzo, A. B., Martins, S. R, & Sanvicente, A. Z. (2013). Inter-temporal CAPM: an empirical test with Brazilian market data. Brazilian Finance Review, 11, 149-180. ), and Tambosi Filho, da Costa, and Rossetto (2006Tambosi Filho, E., Costa Jr., N. C. A. da, & Rossetto, J. R. (2006). Testando o CAPM condicional nos mercados brasileiro e norte-americano. Revista de Administração Contemporânea, 10(4), 53-168. ) published papers that evaluated the efficiency of the conditional CAPM model (C-CAPM) proposed by Bodurtha and Mark (1991)Bodurtha Jr., J. N., & Mark, N. C. (1991). Testing the CAPM with time-varying risks and returns. The Journal of Finance, 46(4), 1485-1505. in the Brazilian market. On the other hand, Lewellen and Nagel (2006Lewellen, J., & Nagel, S. (2006). The conditional CAPM does not explain asset-pricing anomalies. Journal of Financial Economics , 82, 289-314. ) found empirical evidence that the results from the C-CAPM do not differ significantly from the results from the non-conditional CAPM, since the relationship between the betas and the market risk premium varies very smoothly over time. This leads to the belief that in order for there to be significant changes in the asset pricing model coefficients, an event with greater intensity needs to occur in order to provoke an alteration in the dependency structure of the variables, such as a crisis.

The main aim of this article is to verify whether there was any alteration in the correlation structure of the single and multifactor model variables due to the occurrence of the 2008 crisis, that is, to examine the behavior of risk premiums in the Brazilian market in the periods before and after the 2008 financial crisis. To do so, the period from 2002 to 2013 was divided into three (pre-crisis, crisis, and post-crisis), and for the first and last of these sub-periods, non-conditional single and multifactor models were estimated in order to compare the results in a descriptive way and using the Chow parameter stability test. The results from this test indicate the existence of significant differences before and after the crisis, both in the relationship between the factors and in the values and significance of the coefficients of the CAPM and of the three factor model from Fama and French and the four factor model from Carhart, which justifies the division of the sample into the sub-periods.

The paper also analyzes the predictive ability of each one of the models evaluated for the Brazilian market based on calculating the root mean square error (RMSE) and the mean absolute percentage error (MAPE), which are measures that compare observed return with the return estimated for the portfolios by a particular model. These measures indicate the supremacy of the multifactor models in comparison with the CAPM in the two sub-periods analyzed, with the four factor model presenting slightly better performance than the three factor and all of the models presenting better predictions in the period following the 2008 crisis.

The next section describes the single and multifactor models, their variables, and expected results, and then an empirical literature review of studies of the Brazilian market is carried out. Finally, the results from the models are presented, analyzed, and interpreted.

2. SINGLE AND MULTIFACTOR RISK MODELS

The CAPM, from Sharpe and Lintner, is a theoretical model that, according to Black, Jensen, and Scholes (1972Black, F., Jensen, M. C., & Scholes, M. (1972). The capital asset pricing model: some empirical tests. In M. C. Jensen (Ed.), Studies in the theory of capital markets (pp. 79-121). New York, NY: Praeger Publishers Inc. ), depends on the following hypotheses: (a) all investors are wealth maximizers and have a utility function that is adverse to a single risk horizon and choose their portfolios based only on average and variance in returns; (b) no transaction costs exist; (c) all investors have information symmetry regarding the joint probability density function of returns on assets; (d) all investors can lend and borrow at a risk-free rate. Under these hypotheses, the main result from the model indicates that:

in which E(r_i) represents the expected return on a risky asset i, r_f is the return on a risk-free asset, E(r_m) is the expected return on a portfolio representative of the market, and β_i is the measure of sensitivity of the return from asset i to market return, representing the asset's systematic risk coefficient.

Although Roll (1977Roll, R. (1977). A critique of the asset pricing theory's tests. Part 1. On past and potential testability of the theory. Journal of Financial Economics , 4, 129-176. ) considers it to be impossible to test the CAPM empirically, alleging that no adequate proxy would exist for a market portfolio as defined by the model, various authors (Banz, 1981Banz, R. W. (1981) The relationship between return and market value of common stocks. Journal of Financial Economics, 93-18. ; Carhart, 1997Carhart, M. M. (1997). On persistence in mutual fund performance. The Journal of Finance , 52, 57-82.; Fama & French, 1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.; Jegadeesh & Titman, 1993Jegadeesh, N., & Titman, S. (1993). Returns to buying winners and selling losers: implications for stock market efficiency. Journal of Finance, 48, 65-91. ; Stattman, 1980Stattman, D. (1980). Book values and stock returns. The Chicago MBA: A Journal of Selected Papers, 4, 25-45. ) have found empirical evidence that the return on a risky asset depends on other risk factors that are not captured by the β of the asset.

Unlike the CAPM, which is a theoretical model, the empirical three factor model from Fama and French (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.) aims to capture the sensitivity of return to other risk factors, and is represented by equation 2:

in which E(r_i) - r_f is the expected excess return on portfolio i, r_m - r_f is the excess return on the market portfolio, SMB, meaning small minus big, or size factor, is the risk premium for maintaining a portfolio bought in shares in small companies and sold in shares in big companies, HML, meaning high minus low, or value factor, is the risk premium for maintaining a portfolio bought in shares in companies with a high BM index (value shares) and sold in shares with a low BM index (growth shares), and b_i, s_i , and h_i are the sensitivities related to the respective factors. Fama and French (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.) considered the factors as proxies for risk factors. According to them, there is empirical evidence that the two factors are related to return; in other words, large companies or growth ones would have lower returns on assets when compared to small companies or with value companies, respectively. Thus, it is expected that positive risk premiums will be found for each one of the three factors.

Carhart (1997Carhart, M. M. (1997). On persistence in mutual fund performance. The Journal of Finance , 52, 57-82.) adds the momentum factor (WML, or winners minus losers) to the three factor model, resulting in the four factor model:

in which WML is the risk premium for maintaining a portfolio bought in winning company shares (which obtained above average returns in the previous year) and sold in losing shares (which obtained below average returns in the previous year), and w_i is the sensitivity of the portfolio with relation to the WML.

Just like the size and value factors, the addition of WML is empirically justified. Vayanos and Woolley (2013Vayanos, D., & Woolley, P. (2013). An institutional theory of momentum and reversal. The Review of Financial Studies, 26(5), 1087-1145. ) explain WML as a result of the gradual removal of funds invested in a discredited company. In a second phase, the capital flow could be large enough for its market value to diverge too much from its fair value, at which point a reversal would occur. Jegadeesh and Titman (2001Jegadeesh, N., & Titman, S. (2001). Profitability of momentum strategies: an evaluation of alternative explanations. Journal of Finance , 56(2), 699-720. ), however, verified that the factor is neither consistent with the random walk hypotheses, nor with the financial behavior hypotheses, since reversal only occurs in some of the sub-periods analyzed, with some anomaly thus being involved. The anomaly is characterized by a positive above-market return in the year following the year in which the share was winning (even if there is a reversal, this takes place after this period). Thus, we expect a positive premium for WML.

To evaluate the predictive power of models (1), (2), and (3), time series regressions are carried out with the inclusion of the α_i intercept, which must have its significance tested. As set out by Black et al. (1972Black, F., Jensen, M. C., & Scholes, M. (1972). The capital asset pricing model: some empirical tests. In M. C. Jensen (Ed.), Studies in the theory of capital markets (pp. 79-121). New York, NY: Praeger Publishers Inc. ), the α_i term, also known as the Jensen alpha in its CAPM version, if statistically different from zero, indicates a violation of hypothesis (a) of the CAPM. As the other models also propose to explain the totality of excess return on well diversified portfolios, the α_i coefficient should be statistically equal to zero for the three models analyzed. If the model presents an intercept that is statistically above (below) zero for some portfolio, it means that that portfolio had a positive (negative) excess return after controlling all of the risk factors in the model, and there is therefore evidence that, for that portfolio, some risk factor was not captured by the model.

3. MAIN EMPIRICAL EVIDENCE IN THE BRAZILIAN MARKET

Málaga and Securato (2004Málaga, F. K., & Securato, J. R. (2004). Aplicação do modelo de três fatores de Fama e French no mercado acionário brasileiro: um estudo empírico no período 1995-2003. Anais do Encontro Anual da Associação Nacional de Programas de Pós-Graduação em Administração, Curitiba, PR, Brasil, 28. ) obtained results that confirmed the superiority of the three factor model in relation to the CAPM in explaining returns on Brazilian shares. Mussa, Rogers, and Securato (2009Mussa, A., Rogers, P., & Securato, J. R. (2009). Modelos de retornos esperados no mercado brasileiro: testes empíricos utilizando metodologia preditiva. Revista de Ciências da Administração, 11(23), 192-216. ) produced a paper in which they tested the predictive ability of the CAPM and the three factor model, carrying out the two stage procedure in accordance with Fama and MacBeth (1973Fama, E. F., & MacBeth, J. D. (1973). Risk, return, and equilibrium: Empirical tests. The Journal of Political Economy , 81(3), 607-636) and concluded that neither of the two models is efficient in predicting returns on Brazilian shares, given the significance observed in the regression intercepts.

In another paper, Rogers and Securato (2009Rogers, P., & Securato, J. R. (2009). Estudo comparativo no mercado brasileiro do capital asset pricing model (CAPM). RAC Eletrônica, 3(1), 159-179. ) carried out a study of the three factor model from Fama and French in the Brazilian market, comparing with the traditional single factor CAPM and the reward beta approach, and concluded that the multiple factor model was superior, however excluding accounting HML over market value, which was not shown to be statistically significant. The period covered was 1995 to 2006, subdivided into two sub-periods: one to estimate risk premiums and the other to test the models.

Mussa, Famá, and Santos (2012Mussa, A., Famá, R., & Santos, J. O. (2012). A adição do fator de risco momento ao modelo de precificação de ativos dos três fatores de Fama & French aplicado ao mercado acionário brasileiro. REGE, 19(3), 431-447. ) carried out a study of the Brazilian equities market in which they tested the three factor model from Fama and French, as well as the four factor model proposed by Carhart, incorporating WML. The results from the study indicated the validity of including the four factors in the broadened version of the original CAPM, in which despite SMB and WML presenting a negative premium, contradicting the original studies from Fama and French (1993)Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56. in the case of SMB, and from Carhart (1997)Carhart, M. M. (1997). On persistence in mutual fund performance. The Journal of Finance , 52, 57-82. in the case of WML, other results obtained for the Brazilian context were confirmed, such as that from Málaga and Securato (2004Málaga, F. K., & Securato, J. R. (2004). Aplicação do modelo de três fatores de Fama e French no mercado acionário brasileiro: um estudo empírico no período 1995-2003. Anais do Encontro Anual da Associação Nacional de Programas de Pós-Graduação em Administração, Curitiba, PR, Brasil, 28. ).

Argolo, Leal, and Almeida (2012Argolo, E. F. B., Leal, R. P. C., & Almeida, V. S. (2012). O modelo de Fama e French é aplicável no Brasil? Relatório COPPEAD, 402. ) carried out a study regarding the three factor model from Fama and French with data from Brazil and covering the period from 1995 to 2007, that is, subsequent to the Brazilian currency stabilization plan and prior to the period that succeeded the subprime financial crisis. The authors concluded that using the three factor model was statistically valid, incorporating a premium for SMB and another for the so-called value stocks factor. They verified, therefore, that the three factor model has greater explanatory power compared to the single factor model, corresponding to the CAPM from Sharpe and Lintner. However, it was verified that the historical averages of the HML and SMB premiums are very high and they did not present better estimates than the one factor traditional model for estimating the cost of equity capital in the Brazilian context.

Rayes, Araújo, and Barbedo (2012Rayes, A. C. R. W., Araújo, G. S., & Barbedo, C. H. S. (2012). O modelo de 3 fatores de Fama e French ainda explica os retornos no mercado acionário brasileiro? Revista Alcance, 19(1), 52-61. ) tested the three factor model from Fama and French, considering in particular the structural break occurring in the Brazilian equities market as a result of the sharp increase in liquidity in mid-2006. They selected 40 shares with higher liquidity in 2004 and traded on the stock exchange in the period from July 2000 to June 2008. Considering the shares both individually and combined in portfolios, they found that the SMB and HML factors do not explain market returns more, due to the structural break mentioned above.

In a more recent paper, Noda, Martelanc, and Kayo (2015Noda, R. F., Martelanc, R., & Kayo, E. K. (2015). The earnings/price risk factor in capital asset pricing models. Revista Contabilidade & Finanças, 27(70), 67-79. ) included the risk factor Price-to-Earnings Ratio in the traditional CAPM, verifying the validity of using this factor in explaining returns on Brazilian shares, covering the period from 1995 to 2014. The results from the study indicated that the greater the Price-to-Earnings Ratio, the greater the return on shares tends to be, complementary to the CAPM beta effect. This factor was shown to be significant even after controlling for the other components of the three factor model from Fama and French.

In light of this, we can infer that there is not yet any clear evidence of the superiority of the three or four factor models, as well as that little evidence exists regarding the predictive ability of these models, at least for the context of the Brazilian equities market. The most recent articles do not address the crisis period specifically, which makes it impossible to verify the adjustment of the models in this period, in which a modification occurs in the dependency structure of the data involved in the pricing models.

4. METHODOLOGY

The population analyzed comprises all non-financial company shares listed on the São Paulo Stock, Commodities, and Futures Exchange (BM&FBOVESPA) between January 2002 and December 2013, with all of the secondary data collected from the Economatica information system. Shares in financial sector companies were ignored, due to them presenting high debt ratios that influence the BM multiple. In composing the database, shares that had not been traded in any session in the analysis period were excluded. Companies that had more than one type of share had the least liquid ones excluded from the base. These exclusions alone restricted the database to 253 shares.

For the portfolio formation, which was carried out in December of each year, the following additional exclusions were necessary: shares that did not present consecutive monthly quotations for the 12 month period after the portfolio formation so that return on the shares can be calculated, shares that did not present consecutive monthly quotations for the 12 month period before the portfolio formation so that classification between winners and losers is possible, and shares without a market value on December 31 of each year, and companies that do not have positive liquid equity on December 31 of each year.

Thus, for each year, the sample had a different number of shares available for forming part of the portfolios. For example, for 2002, our sample presented 59 shares with available data, while in 2013 there were 207 shares with available data. On average, the sample had 127 shares with data available for composing the portfolios.

It is verified that the use of the methodology proposed by Fama and French (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.) for forming portfolios results in portfolios with only one or two shares in some years, which violates the hypothesis that portfolios are diversified, implying a high specific risk component, which could undermine the statistical tests regarding the coefficients of the models analyzed. In order to eliminate the problem of lack of diversification, common in less developed markets in which the number of companies listed is very small, such as that of Brazil, this article uses the same alternative methodology for forming portfolios proposed in Rogers and Securato (2009Rogers, P., & Securato, J. R. (2009). Estudo comparativo no mercado brasileiro do capital asset pricing model (CAPM). RAC Eletrônica, 3(1), 159-179. ) and described below. First, the shares are ordered by the BM index and divided into three groups with approximately the same number of shares in accordance with the percentages 30% and 70%; second, for each one of the three groups separately, the shares are ordered by their market value and each group is subdivided between small and large companies using the median of each group, resulting in six groups with approximately the same number of shares; in the third and last step, each one of the six groups is ordered separately in accordance with the previous year's returns and subdivided into two more, between winning and losing shares, in accordance with the median of each subgroup. The logic of the method is illustrated in Figure 1. The difference in the method proposed is that the annual divisions of the groups are carried out using the percentages from the subgroups formed in the previous stage, whereas the Fama and French method uses the percentages from the total sample in each stage. Using the method proposed, it is guaranteed that each one of the portfolios has approximately the same number of shares in its composition and that all the portfolios are relatively well diversified.

Despite the benefits of the methodology proposed, it only makes sense to use this alternative if the original variables BM, size, and return are weakly correlated so that it is guaranteed that, for example, a portfolio with small company has a lower market value than a portfolio with big company, as occurs in the proposal from Fama and French. In the period evaluated, the correlations were very weak in magnitude, lower that 0.09 for BM and return vs. size and lower than 0.3 in the case of return vs. BM, which makes the use of this type of modification possible in compiling portfolios for the Brazilian market without causing bias in the portfolios formed. Moreover, we validated the construction of portfolios using the modified methodology observing average and standard deviation (SD) values from each portfolio for each one of the years from 2002 to 2013 and verifying the same ordering of portfolios by size and return, as in the Fama and French method. Table 1 shows the results obtained for the portfolios in 2013 in which it is observed, in the second column, that for the method proposed, as well as for the Fama and French method, all of the small company portfolios have a lower market value when compared with big company portfolios. It is also possible to observe that average size and average return have very close values between the two methodologies.

After compiling the portfolios, for each one of the methodologies time series regressions are carried out for models (1), (2), and (3), for the pre-crisis, post-crisis, and total periods. The financial crisis from 2007 to 2009 was subdivided by Phillips and Yu (2011Phillips, P. C. B., & Yu, J. (2011). Dating the timeline of financial bubbles during the subprime crisis. Quantitative Economics, 2, 455-491. ) into three burst bubbles, namely: the subprime crisis, from August to December 2007, the commodities crisis, from March to July 2008, and the bonds crisis, from September 2008 to April 2009. The subprime crisis was triggered in the United States of America and did not significantly affect the Brazilian market. By means of a graphic analysis of the Brazilian stock exchange index it is verified that it was only affected after the commodities bubble burst so that the period between March 2008 and April 2009 was used to define the crisis period. Thus, the period before the crisis was defined as that between January 2002 and February 2008, and the post-crisis period as that between May 2009 and December 2013.

Despite the study from Araújo, Oliveira, and Silva (2012Araújo, E. A. T., Oliveira, V. C., & Silva, W. A. C. (2012). CAPM em estudos brasileiros: uma análise da pesquisa. Revista de Contabilidade e Organizações, 15(6), 95-122. ) indicating the prevalence in Brazilian studies of the Bovespa Index (Ibovespa) and of the Special System for Settlement and Custody (SELIC) as proxies for the market portfolio and the risk-free asset, respectively, we adopted the Brazil Index (IBrX) and savings accounts due to them being more consistent with the CAPM theory. The Ibovespa was an equities index weighted only by liquidity and came to be by the market value with a limit on participation based on liquidity, while the IBrX is an index of shares weighted only by the market value of shares and contains the 100 most liquid assets on the Brazilian exchange. It is worth highlighting that the change in weighting criterion for Ibovespa shares only occurred after the period covered in our sample. Savings accounts present a low DP and are accessible to any investor. Their use is justified by Silva, Pinto, Melo, and Camargos (2009)Silva, W. A. C., Pinto, E. A., Melo, A. O., & Camargos, M. A. (2009). Análise comparativa entre o CAPM e o C-CAPM na precificação de índices acionários: evidências de mudanças nos coeficientes estimados de 2005 a 2008. Anais do IX Encontro Brasileiro de Finanças, São Paulo, SP, Brasil, and they are used in a recent study from Sanvicente (2014Sanvicente, A. Z. (2014). O mercado de ações no Brasil antes do índice Bovespa. Revista Brasileira de Finanças , 12(1), 1-12. ), among other papers.

5. RESULTS

Tables 2 presents the risk premiums calculated for the period from 2002 to 2013 (total) and for the pre-crisis, crisis, and post-crisis sub-periods, as well as the correlation between the market factors, SMB, HML, and WML. It is verified that the market risk premium for the whole sample was positive, as expected, and equal to 0.89% a month and statistically significant to 10%. This value is lower than those found by Sanvicente (2014Sanvicente, A. Z. (2014). O mercado de ações no Brasil antes do índice Bovespa. Revista Brasileira de Finanças , 12(1), 1-12. ), Machado and Medeiros (2011Machado, M. A. V., & Medeiros, O. R. (2011). Modelos de precificação de ativos e o efeito liquidez: evidências empíricas no mercado acionário brasileiro. Revista Brasileira de Finanças, 9, 383-412. ), Málaga and Securato (2004Málaga, F. K., & Securato, J. R. (2004). Aplicação do modelo de três fatores de Fama e French no mercado acionário brasileiro: um estudo empírico no período 1995-2003. Anais do Encontro Anual da Associação Nacional de Programas de Pós-Graduação em Administração, Curitiba, PR, Brasil, 28. ), and Mussa, Famá, and Santos (2012Mussa, A., Famá, R., & Santos, J. O. (2012). A adição do fator de risco momento ao modelo de precificação de ativos dos três fatores de Fama & French aplicado ao mercado acionário brasileiro. REGE, 19(3), 431-447. ), which were 1.65%, 3.09%, 1.09%, and 1.56%, respectively, this being expected due to the long history of low market returns for the sample used in this paper, with the crisis and post-crisis periods.

Analyzing the sub-periods, it is important to highlight that the market risk premium is positive and significant only for the pre-crisis period, being negative in the crisis period and close to zero in the post-crisis period, but without statistical relevance in these last two sub-periods. It can also be noted that, in using the total sample in the time regression, the pre-crisis period predominates due to it having more observations, influencing the regression coefficients. However, as suggested in Bortoluzzo, Minardi, and Passos (2014Bortoluzzo, A. B., Minardi, A. M. A. F., & Passos, B. C. (2014). Analysis of multi-scale systemic risk in Brazil's financial market. Revista de Administração (FEA-USP), 49, 240-250. ), and Sandoval Jr., Bortoluzzo, and Venezuela (2014Sandoval Jr., L., Bortoluzzo, A. B., & Venezuela, M. K. (2014). Not all that glitters is RMT in the forecasting of risk of portfolios in the Brazilian stock market. Physica A, 410, 94-109. ), the short timeframe can more efficiently explain the relationship between risk and return. Alterations of this nature can be observed for the other factors, especially for SMB and WML.

SMB was statistically significant in the crisis period and its negative sign indicates that in this period the returns of large companies were greater than those of small companies, probably due to the liquidity problem of low market value companies. Although there is the expectation of higher returns for these companies in the long run, the reason for this premium would precisely be the difficulty in selling these shares at times of crisis or selling them with large negative variations in price, given the pressure to sell. Comparing the values for the pre-crisis and post-crisis periods, it is perceived that before the crisis this premium was positive, and after it became negative, although not statistically significant.

HLM behaves in a more stable way over time; negative and statistically significant for all of the sub-periods, however a little lower in the post-crisis period, compared to the pre-crisis one. It is worth highlighting that the negative sign result for Brazil is different from the result obtained by Fama and French (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.), indicating that the factor captures a different anomaly for Brazil in comparison to the US market. One possible explanation for this difference is that in the United States of America this factor is based on the existence of growth companies, in which the book value of assets is very small when compared with market value, such as in technology companies, which are intensive in intangible non-accounted assets. In Brazil, these companies would be those that have a consistent historic increase in valuation over the years, so that market value ends up exceeding book value; that is, in Brazil we do not have practically any technology companies listed on the stock exchange and companies classified as growth companies are those that presented great increase in valuation in the study period, which results in high market value compared to net book value of equity. In our study, the companies that fit this description were large consolidated groups. For example, Companhia de Bebidas das Américas (AMBEV), a company that in the US market would be considered as value due to a recent history of share appreciation, ended up being classified as growth, and there are various other similar cases.

WML presented the expected sign, however with statistical significance in the pre-crisis sub-period only. In the post-crisis sub-period there was practically no difference between return on the assets of winning and losing companies, with a value close to zero that was not relevant. This fact reveals indications that the crisis may have caused some regime change not absorbed by the traditional pricing models.

Table 2 illustrates the differentiated behavior of risk premiums in the sub-periods evaluated, which could suggest the existence of a structural break in the time series and indicate the need to work with a pricing model only with the most recent past. In order to evaluate the differences in the dependency structure of the factors over time, the Box M test (Silva, 2016Silva, A. R. (2016). Biotools: tools for biometry and applied statistics in agricultural science. R package, version 3. 0. Retrieved from https://cran.rstudio.com/web/packages/biotools/biotools.pdf.
https://cran.rstudio.com/web/packages/bi... ) was used, which indicated the existence of an alteration in the behavior of the correlations between the pre-crisis and post-crisis sub-periods (p value < 0.001). Some of the relationships that suffered alterations are: dependency between the market and value factors, the relationship between which was inversely proportional before the crisis and became directly proportional in the crisis and remained this way after the crisis; the relationship between the market and WML factors, which was negative and weak before the crisis and became moderate during and after the crisis; and the relationship between WML and SMB, which presented an alteration from a positive sign before the crisis to a negative sign in the post-crisis period.

Tables 3 and 4 present the results of the time series regressions for models (1), (2), and (3), in the pre-crisis and post-crisis periods, using the modified method for portfolio formation. All of the analyses were carried out using the SELIC rate as a risk-free asset and the results obtained were similar. The analyses were also made compiling the portfolios using the method proposed by Fama and French, however there was a gain in the predictive power of the models using the method proposed in this article, which varied from 3% for the CAPM to 61% in the case of the four factor model for the post-crisis period. All of the results are available upon requesting them from the authors.

Analyzing the CAPM intercept, it is verified that for three out of 12 portfolios before the crisis, and five out of 12 portfolios after the crisis, this coefficient is different from zero, with 95% confidence, which would contradict the CAPM hypotheses, as previously discussed. This indicates that the market risk factor is not enough to capture all of the risk premiums in the Brazilian market. Thus, the multifactor models would be better, since for only one portfolio the intercept was statistically relevant to 5% significance before the crisis, and this was the case for none of them after the crisis, which leads to the conclusion that the multifactor models used managed to capture the anomalies existing in the market. Also according to Table 4, in considering only the market risk factor, the four low BM index portfolios present positive excess returns (α), always to 5% significance. This result differs from that indicated by Stattman (1980Stattman, D. (1980). Book values and stock returns. The Chicago MBA: A Journal of Selected Papers, 4, 25-45. ) and Fama and French (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.), as was mentioned.

In accordance with what was expected, the β coefficient, which measures sensitivity to the market risk factor, presented a positive sign and statistical significance to 5% for all of the portfolios and models, that is, even after considering the other factors. Despite the importance of the market risk factor, it was not enough to capture all of the risk premiums in the Brazilian market, as was mentioned in the previous paragraph.

The four factor model is the one that presents the highest adjusted R² for practically all of the portfolios in both the pre-crisis and post-crisis periods. For some portfolios, the quality of the adjustment of the three and four factors models was similar, such as for the portfolios of low BM index, small, and winning companies, low BM index, big, and winning companies, medium BM index, big, and winning companies, and high BM index, big and winning companies.

Based on the results from the four factor model, it is important to note that 75% of the portfolios (9 out of 12) descriptively presented β coefficients with a smaller magnitude after the crisis, which indicates a decrease in sensitivity to the market factor after the crisis in the Brazilian market. SBM was relevant for around half of the portfolios, both before and after the crisis, with WML presenting statistical relevance for little more than half of the portfolios considered in each one of the periods. HML presented statistical relevance for most of the portfolios before the crisis (11 out of 12), and after the crisis sensitivity to this factor reduced, with only six out of 12 portfolios having coefficients that were statistically significant to 5%.

Regressions for the crisis period were also carried out and the results are available upon requesting them from the authors. The main difference was in the reduction in the importance of HML in the crisis and post-crisis periods when compared with the pre-crisis period.

The Chow test (Wooldridge, 2014Wooldridge, J. M. (2014). Introdução à econometria: uma abordagem moderna. São Paulo, SP: Cengage Learning. ), presented in Table 5, confirms the existence of differences between the results from all of the models estimated before the crisis (Table 3) and after the crisis (Table 4), indicating the existence of a structural break in the 2008 crisis. Using a 10% level of significance, the results from the CAPM and the three factor model present differences for 67% of the portfolios evaluated (8 out of 12 portfolios), while for the four factor model the differences appear for 58% of the portfolios (7 out of 12 portfolios).

After the time series regressions, the estimated coefficients were used in a second, cross-sectional regression, in order to obtain the predicted return for each one of the 12 portfolios in accordance with what was expected by each one of the three models analyzed. Table 6 presents two different metrics (RMSE and MAPE) for the prediction error in the cross-sectional regression, with for each statistic used, the lower the value, the better the prediction quality. Analysis of the table indicates that, generally, the four factor model presented the best prediction results, which was expected due to it containing a greater number of variables. However, in some sub-periods this superiority was marginal. If parsimony is a criterion for choosing the model, the three factor one can be taken into consideration. Other information that warrants attention is the significant improvement in the predictiveness of the three and four factor models for the post-crisis period, which can be credited to the lack of "contamination" in the data caused by the crisis.

The fourth and fifth columns in Table 6 present the gain in prediction quality by using the multifactor models instead of the CAPM, in which we observe a significant improvement in predictability. As is to be expected, the model with the greatest number of factors presents the best prediction results. However, the gain is marginal in the pre-crisis and crisis periods. For the post-crisis period, an improvement of more than 40% is noted by using the four factor model instead of the three factor one.

6. CONCLUSION

This study analyzed the single-factor asset pricing model and the multifactor ones with three and four factors for the Brazilian equities market in the period from 2002 to 2013. Risk premiums, time series regressions, and the predictive power of the models were analyzed in the complete period and dividing the period using the 2008 crisis.

We found a market risk premium consistent with the theory, however with a lower value than that of other studies of the Brazilian market, which we considered normal due to the period evaluated in this paper considering the 2008 crisis. The premium found regarding SMB was positive, in accordance with what was expected, however different from studies for the Brazilian market, such as those from Málaga and Securato (2004Málaga, F. K., & Securato, J. R. (2004). Aplicação do modelo de três fatores de Fama e French no mercado acionário brasileiro: um estudo empírico no período 1995-2003. Anais do Encontro Anual da Associação Nacional de Programas de Pós-Graduação em Administração, Curitiba, PR, Brasil, 28. ) and from Mussa, Famá, and Santos (2012Mussa, A., Famá, R., & Santos, J. O. (2012). A adição do fator de risco momento ao modelo de precificação de ativos dos três fatores de Fama & French aplicado ao mercado acionário brasileiro. REGE, 19(3), 431-447. ). The premium regarding HML presented a different sign from expected, while WML was statistically insignificant. These premiums are anomalies by nature. In the case of SMB, smaller companies tend to generate an abnormally higher return than larger companies, which was confirmed in our paper. With regards to the HML factor, we also expected a positive sign, as in the findings from Fama and french (1993Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56.), but we may not have managed to confirm previous studies due to "errors in the variables" that may be present in less liquid shares and due to not having true growth shares in Brazil, as is the case in the United States of America, primarily characterized by technology companies. In the case of WML, we did not obtain significance, possibly because of the different behaviors from those found by Fama and French (1993)Fama, E. F., & French, K. R. (1993). Common risk factors in the returns on stocks and bonds. Journal of Financial Economics , 33, 3-56. in the case of losing shares, in which the momentum effect appears to have an opposite effect.

The results from the time series regressions reveal that the market risk factor is the most important for explaining portfolio returns, however it is not the only one with statistical significance. For most of the portfolios, the three and four factor models obtain a significant improvement in the adjusted R², confirming the existence of anomalies in the Brazilian equities market, as was verified in other studies (Argolo et al. 2012Argolo, E. F. B., Leal, R. P. C., & Almeida, V. S. (2012). O modelo de Fama e French é aplicável no Brasil? Relatório COPPEAD, 402. ; Málaga & Securato, 2004Málaga, F. K., & Securato, J. R. (2004). Aplicação do modelo de três fatores de Fama e French no mercado acionário brasileiro: um estudo empírico no período 1995-2003. Anais do Encontro Anual da Associação Nacional de Programas de Pós-Graduação em Administração, Curitiba, PR, Brasil, 28. ; Mussa, Famá & Santos, 2012Mussa, A., Famá, R., & Santos, J. O. (2012). A adição do fator de risco momento ao modelo de precificação de ativos dos três fatores de Fama & French aplicado ao mercado acionário brasileiro. REGE, 19(3), 431-447. ), in which the factors that represent statistically relevant anomalies for most of the portfolios were HML and WML.

Future studies are necessary in which portfolio assets are separated using different criteria, such as using the asset beta, as suggested by Lewellen, Nagel, and Shanken (2010Lewellen, J., Nagel, S., & Shanken, J. (2010). A skeptical appraisal of asset pricing tests. Journal of Financial Economics , 96, 175-194. ). By analyzing the results from the various sub-periods it is observed that the variations in the estimates for the beta of the same portfolio are large, reaching up to 100%, which may indicate that the beta must vary over time, as in the study from Bollerslev, Engle, and Wooldridge (1988Bollerslev, T., Engle, R. F., & Wooldridge, J. M. (1988). A capital asset pricing model with time-varying covariances. Journal of Political Economy, 96(1), 116-131. ) and Bortoluzzo, Toloi, and Morettin (2010Bortoluzzo, A. B., Toloi, C. M. C., & Morettin, P. A. (2010). Time-varying autoregressive conditional duration model. Journal of Applied Statistics, 37, 847-864. ), for the autoregressive model of conditional duration. Our analysis indicated greater betas during the crisis, indicating that systematic risk gains importance in the crisis period.

Analysis of the predictive power of the models indicated a significant gain in predictive quality by using the multifactor model instead of the single factor one. For the total sample period, the gain was an approximately 54% reduction in RSME. Moreover, we observed that for the most recent sub-period, the inclusion of WML into the three factor model from Fama and French generated an expressive improvement in prediction quality. Finally, we observed a significant improvement in the predictability of the four factor model for the post-crisis period, contradicting common sense that the use of a longer period in the sample generates better results.

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