Momentum Effect all over the World: 75-93 75 Momentum Effect all over the World Zulfiqar Ali Imran* School of Economic, Finance & Banking Universiti Utara Malaysia, University of Lahore, Pakistan Woei-Chyuan Wong Rusmawati Ismail School of Economics, Finance & Banking, Universiti Utara Malaysia, Malaysia *Corresponding author: zulfiqaraliimran05@gmail.com ________________________________________________________________ A R T I C L E I N F O _____________________________ Article history: Received 28 August 2019 Revised 26 September 2019 Accepted 30 September 2019 Published 6 January 2020 ____________________________ Keywords: Momentum effect, reversals, momentum investment strategies, existence and profitability of momentum effect, efficient market hypothesis. JEL Code: G11, G12 A B S T R A C T _________________________________ This study is intended to reaffirm the existence and profitability of momentum investment strategies in 40 countries around the world during the period 1996–2018. The contradictory findings of previous research on the existence and profitability of momentum strategies have raised a pertinent question on the validity of efficient market hypothesis. We documented the momentum effect in 90% of our sample countries of which 52.5% exhibited positive momentum effect while 37.5% exhibited negative momentum effect. The findings were robust to two distinct sub-period analyses. The clear rejection of efficient market hypotheses is valuable to momentum traders and stock market regulators. The International Journal of Banking and Finance, Vol. 13. Number 2, 2017: 75-93 75 1. Introduction Finance literature carries substantial evidence on the existence and profitability of momentum returns since the seminal work of Jegadeesh and Titman (1993). Many studies have documented instances where stocks kept on outperforming (underperforming) for the next three to 12 months if they had outperformed (underperformed) during several previous months. Jegadeesh and Titman (1993) 76 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 analyzed the American Stock Exchange (AMEX) and New York Stock Exchange (NYSE) using post 1940 stock data. They reported a significant monthly average momentum profit of 1.49% when adopting a zero-cost momentum strategy of buying past winners and selling past losers. Similar results have also been documented in prominent cross-country studies such as Rouwenhorst (1998) who found momentum returns across all European stock markets. Rouwenhorst (1999) noted that 85% and 15% of the sample countries exhibited positive and negative momentum returns, respectively. Likewise, Griffin, Ji and Martin (2003) reported that 80% (18%) of their sample countries exhibited positive (negative) momentum returns, whereas 2% of their sample countries exhibited no momentum returns. Researchers have been critical of the applicability of efficient market hypothesis (EMH) in conventional finance ever since the discovery of the momentum effect in finance literature. The mere existence of the momentum effect in stock returns has invalidated the notion of EMH and strengthened the view point of opponents of market efficiency. The presence of momentum effects implied that a stock’s own past prices could be utilized to predict its future prices and could also lead investors to earn abnormal profits. This is contrary to EMH which articulates that investors cannot use information based on securities’ own past prices to make an abnormal profit because stock future prices are random in nature and are not affected by previous events (Malkiel, 2003; Malkiel & Fama, 1970). The question arises then as to what extent are our financial markets informationally efficient and whether asset pricing models are reliable. This is because conventional asset pricing models are developed based on the assumption of market rationality, where chances of achieving excess returns are remote. If investors can beat the market through acquiring excess returns then the validity of conventional asset pricing model is highly questionable (Chen 2017). Despite the fact that many studies have investigated momentum effects in stock markets around the world, there is no consensus among researchers on the existence and profitability of the momentum effect especially in developing stock markets. This contradictory evidence makes momentum profitability highly questionable in the literature and has been the subject of many empirical studies. Hameed and Yuanto (2002) and Chui, Titman and Wei (2000), for instance, did not find any momentum effect in Asian stock markets in their samples. On the other hand, Griffin, Ji and Martin (2004) and Chui, Titman, and Wei (2010) documented the existence and profitability of the momentum effect in some of the Asian stock markets. Kang, Liu and Ni (2002) established the presence of positive momentum effect in the China stock market. A more recent study in China by Li, Qiu and Wu (2010) however, found no momentum profit. The presence of the momentum effect proved by Griffin, Ji and Martin (2004) in the Turkish stock market was also controversial as it was later denied by Ornelas and Fernandes (2008). Momentum Effect all over the World: 75-93 77 One may argue that emerging markets are subject to higher volatility and greater uncertainty which caused the momentum effect, but the momentum effect is not confined to emerging stock markets. There are some developed stock markets such as in Australia and Japan where the momentum effect is also subject to many contradictions. Chui, Titman and Wei (2010) and Hurn and Pavlov (2003) for instance detected strong momentum effect in Australia which was unsupported in a later study by Huynh et al. (2010). Similarly, findings by Hong, Lee and Swaminathan (2003) of the insignificant momentum effect in Japan contradicted findings by Griffin, Ji and Martin (2004) who perceived significant momentum effects in the Japanese stock market. We are unaware of any comprehensive study, after Chui, Titman and Wei (2010) who examined and reaffirmed the profitability of the momentum effect around the world. The ongoing debate on market efficiency (Shiller 2003) and contradictory findings on the existence of the momentum effect served as motivation in the current study. Therefore the main objective of our study is to revisit the profitability of the momentum effect around the world to confirm whether stock markets are informationally efficient or not. This study also has implications for individual and institutional investors which adopted momentum investment strategies. Momentum based strategies are risky and are subject to huge losses. According to Barroso and Santa-Clara (2015), momentum strategies crash up to -91.59% in just two months and -73.42% in three months during the 1932 and 2009 financial crises, respectively. Such huge losses cannot be compensated through decades of momentum profits. Our study is important for policymakers to understand how far momentum effect prevails in stock markets and whether they should take a more proactive role in regulating the stock markets. The remainder of this paper is organised as follows: Section 2 presents the literature review, Section 3 explains the data, Section 4 describes the methodology, Section 5 clarifies the empirical findings and Section 6 concludes the study. 2. Related Literature Jegadeesh and Titman (1993) discovered short term momentum effect in the U.S. stock markets. They examined the U.S. stock market from 1965 to 1989 and documented momentum investment strategies which generated 1.49% average momentum profits per month. In other words, they found that winner stocks were outperforming loser stocks by 1.49% for the next three to 12 months. However, their study only focused on the U.S. stock markets and disregarded the European and Asian stock markets. Subsequent studies on momentum returns confirmed the existence of momentum profits outside of the U.S. markets. Rouwenhorst (1998) for instance, analysed 12 European stock markets from 1978 to 1985 that included United Kingdom, Switzerland, Sweden, Spain, Norway, Netherlands, Italy, Germany, 78 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 France, Denmark, Belgium and Austria. He documented the past six months of winner stocks which outperformed the past six months of loser stocks by 1% per month in all the 12 European markets. A later study by Rouwenhorst (1999) who studied 1,750 firms in 20 emerging stock markets consisting of Argentina, Brazil, Chile, Colombia, Greece, Indonesia, India, Jordan, Korea, Malaysia, Mexico, Nigeria, Pakistan, Philippines, Portugal, Taiwan, Thailand, Turkey, Venezuela and Zimbabwe found that 17 out of the 20 emerging stock markets exhibited momentum effect. Although there is ample evidence on the existence and profitability of the momentum effect, there are also numerous studies that contradicted the profitability and existence of the momentum effect. Chui, Titman and Wei (2001) examined eight stock markets in Asia which included Hong Kong, Malaysia, Indonesia, Taiwan, Korea, Thailand, Japan and Singapore. They found positive momentum effect in Hong Kong, Malaysia, Singapore and Thailand but no momentum effect in Indonesia, Japan, Taiwan and Korea. This study, however, lacked generalizability as they only considered eight Asian countries. The existence of the momentum effect was also opposed by Hameed and Yuanto (2002) who studied 1,000 firms in six Asian stock markets comprising of Hong Kong, Malaysia, Singapore, South Korea, Taiwan and Thailand. They applied Jegadeesh and Titman’s (1993) momentum methodology and concluded that all 16 momentum strategies were consistently insignificant in the six Asian stock markets. Moreover, Hameed and Yuanto (2002) argued that the momentum effect was the result of data snooping bias.1 Ornelas and Fernandes (2008) also did not find evidence of momentum effect in Brazil, Indonesia, Australia, Pakistan, Poland, Romania and Turkey. They related their findings of insignificant momentum effects with the improvement in information technology and use of the Internet that helped channel information to investors with greater speed which in turn wiped out the momentum effect. If higher information technology and use of the Internet wiped out the momentum effect, then all else being equal, developed countries, should have a lower momentum effect as compared to developing countries. This contention was not supported by existing studies which found that developed countries exhibited higher momentum effect than their developing counterparts (Rouwenhorst 1999, 1998). Although a substantial amount of literature on momentum effect favoured the existence and profitability of momentum strategies in many countries around the world, there are also many studies that contradicted these findings specifically in the context of emerging markets. The existence and profitability of the momentum effect in emerging markets is not unanimous in the literature. Moreover, there is no study examining momentum returns on a global scale after Chui, Titman and Wei (2010). Thus, it is important to reaffirm the existence of momentum effect around the world. Table 1 presents the list of countries, along with researchers who investigated the existence of momentum returns. 1 Data snooping refers to statistical inference which researchers decide to perform after looking at related data. Momentum Effect all over the World: 75-93 79 Table 1. Countries and Momentum Returns Panel A. List of Countries with Significant Momentum Returns Country Author Argentina Rouwenhorst (1999); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Africa Griffin, Ji and Martin (2003) Australia Griffin, Ji and Martin (2003) Austria Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Bangladesh Chui, Titman and Wei (2010) Belgium Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Brazil Rouwenhorst (1999); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Nigeria Rouwenhorst (1999) Jordan Rouwenhorst (1999) Korea Rouwenhorst (1999) Malaysia Rouwenhorst (1999); Griffin, Ji and Martin (2003) Mexico Rouwenhorst (1999); Griffin, Ji and Martin (2003) Netherlands Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) New Zealand Griffin, Ji and Martin (2003) Norway Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Pakistan Rouwenhorst (1999); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Peru Griffin, Ji and Martin (2003) Philippines Rouwenhorst (1999); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Poland Chui, Titman and Wei (2010) Portugal Rouwenhorst (1999); Griffin, Ji and Martin (2003) Singapore Griffin, Ji and Martin (2003) South Africa Griffin, Ji and Martin (2003) Spain Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) (continued) 80 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 Panel A. List of Countries with Significant Momentum Returns Country Author Sweden Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Taiwan Rouwenhorst (1999); Griffin, Ji and Martin (2003) Thailand Griffin, Ji and Martin (2003) Turkey Rouwenhorst (1999); Griffin and Martin (2003) United Kingdom Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Venezuela Rouwenhorst (1999) Zimbabwe Rouwenhorst (1999) Panel B. Countries with Controversial Momentum Returns Hong Kong Hameed and Yuanto (2002) Switzerland Rouwenhorst (1998); Chui, Titman and Wei (2010); Griffin, Ji and Martin (2003) Malaysia Hameed and Yuanto (2002) Singapore Hameed and Yuanto (2002) South Korea Hameed and Yuanto (2002); Chui, Titman and Wei (2000) Taiwan Hameed and Yuanto (2002) Thailand Hameed and Yuanto (2002) Japan Chui, Titman and Wei (2000); Teplova and Mikova (2015) Indonesia Fernandes and Ornelas (2008); Chui, Titman and Wei (2000) Australia Henker, Henker and Huynh (2010) Brazil Fernandes and Ornelas (2008) Pakistan Fernandes and Ornelas (2008) Poland Fernandes and Ornelas (2008) Romania Fernandes and Ornelas (2008) Turkey Fernandes and Ornelas (2008) 3. Data The stock price data used to compute momentum returns was obtained from DataStream. The final sample consisted of 40 countries with complete stock Momentum Effect all over the World: 75-93 81 price data from 1996 to 2018. The initial sample consisted of 40,365 firms from the 40 countries but after the screening process, 9,332 firms were left. During the screening process, firms with incomplete monthly return values from 1996 to 2018 were dropped. Table 2 provides the list of countries included in our study along with the total number of firms. Table 2. Total Numbers of Firms No. Country Total Number of Firms Number of Firms Retained 1 Bangladesh 348 97 2 Brazil 610 156 3 China 3706 366 4 Colombia 99 28 5 India 4860 1791 6 Indonesia 629 171 7 Kenya 69 39 8 Malaysia 965 303 9 Morocco 75 17 10 Pakistan 365 158 11 Philippines 312 159 12 South Africa 399 112 13 Sri Lanka 301 163 14 Thailand 1242 413 15 Turkey 394 142 16 Australia 2172 380 17 Belgium 154 46 18 Canada 3684 760 19 Chile 211 110 20 Denmark 162 86 21 Finland 172 52 22 France 860 236 23 Germany 876 231 24 Greece 194 74 25 Hong Kong 3336 453 26 Israel 414 190 27 Italy 462 72 28 Japan 1174 481 29 Korea 2378 473 (continued) 82 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 No. Country Total Number of Firms Number of Firms Retained 30 Netherlands 130 60 31 New Zealand 150 38 32 Norway 299 42 33 Poland 820 21 34 Singapore 522 113 35 Spain 275 51 36 Sweden 917 99 37 Switzerland 283 123 38 Taiwan 1970 284 39 United Kingdom 1507 373 40 United States 2869 369 Total Number of Firms 40,365 9,332 Source: Author’s own calculations. 4. Methodology This study adopted the momentum strategy J6K6 developed by Jegadeesh and Titman (1993). Their strategy stands as a benchmark to calculate momentum returns and has been used by subsequent researchers such as Chui, Titman, and Wei (2010), Griffin, Ji, and Martin (2003), Ji, Martin, and Yao (2017), and Rouwenhorst (1998). Stock returns are calculated through the following formula. (1) Where Pt is a closing price in month t and Pt-1 is an opening price in month t-1. Next, stocks are ranked in ascending order based on their cumulative returns at the end of each month for the past six months. The top 10% of the stocks are classified as winner portfolios while the bottom 10% are loser portfolios. These winner and loser portfolios are held for the next six months. This strategy is known as J6K6 in the literature where J6 refers to the six months formation period while K6 refers to the six months holding period. For example, a J6K6 portfolio on 1st July 2016 will show the performance of a portfolio from 31 December 2015 to 30 June 2016 (J6) and will be held until 31 December 2016 (K6). To calculate winner minus loser portfolio, the average loser portfolio returns are deducted from the average winner portfolio returns. The average value of winner minus loser portfolio is the momentum return where t-statistics is used to measure the significance level of the momentum returns. 𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅 = ( 𝑃𝑃𝑡𝑡 − 𝑃𝑃𝑡𝑡−1 𝑃𝑃𝑡𝑡−1 ) ∗ 100 Momentum Effect all over the World: 75-93 83 5. Empirical Findings This section discusses the momentum profitability in 40 countries around the world from 1996 to 2018. Table 3 shows the monthly average momentum returns for each of these countries along with their respective t-statistics. For robustness sake, the momentum results during the sub-periods of 1997 to 2006 and 2007 to 2018 are also reproduced. Table 3 groups the sample countries according to their respective momentum returns (full sample) whether they are positive and significant (Panel A), negative and significant (Panel B) or insignificant (Panel C). Panel D tabulates the average momentum returns of all countries according to full and sub-periods. As shown in Table 3, 21 and 15 countries exhibited positive and significant, and negative and significant momentum returns, respectively, during the full sample period. These findings were robust to the two sub-period analyses. The exceptions were Thailand, Netherlands, Israel, US and Italy where the momentum returns either turned insignificant or flipped during the sub- period analysis. Netherlands for instance had positive and significant momentum returns in the full sample period but turned insignificant during first sub-period (1996–2006). The U.S. and Italy experienced positive and significant momentum returns in the full sample period but turned negative and significant in the first sub sample period. Momentum returns were insignificant in Taiwan, Colombia, Spain and Greece for the full sample period as shown in Panel C of Table 3. Panel D shows the average momentum return of all countries. The average momentum returns were 0.25%, 0.18% and 0.24% during the full sample, first and second sub- periods, respectively. Table 3. Country Wise Average Monthly Momentum Returns (%) S. No Country Average Monthly Momentum Profits (%) T-Stat Panel A: Positive Monthly Momentum Returns 1 Bangladesh Full Sample (1996–2018) 1.81*** 21.75 First Sub-Sample (1996–2006) 1.99*** 16.65 Second Sub-Sample (2007–2018) 1.65*** 25.99 2 China Full Sample (1996–2018) 1.72*** 52.09 First Sub-Sample (1996–2006) 2.25*** 58.10 Second Sub-Sample (2007–2018) 1.28*** 47.08 (continued) 84 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 S. No Country Average Monthly Momentum Profits (%) T-Stat Panel A: Positive Monthly Momentum Returns 3 Kenya Full Sample (1996–2018) 0.47*** 4.25 First Sub-Sample (1996–2006) 0.56*** 4.50 Second Sub-Sample (2007–2018) 0.41*** 4.05 4 Morocco Full Sample (1996–2018) 0.98*** 5.42 First Sub-Sample (1996–2006) 1.29*** 6.61 Second Sub-Sample (2007–2018) 0.67*** 4.22 5 South Africa Full Sample (1996–2018) 1.56*** 22.56 First Sub-Sample (1996–2006) 2.14*** 27.44 Second Sub-Sample (2007–2018) 0.97*** 17.22 6 Thailand Full Sample (1996–2018) 0.12*** 5.51 First Sub-Sample (1996–2006) 0.25*** 10.48 Second Sub-Sample (2007–2018) 0.01 1.37 7 Belgium Full Sample (1996–2018) 2.39*** 24.86 First Sub-Sample (1996–2006) 2.05*** 15.35 Second Sub-Sample (2007–2018) 2.68*** 32.78 8 Chile Full Sample (1996–2018) 0.82*** 24.19 First Sub-Sample (1996–2006) 0.64*** 14.25 Second Sub-Sample (2007–2018) 0.97*** 32.47 Level of significance, * p<0.01, ** p<0.05, *** p<0.1 Momentum Effect all over the World: 75-93 85 Table 3 (Continued) S. No Country Average Monthly Momentum Profits (%) T-Stat 9 Denmark Full Sample (1996–2018) 1.24*** 22.29 First Sub-Sample (1996–2006) 1.2*** 19.31 Second Sub-Sample (2007–2018) 1.28*** 24.79 10 Finland Full Sample (1996–2018) 3.20*** 27.05 First Sub-Sample (1996–2006) 3.9*** 25.54 Second Sub-Sample (2007–2018) 2.62*** 28.30 11 Germany Full Sample (1996–2018) 2.04*** 72.20 First Sub-Sample (1996–2006) 2.63*** 73.32 Second Sub-Sample (2007–2018) 1.55*** 71.27 12 Italy Full Sample (1996–2018) 0.24*** 5.45 First Sub-Sample (1996–2006) -0.9*** -5.62 Second Sub-Sample (2007–2018) 1.18*** 14.66 13 Netherlands Full Sample (1996–2018) 0.41*** 5.20 First Sub-Sample (1996–2006) -0.35 -0.64 Second Sub-Sample (2007–2018) 1.03*** 10.06 14 New Zealand Full Sample (1996–2018) 1.44*** 11.15 First Sub-Sample (1996–2006) 1.97*** 10.91 Second Sub-Sample (2007–2018) 1.01*** 11.35 15 Norway Full Sample (1996–2018) 2.76*** 21.24 First Sub-Sample (1996–2006) 3.49*** 22.99 Second Sub-Sample (2007–2018) 2.14*** 19.78 16 Poland Full Sample (1996–2018) 1.53*** 6.86 First Sub-Sample (1996–2006) 2.14*** 9.59 Second Sub-Sample (2007–2018) 1.03*** 4.60 86 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 Table 3 (Continued) 17 Singapore Full Sample (1996–2018) 1.53*** 6.85 First Sub-Sample (1996–2006) 2.14*** 9.56 Second Sub-Sample (2007–2018) 1.03*** 4.59 18 Sweden Full Sample (1996–2018) 3.69*** 51.16 First Sub-Sample (1996–2006) 4.66*** 46.57 Second Sub-Sample (2007–2018) 2.87*** 54.98 Level of significance, * p<0.01, ** p<0.05, *** p<0.1 S. No Country Average Monthly Momentum Profits (%) T-Stat 19 Switzerland Full Sample (1996–2018) 2.84*** 57.90 First Sub-Sample (1996–2006) 3.50*** 63.78 Second Sub-Sample (2007–2018) 2.28*** 53.00 20 United Kingdom Full Sample (1996–2018) 1.46*** 96.10 First Sub-Sample (1996–2006) 1.90*** 102.71 Second Sub-Sample (2007–2018) 1.10*** 90.58 21 United States Full Sample (1996–2018) 0.17*** 8.04 First Sub-Sample (1996–2006) -0.14** -2.07 Second Sub-Sample (2007–2018) 0.43*** 16.46 Panel B: Negative Monthly Momentum Returns 22 Brazil Full Sample (1996–2018) -0.89*** -22.07 First Sub-Sample (1996–2006) -1.19*** -21.30 Second Sub-Sample (2007–2018) -0.46*** -22.72 23 India Full Sample (1996–2018) -2.34*** -28.62 First Sub-Sample (1996–2006) -3.20*** -30.02 Second Sub-Sample (2007–2018) -1.54*** -27.00 24 Indonesia Full Sample (1996–2018) -6.23*** -52.64 Momentum Effect all over the World: 75-93 87 Table 3 (Continued) S. No Country Average Monthly Momentum Profits (%) T-Stat First Sub-Sample (1996–2006) -10.72*** -37.06 Second Sub-Sample (2007–2018) -2.50*** -65.63 25 Malaysia Full Sample (1996–2018) -2.32*** -45.40 First Sub-Sample (1996–2006) -3.35*** -33.70 Second Sub-Sample (2007–2018) -1.463*** -55.15 26 Pakistan Full Sample (1996–2018) -1.08*** -18.85 First Sub-Sample (1996–2006) -2.19*** -36.78 Second Sub-Sample (2007–2018) -0.15*** -3.91 Level of significance, * p<0.01, ** p<0.05, *** p<0.1 27 Philippines Full Sample (1996–2018) -2.19*** -23.03 First Sub-Sample (1996–2006) -0.95*** -13.95 Second Sub-Sample (2007–2018) -3.23*** -30.60 28 Sri Lanka Full Sample (1996–2018) -1.13*** -20.41 First Sub-Sample (1996–2006) -2.12*** -36.43 Second Sub-Sample (2007–2018) -0.29*** -7.07 29 Turkey Full Sample (1996–2018) -1.98*** -33.22 First Sub-Sample (1996–2006) -2.31*** -34.68 Second Sub-Sample (2007–2018) -1.71*** -32.00 30 Australia Full Sample (1996–2018) -0.38*** -10.15 First Sub-Sample (1996–2006) -0.81*** -19.25 Second Sub-Sample (2007–2018) -0.03*** -2.58 31 Canada Full Sample (1996–2018) -1.62*** -10.68 First Sub-Sample (1996–2006) -1.54*** -21.58 Second Sub-Sample (2007–2018) -1.68 -1.59 88 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 Table 3 (Continued) S. No Country Average Monthly Momentum Profits (%) T-Stat 32 France Full Sample (1996–2018) -0.39*** -11.22 First Sub-Sample (1996–2006) -0.16*** -5.03 Second Sub-Sample (2007–2018) -0.59*** -16.38 33 Hong Kong Full Sample (1996–2018) -0.59*** -29.76 First Sub-Sample (1996–2006) -0.52*** -22.14 Second Sub-Sample (2007–2018) -0.66*** -34.94 34 Israel Full Sample (1996–2018) -0.33*** -5.69 First Sub-Sample (1996–2006) -0.73*** -12.76 Second Sub-Sample (2007–2018) 0.01 0.21 Level of significance, * p<0.01, ** p<0.05, *** p<0.1 35 Japan Full Sample (1996–2018) -0.34*** -32.85 First Sub Sample (1996–2006) -0.15*** -18.92 Second Sub Sample (2007–2018) -0.49*** -44.92 36 Korea Full Sample (1996–2018) -0.36*** -12.18 First Sub-Sample (1996–2006) -0.44*** -9.77 Second Sub-Sample (2007–2018) -0.29*** -14.19 Panel C: No Momentum Returns Based on Full Sample Period 37 Greece Full Sample (1996–2018) -0.42 -0.23 First Sub-Sample (1996–2006) -0.98 -1.99 Second Sub-Sample (2007–2018) 0.06 1.23 38 Taiwan Full Sample (1996–2018) 0.05 -1.35 First Sub-Sample (1996–2006) 0.74*** 14.03 Second Sub-Sample (2007–2018) -0.52*** -14.17 Momentum Effect all over the World: 75-93 89 Table 3 (Continued) S. No Country Average Monthly Momen- tum Profits (%) T-Stat 39 Colombia Full Sample (1996–2018) 0.08 1.15 First Sub-Sample (1996–2006) 0.34*** 3.33 Second Sub-Sample (2007–2018) -0.14 -0.67 40 Spain Full Sample (1996–2018) -0.08 -0.48 First Sub-Sample (1996–2006) 0.21 -0.17 Second Sub-Sample (2007–2018) -0.32 -0.74 Panel D: Overall Average Monthly Momentum Returns in 40 Countries All Countries Full Sample (1996–2018) 0.25*** 4.86 First Sub-Sample (1996–2006) 0.18*** 4.78 Second Sub-Sample (2007–2018) 0.24*** 4.93 Level of significance, * p<0.01, ** p<0.05, *** p<0.1 Table 4 compares findings of the current study with five main international studies on momentum returns. Rouwenhorst (1999) found that the J6K6 momentum strategy produced 0.39% monthly average momentum returns in Asian stock markets where 85% and 15% of the sample countries exhibited positive and negative significant momentum returns, respectively. Hameed and Yuanto (2002) examined 16 momentum strategies in six Asian stock markets and observed that none of the sample countries were generating momentum returns. Griffin et al. (2003) studied momentum effects in 39 countries around the world. They discovered that the J6K6 investment strategy produced 0.49% monthly average momentum returns across the countries in their sample. A total of 80% and 18% of the countries had positive and negative momentum returns, respectively. Whereas, 2% of the sample countries did not exhibit momentum returns. Fernandes and Ornelas (2008) found positive momentum returns and negative momentum returns in 20% and 80% of their sample countries, respectively. Chui et al. (2010) examined momentum returns across 40 countries and perceived that 62.5% of their sample countries showed insignificant momentum returns. Meanwhile, momentum returns were positive (negative) in 52.5% (10%) of the sample countries. The overall monthly average momentum returns were 0.73% across 40 countries. The findings of the current study were also in line with the five international studies mentioned. We studied 40 countries across the world and found 0.25% monthly average momentum returns. 90 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 Ta bl e 4. P er ce nt ag e of P os iti ve a nd N eg at iv e M om en tu m R et ur ns A cr os s C ou nt ri es A ut ho r N um be r of c ou nt rie s Sa m e pe rio d M on th ly A ve ra ge M om en tu m P ro fit s C ou nt rie s w ith M om en tu m P ro fit (% ) C ou nt rie s w ith M om en tu m L os s (% ) C ou nt rie s w ith N o M om en tu m (% ) M om en tu m st ra te gi es R ou w en ho rs t ( 19 99 ) 20 19 82 –1 99 7 0. 39 % 85 % 15 % J6 K 6 H am ee d an d Yu an to (2 00 2) 6 19 81 –1 99 4 0. 53 % 10 0% 1 6 st ra te gi es G rif fin e t a l. (2 00 3) 39 19 75 –2 00 0 19 90 –2 00 0 0. 49 % W or ld 1. 63 % A fr ic a 1. 82 % S ou th A fr ic a 80 % 18 % 2% J6 K 6 Fe rn an de s a nd O rn el as (2 00 8) 15 19 95 –2 00 4 20 % 80 % J3 K 3, J6 K 6, J1 2K 12 , J 24 K 24 C hu i e t a l. (2 01 0) 40 19 81 –2 00 3 0. 73 % 60 % 10 % 30 % J6 K 6 C ur re nt st ud y 40 19 96 –2 01 8 1. 49 % 57 .5 % 37 .5 % 5% J6 K 6 So ur ce : A ut ho rs ’ o w n ta bu la tio n. Momentum Effect all over the World: 75-93 91 Our findings confirmed the existence of the momentum effect in 36 (90%) countries out of 40 countries where 52.5% of the countries had positive and significant momentum returns and 37.5% of the countries had negative and significant momentum returns. A total of 10% of the sample countries had insignificant momentum returns for the full sample period. One noteworthy difference between our study and studies by Rouwenhorst (1998, 1999), Hameed and Yuanto (2002) and Chui et al. (2010) was the existence of a significant number of countries with negative momentum returns which implied the existence of return reversals, i.e. past losers outperformed past winners and vice versa. The significant number of countries with negative momentum returns was however consistent with Fernandes and Ornelas (2008) who obtained reversals in 10 out of 15 emerging stock markets. As suggested by De Bondt and Thaler (1985, 1987), contrarian investment strategies of buying past loser stocks and selling past winner stocks could produce abnormal profits due to the overreaction of investors. Both return momentum and reversals invalidated the notion of efficient market hypothesis. Jegadeesh and Titman (1993) also showed that return reversals could take place after 12 months. Another possible reason why our results were different from previous studies was because of the sample selection criteria. Rouwenhorst (1999) excluded 5% of the stocks based on their extreme past performance during the ranking (formation) period. Moreover, Rouwenhorst (1999) used the 30% cut- off point in determining winner and loser stocks. Whereas, we applied a 10% cut-off and did not apply any data filtering technique except deleting stocks that did not have values to full length. 6. Conclusion This study revisited the existence and profitability of momentum returns on a global scale. This is necessary since 16 years have passed since the study by Chui et al. (2010) with a sample period which ended in 2003. It is important to identify the magnitude of momentum returns across countries so that policymakers are aware of the validity of EMH in their respective stock markets. Our findings offered a clear rejection of the notion of EMH as 90% of the sample countries exhibited significant momentum returns. Our study has implications for practitioners and policymakers. The main findings of the current study offer guidance to individual investors, investment houses and institutional investors as to which country(s) the J6K6 momentum investment strategies tend to be profitable. On the other hand, investors should also be aware of the losses associated with momentum strategies as supported by our findings on return reversals in 37.5% of our sample countries. In addition, investors should implement momentum strategies with caution due to the rapid speed of information diffusion in stock prices in recent years. This could 92 The International Journal of Banking and Finance, Vol. 14, 2018-2019: 75-93 eradicate momentum profits a lot sooner than what investors have predicted. Policymakers should take into consideration the behavioural aspects of investors when designing regulations to curb excessive volatility in the market. 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