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Transcript 
CLAREMONT McKENNA COLLEGE
STOCK MARKET SENTIMENT IN CHINA:
THE IMPACT ON TIME DEPOSITS AND SHARE PRICES
SUBMITTED TO
PROFESSOR RICHARD C.K. BURDEKIN
AND
DEAN GREGORY HESS
BY
LUKE REDFERN
FOR
SENIOR THESIS
SPRING 2008
APRIL 28, 2008
2
Table of Contents
Acknowledgements
Abstract
ii
iii
I. INTRODUCTION
4
II. LITERATURE REVIEW
9
III. DATA SECTION
16
Time Deposits
16
Share Discounts
17
IV. RESULTS AND ANALYSIS
23
Time Deposits
23
B-share Discounts
24
H-share Discounts
27
ADR Discounts
30
V. CONCLUSION
34
REFERENCES
36
TABLES
39
FIGURES
47
3
Acknowledgements
This work would not have been possible without the constant advice and direction from
Professor Richard C.K. Burdekin. The Lowe Institute of Political Economy for their
generous support of a Faculty-Student research project in the Fall of 2007 between
myself and Professor Burdekin. Nancy Tao, Li Qingyang and Wen Yu for assistance in
data collection during the Faculty-Student research project and Jeffrey Redfern for his
valuable comments.
4
Abstract
This paper uses survey data by the People’s Bank of China from 2003 to 2007 to test the
role that investment preferences has on asset allocation decisions within China. This
paper finds that rising Chinese sentiment for the stock market has a significant, negative
influence on the growth of savings deposits in China after controlling for liquidity
measures and changing real interest rates. The analysis continues by also examining the
role these investment preferences have on price discrepancies between A-shares trading
in China to equivalent shares traded by foreigners in China, Hong Kong, and New York.
These foreign securities trade at a persistent discount to their corresponding A-shares,
and results indicate these discounts are significantly affected by both Chinese and U.S.
investor sentiment. The sample period is limited to 52 monthly observations due to the
availability of the Chinese investor sentiment surveys.
5
I. Introduction
Decades of growth in China’s broader economy have recently been followed by a
rapid expansion in its equity markets. China created the A-share market for local Chinese
investors in Shanghai and Shenzhen in 1991, and a year later opened the subsequent Bshare markets where only to foreign investors were allowed to trade. Both markets, Ashare and B-share, had low trading volumes and returns for many years. Government
regulations prohibited trading a majority of each company’s shares, while seeking to
prevent high returns to assure cheap capital for State Owned Enterprises (SOEs).1
China’s total market capitalization stood at 3.2 trillion renminbi in December of 2005
after five years of negative growth, having been hurt by a government plan announced in
June 2001 to sell-off a large portion of its ownership in SOEs.2 But, during 2005-2007,
China’s stock market has outpaced other markets worldwide. During 2006 China’s
markets more than doubled in size, ending with total market capitalization of 8.7 trillion
renminbi. This growth continued in 2007—the Shanghai A Index grew 96% year-overyear and its market capitalization stood at 26 trillion renminbi.3
Since ownership of companies listed on China’s A-share markets has been largely
restricted to domestic Chinese, many firms listed themselves on additional markets to
allow interested foreign investors to purchase their stock. Common vehicles for Chinese
firms to gain access to foreign capital are H-shares in Hong Kong, American Depositary
Receipts (ADRs) in the United States, along with B-shares in Mainland China. B-shares,
traded in U.S. dollars in Shanghai and Hong Kong dollars in Shenzhen, and H-shares,
1
Wong, Sonia M.L. (2006), pg. 392.
Burdekin, Richard C.K. (2008), Chapter 8.
3
Market growth numbers calculated from Shanghai and Shenzhen A Index data retrieved from Bloomberg.
2
6
traded in Hong Kong dollars, are technically equivalent to A-shares and have the same
ownership rights and dividends as A-shares. ADRs are certificates of ownership that are
actually held by a third party and often represent multiple shares of the underlying asset.
Holding an ADR gives indirect ownership of Chinese A-shares and all dividends are
received in U.S dollars. While all of these securities are theoretically equivalent to Ashares, as they derive their value from the same cash flows, discount rates, and have the
same ownership rights, they frequently trade at a large discount to their firm’s
corresponding A-shares. Several academic papers have addressed these discounts, often
citing varying transaction costs, exchange rate expectations, and investor sentiment in
China and abroad that drives a wedge between A-shares and their equivalent securities in
other markets.4 This paper will also examine determinates of these discounts with some
similar findings.
As the stock market’s growth invariably sparked interest both domestically and
abroad; savings deposits growth in China has slowed and actually registered declines in a
number of months. During October 2006 they fell by 7.6 billion renminbi. As this trend
in savings deposits continued into 2007 the central bank cited enthusiasm for the stock
market as the major reason for their decline.5 Only a few months later the central bank
was able to quantify this flow of funds, announcing that in the first four months of 2007,
over 70 billion renminbi was transferred from savings accounts into the stock market.6
This indicates Chinese citizens were changing their investment preferences.
Traditionally, with strong controls and poor returns, Chinese avoided the stock market
4
Refer to Section II for more detail
People’s Daily Online (2007a)
6
China Securities Journal (2007)
5
7
and simply deposited their money in savings accounts. The People’s Bank of China
(PBoC) increased the one year time deposit interest rate six times in 2007 with the last
increase bringing the benchmark rate to 4.14% in December of 2007, stating that these
increases were driven by a desire to slow the flow of funds from households and
corporations into the stock market. While Chinese were pulling money out of savings
accounts seeking higher returns, discounts between A-shares and equivalent foreign
securities were, on average, expanding. These trends are represented in Figures 4-6,
which show the median discount for B-shares, H-shares, and ADRs from September 2003
to December 2007. These expansions suggest that investors outside of China did not
match the enthusiasm of local market participants.
Investor sentiment in the context of this study will be defined as the investment
preferences that prevail throughout the market. Investors can become overly-enthusiastic
or pessimistic about a particular investment vehicle beyond what market fundamentals
should dictate, which can eventually affect investment decisions and asset prices.7 With
record numbers of Chinese citizens deciding to open brokerage accounts, it becomes
important to understand to what extent investor sentiment in China is changing and the
effect that this investor sentiment is having on their economy and equity markets.
When studying the current determinants of Chinese savings deposits, the real
interest rate should be a significant factor as that represents the return on the deposited.
With inflation in China reaching 6.5% in August 2007, a ten year high, and subsequently
increasing to 8.5% by February 2008, negative real interest rates could be a driving force
behind shrinking savings accounts, rather than overly optimistic investors. However, the
7
There has been a lot of literature specifically looking at the affect of sentiment on discounts/premiums on
closed-end funds. Refer to Section II for more detail.
8
real interest rate remained positive until December 2006 and by that time savings
accounts were already dwindling; suggesting that while recent negative interest rates
provide increased incentive to remove funds from savings accounts, it cannot be the only
factor behind their decline. Ever since 2003 the PBoC has been surveying households’
investment preferences, and found that, in 2007, record high responses were listing stocks
and funds as their first investment choice. In October 2007, 44.3% of households that
responded “believed that it pays to invest in the stock market.”8 Figure 1 shows the
relationship between the growth of savings deposits and Chinese investor sentiment for
stocks as surveyed by the PBoC. While the growth of time deposits is very volatile, there
is a clear negative relationship with the investor sentiment series, suggesting that the
recent rise in investor sentiment for stocks in China may have been a significant influence
in the growth of savings accounts.
Similarly, this rise in investor sentiment could be affecting not only the flow of
funds within China’s economy, but also the discounts between A-shares and their
equivalent B-shares, H-shares and ADRs that trade in foreign markets. While arbitrage
should nullify the effect of investor preferences on these discounts, Lee, Shleifer, and
Thaler (1991) give a number of reasons why variations in investor sentiment prevent
arbitrageurs from taking advantage of price discrepancies, not to mention controls within
China that limit foreign ownership of A-shares.9 Also discounts, or premiums, should be
expected given changing exchange rate expectations, since these securities are
denominated in different currencies. Investors have, on average, expected the renminbi to
8
9
People’s Daily Online (2007b)
See Section II for more detail
9
appreciate against the U.S. dollar since 2002.10 These expected appreciations have
increased since 2005 as China has allowed more flexibility in its currency and the dollar
has weakened worldwide. Therefore, these fluctuations could be driving the expanding
discounts.
A negative graphical relationship can be observed between investor sentiment and
the H-share and ADR discount in Figures 5 and 6.11 In both graphs, when local investor
sentiment fell in 2004, the discounts shrank, and when sentiment started to rise rapidly in
2006, the discounts began to expand, suggesting a testable, negative relationship between
sentiment and the discount. Figure 4 shows the relationship between investor preferences
and the B-share discount, which appears to have a noticeable positive relationship. This
could be explained by other factors influencing the discount, such as the rapid growth of
the Shanghai B Index. Figures 2 and 3 show the prices and trading volumes for the
Shanghai A and B share Index, respectively. The rapid growth in the B-share index
should have a positive influence on the discount, i.e. making the discount smaller,
because securities are often highly correlated with the market in which they trade. It is
also important to note the drastic difference in trading volumes between the A-share
market and the B-share market. While trading volumes for the B-shares spiked in June
2001 and June 2007 around 18 billion shares, trading volumes for the A-shares spiked
around 870 billion shares in June 2007 and A-share volumes were generally over 50
times that of B-Shares throughout the sample (refer to Figures 2 and 3). These drastic
differences in trading volumes could also affect the B-share discount so they need to be
10
The RMB/$ forward market is non-deliverable since capital controls prevent conversion and, therefore,
all settlements must be made in cash. However, the RMB/$ forward market is very liquid. Discussion of the
change in RMB/$ exchange rate expectations continues in Section III.
11
Reader should note that discounts are negative, so as a discount grows it becomes more negative.
10
controlled for before any definitive relationship between the discount and investor
sentiment can be established.
The goal of this paper is to econometrically determine the connection, if any,
between the growth of savings deposits, the discounts of A-shares around the world, and
changing investor preferences in China. Recent observations and theory suggest that
investor sentiment should have a negative relationship with the growth of savings
deposits and A-share discounts, and initial results strongly support these negative
relationships even after controlling for other factors commonly related to savings deposits
and share discounts. Other research has similarly found a negative relationship between
sentiment and A-share discounts; however these studies use proxies for investor
sentiment. This study uniquely uses the PBoC investor sentiment survey that directly
measures Chinese investor preferences and should offer the most definitive measurement
of changing sentiment in China.
This paper will proceed as follows. Section II is a review of academic literature
on the role of sentiment measures on assets prices and A-share discounts. Section III
describes the data and models used to test these hypotheses. Section IV presents the
results and analysis of these tests. Section V will conclude the paper and provide possible
further areas of study.
II. Literature Review
In traditional finance theory, investor sentiment does not affect asset prices:
arbitrage eliminates the influence of overly-optimistic or pessimistic traders who might
allow such sentiment to influence their trading practices. Prior research has explored
11
whether investor sentiment might affect prices in practice. Zweig (1973) and De Long,
Shleifer, Summers and Waldman (1990) model the effect of individual investors on asset
prices by looking at the discounts on closed-end funds. Zweig develops a theory of
investor expectations where professional and non-professional investors interpret
information differently and, subsequently, push prices away from their intrinsic values.
De Long et al. include a “noise trader sentiment” that changes unpredictably without any
tie to traditional fundamentals. Both studies focus on closed-end funds because they
provide a unique opportunity to investigate investor sentiment since they frequently trade
at a discount or premium to their net asset value (NAV), and individuals, not institutions,
make up a majority of their investors.
Lee, Shleifer, and Thaler (1991) empirically test previous theories that “noise
traders” created the discounts on closed-end funds. Individual investors, posited to be
“noise traders,” are the main investors in closed-end funds, while the underlying assets of
these funds are held mainly by institutions. Since noise traders buy and sell irrationally,
any rational investor would demand a higher rate of return on closed-end funds due to the
increased uncertainty of the resale price. As some rational investors hold closed-end
funds the price on these funds will fall, creating a discount to their NAV. Theoretically,
arbitrage should remove these discounts over time, but Lee at al. maintained that since
arbitrageurs do not have infinite time-horizons, they also are exposed to risk from
irrational investors and allow the discounts to persist. Empirically, they find that
discounts across funds are correlated, indicating there is a common pricing factor and
returns on small stocks, which are mainly held by individual investors as well, are
inversely related to the discount level. These findings indicate that the overall average
12
discount on closed-end funds could be a proxy for investor sentiment, a systematic risk
factor that is priced into securities held mainly by individual investors.
Lee et al. acknowledge that their paper only measures the effect of differential
sentiment between individual and institutional investors because they use domestic
closed-end funds where the underlying assets are also traded in the United States.
Bodurtha, Kim, and Lee (1995) correct for this by studying country closed-end funds that
invest purely in securities traded in one specific foreign country. They find the share
price for country-specific closed-end funds are subject to a U.S. specific risk factor that
does not affect the NAV of the assets in the portfolio. This factor cannot be explained
with traditional index models, and Bodurtha et al. suggest that changing U.S. sentiment
may by the underlying risk factor.
Baker and Wurgler (2006) look at the role investor sentiment played in a crosssection of stock returns. They create a SENTIMENT index from six commonly used
proxies for sentiment: the closed-end fund discount, NYSE share turnover, the amount
and returns on IPOs, percentage of equity in new issues, and the dividend premium.
Baker et al. finds if beginning period sentiment was high (low) then stocks prone to
speculation—young stocks, growth stocks, non-dividend stocks, distressed stocks, etc.,
had below (above) average returns. Consistent with previous analysis they find this
relationship did not hold for larger, more stable stocks.
Neal and Wheatley (1998) explore the ability of different proxies of investor
sentiment to predict stock market returns and conclude that the discounts on closed-end
funds as well as net redemptions could predict the size premium, but had no ability to
predict returns for large firms. With a different proxy for sentiment, Brown and Cliff
13
(2001) investigate the ability of investor sentiment to predict returns and affect asset
valuation. They use a survey of market newsletters that had bullish, bearish, or neutral
outlooks and define the “bull-bear spread” as a measure of market sentiment. This
sentiment could predict stock market returns over a one to three year period and have
some explanatory power when assets fluctuate from their intrinsic value as measured by
traditional asset pricing models.
The ability of investor sentiment to predict returns is still controversial throughout
finance. Elton, Martin, and Busse (1998) find that discounts on closed-end funds are not a
factor in the return generating process. When they expand the two-index model used by
Lee et al. to a five-index model, the sensitivity to sentiment across different size deciles
reverses, i.e. larger firms are more sensitive than smaller firms. Chen, Kan, and Miller
(1993) look at whether or not closed-end fund discounts actually proxy for investor
sentiment. They find, contrary to Lee et al., that discounts and small stock returns are not
correlated enough to determine a common pricing factor believed to be investor
sentiment. Also, the ability of discounts to predict small firm returns does not remain
constant throughout the sample period, calling into question their conclusions even more.
These studies show that identifying sentiment in the complicated U.S. market is difficult
due to the web of derivatives products and institutional, individual and foreign investors.
Now looking at sentiment in China, Bailey (1994) was one of the first to examine
the young emerging Chinese equity markets. The segmentation between the domestic Ashare market and the foreign B-share market provides a unique opportunity to test the law
of one price. Since corresponding A-shares and B-shares theoretically derive their value
from the same expected future cash flows and discount rate, they should fetch the same
14
price; however, B-shares actually traded at a large discount. Bailey first looks at risk
factors that influence B-shares versus A-shares and find that, while B-shares trade in
mainland China and derive their value from mainland Chinese firms, they have some
strong tries to international market indicators such as U.S. Treasury rates and NYSE and
Hang Seng market indices. Bailey also finds low correlations between the A-share
market and other markets where Chinese stocks are traded, i.e. New York and Hong
Kong, revealing segmentation between the domestic Chinese market and the rest of the
world. Bailey did not empirically determine factors that affect the B-share discount,
although he did find a correlation between discounts on individual securities, indicating a
common pricing factor. This could be the result of a systematic political risk premium
demanded by foreign investors or possibly “unseasoned or unduly optimistic Chinese
investors” pushing up A-share prices.12
Information asymmetries between domestic and foreign investors have also been
suggested as a cause for the persistent discounts in the A and B share markets. Gao and
Tse (2001) look at the effect of capital controls and the flow of information between A
and B shares. They discover the A-share market reacts quicker to earnings
announcements than the B-share market and with more trading volume to each
announcement. Yet, surprisingly these reactions have little affect on prices.
They
conclude some local investors have more ready access to information than foreign Bshare investors, possibly the result of higher levels of insider trading. However others
such as Chui and Kwok (1998) find evidence suggesting foreigners actually have the
ability to access information faster due to information barriers in China, thereby causing
12
Bailey (1994), pg. 257.
15
B-share returns to lead A-share returns. Even with these mixed results Chen, Lee, and
Rui (2001) find that information asymmetries are not enough to explain the B-share
discount, pointing instead to differences in market liquidity.
Many others have tried to empirically determine the factors influencing the
discounts between Chinese A-shares and equivalent Chinese securities trading on foreign
markets. Wang and Jiang (2003) investigate the A-share market in mainland China and
Hong Kong’s H-share market. Wang and Jiang claim in cases where markets are
segmented “prices are subject to the market-specific risks and investor sentiments in
different trading locations.”13 Over the sample period, H-shares trade with an average
discount of 69.2% to their corresponding A-share price. They find that H-shares appear
to be affected by risk factors in both Hong Kong and mainland China, while A-shares are
only affected by the mainland China risk factors. Reduced liquidity in the H-share market
and foreign market indices also has a significant influence on the H-share discount. After
controlling for varied levels of risk and liquidity, Mei, Scheinkman, and Xiong (2005)
find that high turnover rates in the A-share market explain a good portion of the discount
between A-shares and B-shares—indicating higher levels of speculation by domestic
Chinese investors. Continuing to look at speculation, Ma (1996) argues that varied levels
of risk aversion across markets account for higher levels of speculative trading by
domestic Chinese, driving up asset prices in the A-share market.
Chinese firms have also been listed on the NYSE in the form of American
Depository Receipts (ADRs), which are certificates of deposit for A-shares held by a
bank in mainland China. Chinese ADRs, like B-shares and H-shares, again trade with a
13
Wang and Jiang (2003), pg 1274.
16
consistent discount to their corresponding A-shares in China. Suh (2003) studies the
ADR market in the U.S. and tries to determine if ADR premiums and discounts can be
accounted for by variation in U.S. market sentiment. ADRs from a variety of emerging
markets are used to test whether aggregate U.S. market returns, a proxy for sentiment, are
related to premiums. Each of these countries has a different set of capital controls that
prevent arbitrage. Analysis consistently finds a positive relationship with premiums and
U.S. market returns when controlling for exchange rate fluctuations and foreign market
returns. ADRs also have a very low rate of institutional ownership, which according to
Lee et al. could explain their sensitivity to market sentiment.
In a recent study, Arquette, Brown, and Burdekin (2008) use expected exchange
rate fluctuations and relative price-to-earnings ratios, a proxy for sentiment, to determine
discounts on both H-shares and Chinese ADRs. This study allows for both market and
firm specific sentiment measures to affect the discount level. The expected future
exchange rate fluctuations account for around 40% of the variation while the remaining
variation can partially be explained by the market and firm specific sentiment factors.
These results indicate that investors in different trading locations are willing to pay
different amounts for the same level of expected earnings.
In summary, these studies use a variety of different proxies for investor sentiment
and repeatedly find sentiment plays a role determining discounts on equivalent assets
trading in segmented markets. Sentiment measures also show some signs of influencing
returns across certain size classes where there are high levels of individual ownership.
17
III. Data Section
Time Deposits
The PBoC first reported public sentiment surveys in September 2003. Survey
results for individual’s stock propensity have been reported quarterly since September
2003. In these surveys, 20,000 households are questioned from large, medium and small
cities throughout the country. Since survey results are compiled throughout each quarter
growth between quarters seems to be a reasonable basis for estimating monthly sentiment
levels. Sample data for base money growth (M0), time deposits, time deposit rates, percapita monthly income, inflation, and the Shanghai A index were obtained from the Great
China Database14. Per-Capita monthly income was only reported on a quarterly basis in
2007 so the average income over each quarter was calculated to acquire monthly data.
The real time deposit one year rate was generated by subtracting current period inflation
from the current period time deposit one year rate. Money growth measures, time
deposits, per-capita income, and the Shanghai A Index were converted into log growth
rates for all regressions to assure stationarity. The following is the basic regression
model:
Growth_of_Time_Depositsi = αi + β1Growth_of_M0i + β2Growth_of_PerCapita_Monthly_Incomei + β3Real_Time_Deposit_Ratei + β4Investor_Sentimenti +
β5Lagged_Growth_of_Time_Depositsi + 11 seasonal dummies15
Investor sentiment measures the percent of people that list stocks or funds as their
first investment choice, so as investor sentiment increases more people prefer to invest in
14
http://www.finasia.biz/tejonline/tejonline.htm
Regression has 45 observations after adjusting for the lagged dependent variable and 28 degrees of
freedom.
15
18
the stock market over other investment opportunities, such as savings accounts. The
growth of M0 and not M2 was used as an independent variable in our basic regression
equation because M2 includes time deposits, our dependent variable. Other controls were
added in subsequent regressions, including growth in the Shanghai A index, a trend
variable, and price satisfaction. The price satisfaction index indicates people’s level of
satisfaction with current prices. The higher the index the more satisfied people are with
current price levels.
Share Discounts
All stock price data have been collected from Bloomberg. While A- and B-shares
are traded in both Shanghai and Shenzhen, analysis of the A-share discounts will focus
entirely on the larger Shanghai market. The set of Chinese ADRs included in this study is
consistent with previous studies (Suh (2003), Arquette, Brown, and Burdekin (2007)),
further augmented by various online sources listing Chinese ADRs in the U.S.16 Although
the current list of Chinese ADRs in the U.S. is extensive, with over 90 firms now on U.S.
exchanges, many of these firms have only been listed in the last year and often are traded
over-the-counter, limiting data availability on Bloomberg. These limitations restrict the
sample to only 13 Chinese ADRs. The Shanghai B-share Index (SHBSHR) is comprised
of 54 firms, all of which have corresponding A-share listings. Since B-shares are traded
less frequently than A-shares, the lowest weighted firms in the B-share index were not
included to minimize the effect of liquidity on B-share discounts. Also, some firms had
limited data availability on Bloomberg or were not listed on both exchanges for the whole
16
Google Search for “Chinese ADRs” returned two sites that had extensive lists of Chinese ADRs,
http://stocksabroad.com/modules.php?name=China_ADR and http://www.site-bysite.com/adr/asia/adr_chn.htm, and www.adr.com which Kutan and Zhou (2006) used to identify their list
of Chinese ADRs.
19
sample period; therefore, only 34 firms from the index are included. The 13 ADRs used
also have corresponding H-share listings and are included in the H-share sample.
Additional H-shares listed in previous studies were added to the sample along with some
of the top weighted firms in the Hang Seng China Enterprises Index. Altogether 29
Chinese firms are included in the H-share sample. Four of these 29 firms were listed in
the last 18 months and, therefore, this set of companies over weights the second half of
the sample. In an effort to control this bias, those four firms were excluded from the Hshares empirical work. Refer to Table 1 for a list of all firms included in the sample.
A-share, H-share, B-share, and ADR historical monthly prices for each company
were pulled from Bloomberg from September 30, 2003 through December 31, 2007. The
data range and frequency were both determined by the availability of investor sentiment
surveys (described above) from the PBoC. Data were also pulled on trade volumes,
shares outstanding, dividends, market capitalization, bid-ask spreads, and P/E ratios for
each company. These factors all affect the pricing of each security and have been used in
previous studies as determinants of the discount. The discount for each security was
calculated as follows:
Discount = (Price in Foreign Market / Implied Price of Underlying Security) – 1
The implied price is the A-share price converted into the foreign currency. The
implied price for ADRs also needed to be adjusted since ADRs often represent a
claim for more than one underlying A-share.17
17
Some of the ADRs are actually claims on the firm’s H-shares and not the A-shares. However since Hshares derive their value from A-shares and U.S. investors can not convert ADRs into A-shares due to
capital controls we calculated the ADR discount with the A-share. A similar assumption was employed in
Arquette et al. (2008).
20
Persistent discounts or premiums should be expected when considering
transaction costs, exchange rate expectations, and convertibility restrictions. The 12
month non-deliverable RMB/$ forward contract and current RMB/$ exchange rates were
collected from Bloomberg. Throughout the entire sample, the RMB/$ forward rate was
less than the current exchange rate, indicating that investors expected the renminbi to
appreciate throughout the sample period. The RMB/$ dollar forward market is “nondeliverable,” because capital controls prevent convertibility and therefore settlement must
be made in cash. Yet the market is still liquid, and these settlements represent the
difference between the forward rate and the expected future spot rate.18 The expected
exchange rate change is calculated as follows (Spot Rate – Forward Rate)/ (Spot Rate).
Figure 7 shows the expected exchange rate change over the whole sample period.
Expected appreciation first peaked in 2005 around 6%, just before China changed its
currency regime to a managed float. In November 2007, expected appreciations peaked to
10.3% as the dollar weakened world-wide. So as when investors expect currency
appreciation, they place more value on the security trading in U.S. dollars and, therefore,
discounts should shrink.
Differences in liquidity can also lead to discounts or premiums. When a security
is less liquid it is more likely that when an investor wants to sell few investors will be
looking to buy and, therefore, they are not as likely to receive a fair price for their shares.
As a result, investors demand a higher return on less liquid securities and prices fall.
Trading volumes and equity shares outstanding allowed us to calculate turnover rates for
each security. Unfortunately, turnover is not always the best measure of liquidity. Mei,
18
Arquette et al. (2008), pg. 7
21
Sheinkman, and Xiong (2005) find that turnover, while statistically significant in
predicting B-share discounts, could also be considered a measure of speculation, so
market capitalizations and bid-ask spread were also retrieved as additional liquidity
measures.19
Wang and Jiang (2003) find that securities maintain significant exposure to the
systematic risks in the location they are traded, along with the systematic risks of the
underlying asset. So while ADRs and H-share derive their fundamental values from the
risks and cash flows of the firm, their prices are also affected by the performance of other
assets in their markets. The Hang Seng Index, Shanghai A and B indexes, and the S&P
500 index were also pulled from Bloomberg over the same time period to control for each
security’s exposure to market specific risk.
The data that have been retrieved for each type of security constitutes a panel of
firms with 52 observations occurring over the specified time period. In many cases these
firms are missing some data points or entire series. This creates an unbalanced panel
where the number of observations will vary depending on which explanatory variables
are included in each regression. Firm specific P/E ratios were often unavailable or
periodically missing in the sample on Bloomberg. While this variable is still included, it
significantly reduces the number of observations. Most ADRs included in the sample had
limited data. Bloomberg typically only reported the price, turnover, and market
capitalization for each ADR. While some ADRs are heavily traded with greater data
19
The Bid-Ask spreads were not included in the regressions because as seen in Table 1 some of the spreads
from Bloomberg were negative. While a negative spread for a brief period of time is possible, the
frequency of negative spreads calls the accuracy of this data into question and was, therefore, removed
from the model. When the Bid-Ask spreads were included for test purposes (not shown), results did not
change and their coefficients were never significant.
22
availability, they tend to be listed only recently. As a result this study is limited to less
liquid ADRs that span the entire time period. See Table 2 for ADR summary stats and the
amount of observations available for each variable.
The median B-share discount over the period was -47%, although the sample had
great variation ranging from a discount of -78% to a premium of 52%. The median
discount also fluctuated throughout the sample period as it started with a median discount
of -57% on September 30, 2003 that eventually shrank to -38% by December 2007. The
median H-share discount throughout the whole sample was -37%, with minimum and
maximum values of -90% and 38%, respectively. The median ADR discount throughout
the sample was -28%. While the median discount was at -38% at the beginning of the
sample it expanded to -56% by the end of the sample period. The ADR discount has a .35 correlation with investor sentiment, while the B and H shares had a .24 and -.086
correlation respectively, Table 3 shows the correlations of all variables in the sample.
Figures 4, 5, and 6 display the median discount of each security along with investor
sentiment over the whole sample period. Initially these results indicate that the impact of
investor sentiment, if any, varies across these securities. Refer to Table 2 for complete
summary statistics. This is the basic regression equation for the B-share discount (the
basic equation for H-share and ADR discounts are analogous):
B_Discountit = αi + βiGrowth_of_Shanghai_Ai + βiGrowth_of_Shanghai_Bi +
βiGrowth_of_Market_Cap_A
+
βiGrowth_of_Market_Cap_B
+
βiTurnover_A + βiTurnover_B + βiLog(Exchange_Rate_Expectations) +
βiLog(Investor_Sentiment)
+
23
βiLog(US_Market_Sentiment_index)
+
βiLagged_Dependent_Variables
+
βiCompany_Fixted_effects
+
βiTime_Trend
The Shanghai A, Shanghai B, S&P 500 and Hang Seng Indexes are all converted
into log growth rates to assure stationarity. The turnover ratio for each security is
calculated as in Mei, Sheinkman, and Xiong (2005), where Turnover = Log (1 +
Volume/shares outstanding). The relative market P/E ratio is the P/E ratio for the
Shanghai A Index divided by the P/E ratio for the Shanghai B index. While the relative
firm P/E ratio is the P/E ratio for the firm’s A-shares divided by the P/E ratio for the
Shanghai A index. The relative P/E ratios are included to test the robustness of the
sentiment index against another commonly used proxy for investor sentiment.
Autoregressive terms are also included in each regression such that the Bayesian
Schwartz information criterion (BIC) is minimized.20 A U.S. market sentiment index is
also included to allow for the possible effect that variations in U.S. sentiment could have
on these discounts.21 All regressions are run with and without fixed effects. Fixed effects
allow us to control for unobserved variables that vary across companies in the panel but
remain constant throughout the sample period. These variables could affect the discount
and, therefore, our results; so fixed effects need to be included to test the robustness of
each explanatory variable. We will also add an exchange rate regime binary variable that
will be 0 before July 2005 and 1 after. This will allow us to control for any possible
effect the change to a managed float had on the A-share discounts.
20
Bayesian Schwartz information criterion is used to test which model most accurately fits a dataset, the
model that minimizes the BIC is preferred.
21
The U.S. sentiment index is calculated by UBS and available on Bloomberg under the ticker invoovrl
index.
24
IV. Results and Analysis
Time Deposits:
Table 4 shows the regression output for the determinants of the growth of time
deposits. Confirming our initial hypothesis, after controlling for the negative real interest
rate and seasonal trends there is a strong negative relationship between the growth in time
deposits and Chinese investor sentiment, significant at the 95% level. This indicates that,
as the Chinese have become more inclined to invest in the stock market, they are
substituting away from their traditional concentration in savings accounts. The growth in
M0 has a consistent positive relationship with time deposit growth, and was significant at
the 99% level. This relationship is expected since as the money supply in the economy
expands more money is available for savings deposits. Growth in per capita income has
no significant relationship with time deposits over the sample period. The real interest
rate also is not significant. In China this latter result is not surprising, since interest rates
have rarely influenced investment decisions as the government set deposit rates
administratively (while individuals had no investment alternatives).
The relationship between investor sentiment and growth in time deposits remains
negative and statistically significant, even when controlling for additional factors. In
equation (2), which added a time trend control as an independent variable, the
significance of investor sentiment fell slightly but remained above 90%. The growth in
the Shanghai A index arguably was one of the main drivers behind the recent reduction in
savings deposits; however, equation (3) reveals that while the growth in Shanghai A does
have a negative sign, it is insignificant and does not change the significance of investor
sentiment. This indicates that the recent change in individuals’ investment preferences,
25
and not just the strong performance of the stock market, has influenced the growth of
time deposits. When running the same regression but excluding investor sentiment (not
shown), the growth in Shanghai A is more significant than in equation (4). This confirms
that adding the sentiment measure to the regression, as expected, reduces the impact of
the growth in Shanghai A on time deposits. Equation (4) includes another sentiment
measure, Price Satisfaction, which actually increases the significance of stock propensity
by a small amount. These results all indicate that individuals’ evolving investment
preferences have significantly affected the growth of time deposits.
B-share Discounts:
Table 5 shows regression output for the determinants of the B-share discount.
These results support the theory of a negative relationship between Chinese investor
sentiment and the B-share discount. Therefore, as investor sentiment in China increases,
the discount between A-shares and B-shares also grows.22 Equation (1) represents our
basic regression equation for the B-share discount. Investor sentiment has a negative
coefficient significant at the 99% level. The B-share discounts are also highly
autoregressive. Table 8 shows the AR(1)-AR(5) models for the B-share discounts. The
AR(1) model explains 90.25% of the variation in B-share discounts. The subsequent AR
models are included to determine the number of lags that most accurately determines the
discount. The AR(4) minimizes the BIC at -2.75 and explains 91.15% of the variation in
B-share discounts. All regression equations in Table 5 include four lagged dependent
variables and a time trend variable, to assure no serial correlation amongst the residuals.
22
It is important to note that a larger discount is more negative.
26
The other determinants in this equation have coefficients with the correct sign and
are highly significant. Individual securities tend to perform well when the market in
which they trade performs well, so as the Shanghai A index grows so do the specific Ashares included in our sample, and subsequently so do their discounts. As expected, the
Shanghai A index has a negative relationship and conversely the Shanghai B index has a
positive relationship; both are significant above the 99% level. So when the A-share
market grows, so does the discount. When the B-share market grows, the discount
shrinks. This indicates that a large portion of the discount is determined by market
specific risk factors, consistent with the findings by Wang and Jiang (2003). While the
S&P 500 index has a positive relationship with the discount, it is not significant, and its
influence remains inconsistent across the subsequent regressions.
The growth of market capitalization and share turnover for both A- and B-shares
controls for varied levels of speculative trading and liquidity across the markets. The
growth of the B-share market capitalizations has a positive relationship, significant above
the 99% level. This indicates that firms with higher market capitalizations tend to have
lower discounts, which is consistent with a view by which a larger firm with a higher
market capitalization is more liquid and, therefore, has higher prices. The A-share market
capitalization is also highly significant with a negative coefficient. So as the size of the
A-share portion increases, the size of the discount increases. This finding is seemingly
inconsistent with traditional theory that larger firms should have small price
discrepancies across markets, but not necessarily with the speculative trading hypothesis
raised by Mei et al (2004) by which firms with more floating shares have lower prices
because actual float may still be small. This indicates that A-shares also follow liquidity
27
trading theory. The A-share and B-share turnovers both enter into the equation with
above 99% significance and a negative and positive relationship, respectively. These
turnover results are consistent with our conclusions above that liquidity drives prices in
both A-share and B-share markets. As turnover increases, shares are more liquid and
causes their respective asset prices to rise.
The change in RMB/$ exchange rate expectations would be expected to have a
negative effect on the discount, meaning that as investors expect the renminbi to
appreciate (smaller value for the RMB/$ exchange rate), the discount between shares
decreases. This occurs because investors place more value on the B-shares that have their
underlying value based on renminbi. The actual relationship is not always negative in
Table 5, and there is a significant positive coefficient in equation (5). The U.S. investor
sentiment index always has a positive and significant coefficient at the 99% level,
however. So as sentiment in the U.S. rises, the discount tends to narrow. This indicates
that sentiment in both the U.S. and China has a statistically significant effect on the
discount between A-shares and B-shares, consistent with our original hypothesis.
Most results remain quite robust to adding additional controls, although a few of
the relationships do change. When adding market P/E and firm specific P/E ratios,
another possible proxy for varied levels of investor sentiment, U.S. market sentiment
remains unchanged, with significance above 99% in equations (4)-(6). Chinese investor
sentiment loses significance, however, falling to the 90% level, when adding fixed effects
in equation (2). Yet the significance returns to the 99% level when adding the exchange
rate regime binary variable in equation (3) and remains significant at 99% even after
adding the relative P/E measures in equations (4)-(6). All other factors remain significant
28
at the same level and in the same direction as equation (1). Chinese and U.S. investor
sentiment basically maintain the same relationship. The Shanghai A and Shanghai B
effects remain unchanged, with significance above the 95% level. Share turnover and
market capitalizations also remain in line with previous findings and significant at or
above the levels in equation (1). The relative market and firm P/E ratios in equation (4)
both have negative coefficients significant at the 99% level. The direction and
significance of the P/E ratios are mainly unchanged in equations (5) and (6), which
include company fixed effects and the exchange rate regime binary variable.23
H-share Discount:
The regression analysis of the H-share discounts appears in Table 6.24 These
results consistently support our original hypothesis indicating a persistent and significant
negative relationship between Chinese investor sentiment and the H-share discount. In
equation (1) the coefficient on investor sentiment is -0.028 with a standard error of 0.005,
indicating significance above the 99% level. The H-share discount is also highly
autoregressive. Table 9 shows the AR(1), AR(2) and AR(3) models for the H-share
discount. The AR(1) process explains approximately 90.3% of the variation in discounts.
The AR(2) minimized the BIC at -2.33 with an adjusted R-squared of 90.8%, indicating it
is the most accurate AR model for the H-share discount. All regressions in Table 5
include an AR(2) along with a time trend variable. These are included to assure no serial
correlation in the residuals.
23
The significance of the firm specific P/E ratio falls to the 95% level when company fixed effects are
added in equation (4) but return to the 99% level in equation (6).
24
Analysis only includes the 25 firms with data that spans the entire series because including the original
29 firms pulled from Bloomberg over-weights the last 12 months, changing some results.
29
The strong relationship between Chinese investor sentiment and the discount
remains negative and significant above the 99% level, with or without company fixed
effects, in equation (2). In equations (4)-(6) the relative market and firm P/E ratios are
included and significance of investor sentiment remains robust. The significance level of
investor sentiment falls slightly, but remains at the 99% level in equation (4) without
company fixed effects.25 When company fixed effects are included in equation (5), the
significance of investor sentiment is well above the 99% level. Equations (3) and (6) also
include the exchange rate regime binary variable along with company fixed effects, to
test if our results were affected by the exchange rate regime change in July 2005. In both
cases investor sentiment is still significant at above the 99% level. The robustness of
investor sentiment across a variety tests strongly indicates that it has a negative influence
on H-share discounts.
The growth of the Shanghai A index has a negative relationship with the H-share
discount and remains significant above the 99% level in all cases. Conversely, the growth
of the Hang Seng index has a positive effect on the H-share discount and also remains
above the 99% significance level in all scenarios. These results confirm the logical
premise that, when the A-share market grows fast, the discounts tend to get larger, and
when the Hang Seng market expands, the discounts tend to shrink. The growth of the
S&P 500 index has a positive influence on the discount, yet its coefficients remains
below the 90% significance level. The U.S. market sentiment index has a positive
influence, i.e. in lowering the discount, that is significant over the 99% level in every
regression. This result suggests that H-shares are exposed to the U.S. market fluctuations
25
The actual significance level for investor sentiment in equation (4) is 98.95%.
30
and risk factors even though H-shares are traded in Hong Kong and denominated in Hong
Kong dollars.26 Since foreigners do not have access to the A-share market and H-shares
are a common asset purchased to gain access to the Chinese market, it should be expected
to be exposed to some U.S. market risks.27
The H-share discounts are also positively affected by the turnover rate of Hshares. In Table 6, H-share turnover is significant in every equation at the 99% level.28
Since the H-share market is less liquid than the corresponding A-share market, this
reduced liquidity affects the price investors are willing to pay. As liquidity, and
subsequently turnover increase, the risks associated with the H-shares subside, and prices
rise, shrinking the discount. The turnover of A-shares is never significant at any level,
however. Another proxy for liquidity and speculation, market capitalization, indicates
similar results. The growth of the H-share market capitalization has a strong positive
influence on the discounts with significance above the 99% level in equations (3), (5) and
(6), and 95% significance in equation (1), (2) and (4). These results indicate that larger,
more frequently traded firms have more liquid stocks, and, therefore, have smaller
discounts between their H- and A-shares. Conversely, the growth of A-share market
capitalization has a strong negative relationship with the discount at the 99% level in
every equation. So A-share discounts tend to be bigger when the market capitalizations of
the A-share listings are themselves larger. This also indicates that liquidity could be
affecting prices in the A-share market. This result is inconsistent with our previous
26
It should be noted that the Hong Kong currency broad ties the Hong Kong dollar to the U.S. dollar.
When the H-share discount regressions (1) through (6) are run without the U.S. sentiment index (not
shown) the S&P 500 index does have some varying degrees of positive significance. When the U.S.
sentiment measure is added the positive influence of the S&P 500 remains but significance falls slightly
below the 90% level.
28
Table 5 indicates 95% significance for equations (1), (2), (4) and (5) but rounding p-values gives 99%
significance.
27
31
hypothesis that larger firms should have smaller discounts. However, it does not have to
be inconsistent with the speculative trading theory raised by Mei et al (2004)—larger
market capitalization does not necessarily imply a greater asset float because some shares
included in the market capitalization are non-tradable.
The H-share discount, as expected from previous studies, has a strong negative
relationship with the exchange rate variable, however the significance varies across
equations. In equation (1), the coefficient on exchange rate expectations is -0.111
implying that a higher RMB/$ exchange rate raises the discount. This coefficient has a
standard error of 0.091, giving a p-value of 22%. In equation (2), with the addition of
company fixed effects, the coefficient increases to -0.255 with significance at the 99%
level. When the relative market and firm P/E ratios are included and fixed effects are
removed in equation (4), its coefficient falls to -0.142, and its significance drops below
90%, but exchange rate expectations regain their significance with the addition of fixed
effects and the exchange rate regime binary variable in equations (5) and (6). This
generally supports our hypothesis that when the market expects the renminbi to
appreciate, investors place more value on H-share securities, because their underlying
value is in renminbi, which results in a smaller H-share discount. The relative market and
firm P/E ratios in equations (4)-(6) all have the correct negative sign, yet neither are
significant in any regression.29
ADR Discounts:
The regression output for the ADR discounts appears in Table 7. Consistent with
the findings with B-shares and H-shares, rising local Chinese investor sentiment
29
This is contrary to Arquette et al (2008) who find that market and firm P/E ratios have a significant
negative effect on H-share discounts.
32
significantly adds to ADR discounts. This relationship remains negative and significant
throughout all equations tested. Equation (1) in Table 6 has a coefficient of -0.040 with a
standard error of 0.017 for Chinese investor sentiment, giving a p-value of 1.58%. The
significance remains at this same level in equations (2) and (3) that control for company
fixed effects and the exchange rate regime binary variable. The significance of investor
sentiment falls to the 90% level in equation (4) when relative market and firm P/E ratios
are added as additional proxies for investor sentiment. When adding company fixed
effects and the exchange rate regime binary variable in equations (5) and (6), investor
sentiment is significant at the 95% level and the coefficients increase to -0.097 and 0.120, respectively. The market P/E ratio never enters the equations significantly or with
the correct sign. The firm specific P/E ratios do have a significant negative influence in
equations (4)-(6), but the coefficients are always smaller than then the coefficient for the
Chinese investor sentiment measure.30 This strong and consistent negative relationship
again confirms the original hypothesis that, as local Chinese become more accepting and
willing to invest in the local Shanghai stock market, the discount between A-shares and
their equivalent securities around the world increases.
The ADR discounts are also highly autoregressive and, therefore, lagged
dependent variables were included in every regression (along with a time trend). Table 10
shows the AR(1), AR(2) and AR(3) for the ADR discounts. The AR(1) explains 77.4% of
the variation in ADR discounts. The AR(2) minimized the BIC at -1.903, indicating it is
the most accurate AR model for ADR discounts; and, therefore, two lagged terms are
included in every regression listed in Table 7.
30
Significance levels varied from above 99% in equation (4) to 98.4% in equation (6).
33
The influence of U.S. market sentiment again has a consistent and significant
positive influence, lowering the discount, similar to the relationships determined for Band H-shares. All regression equations in Table 6 have U.S. market sentiment significant
above the 99% level with coefficients that range from 0.055 to 0.067. U.S. market
sentiment is actually the most constantly significant explanatory variable across the three
markets; in every case it has a positive influence significant above the 99% level.
Changes in the expected RMB/$ exchange rate have a very strong negative
influence on the ADR discount. These results were significant in every ADR regression
equation, which was not the case in B-share and H-share analysis. Equation (1) has a
coefficient of -0.411 with a standard error of 0.208, giving a p-value of 4.88%. Exchange
rate expectations have the most significant economic influence on ADR discounts besides
the S&P 500. The significance of exchange rate expectations remains at the 95% level
with or without fixed effects and with the addition of relative market and firm P/E
ratios.31 The coefficient also increases in the subsequent regression equations, reaching 1.119 in equation (6). This implies that a two standard deviation increase in the expected
appreciation of the renminbi would cause the ADR discount to shrink on average by 10
percentage points.32 It is interesting to note the exchange rate regime binary variable for
the first time is not significant in equation (6). This indicates the even though exchange
rate expectations are an important determinant of the discount, China’s switch from a
pegged exchange rate to a managed float does not seem to have affected the process
determining the ADR discounts.
31
These results appear in equations (2)-(6) in Table 6. The actual significance of exchange rate
expectations in equation (4) is 94.82%.
32
The standard deviation of the Change in exchange rate expectations is 0.0153, multiplied by -1.115 gives
-.0499. So two standard deviations implies a 10% shift.
34
The growth of the Shanghai A index and the growth of the S&P 500 index both
have significant influences on the ADR discount, with a negative and positive
relationship respectively. The Shanghai A index has significance above the 95% level in
every regression except equation (5), where it has p-value of 5.99%. The S&P 500 index
has the largest economic influence on the ADR discounts, with a coefficient of 0.637 in
equation (1), but the coefficient falls slightly to 0.455 by equation (6). These coefficients
are significant at 95% in all equations except (5), where the S&P 500 is significant only
at the 90% level. These results are consistent with the conclusions for B-shares and Hshares. When the foreign (S&P 500) market is performing well, the ADR discounts tend
to be smaller. Conversely, when the local Shanghai A market is performing well, the
ADR discounts expand on average.
The ADR and A-share market capitalizations have a consistent negative influence
on the ADR discount and are significant at the 99% level in every regression in Table 7.33
The negative coefficients on the A-share market capitalizations are consistent with our
previous findings, and still imply that there could be some liquidity trading in the A-share
market. Companies that are larger tend to be more liquid and have higher prices, which in
turn leads to larger ADR discounts. The negative coefficients on the ADR market
capitalizations are not consistent with previous findings for B-shares and H-shares. It was
expected that ADR market capitalizations would have a positive effect on the discount,
since larger companies again are more liquid and more likely to have similar price
discrepancies across markets. The consistent and strongly negative coefficients imply that
the ADR market is different than either the B-share or H-share markets. According to
33
The significance of the A-share market capitalization in equation (4) in Table (4) is 98.84%.
35
theory developed by Mei et al (2004), a negative coefficient could be explained if the
ADR market is driven by speculative trading, i.e. higher market capitalizations leading to
less speculative trading and lower prices.34 The ADR and A-share turnover rates could
help provide more information concerning the role of speculative and liquidity trades in
these markets. Unfortunately, the coefficients are generally not significant and vary in
magnitude and direction.
V. Conclusion
The results strongly confirm the original hypothesis that rising investor sentiment
in China has had a negative impact on the growth of savings accounts and heightened Ashare discounts. This indicates that, not only do changing preferences by investors affect
the flow of funds within China, but they also affect the relative price of Chinese firms’
equity around the world. The impact of investor sentiment remained consistent and
significant in B-share, H-share, and ADR markets, even after controlling for changing
exchange rate expectations, liquidity and market specific risks. Unique from other
studies, this paper breaks apart the effects of sentiment in China and sentiment in the U.S.
on B-share, H-share, and ADR discounts. The discounts were also positively affected by
the U.S. sentiment measure, with over 99% confidence in every regression. Again this
shows that sentiment is an important factor when pricing securities across markets.
The consistent and significant ability of sentiment to affect macroeconomic
variables raises the question of whether these changing preferences have negative
consequences on the broader economy and equity markets. While investor preferences
will always be changing, large and rapid shifts that are not necessarily justified by market
34
Mei et al (2004), pg. 23.
36
fundamentals could lead to market inefficiencies and imbalances.35 Further study is
needed on the impact of macroeconomic and market shifts that are caused by investor
preferences. It is recognized that there are limitations in this study from a relatively short
sample period that is determined by the availability of investor sentiment survey data, and
as more data becomes available these tests should be repeated to verify the results.
35
Indeed the strong run up in the Shanghai market was followed by a near 50% drop between October 2007
and April 2008.
37
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Table 1: Firms Included in Sample
Company Name
ADRs
Aluminum Corp of China Ltd.
China Eastern Airlines Co
China Life Insurance Co Ltd.
China Petroleum & Chemical Corp
China Shipping Development Co Ltd.
China Southern Airlines Co
Guangshen Railway Company Ltd.
Huaneng Power International, Inc.
Jiangsu Expressway Co Ltd
Jiangxi Copper Co Ltd
Sinopec Shanghai Petrochemical Co Ltd
Tsingtao Brewery Company Limited
Yanzhou Coal Mining Company Limited
ADR
# of firms
ACH
CEA
LFC
SNP
CSDXF
ZNH
GSH
HNP
JEXYF
JIXAF
SHI
TSGTF
TZC
# of firms
B-Shares
China First Pencil Co Ltd.
China Textile Machinery
Danhua Chemical Technology Co Ltd
Dazhong Transportation Group Co Ltd.
Double Coin Holdings Ltd.
Eastern Communications Co Ltd.
Huadian Energy Co Ltd.
Huangshan Tourism Development Co Ltd.
Huaxin Cement Co Ltd.
Inner Mongolia Eerduosi Cashmere Product
Jinshan Development & Construction Co Ltd.
SGSB Group Co Ltd
Shanghai Automation Instrumentation Co L
Shanghai Baosight Software Co Ltd
Shanghai Chlor-Alkali Chemical Co Ltd.
Shanghai Dajiang Group
Shanghai Diesel Engine Co Ltd.
Shanghai Dingli Technology Development Group Co Ltd.
Shanghai Erfangi Co Ltd.
Shanghai Friendship Group Inc Ltd
Shanghai Haixin Group CO
Shanghai Highly Group Co Ltd.
Shanghai Jinjiang International Investment Holdings Co
Shanghai Jinqiao Export Processing Zone Development Co Lt
Shanghai Lianhua Fibre Corp
Shanghai Material Trading Co Ltd
Shanghai Mechanical and Electrical Indus
Shanghai Sanmao Enterprise Group Co Ltd
Shanghai Waigaoqiao Free Trade Zone Development Co Ltd.
Shanghai Wingsung Data Technology Co Ltd.
Shanghai Yaohua Pilkington Glass Co Ltd
Shanghai Zhenhua Prot Machinary Co
SVA Electron Co Ltd.
Zhonglu Co Ltd.
Shanghai Potevio Co Ltd
H-Shares
Angang New Steel Co
Anhui Conch Cement Co Ltd.
Anhui Expressway
Beiren Printing Machinery
China Eastern Airlines Co
China Petroleum & Chemical Corp
China Shipping Development Co Ltd.
China Southern Airlines Co
Dongfang Electrical Machine
Guangzhou Pharmaceuticals
Guangzhou Shipyard Intl Co
Huaneng Power International, Inc.
Jiangsu Expressway Co Ltd
Jiangxi Copper Co Ltd
Jingwei Textile Machinery
Luoyang Glass Company Ltd.
Maanshan Iron & Steel Ltd.
Nanjing Panda Elec Co Ltd.
Shandong Xinhua Pharmaceutical Co Ltd.
Shenzhen Expressway Co Ltd.
Sinopec Shanghai Petrochemical Co Ltd
Sinopec Yizheng Chemical
Tianjin Capital Environmental Protection
Tsingtao Brewery Company Limited
Yanzhou Coal Mining Company Limited
# of firms
ANGGY
B-Share
H-share
A-share
Start
End
2600
670
2628
386
1138
1055
525
902
177
358
338
168
1171
601600
600115
601628
600028
600026
600029
601333
600011
600377
600362
600688
600600
600188
4/30/2007
9/30/2003
1/31/2007
9/30/2003
9/30/2003
9/30/2003
12/29/2006
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
12/30/2007
600612
600610
600844
600611
600623
600776
600726
600054
600801
600295
600679
600843
600848
600845
600618
600695
600841
600614
600604
600827
600851
600619
600650
600639
600617
600822
600835
600689
600648
600613
600819
600320
600602
600818
600680
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
000898
600585
600012
600860
600115
600028
600026
600029
600875
600332
600685
600011
600377
600362
000666
600876
600808
600775
000756
600548
600688
600871
600874
600600
600188
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
9/30/2003
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
10/31/2006
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
12/31/2007
13
34
900905
900906
900921
900903
900909
900941
900937
900942
900933
900936
900916
900924
900928
900926
900908
900919
900920
900907
900902
900923
900917
900910
900914
900911
900913
900927
900925
900922
900912
900904
900918
900947
900901
900915
900930
25
347
914
995
187
670
386
1138
1055
1072
874
317
902
177
358
350
1108
323
553
719
548
338
1033
1065
168
1171
CEA
SNP
CSDXF
ZNH
HNP
JEXYF
JIXAF
SHI
TSGTF
TZC
41
Table 2: Summary Statistics
Observations
Median
Mean
Min
Max
St Dev
Growth in Shanghai A
51
3.29%
2.65%
-20.12%
24.38%
8.06%
Growth in Shanghai B
51
1.76%
2.56%
-19.00%
33.29%
10.83%
Growth in S&P
51
1.20%
0.76%
-4.50%
5.35%
2.28%
Growth in Hang Sang Index
51
2.12%
1.78%
-9.22%
14.42%
4.55%
Change in renminbi/USD exchange rate expectations
52
4.46%
4.56%
1.38%
10.28%
1.53%
U.S. investor sentiment Index
52
74.0
73.4
34.0
108.0
17.0
China Investor Sentiment Survey
52
9.7%
15.2%
5.1%
44.3%
12.3%
B Share Sample
Observations
Median
Mean
Min
Max
St Dev
Discount
1755
-48.4%
-45.3%
-83.6%
51.8%
19.9%
B Share Turnover
1806
7.3%
13.0%
0.0%
139.1%
17.1%
A Share Turnover
1807
6.1%
12.6%
0.0%
911.6%
26.6%
B Share Bid-Ask Spread
1793
0.001
0.000
-0.255
0.033
0.016
A Share Bid-Ask Spread
1754
0.001
-0.006
-0.706
0.046
0.049
B Share Market Cap (Millions of dollars)
1799
360
540
24
11,770
818
A Share Market Cap (Millions of Renminbi)
1773
2,951
4,317
218
87,953
6,217
Relative Market P/E
1820
0.71
0.72
0.34
1.17
0.23
Relative Firm P/E
1260
1.99
6.25
0.33
185.88
14.44
U.S. Market Sentiment
1820
74.0
73.4
34.0
108.0
17.0
China Investor Sentiment
1820
9.7%
15.2%
5.1%
44.3%
12.3%
Notes: This data is from 35 firms, with 52 monthly observations for each from Sept 30, 2003 to Dec. 31, 2007
H Shares Sample
Observations
Median
Mean
Min
Max
St Dev
Discount
1339
-37.1%
-37.1%
-90.3%
38.5%
24.4%
H Share Turnover
1476
15.7%
19.8%
0.0%
168.6%
16.9%
A Share Turnover
1351
5.8%
9.7%
0.0%
83.0%
11.0%
A Share Bid-Ask Spread
1351
0.010
-0.007
-3.820
1.000
0.212
H Share Bid-Ask Spread
1335
0.025
0.040
0.000
1.000
0.060
A Share Market Cap (Millions of Yuan)
1467
13,568
59,140
1,031
1,993,339
184,754
H Share Market Cap (Millions of HKD)
1349
14,211
61,494
511
2,067,388
183,848
Relative Market P/E
1508
0.55
0.57
0.38
0.82
0.11
Relative Firm P/E
1204
0.96
2.06
0.22
62.36
5.27
Note: This data is for all 29 firms with 52 monthly observations for each from Sept 30, 2003 to Dec. 31, 2007
42
ADRs
Observations
Median
Mean
Min
Max
St Dev
Discount
549
-28.5%
-28.7%
-98.9%
25.4%
20.0%
ADR Turnover
671
2.2%
3.6%
0.0%
59.5%
5.2%
A Share Turnover
556
4.5%
7.6%
0.0%
42.9%
7.8%
ADR Bid-Ask Spread
62
0.500
1.566
0.150
19.750
3.388
A Share Bid-Ask Spread
546
0.010
-0.004
-1.890
0.300
0.162
ADR Market Capitalization (Millions of Renminbi)
650
5,288
206,456
949
115,000,000
4,507,795
A Share Market Capitalizations (Millions of Renminbi)
555
31,478
141,702
7,538
5,404,439
415,965
Relative Market P/E
728
1.32
1.44
0.88
2.49
0.45
Relative Firm P/E
469
0.81
1.24
0.22
15.66
1.73
Note: This data is for all 13 firms with 52 monthly observations for each from Sept 30, 2003 to Dec. 31, 2007
Table 3: Correlation Matrices
B Share Sample
Discount
A Share Mkt Cap
B Share Mkt Cap
Shanghai A Index
ShanghaigB Index
Expectations
A Share Turnover
B Share Turnover
Relative Firm P/E
Relative Market P/E
Sentiment
U.S. Investor Sentiment
H Share Sample
Discount
A Share Mkt Cap
H Share Mkt Cap
Shanghai A Index
S&P 500 Index
HSI Indexg
Expectations
A Share Turnover
H Share Turnover
Relative Firm P/E
Relative Mkt P/E
Sentiment
U.S. Investor Sentiment
ADR Sample
Discount
A Share Mkt Cap
ADR Mkt Cap
Shanghai A Index
S&P 500 Index
g
Expectations
ADR Turnover
A Share Turnover
Relative Firm P/E
Relative Mkt P/E
Sentiment
U.S. Investor Sentiment
Discount
1
0.06
0.07
0.11
0.15
0.16
0.32
0.15
-0.23
0.24
0.25
0.12
A Share
Mkt Cap
B Share
Mkt Cap
1
0.77
0.51
0.57
0.10
0.31
0.26
-0.01
0.19
0.18
0.15
1
0.44
0.53
0.09
0.27
0.23
-0.02
0.17
0.16
0.14
∆ Exchange
Shanghai Shanghai
Rate
A Share
A Indes
B Index Expectations Turnover
1
0.66
0.08
0.33
0.28
0.03
0.34
0.28
0.31
1
0.09
0.30
0.44
0.05
0.28
0.28
0.31
1
0.22
0.19
-0.02
0.55
0.55
-0.11
B Share
Turnover
Relative
Firm P/E
Relative
Market
P/E
1
0.03
0.49
0.58
0.30
1
-0.02
-0.01
-0.01
1
0.93
0.16
1
0.57
-0.03
0.49
0.56
0.11
Chinese
U.S.
Investor
Investor
Sentiment Sentiment
1
0.06
1
∆ Exchange
Chinese
H Share A Share Mkt H Share Mkt Shanghai A S&P 500
Rate
A Share H Share Relative Firm Relative Mkt Investor U.S. Investor
Discount
Cap
Cap
Index
Index HSI Index Expectations Turnover Turnover
P/E
P/E
Sentiment Sentiment
1
0.02
1
0.02
0.96
1
0.05
0.48
0.45
1
0.01
0.20
0.20
0.25
1
0.03
0.18
0.18
0.39
0.57
1
-0.02
-0.25
-0.24
-0.33
0.11
-0.15
1
-0.08
0.26
0.25
0.29
0.01
0.09
-0.42
1
-0.06
0.20
0.22
0.09
0.09
0.11
-0.13
0.22
1
0.03
0.06
0.05
0.07
-0.01
0.02
-0.09
-0.03
0.23
1
0.17
-0.25
-0.24
-0.39
0.06
-0.09
0.68
-0.40
-0.22
-0.07
1
-0.10
0.22
0.21
0.27
-0.12
0.20
-0.91
0.46
0.19
0.07
-0.77
1
-0.13
0.19
0.17
0.31
0.14
0.13
0.07
0.13
0.18
0.01
-0.33
0.06
1
ADR
Discount
1
-0.15
-0.11
-0.03
0.07
-0.24
-0.33
-0.17
-0.20
-0.47
-0.41
-0.09
A Share Mkt ADR Mkt Shanghai
Cap
Cap
A Index
1
0.22
0.60
0.30
0.08
0.15
0.32
0.01
0.28
0.27
0.29
1
0.15
0.02
0.13
0.00
0.04
-0.01
0.14
0.12
0.00
1
0.28
0.03
0.08
0.33
0.05
0.33
0.29
0.31
∆ Exchange
S&P 500
Rate
ADR
Index
Expectations Turnover
1
-0.14
-0.03
0.03
0.04
-0.07
-0.11
0.12
43
1
0.32
0.15
0.01
0.60
0.59
-0.19
1
0.13
-0.05
0.47
0.43
0.06
A Share
Turnover
Relative
Firm P/E
Relative
Mkt P/E
1
0.09
0.40
0.44
0.20
1
0.08
0.09
-0.02
1
0.07
-0.21
Chinese
U.S.
Investor
Investor
Sentiment Sentiment
1
0.11
1
Table 4: Time Deposit Regression Results
Dependent Variable = Growth of Time Deposits
(1)
(2)
(3)
(4)
0.1556***
(4.54)
0.1545***
(4.65)
0.1648***
(4.73)
0.1561***
(4.74)
Growth Rate of PerCapita Monthly Income
0.0220
(1.50)
0.0209
(1.34)
0.0315
(1.56)
0.0210
(1.35)
Real Time Deposit 1-yr Rate
0.0003
(0.26)
-0.0004
(-0.20)
0.0008
(0.55)
0.0002
(0.17)
Independent Variables
Growth rate of M0
Growth rate of M2
Growth rate of Shanghai A Index
Stock Propensity
-0.0321
(-0.75)
-0.0456**
(-2.02)
-0.0591*
(-1.75)
-0.0396**
(-2.02)
Price Satisfaction
-0.0002
(-0.62)
Time
Lagged Growth of Time Deposits
Observations
Adjusted R-squared
-0.0535**
(-2.03)
0.0001
(0.48)
0.0932
(0.54)
0.1051
(0.60)
0.0902
(0.50)
0.0957
(0.55)
45
45
0.868
45
0.872
45
0.869
0.872
Notes: Regressions include 11 seasonal dummies and constant (not shown); T-stat is in parentheses; Heteroskedastic Robust
Standard Errors Used; * denotes significance at 90% level, ** denotes significance at 95% level, *** denotes significance at 99% level
44
Table 5: B-share Discount Regression Results
(1)
Dependent Variable = B-Share Discount
(2)
(3)
(4)
(5)
(6)
Independent Variables
Growth of Shanghai A Index
-0.166*
(0.045)
-0.159*
(0.043)
-0.145*
(0.043)
-0.132*
(0.051)
-0.126*
(0.048)
-0.120*
(0.048)
Growth of Shanghai B Index
0.361*
(0.042)
0.347*
(0.041)
0.344*
(0.041)
0.349*
(0.055)
0.334*
(0.055)
0.337**
(0.054)
Growth of S&P 500 Index
0.012
(0.047)
0.003
(0.045)
-0.003
(0.045)
-0.021
(0.050)
-0.036
(0.049)
-0.047
(0.051)
Growth of Market Cap A Share
-0.224*
(0.032)
-0.219*
(0.032)
-0.215*
(0.031)
-0.228*
(0.041)
-0.219*
(0.042)
-0.217*
(0.042)
Growth of Market Cap B Share
0.030*
(0.011)
0.030*
(0.011)
0.031*
(0.011)
0.027*
(0.010)
0.028*
(0.011)
0.028*
(0.011)
Log(1+A Share Turnover)
-0.060**
(0.024)
-0.070**
(0.033)
-0.069**
(0.033)
-0.064**
(0.012)
-0.090*
(0.015)
-0.093*
(0.016)
Log(1+B Share Turnover)
0.125*
(0.020)
0.134*
(0.023)
0.135*
(0.023)
0.118*
(0.022)
0.136*
(0.025)
0.137*
(0.026)
-0.120***
0.039
-0.161**
-0.028
0.131**
-0.031
(0.069)
(0.061)
(0.077)
(0.070)
(0.062)
(0.076)
-0.019*
(0.003)
-0.007***
(0.004)
-0.012*
(0.004)
-0.040*
(0.007)
-0.022*
(0.008)
-0.022*
(0.008)
Log(Market P/E)
-0.029*
(0.008)
-0.024*
(0.006)
-0.018**
(0.007)
Log(Firm P/E)
-0.004*
(0.001)
-0.005**
(0.002)
-0.005*
(0.002)
Change in Exchange Rate
Expectations
Log(Investor Sentiment)
Log(U.S. Market Sentiment)
0.033*
(0.008)
0.031*
(0.007)
0.029*
(0.007)
0.039*
(0.010)
0.036*
(0.009)
0.034*
(0.009)
Constant
-0.205*
(0.040)
-0.247*
(0.039)
-0.251*
(0.039)
-0.310*
(0.064)
-0.332*
(0.056)
-0.322*
(0.057)
Break
Trend
Lagged Dependent Variables
Fixed Effects
Observations
Adjusted R Squared
-0.024*
(0.004)
-0.019*
(0.006)
0.001*
(0.000)
0.001*
(0.000)
0.002*
(0.000)
0.001*
(0.000)
0.001*
(0.000)
0.002*
(0.000)
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
No
Yes
Yes
1530
0.947
1530
0.949
1530
0.949
1106
0.954
1106
0.956
1106
0.956
Note: W hite Period Robust Standard Errors In Parentheses, *** denotes 90% confidence, ** denotes 95% confidence, * denotes 99% confidence
45
Table 6: H-Share Discount Regression Results
(1)
Dependent Variable = H Share Discount
(2)
(3)
(4)
(5)
(6)
Independent Variables
Growth of Shanghai A Index
-0.311*
(0.032)
-0.268*
(0.031)
-0.243*
(0.031)
-0.329*
(0.033)
-0.282*
(0.032)
-0.270*
(0.032)
Growth of Hang Seng Index
0.514*
(0.050)
0.473*
(0.045)
0.450*
(0.048)
0.530*
(0.057)
0.480*
(0.056)
0.477*
(0.057)
Growth of S&P 500 Index
0.143
(0.104)
0.123
(0.095)
0.155
(0.096)
0.118
(0.113)
0.101
(0.103)
0.116
(0.103)
Log(1+A Share Turnover)
-0.019
(0.027)
-0.005
(0.040)
-0.002
(0.039)
-0.017
(0.027)
-0.015
(0.041)
-0.010
(0.040)
Log(1+H Share Turnover)
0.070**
(0.028)
0.107**
(0.043)
0.118*
(0.043)
0.074**
(0.030)
0.133**
(0.046)
0.142*
(0.045)
Growth of Market Cap A
-0.784*
(0.277)
-0.798*
(0.262)
-1.037*
(0.255)
-0.774*
(0.293)
-0.804*
(0.275)
-1.085*
(0.276)
Growth of Market Cap H
0.643**
(0.280)
0.651**
(0.264)
0.890*
(0.256)
0.645**
(0.298)
0.670*
(0.280)
0.952*
(0.278)
Market P/E
-0.030
(0.020)
-0.026
(0.021)
-0.056
(0.021)
Firm P/E
-0.001
(0.003)
-0.001
(0.004)
-0.001
(0.004)
-0.048*
(0.010)
-0.066*
(0.010)
-0.084*
(0.011)
Log(Investor Sentiment)
Change in Exchange Rate
Expectations
-0.042*
(0.006)
-0.061*
(0.006)
-0.067*
(0.006)
-0.111
-0.255*
-0.536*
-0.142
-0.315*
-0.673*
(0.091)
(0.092)
(0.098)
(0.087)
(0.100)
(0.109)
Log(U.S. Market Sentiment)
0.060*
(0.010)
0.056*
(0.009)
0.052*
(0.009)
0.053*
(0.010)
0.047*
(0.010)
0.043*
(0.010)
Constant
-0.407*
(0.061)
-0.491*
(0.050)
-0.492*
(0.050)
-0.403
(0.063)
-0.483*
(0.057)
-0.524*
(0.059)
Break
Trend
-0.034*
(0.006)
-0.042*
(0.006)
0.002*
(0.000)
0.003*
(0.000)
0.004*
(0.000)
0.002
(0.000)
0.003*
(0.000)
0.004*
(0.000)
Lagged Dependent Variables
Yes
Yes
Yes
Yes
Yes
Yes
Fixed Effects
No
Yes
Yes
No
Yes
Yes
1206
0.929
1206
0.932
1206
0.933
1067
0.935
1067
0.938
1067
0.939
Observations
Adjusted R-squared
Note: This is a limited sample of firms, 25, that have data over the whole sample period. White Period Robust Standard Errors
in Parentheses, *** denotes 90% confidence, ** denotes 95% confidence, * denotes 99% confidence
46
Table 7: ADR Discount Regression Results
Dependent Variable = ADR Discount
(1)
(2)
(3)
(4)
(5)
(6)
Growth of Shanghai A Index
-0.182**
(0.072)
-0.145**
(0.066)
-0.137**
(0.069)
-0.163**
(0.080)
-0.136***
(0.072)
-0.141**
(0.071)
Growth of S&P 500 Index
0.637**
(0.262)
0.543**
(0.254)
0.544**
(0.257)
0.511**
(0.302)
0.465***
(0.281)
0.455**
(0.291)
Growth of A Market Cap
-0.225*
(0.086)
-0.213*
(0.076)
-0.215*
(0.077)
-0.230**
(0.091)
-0.214*
(0.074)
-0.216*
(0.073)
Growth of ADR Market Cap
-0.038*
(0.009)
-0.035*
(0.010)
-0.035*
(0.010)
-0.038*
(0.009)
-0.036*
(0.010)
-0.036*
(0.010)
Log(1 + ADR Share Turnover)
-0.038
(0.009)
-0.203***
(0.108)
0.077
(0.112)
-0.152
(0.096)
-0.290**
(0.133)
-0.277**
(0.128)
Log(1 + A Share Turnover)
0.009
(0.047)
0.068
(0.078)
0.077
(0.080)
-0.035
(0.067)
0.077
(0.069)
0.096
(0.067)
Log(Market P/E)
0.030
(0.036)
0.009
(0.041)
0.042
(0.048)
Log(Firm P/E)
-0.018*
(0.004)
-0.029**
(0.012)
-0.028**
(0.011)
Independent Variables
Log(Investor Sentiment)
-0.040**
(0.017)
-0.085**
(0.036)
-0.088**
(0.037)
-0.063***
(0.034)
-0.097**
(0.048)
-0.120**
(0.060)
Log(U.S. Market Sentiment)
0.057*
(0.013)
0.067*
(0.018)
0.065*
(0.018)
0.055*
(0.019)
0.066*
(0.024)
0.064*
(0.023)
-0.411**
-0.539**
-0.691**
-0.644**
-0.759***
-1.119**
(0.208)
(0.260)
(0.320)
(0.330)
(0.388)
(0.564)
Change in Exchange Rate
Expectations
Break
-0.020**
0.010
-0.034
0.021
Constant
-0.390*
(0.099)
-0.614*
(0.187)
-0.613*
(0.187)
-0.468*
(0.178)
-0.656*
(0.256)
-0.713*
(0.288)
Trend
0.002*
(0.001)
0.004*
(0.001)
0.004*
(0.001)
0.003*
(0.001)
0.004**
(0.002)
0.006**
(0.003)
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
No
Yes
Yes
439
0.837
439
0.848
439
0.848
363
0.814
363
0.826
363
0.826
Lagged Dependent Variables
Fixed Effects
Observations
Adjusted R-squared
Note: White Period Robust Standard Errors In Parentheses, *** denotes 90% confidence, ** denotes 95% confidence, * denotes 99% confidence
47
Table 8: B-Share Autoregressive Regressions
Dependent Variable = B-Share Discount
(1)
(2)
(3)
(4)
(5)
Independent Variables
B-Share Discount(-1)
-0.022
0.004
0.892
0.026
0.875
0.027
0.859
0.027
0.850
0.028
B-Share Discount(-2)
0.950
0.008
0.065
0.026
-0.084
0.037
-0.071
0.037
-0.081
0.038
0.175
0.030
0.047
0.037
0.047
0.038
0.135
0.026
0.080
0.038
B-Share Discount(-3)
B-Share Discount(-4)
B-Share Discount(-5)
0.080
0.028
Constant
-0.022
0.004
-0.019
0.004
-0.015
0.004
-0.012
0.004
-0.010
0.005
Adjusted R-Squared
BIC
0.9025
-2.70
0.9060
-2.72
0.9086
-2.73
0.9115
-2.75
0.9118
-2.73
1531
1531
1531
1531
1531
Observations
Table 9: H-Share Autoregressive Regressions
Dependent Variable = H-Share Discount
(1)
(2)
(3)
Independent Variables
H-share Discount(-1)
0.949
0.008
H-share Discount(-2)
0.819
0.034
0.809
0.035
0.140
0.034
0.032
0.043
H-share Discount(-3)
0.121
0.032
Constant
-0.019
0.004
-0.017
0.004
-0.015
0.004
Adjusted R-Squared
BIC
0.903
-2.288
0.908
-2.333
0.908
-2.326
Observations
1254
1220
1186
48
Table 10: ADR Autoregressive Regressions
Dependent Variable = ADR Discount
(1)
(2)
(3)
0.901
0.025
0.747
0.080
0.736
0.088
0.186
0.081
0.130
0.090
Independent Variables
ADR Discount(-1)
ADR Discount(-2)
ADR Discount(-3)
0.077
0.062
Constant
-0.033
0.009
-0.025
0.009
-0.023
0.009
Adjusted R-Squared
BIC
0.774
-1.847
0.789
-1.903
0.787
-1.872
531
513
496
Observations
Date
Growth in Time Deposits
49
Investor Sentiment
May-07
Mar-07
Jan-07
Percent who Prefer Stocks and Funds
0%
Nov-06
-8%
Sep-06
5%
Jul-06
-6%
May-06
10%
Jan-06
-4%
Mar-06
15%
Nov-05
-2%
Sep-05
20%
Jul-05
0%
Mar-05
25%
May-05
2%
Jan-05
30%
Nov-04
4%
Jul-04
35%
Sep-04
6%
May-04
40%
Mar-04
8%
Jan-04
45%
Nov-03
10%
Sep-03
Growth Rates
Figure 1: Investor Sentiment Surveys and Growth of Time Deposits
Figure 2: Shanghai A Index Prices and Trading Volume
7000
4000
3500
6000
3000
2500
4000
2000
3000
1500
Shanghai A Index Price
Trading Volume (Billions)
5000
2000
1000
1000
500
Shanghai A Index Volume
M
ar
-0
8
-0
7
M
ar
M
ar
-0
6
-0
5
M
ar
-0
4
M
ar
M
ar
-0
3
-0
2
M
ar
M
ar
-0
0
M
ar
M
ar
-9
9
-9
8
M
ar
M
ar
-0
1
0
-9
7
0
Shanghai A Index Price
350
60
300
50
250
40
200
30
150
20
100
10
50
0
0
50
-0
7
ar
M
ar
M
ar
M
ar
M
Shanghai B Index Price
-0
6
-0
5
-0
4
M
ar
-0
ar
M
ar
M
-0
3
2
-0
1
ar
M
ar
M
ar
M
-0
0
9
-9
8
M
ar
-9
-9
ar
-0
Shanghai B Index Volume
Shanghai B Index Price
70
8
400
7
80
M
Trading Volume (Billions)
Figure 3: Shanghai B Index Prices and Trading Volumes
Figure 4: B-Share Median Discount and Investor Sentiment
.6
.4
Discount
.2
.0
-.2
-.4
-.6
-.8
2004
2005
2006
2007
Median AB Discount
Investor Sentiment
Figure 5: H-Share Median Discount and Investor Sentiment
.6
.4
Discount
.2
.0
-.2
-.4
-.6
-.8
2004
2005
2006
Investor Sentiment
Median AH Discount
51
2007
Figure 6: ADR Median Discount and Investor Sentiment
.6
.4
Discount
.2
.0
-.2
-.4
-.6
2004
2005
2006
2007
Median Investor Sentiment
Median DISCOUNT
Figure 7: Expected RMB/$ Exchange Rate Change
.12
Percent
.10
.08
.06
.04
.02
.00
2004
2005
2006
Expected Exchange Rate Change
52
2007
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