For most developing economies in East Asia, foreign borrowing from the developed world has provided much-needed capital to finance rapid economic growth, especially during the 1980s and 1990s.1 Not surprisingly, the sudden reversal of capital flows from the banking sector was a main reason for the severity of the East Asian financial crisis of the late 1990s. Accompanying the collapse of economic growth in major East Asian countries was a sharp decline in loans from commercial banks based in Organization for Economic Cooperation and Development (OECD) countries, in particular, loans from Japanese institutions. The hardest hit economies, namely Indonesia, Malaysia, the Philippines, Thailand, and South Korea, which had experienced net private inflows averaging around $160 billion per annum in 1995 and 1996 (of which about half were short-term commercial bank loans), saw total foreign liabilities drop by around 45 percent in 1998, as international banks were unwilling to roll over existing loans.
Although the rates of decline stabilized in 2000 for the most severely affected economies, only in 2003 did total claims of OECD banks on East Asia start to recover, although unevenly. Loans from Japanese commercial banks at the end of 2004, for instance, were still only about one-third of the level prevailing at the end of 1997. In contrast, the claims of U.S. and U.K. banks at the end of 2004 had returned to above 90 percent of their values in 1997.
This paper attempts to examine some of the factors that contributed to the boom and bust in bank lending to East Asian countries between 1990 and 2004. Little work has been done on the determinants of international bank lending to these countries during the pre- and post-1997 financial crisis periods.2 Instead, research so far has focused on the cross-border trade in goods and services, and on equity flows. However, identifying the driving forces of international banking activities is of vital importance for understanding the reversals of capital flows during a crisis and the reasons behind their volatility.
We apply a suitably modified gravity model to a panel data set of private bank loans from seven OECD countries to nine East Asian economies during the 1990–2004 period, with the aim of addressing the following key issues:3
- Did geographical locations influence the observed patterns of international bank lending to East Asia and was such lending constrained by capital adequacy requirements?
- Has bilateral trade in goods led to more trade in assets between the economies involved?
- Has high financial risk reduced or encouraged capital inflows?
- Did the law and order situation in a country affect commercial banks’ willingness to extend loans to it?
- Did the quality of the bureaucracy in the borrowing country matter?
I. The Boom and Bust in International Bank Lending to East Asia
During the 1980s, total annual loans by private sector banks from the seven OECD countries on the East Asian economies tripled. The rise in lending was especially pronounced in the late 1980s, reflecting the initiatives by many East Asian nations, especially those in Southeast Asia, to liberalize their banking sectors. Rapid economic growth during the first part of the 1990s led to further inflows from foreign banks. By the end of 1995, fresh annual bank loans to these countries totaled more than $500 billion (Tables 1 and 2 and Figure 1). Much of the rise in bank lending represented an increase in short-term liabilities, involving vigorous growth in trade financing and the creation of offshore banking centers, among other factors (Jeanneau and Micu, 2002).
|Average Annual Growth Rates||Average Annual Value of Bank Loans|
|(In percent)||(In billions of U.S. dollars)|
|Average Annual Growth Rates||Average Annual New Bank Lending|
|(In percent)||(In billions of U.S. dollars)|
|United States||10.25||−17.34||9.23||30.58||25.15||29.57|Figure 1.Annual International Bank Lending to East Asia from Seven Banks from Organization for International Cooperation and Development Countries and from Japanese Banks
Sources: World Bank and Bank for International Settlements databases.
In terms of source countries, the rapid expansion of commercial bank lending to East Asia during the pre-1997 period largely reflected an explosion in loans from Japanese banks and, to a lesser extent, British banks (Table 2 and Figures 1 and 2). At its peak in 1994, Japanese lending amounted to more than 65 percent of the total loans from OECD banks. Ironically, loans from Japanese banks also contracted the most during the Asian financial crisis. In 2004, the new Japanese bank loans on these countries were barely 30 percent of their levels at the end of 1996, exceeding total loans from U.K. banks by less than $1 billion. Thus, despite the partial recovery in commercial lending since 2002, the exposure of OECD banks to East Asia in 2004 was only marginally higher than at the end of 1989.
Figure 2.Annual Lending of U.S. and U.K. Banks to East Asia
Sources: World Bank and Bank for International Settlements databases.
Two groups among the East Asian economies suffered the largest drops in loans from international banks during the post-1997 period. The first group comprised the two largest Southeast Asian economies, Indonesia and Thailand, arguably also the most severely affected by the 1997 financial crisis (Table 1 and Figure 3). Together, they had received nearly $95 billion in bank credit, representing 19 percent of the total lending of OECD banks, at the end of 1996. In 2004, however, fresh foreign loans to Thailand totaled only about $11 billion, or 20 percent of their 1996 level, but loans to Indonesia had fallen from $41 billion in 1996 to about $14 billion in 2004. The second largest relative decline in foreign lending involved the financial hubs of the region, Hong Kong SAR and Singapore (Table 1 and Figure 4). The annual flows of foreign loans to these countries fell to less than $115 billion in 2004 from about $268 billion in 1996.
Figure 3.Annual Lending to Indonesia and Thailand from Seven Banks from Organization for International Cooperation and Development Countries
Sources: World Bank and Bank for International Settlements databases.
Figure 4.Annual Lending to Hong Kong SAR and Singapore from Seven Banks from Organization for International Cooperation and Development Countries
Sources: World Bank and Bank for International Settlements databases.
Of the nine Asian economies surveyed, only two, China and Taiwan POC, have seen a rise in their annual bank loan flows from industrial countries since the 1997 crisis (Table 1 and Figure 5). By the last quarter of 2004, these two countries accounted for 16 and 10 percent, respectively, of the fresh OECD bank loans in the region. A decade earlier, they had jointly received less than 9 percent of bank financing from the same international lenders.
Figure 5.Annual Lending to China and Taiwan Province of China from Seven Banks from Organization for International Cooperation and Development Countries
Sources: World Bank and Bank for International Settlements databases.
Understanding the nature and determinants of cross-border asset movements has become a major subject of research in financial and international economics. Although past studies have focused more on foreign direct investment, attention has centered recently on cross-border international bank lending. As with trade in goods and services, the early literature on the “home bias puzzle” emphasized the role of geography and information asymmetries in explaining cross-country capital movements (Coval and Moskowitz, 1999, 2001; Lewis, 1999; Obstfeld and Rogoff, 2000; Grinblatt and Keloharju, 2001; Hau, 2001). These studies have shown that institutional investors are biased toward investing in countries located near their headquarters.
More recently, Martin and Rey (2004) and Portes and Rey (2005) have proposed that asymmetrical information may lead to higher transaction costs between more distant economies. In these circumstances, agents may learn about each other by trading goods and thereby exploit the accumulated information to facilitate trade in financial assets, and vice versa. Trading costs may therefore induce a bias in investors’ portfolios toward domestic securities and those of their trading partners. In this case, country asset portfolios would simply reflect changing trade patterns (Obstfeld and Rogoff, 2000; Rose and Spiegel, 2004).
Since the early 2000s, researchers have also focused increasingly on institutional quality, the legal system, and political risk as factors explaining international capital movements. Shleifer and Wolfenzon (2002) model how agency costs stemming from inefficient corporate governance and law enforcement impede external equity inflows into capital-scarce countries. Wei (2000, 2001) and Wei and Wu (2001) have shown that corruption and low-transparency exert a distortionary influence on financial flows across countries, particularly in the case of emerging markets. Papaioannou (2004) has specifically focused on the causal effect of a number of legal system indicators on the level of cross-border lending activities from banks in 19 developed economies to 51 recipient countries, both developed and developing economies, around the world.
Many ways in which the above factors can influence the direction, magnitude, and volatility of cross-border capital movements have been identified. First and foremost is their impact on the return, or expected return, of international financial activities. A weak legal system and poor institutional quality, in particular, have been found to be associated with inferior economic performance—namely, low and volatile economic growth rates—and almost always lead to protectionist measures (Acemoglu and others, 2003). Perotti and van Oijen (2001) have also reported that political instability often results in lower stock returns. A second way in which institutional and political factors can affect financial flows is by raising monitoring costs and the frequency of insider and other unfair trading practices (Bhattacharya and Daouk, 2002). Conversely, Papaioannou (2004) has pointed out that a high-quality legal system minimizes monitoring costs, but bureaucratic and judicial efficiency alleviates agency costs by settling disputes arising from contract incompleteness.
In this burgeoning institution and finance literature, many empirical researchers have looked at the impact of the institutional and business environment on the behavior of investors in general. For example, La Porta and others (1997) and Burger and Warnock (2006) demonstrated that legal guarantees, such as creditor and shareholder rights, are key prerequisites for booming capital markets. However, only the recent study by Papaioannou (2004) has empirically shown that institutional factors play an important role in explaining the boom and bust of international bank lending. Our study makes a further contribution to this area of research.
Financial risk factors, such as exposure to exchange rate risk, external debt, and net liquidity positions of borrower nations, represent yet another possible determinant of international bank lending. The staggering financial risk exposure facing corporate and financial institutions in East Asia in the wake of the 1997 crisis could have been expected to discourage lending from foreign and local banks. However, Diamond and Rajan (2000a and 2000b) have offered a more in-depth analysis of the relationship between economic or financial risk on the one hand, and banks’ willingness to lend on the other. The Diamond-Rajan model reconciles two functions that a bank typically performs—liquidity provision and credit creation. They argue that a primary cause of the illiquidity often found in real and financial markets during a financial crisis lies with the relatively narrow skills possessed by individuals and institutions, which keep them from being able to transform otherwise illiquid assets into liquid ones. By contrast, solid banking institutions have the capacity to finance extremely volatile short-term projects, improve their governance and transparency, and eventually attract investors to provide long-term financing for these liabilities. In short, the Diamond-Rajan model raises the possibility that a rise in financial risk would actually enhance profit-making opportunities, and thus lead to higher international bank lending to a local economy.
In addition to a set of pull factors associated with the recipient economies, the role of the capital adequacy ratio, as a push factor for lending countries, would also be evaluated in our study. The significance of a bank’s capital position in explaining the size of its lending has been well documented. One important channel whereby bank capital may affect lending is through financing costs. Undercapitalized banks would often find it more expensive to finance lending, and consequently, their lending activities are more sensitive to changes in monetary policy (Kishan and Opiela, 2000). A survey of the euro area banks conducted by the European Central Bank (2004) has also demonstrated that the cost associated with banks’ capital positions partly explains tighter credit standards applied to the approval of loans. Furthermore, it has been argued in connection with the implementation of the Basle Accord that regulations on capital requirements are an important factor behind cross-country credit flows (Cailloux and Griffith-Jones, 2003).
II. Gravity Models of Trade in Assets
Our study adopts the gravity model for several reasons. To start with, these models have a long history and have been applied to address numerous issues in economics. Borrowing the words of Deardorff (1998), gravity models are simple in structure and in principle, consistent with a wide range of theoretical frameworks. Furthermore, the flexibility of the models allows for both “push” factors originating in source countries and “pull” factors arising from recipient economies to affect bilateral trade or asset flows.
Because of the attributes discussed above, gravity models have been recognized as a relatively flexible empirical approach for tackling a variety of applied policy issues. The most common application of gravity models has largely been in the area of international trade of goods. Glick and Rose (2002) and Rose (2004), for instance, apply different extensions of the gravity model to explain the movements of goods around the globe as well as the impact of trade agreements and currency unions on international flows of goods.
Because of its relative success in explaining good flows, recent applications of the models have been to the analysis of asset flows. Portes and Rey (2002, 2005) and Razin (2002) are some of the seminal papers making use of gravity models to analyze cross-border equity flows and foreign direct investment, respectively. A more recent study has also applied the gravity model to explain variations in remittance flows to developing countries around the world (Leuth and Ruiz-Arranz, 2006).
One possible shortcoming of the gravity models, however, has been their lack of theoretical foundation. Attempts have been carried out to strengthen their theoretical underpinnings. Bergstrand (1985), Feenstra, Markusen, and Rose (2001), and Anderson and van Wincoop (2003) are some of the papers that have provided theoretical frameworks to the trade applications of gravity models. Much less research, however, has been carried out in the area of international bank lending, except for Rose and Spiegel (2004). This study develops a simple theoretical model on international bank lending, and demonstrates that the pattern of borrowing favors creditors with higher bilateral trade volumes with the debtor. The study then applies the gravity model to test the theoretical findings on an annual panel data set, including bilateral trade and international bank claims from 20 creditors and 149 debtor countries from 1986 through 1999.
To strengthen the analyses behind our application of the gravity model, we borrow and extend empirically some of the key theoretical findings of Rose and Spiegel (2004). Having identified a number of factors that may explain changes in bank lending from the developed world to East Asia, we now show how a variant of the widely used gravity model of international trade can be used to explore the empirical determinants of cross-border asset flows.
This paper considers three specifications of the gravity model. The first is:
This is the basic gravity model, in which asset flows between two countries are postulated to depend positively (in normalized form) on their economic masses—as represented by gross domestic products (gdpi(j),t)—and inversely on the (great circle) geographical distance (disti,j) between their respective economic centers.4 Given the objectives of our study, we only focus on commercial bank lending from the OECD countries. Accordingly, the assetij,t variable represents an annual bank lending flow (denominated in millions of constant U.S. dollars) from the private banks in a lender country i to a borrower country j in year t.
Unlike the case of trade in goods, the distance variable in equation (1) should not necessarily be purely associated with “transportation costs.” Rather, when discussing trade in assets, one can consider the distance measure more generally as a proxy for information asymmetries and transaction costs, ase geographical separation implies barriers to closer interactions between any two countries’ economic agents, such as fewer cultural and personal exchanges and the existence of language differences. High information asymmetries would in turn reduce flows of financial assets from one country to another. On the other hand, returns on assets in the local economy are likely to be less correlated with the asset returns in distant economies. Thus, in order to diversify their portfolio investment, investors could be favorably predisposed to investing in distant economies’ assets (Portes and Rey, 2005; Aviat and Courdacier, 2007). Given these two contrasting points of views, β1 could be either positive or negative.
The country dummies in equation (1) include variables meant to account for the special status of Singapore and Hong Kong as international financial centers, and in the case of Malaysia, the imposition of capital controls in 1998, the dummy for which takes a value of 1 only after 1997. Furthermore, we identify the economies in our sample belonging to the Association of Southeast Asian Nations (ASEANs) through another binary variable because membership in ASEAN may well promote asset inflows into the region through joint governmental efforts. Since colonial history might also bias bank lending, a dummy variable for it becomes operative if a lender country i has ever colonized a borrower country j. Lastly, a full set of time dummies are added to control for the impact of common shocks across countries (for example, the state of the world economy in any given year and the Asian financial crisis of 1997 and 1998).
The second gravity model that we estimate is given by:
Equation (2) adds two more potential determinants of the annual flows of bank lending to the right-hand side variables. The tradeij,t variable represents the total bilateral trade conducted in any given year between country i and country j. To correct for market size, this variable is again normalized by the product of the two countries’ GDPs. The variable can be considered to be an important “pull” factor determining the amount of loans demanded by the trading nations of East Asia. As mentioned above, Obstfeld and Rogoff (2000) and Rose and Spiegel (2004) provide both theoretical arguments and empirical evidence to demonstrate that information gathered from goods trading should also facilitate trade in financial assets. As briefly discussed, the latter study demonstrates theoretically that an increase in the expected volume of bilateral trade with an individual country is associated with both an increase in overall borrowing and an increase in the share of overall borrowing originating in that country. If these arguments are valid, we should expect higher bilateral trade to stimulate financial inflows into the recipient countries (β2>0).
On the supply side, the CARi,t variable represents a key “push” factor affecting the ability of private banks from the developed world to extend credit to borrowers outside their borders. This variable is a weighted average of the capital adequacy ratios of the major source banks in each OECD country. As a low capital position should limit the ability of banks to increase lending on regulatory and prudential grounds, the coefficient β3 is likely to be positively signed.
After accounting for the above influences, we investigate whether financial, political, and institutional factors play additional roles in shaping cross-border bank asset flows. To this end, we augment equation (2) with ratings of financial risk, the law and order situation, and bureaucratic quality to develop a third specification:5
The first of the three new variables included in the augmented model is the relative financial risk ratings of the borrowing countries (frj,t), which range from 0 (most risky) to 50 (least risky). The overall rating takes into account five possible sources of financial risk exposure: external debt (as a share of GDP), foreign debt service (as a percentage of the exports of goods and services), the current account (as a percentage of exports), net international liquidity (months of import coverage), and exchange rate stability. Based on a naive rationale, a generalized increase in financial risk should discourage the lending activities of foreign and local banks in the domestic economy. However, as discussed earlier, the Diamond-Rajan model demonstrates that higher uncertainty can cause deposits to become extremely fragile, and hence create a role for banks with adequate capital to manage the illiquid assets and earn profits. Therefore, the sign of β4 is ambiguous in theory.
The second variable to be added is an index of law and order in a borrower economy (loj,t). This index assesses the effectiveness of indigenous legal and judicial systems, as well as the degree of adherence to the law. For East Asia in general, this index has moved very closely with the overall political stability index.6 Thus, it partly reflects the political stability of a country. The index assigns a score from 1 to 6 to each country, with a higher score indicating a stronger legal system and more effective law enforcement. Presumably, a stable law and order situation is a necessary condition for international banking activities to take place. Thus, β5 should be larger than zero.
The last explanatory variable in equation (3) is a proxy for the quality of the bureaucracy in the borrowing country (bqj,t). It takes on values between 0 and 4, with a higher number reflecting better institutional performance (logarithms are not taken due to zero scores). As explained in the literature survey, we expect the coefficient on bureaucratic quality to be positive and significant, because a more transparent and less corrupt bureaucracy in a given country tends to foster greater confidence in bank lenders and lead them to extend more credit.
III. Data and Estimation Methods
Before reporting the empirical results, we present a brief description of the data and the econometric techniques used to estimate the three gravity models for asset trade. First, bilateral statistics on the annual bank lending flows of source OECD countries’ banks are taken from the Bank for International Settlements’ (BIS) International Locational Banking Statistics for the 1990–2004 period.7 The OECD banks are from Belgium, France, Italy, Japan, Netherlands, United Kingdom, and United States, whereas the recipient countries from East Asia are China, Hong Kong SAR, Indonesia, South Korea, Malaysia, Philippines, Singapore, Taiwan POC, and Thailand. The bank capital ratios for the lender countries in this sample are extracted from the Bankscope database for the same period, although there are no observations for United States and France during 1990–92 and Netherlands during 1990–94.8 Consequently, the 846 observations we have comprise an unbalanced panel. The GDP and trade time series come from the World Bank’s World Development Indicators’ database. The three institutional ratings (financial risk, law and order, and bureaucratic quality) are described in detail in the Appendix.
Table 3 provides the basic summary statistics for the dependent and independent variables. We performed the panel unit root test of Im, Pesaran, and Shin (2003) on the logarithms of the time-varying variables and found strong, although inconclusive, evidence that they are all stationary.9 This is to be expected, as the bank loan and trade variables are taken as shares in GDP while the capital ratios, financial risk rating, and the law and order and bureaucratic quality indices are all bounded within fixed ranges. Figure 6 plots normalized bank loans against geographical distance, both expressed in logarithms. The scatter graph reveals a weak negative correlation between bank claims and distance from lender to borrower, especially after the latter exceeds about 3,000 km. In contrast, the scatter plot of bank loans vs. bilateral trade volumes in Figure 7 suggests that there is a direct correlation between physical trade in goods and services and financial trade in banking assets.10
|assetij,t (annual new lending as percent of GDP)||0.02829||0.05694||0.65546||0.00012|
|tradeij,t (% GDP)||0.03017||0.02848||0.16201||0.00192|
|frj,t [0 50]||41.378||5.823||49||22|
|loj,t [1 6]||4.230||1.161||6||1|
|bqj,t [0 4]||2.704||0.849||4||0|Figure 6.Scatter Plot of Loans vs. Distance Figure 7.Scatter Plot of Loans vs. Trade
As regards econometric issues, the unit root tests imply that panel cointegration methods are not needed to obtain efficient and consistent estimates of the parameters in the gravity equations. Thus, all the specifications described in the previous section are initially estimated with panel techniques based on ordinary least squares (OLS), except that we report White’s heteroskedasticity-robust standard errors for the point estimates.11 Specifically, the presence of the time-invariant distance variable in the estimating equations naturally leads us to adopt a random effects model in which heterogeneity across country pairs is subsumed within the disturbance term (εij,t), although one could argue that the countries selected might not constitute a random sample drawn from a large population.
To check the robustness of the coefficient estimates to this assumption, we also perform a fixed effects regression by dropping the distance variable and the country and regional dummies. In effect, this method employs dummy variables for all countries, both as lenders and as borrowers, to eliminate any correlation between unobserved effects and the explanatory variables. Furthermore, in view of the fact that most economic relationships tend to persist through time and the effects of the explanatory variables in the gravity model may take more than a single period to work themselves out, we estimate a dynamic panel data model in which the first lag of bank loans is included as a predetermined variable in equation (3).12 It is well-known that when this is done, both the random and fixed effects estimators are biased, so we employ the Arellano-Bond (1991) generalized method of moments (GMMs) estimator instead. Unfortunately, this method again does not supply us with estimates of the time-invariant variables in the equation.
IV. Empirical Results
We estimated the three versions of our gravity model on the data described in the previous section to study the following questions:
- Can geographical distances between lender and borrower countries explain the uneven distribution of bank loans to the region?
- Do “push” and “pull” factors play equally important roles in stimulating bank lending?
- How have financial risk, political stability, and the quality of the bureaucracy affected capital flows to individual economies?
- Why did loans by Japanese banks to East Asia drop much more than loans from U.S. and U.K. banks during the financial crisis?
- Why were the declines in bank credit especially large for the two largest economies in the region, Indonesia and Thailand, and for the region’s financial centers, Hong Kong and Singapore?
- Why did loans to China and Taiwan POC recover so strongly after the crisis?
We report first the results of our estimates for the full sample of OECD and East Asian countries, before turning to three groups of borrower nations and selected major lenders. A range of different panel estimation procedures will be reported for the full sample. Because the full sample results are quite robust, only the findings from random effects specifications are presented for the various subgroups of the data sample. Moreover, our primary focus is on the direct impact of the factors affecting bank lending on the flow of new loans from the OECD to the East Asian countries. Given our limited number of observations and the complexity of the causal effects involved, we eschewed the estimation of simultaneous equation or structural vector autoregression models, which would shed light on any indirect effects that are present.
Full Sample Results
Table 4 presents the results of the gravity regressions for the complete data set. Altogether, seven specifications are estimated. According to the R-squared statistics, the different sets of explanatory variables explain at least half of the variation in the logarithms of normalized bank assets in all but the third specification based on fixed effects estimation. This finding is consistent with the results from the asymptotic chi-squared tests of overall statistical significance shown in the last row.
|Lagged loan share||0.62*|
|Law and order||−0.17||−0.17||0.05||−0.42*||0.49*|
|Number of observations||846||846||846||846||720||468||378|
As they are not of direct interest to us, we do not report the detailed coefficient estimates for the country and time dummy variables. As intuition would suggest, the coefficients for the financial center, ASEAN membership, and colonial history dummies are always positive and significant at conventional levels. Interestingly, the dummy variable for Malaysian capital controls is also found to have a significant positive sign. This finding seems to support the argument that capital controls in Malaysia have successfully shielded the economy from the volatile financial markets during the 1997 crisis and facilitated the return of a stable macroeconomic environment.13 By contrast, the time dummies are only significant in the postcrisis period and are consistently negative.
Starting from the basic gravity specification in the first column of Table 4, we see that geographical proximity apparently influenced banks’ portfolio allocation to the nine East Asian economies. A negative and significant coefficient estimate of –0.7 for the distance variable implies that financial institutions from the seven OECD economies have tended to favor lending to companies and individuals located closer to their headquarters. However, the results change drastically when the normalized trade share and bank capital ratios are added in equation (2). The R-squared statistic jumps up by 8 percent even though the gravity coefficient on distance drops to –0.5 and is statistically significant at only the 10 percent level. Instead, the improved explanatory power of this regression comes partly from the capital ratio variable, which enters with the expected positive sign and is highly significant. Although this might imply that capital adequacy rules have had an impact on the cross-border flows of bank lending, we will see later that the coefficient estimated here is fragile. It is also interesting to note that the range of our distance coefficient of 0.7 to 0.5 is very close to the range of 0.8 to 0.6 reported in Papaioannou (2004).
The effect of bilateral trade flows on bank claims is also positive and significant: the estimated coefficient is 0.45, with a robust standard error of 0.07, implying a t-statistic of over 6. This means that a 1 percent increase in trade leads to a 0.45 percent rise in bank loans on average for our sample of economies, ceteris paribus—a comparable effect to that found by Rose and Spiegel (2004) for developed and developing countries.
When the additional financial and institutional variables in specification (3) are included in the extended gravity model, the coefficients of the distance, trade, and bank capital variables in the random effects regression and their associated standard errors remain intact. In the case of the financial risk variable, our estimation results seem to support the arguments made by the Diamond-Rajan model: a rise in financial risk in East Asian borrowers, especially during the 1997 crisis, is associated with higher lending by commercial banks from the OECD countries.14 As for the quality of the bureaucracy, its positive coefficient confirms that countries with effective governments attract more bank lending. The estimated coefficient is very significant, a remarkable result given the proxy’s low variability (Table 3). The law and order variable does not appear to have influenced bank lending, at least not when the full sample of countries is considered. However, when we look at two separate groups of economies below, namely Indonesia and Thailand, and Singapore and Hong Kong SAR, we are able to shed more light on the importance of this variable.
As a check on robustness, the next column reports the results of modeling country heterogeneity as fixed effects. The point estimates of the time-varying variables from the fixed effects regression are very close to those of the random effects model, but the robust standard errors are noticeably larger. This result is still remarkable as the fixed effects estimator exploits only the variation within each country-pair panel over time and ignores cross-sectional variation, unlike the more efficient random effects estimator, which takes both into account.
In addition, the dynamic panel estimator of Arellano and Bond (1991) generates estimates that are similar to those obtained from the OLS-based methods. Most of the parameter estimates are statistically significant, with the exceptions being the coefficients for the capital ratio variable and the law and order proxy, which are close to zero. We therefore conclude that these two variables aside, the parameter estimates are robust across the different specifications and estimation methods. It is also interesting to note that the lagged dependent variable is found to be significant with an estimated coefficient of 0.62, suggesting moderate persistence in bank lending patterns. This finding confirms that past observations on the explanatory variables would indirectly influence the size of bank lending today. In particular, a deterioration in the quality of institutions in a recipient economy would have delayed effects on the volume of bank loans.
Note that specifications (2) and (3) include a measure of trade among the explanatory variables, for reasons described earlier. As trade flows could potentially be affected by financial flows, and vice versa, this may lead to simultaneity bias in the estimated coefficients due to the trade variable being correlated with the error term. Unlike Rose and Spiegel (2004) who assume trade variables to be exogenous, we gauged this potential endogeneity problem by regressing trade volumes first on geographical distance and the gravity dummies, and then adding bank claims to see whether the latter helps to explain the former. It turns out that the magnitude and significance of the distance coefficient are hardly altered when bank loans are added to the regression while the R-squared statistic rises only marginally, indicating that there is little feedback from credit lending to trade activities.
Given the rapid structural changes in the economies of East Asia, triggered partly by the 1997 financial crisis, it is arguably too simplistic to examine bank lending activities for the full sample period. The last two columns of Table 4, therefore, explore the stability of our empirical results over time. Here, we break up the sample into pre- and postfinancial crisis periods, with the former including observations up to 1998 and the latter representing observations from 1999 onwards. This is an extension of previous studies that focus only on a consolidated period. The choice to include 1998 as part of the precrisis period is dictated by the annual nature of our data and by the timing of the crisis episodes. For most of the crisis-affected economies, the year 1997 still saw positive growth rates and relatively robust macroeconomic performances. It was only in 1998 that we witnessed a severe and broad-based deterioration in economic conditions. Furthermore, some of the East Asian countries included in this study were largely unaffected by the 1997 crisis, so we opted not to exclude the years 1998 and 1999 in our final regression results reported in Table 4.
Several interesting findings emerge from this exercise. To begin, the distance variable is statistically significant during the precrisis period but becomes insignificant after that.15 This finding is consistent with the trend to decentralize the decision-making process of the lending activities of OECD banks. When the OECD banks initially established their operations in East Asia during the pre-1997 crisis period, decisions on where and how much to lend were predominantly made directly from the headquarters. During this early period, therefore, the distance factor representing information costs was an influential variable. However, a decentralization process emerged, especially since the mid-1990s, highlighted by a shift in the lending strategy from predominantly cross-border activities carried out by the main headquarters of banks to local lending managed by their branches, or their regional headquarters, in each of the borrower countries.
A number of factors contributing to the rise in the local lending by the branches or subsidiaries of the foreign banks have been well documented by early studies. One of them is lower regulatory restriction, including that on foreign ownership policy (Cerutti, Dell’Ariccia, and Martinez-Peria, 2007).16 As an integral part of their bank restructuring policies, major Southeast and East Asian economies, such as Indonesia, Thailand, and Korea, had relaxed entry regulations and allowed majority ownership by foreign investors of their domestic banks in 1998 and 1999. The commitment to meet the entry requirements to the World Trade Organization (WTO) membership has also been partly responsible for the rapid opening of the financial sector, including the banking sector, in China (Liu, 2005).
The rise in local exposure, including lending in the domestic currency, essentially reduced the weight on “distance cost” factor in explaining the lending decision of OECD banks to East Asia.17 The extent of local exposure in total bank lending by the BIS reporting banks to Asia rose from around 13 percent in December 1995 to about 30 percent in September 2001 (Lubin, 2002).18 The average share of local claims held by U.S. banks alone was over 60 percent, and as high as 70 to 80 percent in individual economies such as Hong Kong SAR, Singapore, Thailand, Malaysia, and Taiwan POC (Herrero and Martinez-Peria, 2007).
Another noteworthy finding is the reduced economic significance of the trade variable over the two subperiods (its coefficient falls from 0.54 to 0.42). Thus, international trade in goods and services seems to have played a weaker facilitating role for the asset trade after 1997. In contrast, financial risk ratings influenced international bank lending much more in the postcrisis period, as seen in the doubling of its coefficient. Surprisingly, the capital ratio estimates now turn negative for both subperiods and lose their significance. Perhaps most interesting of all, the estimated coefficients on the law and order and bureaucratic quality variables take on the correct signs and great significance in the aftermath of the Asian crisis. This means that developed country lenders have become more sensitive and attuned to noneconomic factors, namely the political, legal, and bureaucratic environments in borrower countries, since the crisis.
Indonesia and Thailand
Geographical distance seems to have been a significant determinant of lending by the OECD banks to Indonesia and Thailand from 1990 to 1998, but not afterwards (Table 5). As explained above, the fall in the importance of distance factor is due largely to the higher share of local or regional loans and the concomitant decline in international cross-border lending to the two countries. The rise in local claims can be seen from the greater ownership of local financial assets by OECD banks. From 1994 to 1999, the proportion of total banking sector assets owned by foreign banks in Korea, Thailand, and Indonesia rose from about 4 to 7 percent (Mathieson and Roldos, 2001). As briefly discussed, the authorities in Indonesia and Thailand have moved to allow foreign banks to acquire a majority stake in the domestic commercial banks during the 1997 financial crisis. In Thailand, the government permitted foreign banks that already have a full branch or a Bangkok International Banking Facility to apply for majority ownerships of local banks. During the early stage of the bank restructuring process, the Thai authority sold major ownerships of four local private commercial banks with over 300 branches all over the country to foreign investors (Montreevat and Rajan, 2003). In 1998, Indonesia lifted restrictions on branching and sub-branching for joint venture banks and foreign branches. In 2002 and 2003, the Indonesian Bank Restructuring Agency sold majority shares of four large commercial banks that have branches in all provinces, namely Bank Niaga, Bank Central Asia, Bank Danamon, and BII to foreign investors or foreign-led consortia. Greater reliance on lending by local branches has in turn possibly cut information and transaction costs and reduced banks’ exposure to various financial risks, thus explaining the subsequent insignificance of the distance variable.
Kong + Singapore
Kong + Singapore
Kong + Singapore
|China + Taiwan|
|China + Taiwan|
|China + Taiwan|
|Law and order||−0.44*||−1.07*||0.58*||1.67*||0.50||1.64*||0.59||0.02||0.54|
|Number of observations||188||104||84||188||104||84||188||104||84|
The results also show that the goods trade had contributed to the boom and bust in international bank lending to Indonesia and Thailand. In the early to mid-1990s, when these countries experienced steady growth in both exports and imports, trade played a statistically significant role in attracting lending from the OECD countries. In the postcrisis period, the estimated coefficient for trade intensity remained statistically significant and even increased in size. This result seems to suggest that weak internal financing due to the severity of the 1997 financial crisis forced exporters and importers in Indonesia and Thailand to rely more on foreign banks’ trade financing facilities. However, with a more volatile and weaker performance of the external trade sectors in these two economies after 1997, softer demand for trade financing by export and import firms has aggravated the decline in overall lending by developed world banks. This finding is in line with the observation that lower bank lending to these two countries was largely the result of sharp cuts in trade credit.
Turning to the financial risk variable, we find persistent evidence that OECD banks continued to supply loans to East Asia despite a generalized increase in their risk ratings. In Thailand, for example, foreign banks engaged actively in the financing of risky property projects at the onset of the 1997 crisis (Bank of Thailand, 2001). This finding again supports the analysis in the Diamond-Rajan model. Well-established international banks from the developed world have both the funding and the skills to turn short-term volatile and illiquid assets—largely caused by the collapse of major local banks and nonbank financial institutions and the relatively slow restructuring process of the financial sector in Indonesia and Thailand—into long-term, more stable, and profitable investments.
In addition to the trade and financial risk factors, OECD lenders appear to have placed even more weight on the quality of the bureaucracy and the legal system in deciding whether to extend bank loans to Thailand and Indonesia during the postcrisis, as opposed to the precrisis, period. Consistent with a priori expectations, a deterioration in the quality of bureaucratic institutions in these economies, particularly in the case of Thailand, has depressed the lending activities of OECD banks in these economies during the post-1997 period, as indicated by a significant and positive coefficient for the bqj,t variable. Similarly, the importance of law and order in attracting international bank lending to these countries increased after 1997. During this period, both Indonesia and Thailand experienced fairly sharp declines in their law enforcement efforts, according to the loj,t variable. In Indonesia, the worsening law and order situation started very much at the early stages of the financial crisis, and only showed signs of improvement in 2004. In contrast, political stability and law and order in Thailand deteriorated further in early 2003.
Hong Kong SAR and Singapore
As in Indonesia and Thailand, the redistribution strategy of OECD banks also helps to explain the insignificant role played by distance in the regressions for Hong Kong SAR and Singapore shown in Table 5. This result underscores their status as the financial hubs of East Asia, for it is in these two countries more than anywhere else that commercial bank loans from the OECD are to be considered as local or regional. Again not surprisingly, trade growth has been important for attracting loans from the developed world during the postcrisis period (the sum of exports and imports in Hong Kong SAR and Singapore averaged 200-300 percent of GDP for the most part of the last two decades).
We do not find financial risk to be a significant factor in explaining OECD bank lending to Hong Kong and Singapore. This is to be expected. Unlike the other countries, the Diamond-Rajan model is not applicable to Hong Kong SAR and Singapore, given their highly developed and sound financial institutions. Similarly, the strength and quality of the bureaucracies in Hong Kong SAR and Singapore have always been ranked among the best in Asia. Given the stability of the bureaucratic quality index for these countries—with a constant score of 3 during the post-1997 period—this variable does not contribute to the explanation of the observed trends in their international borrowing.
What is interesting, however, is that the enforcement of law and order, which was an insignificant factor during the precrisis period, has recently become a vital consideration for international banks in lending to Singapore and especially Hong Kong SAR. The raw data for this variable reveal that both economies moved to strengthen their legal systems in the early 1990s and achieved a maximum score for their law and order indices by around 1995. However, we find an a bating trend in the market perception of the law and order situation in Hong Kong SAR starting from 1997, the year when the ex-colony officially became the Special Administrative Region of the People’s Republic of China. This persisted until 2001, before the index improved marginally in 2002–04, although it remained below its level in 1996. Consequently, this has acted to dampen international loan activity in Hong Kong SAR.
China and Taiwan POC
Among the East Asian economies, only China and Taiwan POC boasted higher bank loans in 2004 compared with late 1996. As in the rest of East Asia, the annual OECD bank claims on these economies have fluctuated since early 2000. However, unlike the rest, China and Taiwan POC each experienced at least one year of a sharp upsurge in commercial bank loans. The total fresh bank claims of international banks on China in 2003, for instance, was still 30 percent less than the level in late 1997, but it grew by close to 50 percent in 2004, fuelled partly by the steady rise in foreign ownership participation in the economy (Podpiera, 2006). Taiwan POC, on the other hand, experienced a growth of 85 percent in OECD bank borrowing in 2003 alone. For China, banks from United States, United Kingdom, and Japan were largely responsible for the sharp rise in total bank claims seen in 2004. As for Taiwan POC, banks from the Netherlands also aggressively increased lending to the local economy.
One of the key drivers of the rise in the foreign ownership participation in the Chinese banking system was the inception of the country into the WTO. The liberalization of the banking sector to meet the WTO requirements began very slowly in 1996 in Shenzen, but began to spread and deepen to other parts of China since 2001. One of the most significant events since full WTO entry in late 2003 was the initiative to allow foreign banks with a renminbi license to handle businesses with local Chinese enterprises in local currency in thirteen cities that had been declared financially opened. In January 2004, four foreign banks, namely Citibank, SBC, Mizhuo bank, and Hong Kong-based Bank of East Asia, were given approval to begin such businesses (Liu, 2005).
The presence of “structural breaks” in the bank loans to these two economies has arguably contributed to the weak regression results (Figure 5 and Table 5). The joint R-squared statistics for China and Taiwan POC range between 4 to 10 percent, significantly lower than the corresponding values for the other borrower countries. The only explanatory variable with a significant coefficient estimate is the capital ratio for the postcrisis period and it carries the wrong sign. This suggests that the independent variables employed in this study are inadequate for capturing the observed movements in OECD bank claims on these two economies.
Lender Country Results
Next, we examine the factors affecting international bank lending from the perspective of the lender banks in three major economies, namely Japan, United States, and United Kingdom. As noted in the introduction to the paper, Japanese banks remained the largest source of bank loans from the developed world to East Asia. However, their total claims have fallen drastically compared with U.S. and U.K. banks in the postcrisis era. It is therefore important to understand the causes of this prolonged stagnation in Japanese lending. Specifically, the gravity model allows us to ascerta in whether it is primarily because of “push” or “pull” factors. The high R-squared statistics in Table 6, ranging from 0.82 to 0.97, underscore the strong explanatory power of our chosen set of determinants of bank lending.
|Law and order||−1.95*||−0.72*||−0.08||0.30||−0.07||0.69*|
|Number of observations||54||81||81||54||54||54|
Furthermore, a number of empirical results are worth stressing. First is the role of the banks’ capital position, as proxied by the CARi,t variable. We found the postcrisis coefficient for this variable to be significant only in the cases of U.S. and the Japanese banks. Looking at the capital adequacy ratio (CAR) of the U.K. banks, the average annual level has been well above 20 percent since 1999. Thus, it is no surprise that the CAR position has not been an issue for this group of banks. In contrast, the Japanese and Italian banks had been maintaining the lowest levels of CAR among the OECD banks during the observed period. The CARs for the Japanese banks up to 1997 averaged less than 9 percent, and it went up by less than 2 percent to around 10.5 percent since 1999, still lower than the average for the overall OECD banks included in this study. Our result confirms that the relatively weaker capital position of the Japanese banks has indeed contributed to the prolonged weakening of their lending to the East Asian countries. This finding is also consistent with the Japanese banking crisis in 1998 and the introduction of legislation to restructure banks’ balance sheets, which was aggravated by a weakening yen.
Second, we find contrasting evidence on the distance variable. This factor was an insignificant determinant of the lending of U.S. banks during the precrisis period, but became an important factor since 1999. The opposite is true for the U.K. and Japanese banks. Certainly, more empirical testing should be done to look further into each lender’s case to arrive at conclusive analyses of the role of geographical distance in influencing the size of bank lending. Here, we find that two out of the three lender countries analyzed, namely United Kingdom and Japan, support the argument that there has been a shift from purely international cross-border activities to a local/regional lending strategy on the part of OECD banks.
Third, as the Diamond-Rajan model postulates, a rise in financial risk is linked with higher bank lending flows from U.S., U.K., and Japanese banks. All three groups of banks have become more sensitive to the financial risk factor in their overall lending activities to East Asian countries during the postcrisis period.
In addition, three other factors also figure prominently in explaining the pronounced differences in the post-1997 pattern of bank lending by these three groups of banks. One is the trade variable. This factor has contributed significantly to the decline in new loans from U.S., U.K., and Japanese banks to East Asian countries. The average trade/GDP ratios of Japan, United Kingdom, and United States with East Asia all declined during the post-1997 period. The trade ratios for United States and United Kingdom dropped at annual rates of 7 and 8 percent, respectively, contributing significantly to the boom and bust of their bank lending to our group of Asian economies. For Japan, however, the trade ratio weakened only mildly, averaging less than 2 percent annually from 1999 to 2004.
The results in Table 6 also suggest that banks from United States and United Kingdom placed a premium on the quality of the bureaucratic institutions in the borrower nations when extending loans since 1999. Yet, the law and order situation did not seem to be significant for the postcrisis period. For the Japanese banks, on the other hand, the efficacy of legal and judicial systems, not bureaucracy quality, appeared to be the major consideration in their lending decisions. This finding is consistent with a recent survey on Japanese firms reported in the 2005 White Paper Report on Trade and Investment of the Ministry of Economy, Trade, and Industry of Japan (METI, 2005). In that report, the enforcement of law and order was listed among the top 6 of more than 20 factors influencing investment decisions of the domestic and overseas-affiliated companies of Japanese firms in East Asia. Interestingly, the quality of the bureaucracy did not figure prominently in the investment decisions of these Japanese firms and their affiliates.
In short, the influence of institutional factors on international bank lending is evident for banks from these three OECD countries during the post-1998 period. Our findings here corroborate the borrower country results for Thailand and Indonesia presented earlier. In particular, the sharp declines in bank lending to these two countries seem to have resulted from the collapse in bank lending from United States, United Kingdom, and Japan as a consequence of heightened concerns over law and order enforcement, political stability, and bureaucratic quality.
Overall Lessons Learned: Integrated and Comparative Analyses
Based on the wealth of findings and discussion presented earlier, a number of key features and determinants of OECD bank lending to East Asia should be highlighted. To start with, it is important to underline that some of our test results are time and country specific. The significance of the explanatory variables often shifts from the pre- to postcrisis period. Similarly, estimation results for explanatory variables are sensitive to different groupings of borrowers and lenders. This general conclusion reinforces the need to go beyond full sample panel analyses, and instead to focus more on narrow sets of observations, as carried out in this study.
We find the CAR to be a common important push factor affecting bank loans when the full sample is considered. However, when we look at the pre-and postcrisis periods, the coefficients became insignificant. Interestingly, this push factor is also found to be highly sensitive to the source countries of lender banks. The loans of U.S. and Japanese banks, for instance, are highly dependent on capital ratios, but this is not true for U.K. banks.
Similarly, there is a close link between trade activity and new bank lending. As for the case of the CARi,t variable, the robustness of the trade-lending nexus is source-bank and destination-country specific. If we break up the sample, the role of the trade variable diminished during the postcrisis (Table 4). However, the opposite is true when we examine different lender-and borrower-specific cases (Tables 5 and 6).
It is also clear that the institutional variables have, in general, assumed greater importance over time in explaining bank lending to East Asia from the OECD banks. Yet, we find the three major groups of lenders to be influenced by different institutional factors. The U.S. and U.K. banks are more concerned with bureaucratic quality, whereas the Japanese banks seem more sensitive to legal risk. In particular, we find lending activities in Indonesia and Thailand during the postcrisis period to have increasingly been determined by the two institutional risk factors.
Only in the case of the distance variable do we have relatively more conclusive findings demonstrating that geographical proximity played a significant role in explaining lending of the OECD banks to East Asia during the precrisis period, but not during the postcrisis. The increasingly decentralized decision-making processes of OECD banks have very likely contributed to this phenomenon. Furthermore, the results suggest that there is a decline in the importance of information costs between the two subperiods.
It is therefore safe to conclude that the characteristics and determinants of bank lending from the OECD to East Asia are predominantly lender and borrower specific. Moreover, we find shifts in the significance of the determinants during the pre-1997 crisis period and the postcrisis era, reflecting changes in the nature and business of international bank lending.
V. Concluding Remarks
Despite record-breaking performances in their stock markets during recent years, the banking sector remains a critical part of the financial system in the nine East Asian countries studied in this paper. With most of these countries opening their capital accounts and liberalizing their banking sectors in the late 1980s, foreign banks have been an important source of financing. This paper extends early research on the factors affecting foreign lending by examining the determinants of lending by OECD banks to East Asia both before and after the Asian financial crisis.
Our study finds a number of push and pull determinants of the lending of the OECD banks to the East Asian countries. The results also suggest that political instability and weaknesses in the legal, judicial, and bureaucratic systems help explain the continued stagnation in lending after the financial crisis. Thus, institutional reforms are critical for East Asia to successfully compete for international bank financing. Lastly, our analyses have also shown that the characteristics and determinants of bank lending from the developed world to East Asia are largely lender and borrower specific. Therefore, it is essential for future research to examine lender and borrower groups individually across different periods to gain more insight into the driving forces of international banking activities and hence, policy measures that are needed to encourage and manage them.
|Annual bank lending of source OECD countries’ banks to East Asian borrower economies (normalized by the countries’ gross domestic products)||The World Bank’s World Development Indicators database and the Bank for International Settlement database|
|distij||The geographical distance (in kilometers) between the economic centers of a lender country and a borrower economy||Jon Haveman’s International Trade Data web-site (http://www.macalester.edu/research/economics/PAGE/HAVEMAN/Trade.Resources/TradeData.html)|
|Bilateral imports of goods between OECD and East Asian economies||The World Bank database|
|CARi,t||Asset-weighted average of the total capital adequacy ratios of the major source banks in each OECD country||Bankscope database|
|frj,t||Index of financial risk ranges from 0 to 50. A higher index associates with a lesser financial risk. The risk includes factors such as external debt (over GDP), foreign debt service (as a percentage of exports of goods and services), the current account (as a percentage of exports), net international liquidity (months of import coverage), and exchange rate stability||The International Country Risk Guide of the PRS group|
|loj,t||Index of law and order ranges from 1 to 6; a higher index implies a stronger legal system||The International Country Risk Guide of the PRS group|
|bqj,t||Index of bureaucratic quality ranges from 0 to 4; A higher index implies a better overall bureaucracy||The International Country Risk Guide of the PRS group|
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Acemoglu, D., S.Johnson, J.A.Robinson, and Y.Thaicharoen,2003, “Institutional Causes, Macroeconomic Symptoms: Volatility, Crises and Growth,” Journal of Monetary Economics, Vol. 50, No. 1, pp. 49–123.
Anderson, J., and E.van Wincoop,2003, “Gravity with Gravitas: A Solution to the Border Puzzle,” American Economic Review, Vol. 93, No. 1, pp. 170–92.
Arellano, M., and S.Bond,1991, “Some Tests of Specification for Panel Data: Monte Carlo Evidence and an Application to Employment Equations,” The Review of Economic Studies, Vol. 58, No. 2, pp. 277–97.
Ariyosi, A.K., others2000, “Capital Controls: Country Experiences with their Use and Liberalization,” IMF Occasional Paper 190 (Washington, International Monetary Fund).
Aviat, A., and N.Courdacier,2007, “The Geography of Trade in Goods and Asset Holdings,” Journal of International Economics, Vol. 71, No. 1, pp. 22–51.
Bank of Thailand, 2001, Bulletin of the Financial Institutions’ Service Analysis Team, Second Quarter (Bangkok, Bank of Thailand).
Bergstrand, J.H.,1985, “The Gravity Equation in International Trade: Some Microeconomic Foundations and Empirical Evidence,” The Review of Economics and Statistics, Vol. 67, No. 3, pp. 474–81.
Bhattacharya, U., and H.Daouk,2002, “The World Price of Insider Trading,” Journal of Finance, Vol. 57, No. 1, pp. 75–108.
Burger, J.D., and F.E.Warnock,2006, “Local Currency Bond Markets,” IMF Staff Papers, Vol. 53, Special Issue, pp. 115–32.
Cailloux, J., and S.Griffith-Jones,2003, “International Bank Lending and the East Asian Crisis,” in International Capital Flows in Calm and Turbulent Times: The Need for New International Architecture, ed. by S.Griffith-Jones, R.Gottschalk, and J.Cailloux (Ann Arbor, University of Michigan Press).
Cerutti, E., G.Dell’Ariccia, and M.S.Martinez-Peria,2007, “How Banks Go Abroad: Branches or Subsidiaries?” Journal of Banking and Finance, Vol. 31, No. 6, pp. 1669–1692.
Coval, J., and T.Moskowitz,1999, “Home Bias at Home: Local Equity Preference in Domestic Portfolios,” Journal of Finance, Vol. 54, No. 6, pp. 2045–73.
Coval, J., and T.Moskowitz,2001, “The Geography of Investment: Informed Trading and Asset Prices,” Journal of Political Economy, Vol. 109, No. 4, pp. 811–41.
Deardorff, A.V.,1998, “Determinants of Bilateral Trade: Does Gravity Work in a Neoclassical World?” in The Regionalization of the World Economy, ed. by Jeffrey A.Frankel (Cambridge, Massachusetts, National Bureau of Economic Research), pp. 7–22.
Diamond, D.W., and R.G.Rajan,2000a, “A Theory of Bank Capital,” Journal of Finance, Vol. 55, No. 6, pp. 2431–65.
Diamond, D.W., and R.G.Rajan,2000b, “Banks, Short-Term Debt and Financial Crises: Theory, Policy Implications and Applications,” NBER Working Paper No. 7764 (Cambridge, Massachusetts, National Bureau of Economic Research).
European Central Bank (ECB), 2004, The Euro Area Bank Lending Survey, October (Frankfurt, European Central Bank).
Feenstra, R., J.Markusen, and A.Rose,2001, “Using the Gravity Equation to Differentiate Among Alternative Theories of Trade,” Canadian Journal of Economics, Vol. 34, No. 2, pp. 430–47.
Glick, R., and A.K.Rose,2002, “Does a Currency Union Affect Trade? The Time Series Evidence,” European Economic Review, Vol. 46, No. 6, pp. 1125–51.
Grinblatt, M., and M.Keloharju,2001, “How Distance, Language and Culture Influence Stockholdings and Trades,” Journal of Finance, Vol. 56, No. 3, pp. 1053–73.
Hau, H.,2001, “Location Matters: An Examination of Trading Profits,” Journal of Finance, Vol. 56, No. 5, pp. 1959–83.
Herrero, A.G., and M.S.Martinez-Peria,2007, “The Mix of International Banks’ Foreign Claims: Determinants and Implications,” Journal of Banking and Finance, Vol. 31, No. 6, pp. 1613–31.
Im, K.Y., M.H.Pesaran, and Y.Shin,2003, “Testing for Unit Roots in Heterogeneous Panels,” Journal of Econometrics, Vol. 115, No. 1, pp. 53–74.
Jeanneau, S., and M.Micu,2002, “Determinants of International Bank Lending to Emerging Market Countries,” BIS Working Paper No. 112 (Basel, Bank for International Settlements).
Kawai, M., and L-G.Liu,2002, Determinant of International Commercial Lending to Developing Countries, (unpublished; Tokyo, Asian Development Bank Institute).
Kishan, R.P., and T.P.Opiela,2000, “Bank Size, Bank Capital, and the Bank Lending Channel” Journal of Money, Credit and Banking, Vol. 32, No. 1, (February), pp. 121–41.
Laporta, R., F.Lopez-de-Silanes, A.Shleifer, and R.W.Vishny,1997, “Legal Determinants of External Finance,” Journal of Finance, Vol. 52, No. 3, (July), pp. 1131–50.
Leuth, E., and M.Ruiz-Arranz,2006, “A Gravity Model of Workers’ Remittances,” IMF Working Paper 06/290 (Washington, International Monetary Fund).
Levine, R.,2005, “Finance and Growth: Theory and Evidence,” in Handbook of Economic Growth, ed. by PhilippeAghion and SteveDurlauf (Amsterdam, Elsevier Science).
Lewis, K.K.,1999, “Trying to Explain the Home Bias in Equities and Consumption,” Journal of Economic Literature, Vol. 37, No. 2, pp. 571–608.
Liu, C.G.,2005, “Scaling the Great Wall: An Analysis of Foreign Banks’ Entry into China,” North Carolina Bank Institute, Vol. 9, pp. 397–18.
Lubin, D.,2002, “Bank Lending to Emerging Markets: Crossing the Border,” Discussion Paper No. 2002/61 (World Institute for Development Economics Research, United Nations University).
Martin, P., and H.Rey,2004, “Financial Super-Markets: Size Matters for Asset Trade,” Journal of International Economics, Vol. 64, No. 2, pp. 335–61.
Mathieson, D.J., and J.Roldos,2001, The Role of Foreign Banks in Emerging Markets, (unpublished; Washington, World Bank). Available via the Internet: www1.worldbank.org/finance/assets/images/Mathieson_presentation.pdf.
Ministry of Economy, Trade and Industry (METI), (2005), White Paper on International Trade, Available via the Internet: www.meti.go.jp/english/report/index.html.
Montreevat, S., and R.S.Rajan,2003, “Financial Crisis, Bank Restructuring and Foreign Bank Entry: An Analytic Case Study of Thailand,” CIES Working Paper No. 131 (Centre for International Economic Studies, School of Economics, University of Adelaide).
Morgan, D.P., R.Bertrand, and P.E.Straham,2003, “Bank Integration and State Business Cycles,” NBER Working Paper No. 9704 (Cambridge, Massachusetts, National Bureau of Economic Research).
Obstfeld, M., and K.Rogoff,2000, “The Six Major Puzzles in International Macroeconomics: Is There a Common Cause?” in NBER Macroeconomics Annual 15ed. by BenBernanke and KennethRogoff (Cambridge, Massachusetts, National Bureau of Economic Research), pp. 339–90.
Papaioannou, E.,2004, International Bank Flows: Determinants and Institutional Role, (unpublished; London Business School). Available via the Internet: www.cass.city.ac.uk/conferences/mmf2004/files/Papaioannou.pdf.
Peek, J., and E.Rosengreen,2000, “Implications of the Globalization of the Banking Sector: the Latin American Experience,” New England Economic Review, Vol. 47, September/October, pp. 45–62.
Perotti, E.C., and O.van Oijen,2001, “Privatization, Political Risk, and Stock Market Development in Emerging Economies,” Journal of International Money and Finance, Vol. 20, No. 1, pp. 43–69.
Podpiera, R.,2006, “Progress in China’s Banking Sector Reform: Has Bank Behavior Changed?” IMF Working Paper 06/71 (Washington, International Monetary Fund).
Portes, R., and H.Rey,2002, The Determinants of Cross-Border Transaction Equity Flows, (unpublished; London Business School).
Portes, R., and H.Rey, (2005), “The Determinants of Cross-Border Equity Flows,” Journal of International Economics, Vol. 65, No. 2, pp. 269–96.
Razin, A.,2002, “FDI Contribution to Capital Flows and Investment in Capacity,” NBER Working Paper No. 9204 (Cambridge, Massachusetts, National Bureau of Economic Research).
Rose, A.K.,2004, “Do We Really Know That the WTO Increases Trade?American Economic Review, Vol. 94, No. 1, pp. 98–14.
Rose, A.K., and M.M.Spiegel,2004, “A Gravity Model of Sovereign Lending: Trade Default, and Credit,” IMF Staff Papers, Vol. 51, Special Issue, pp. 50–63.
Shleifer, A., and D.Wolfenzon,2002, “Investor Protection and Equity Markets,” Journal of Financial Economic, Vol. 66, No. 1, pp. 3–27.
Wei, S-J.,2000, “How Taxing is Corruption on International Investors,” Review of Economics and Statistics, Vol. 82, No. 1, pp. 1–1.
Wei, S-J.,2001, “Local Corruption and Global Capital Flows,” in Brookings Papers on Economic Activity, Vol. 2, ed. by William C.Brainard and George L.Perry (Washington, the Brookings Institution), pp. 303–54.
Wei, S-J., and Y.Wu,2001, “Negative Alchemy? Corruption, Composition of Capital Flows, and Currency Crises,” NBER Working Paper No. 8187 (Cambridge, Massachusetts, National Bureau of Economic Research).
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Reza Siregar is a consultant economist with the IMF-Singapore Regional Training Institute, Singapore, and the School of Economics, University of Adelaide, Australia. Keen Meng Choy is an assistant professor in the Economics Division at Nanyang Technological University, Singapore. Without implicating, the authors would like to thank Joshua Greene, Sunil Sharma, Ranil Salgado, and participants at the Singapore Economic Review Conference (2007) and the SCAPE-EABER Workshop on Intra-Asia Trade and Factor Flows, National University of Singapore (2007), for their comments on early drafts of the paper. The authors are also grateful for the constructive comments provided by the anonymous referees.
The causal effect of the banking sector’s liquidity on economic growth has been well studied (Levine, 2005).
A few papers such as Jeanneau and Micu (2002), Kawai and Liu (2002), Rose and Spiegel (2004), Papaioannou (2004), and Aviat and Courdacier (2007) looked at international bank lending to emerging market economies as a whole (grouping emerging markets in East Asia with those in Latin America and Africa).
The OECD countries included in this study are Belgium, France, Italy, Japan, Netherlands, United Kingdom, and United States. The East Asian economies are China, Hong Kong, Indonesia, South Korea, Malaysia, Philippines, Singapore, Taiwan Province of China, and Thailand. The coverage of countries is dictated by the availability of data.
Interestingly, economists do not use the version of the gravity model favored by other social scientists, which involves the squared distance variable and is more faithful to its Newtonian origins.
All three rating indicators are drawn from the International Country Risk Guide of the PRS group (see Appendix).
The degree of correlation between these two variables for the whole of East Asia during the full sample period is around 0.72. For the Southeast Asian countries, the average is slightly higher; for Indonesia, it is 0.86. We opted to use the law and order index as it better explains bank lending in the regressions reported below.
Flows are estimated by the BIS as the exchange rate adjusted changes in total loans.
The weights used in the calculation of the capital adequacy ratios are the asset sizes of individual banks. The coverage of banks is constrained by what is available in the database, with the consequence that a given bank may be included in the computation in some years but not in others.
The evidence is unambiguous only for the financial risk, law and order, and bureaucratic quality variables. In the case of the other variables, the results depend on the lag length used in the Augmented Dickey-Fuller (ADF)-type regressions. Nonetheless, we should bear in mind the low power of unit root tests in panels with a relatively short time span. For the sake of brevity, the test results are not reported, but they will be made available upon request.
The scatter plots for the other explanatory variables are harder to interpret and are therefore omitted.
The use of normalized ratios should also mitigate the problem of heteroskedasticity.
A referee has brought up the point that the use of contemporaneous data on financial risk, law and order, and bureaucratic performance presumes that commercial banks knew the ratings on these variables at the time of the lending decision. But, the data we use from the International Country Risk Guide are precisely the type of information that banks rely on in practice when making loans.
Some research has shown that the imposition of capital controls (especially the 12-month holding period and restrictions on resident outward investment) had been effective in drastically reducing speculative pressures on the Malaysian ringgit. The measures have helped to increase the independence of monetary policy and limited the harmful effects of the 1997 crisis on domestic economic activity and the banking system (Ariyosi and others, 2000).
This finding is also consistent with that of Morgan, Bertrand, and Straham (2003). They reported a negative correlation between out-of-state bank share and state business volatility. Peek and Rosengreen (2000) unraveled a similar behavior for foreign banks during the Tequila crisis in Argentina, Brazil, and Mexico.
The time dummies were dropped from the postcrisis period as they turned out to be statistically insignificant. Given the importance of Japanese lending to East Asia, we also tried excluding Japanese bank loans from the subperiod regressions, but the results are qualitatively similar.
For most of the Southeast Asian economies, the initial stages of financial sector reform and the opening of the domestic economy (not only at the capital city, but also at several other large cities) to the full operations of the foreign banks took place in the early 1990s.
It is important to stress here that our test results suggest that indeed there is a decline in the importance of the “distance cost” factor, or the weight being placed on the distance variable in explaining lending of the OECD banks to East Asia during the postcrisis. However, this does not necessarily imply that the distance cost has actually subsided from the pre- to the postcrisis.
The BIS data do not discriminate between cross-border and local claims by foreign banks in bilateral lending, however. They are combined under what the BIS calls “international claims.”