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Interaction of Bank Funding Liquidity Risk and Market Liquidity Risk in Relation to Stock Returns - Term Paper Example

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The interaction between funding liquidity and market liquidity is worth understanding, as both interrelate to each other and reap favourable conditions…
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Interaction of Bank Funding Liquidity Risk and Market Liquidity Risk in Relation to Stock Returns
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Measurement and Interaction of Bank Funding Liquidity Risk and Market Liquidity Risk in relation to Stock Returns [Instructor’s Name] [Date] 1.0 Abstract In this paper, we study the measurement of bank Funding liquidity risk and market liquidity risk in relation to stock return. The interaction between funding liquidity and market liquidity is worth understanding, as both interrelate to each other and reap favourable conditions. The dataset pertaining to various banks operating in different parts of the world has been considered for understanding the interaction between funding liquidity risk and market liquidity risk. The data set contains information pertaining to total assets of banks, return on assets, return on equity, spreads, certificates of deposits, stock returns and Amihud index. The information contained in the dataset pertains to financial years from 2003 to 2011. First of all, a correlation analysis has been performed between Amihud index, which is representative of the market liquidity risk, and certificates of deposits for banks that represents funding liquidity risk. The correlation analysis results show that there exists a positive relationship between market liquidity risk and the volume of assets made available for trading by banks during the period under consideration. Regression analysis between certificates of deposit (dependent variable) and return on assets, Amihud index, stock returns and total assets (independent variables) has also been performed and there was an association indicated. 1.1. Introduction As far as measurement of market liquidity risk is concerned, the asset pricing model put forward by Holmstrom and Tirole (2001) can be taken into consideration. The model is aimed at measuring the liquidity risk as a commonality between the two variables, which are market liquidity and stock returns. According to Acharya and Pedersen (2005), liquidity risk can be determined with stock returns and thereby making it possible to forecast future returns in turn on the basis of current liquidity risk estimates. Furthermore, the measurement of market liquidity risk is also based on the hypothesis put forward by Amihud and Mendelson (1986), in which they stated that stock return increases with the increase in illiquidity, which is higher liquidity risk. Thus,  This positive relationship has been tested by Amihud (2002) by examining it over a period of time. The study concluded that returns on stocks represent an increasing function of the illiquidity over time, which is not only positive but a significant one. The interaction between funding liquidity and market liquidity is worth understanding and to make a contribution to the literature, as both interrelate to each other and reap favourable conditions. According to Brunnemeier and Petersen (2007), in theory there shall exist a strong relationship between funding and market liquidity risk. According to them, when banks portray as funding constraints in the market, there is a decline in the prices of assets being traded and as a result there exists a greater risk related to funding liquidity. In this paper, we also determine how certificate of deposit (dependent variable) is influenced by return on assets, Amihud index, stock returns and total assets (independent variables) by use of regression analysis. Besides, the relationship between funding liquidity and market liquidity was also studied. 1.2. Literature Review Before going ahead with the discussion relating to measurement of funding liquidity risk, it is pertinent to describe what funding liquidity is. According to the Basel Committee of Banking Supervision, funding liquidity refers to the ability of banking institutions to discharge their respective liabilities as and when they stand due (BIS, 2008). On the other hand, as per the definition of International Monetary Fund (IMF), funding liquidity is the ability of financial institutions to discharge their promises regarding payments as per the agreed terms and conditions, which are meant to be referring to time of payment (International Monetary Fund, 2008). Having considered these two versions of definition for funding liquidity, it is also worth noting here that some experts (Brunnemeier and Pedersen, 2007; Strahan, 2008) have defined liquidity from traders and investors’ perspectives, by stating that it refers to their capability and potential to raise funds in short term. In cases when banks are unable to make timely payments or traders or investors are unable to generate funds from the market, as readily as they could have, there is a situation involving funding liquidity risk. International Monetary Fund (2008) defines funding liquidity risk by stating that it is the lack of capability of a financial institution to discharge its liabilities or financial obligations in due time. Normally, funding liquidity risk emerges from availability issues pertaining to the following sources of funding liquidity: Trading of Assets; Securitization; Loan Syndication; and Obtaining loans from Secondary Market. Having considered these factors, it is not a simple task to measure funding liquidity risk. Analysts make use of a variety of funding liquidity ratios so as to determine the possibility and sources of raising funding in a given future time period. However, the measurement and forecasting of funding liquidity risk through ratios is a tiresome process and often requires complex processes and calculations. To simplify the risk measurement process for funding liquidity, Drehmann and Nikolaou (2008) have suggested a more simplistic measure for funding liquidity risk while keeping in view the central bank as the source for funding liquidity. The adjusted bid is denoted by the following expression: On the basis of this adjusted bid determination expression, Drehmann and Nikolaou (2008) then constructed a proxy for the funding liquidity risk, which is the sum of all bids made by all banks. The proxy is presented as follows: Or in other words: The review of theoretical and empirical literature pertaining to funding liquidity risk shows that increased risk associated with funding liquidity reflects an increased valuation of bids in the market, as investors and traders seek more return for higher risk assets. In order to normalize the bid price, Drehmann and Nikolaou (2008) have introduced the concept of adjusted bid, which is ultimately used in the measurement of liquidity funding risk. Having discussed funding liquidity, funding liquidity risk and its measurement, it is now relatively a simple task to describe and understand market liquidity, which in a similar manner, refers to the ability of traders to sell and/or buy assets in the market with no or little influence on its price and at lowest possible costs (Hooker & Kohn, 1994). Market liquidity relates directly to the cost of an asset in the market. It is the bid-ask spread aimed at determining the loss caused to sellers upon selling an asset in the market and purchasing it again at the same time. Another factor which relates to market liquidity is the “market depth”. Market depth is depictive of the number of units of an asset traders are willing to trade while keeping in view the existing prices, i.e. both for bid and ask, provided that no changes in the price of unit(s) take place. In this way, it is stated that when market depth is greater, prices can be moved only if orders with large quantities are placed. Lastly, market resiliency is another concept, which deals with the determination of a market’s ability to revert back in relation to the prices of units being traded (King and Wadhwani, 1990). In other words, it is reflective of the time needed for the prices to revert back to original after having declined temporarily during the trade. Market liquidity is often referred to as a systematic and non-diversifiable component of the funding liquidity risk (Keown et al, 2008). 1.2.1. Bank Funding Liquidity Risk Funding liquidity risk has played an important role in all banking crises. However, measure based on available data is indefinable. Aggressive bidding during central bank auctions shows the funding liquidity risk (Drehmann, 2010). Bank of International Settlement helps to promote stability in financial sector by analyzing the issues faced by authorities and thus enable it by setting an international standard. To carry out the banking supervision BIS has set up Basel Committee on Banking Supervision. Guidelines and standards issued by BCBS is known as Basel Accords. Till date we have three BCBS Accords known as Basel I, Basel II and Basel III. Basel III Accords manages the liquidity risk and it also helps to strengthen the capital adequacy ratio. Basel III measures the funding liquidity risk. Under Basel III the standard of minimum liquidity is based upon two ratios- Liquidity Coverage Ratio and Net Stable Funding Ratio. While the minimum requirement of LCR is used to increase the bank’s ability to survive short term liquidity crunch, on the other hand NSFR is used to uphold the flexibility for absorbing the shock in long term (Shahbaz et al, 2008). After discussing the definition and the basic concepts of bank funding liquidity risk and market liquidity risk that have played very important role in global financial crisis of 2008, it is now important to understand how to measure these. The following section discusses how to measure bank funding liquidity risk and market liquidity risk. 1.2.2. Measurement of Bank Funding Liquidity Risk Liquidity Coverage Ratio According to BCBS the liquidity coverage ratio is calculated using the following formula LCR= Stock of High Quality Liquid Assets/ Total NCO for next 30 days. LCR is required to be at least 100%. Significance- Stock of liquid asset is divided into two parts:- level one and level two assets. While level one asset are those which are highly liquid, can be used as collateral during the time of borrowing from central bank, easy to convert into cash. On the other hand level two assets are less liquid. 15% discount rate is applicable on level two assets during the time of calculating LCR (Muskawa, 2013, p.10). Net Stable Funding Ratio Significance- According to Basel III Banks should have a minimum of 100% NSFR. It comprises of equity, demand deposits and preference stock. Demand deposits can be divided into stable and less stable. Previous one can be defined as the deposit portion is expected to stay with the bank for minimum one year. Available amount of stable funding i.e. the numerator can be calculated as:- (summation of total value of each funding source held* specific factor which are prescribed for each funding source). In the equation of NFSR numerator relates to liabilities and denominator considers the assets. NSFR helps to endorse many more medium and long term funding for banks which will help the bank to survive liquidity crunch. This can be achieved by the effect of NSFR by restraining the extent to which mismatch the duration in assets and liabilities possible by a bank (Muskawa, 2013, p.11). 1.2.3 Market Liquidity Risk Market illiquidity has a positive effect on the surplus stock return of Treasury bill rate. This is responsible for the positive cross sectional relation between illiquidity and stock return. If investors expect high market illiquidity then they will price the stock in such a way that they can generate high return (Ratanapakorn and Sharma, 2007).There can be three ways to measure market liquidity. Most important measure is the bid-ask spread method which is also known as width. When bid-ask spread is low or narrow then the market tends to produce more liquidity. In this context the term depth means the ability of the market to cope up with the selling of a position and the term resiliency means the ability of the market to regain its position from temporary incorrect price position. Bid-ask spread analyzes the liquidity present in price dimension which is a feature of market. Financial models those deal with bid-ask spread is also deal with exogenous liquidity models. 1.2.4. Measurement of Market Liquidity Risk Consider the situation where ask price of a single stock is $20.40 and the bid price is $19.60. We can take the spread in percentage terms = ($20.40 - $19.60)/$20 = 4%. The spread shows the round trip cost of buying and selling the particular stock. But we only want the liquidity cost if we need to sell off our position. Then the liquidity adjustment tends to add one-half the spread that is 0.5. In case of VAR, we have to take the following formula- The feature of the seller or the seller’s position depends on the position size relative to the market. Models which are used for this method measure liquidity from the dimension of quantity and also known as endogenous liquidity models. When an asset cannot be sold then it reduces its market price and can be illegible. Market liquidity risk is generated by the interaction between buyer and seller in the market. This is known as endogenous liquidity risk. If the buyers are absent from the market place then the risk will be known as exogenous liquidity risk. If the bid-ask spread is extremely high or low then that generates the market liquidity risk. Another model to measure market liquidity risk is model based on volume or transaction data. Berkowitz has invented the transaction regression model where he estimates that past trades have an impact on liquidity price (Cook, 2007).There are other models like models based on limit order book data. Theoretical models like models based on optimal trading strategies. One important issue in market liquidity risk is to manage the market liquidity risk. Liquidity of an asset depends on the market condition. Thus an asset which near to mature and where profits come from dividend, interest rate coupon possess no risk. But certain assets tend to be liquidated in nature. Trading book is an example of liquid asset. From the point of view of risk related measures, bank liquidity funding risk is a major component of probable liquidation (Lo and MacKinlay, 1990).Financial organizations having extreme requirement for cash or cash outflows will have to liquidate some portion of its assets. Thus a proper forecast and planning of funds required and risk measurement is the main step towards solvency risk management (Humpe and Macmillan, 2009). 1.2.5. Interaction of Bank Funding Liquidity and Market Liquidity The interaction between funding liquidity and market liquidity is worth understanding, as both interrelate to each other and reap favourable conditions. According to Brunnemeier and Petersen (2007), in theory there shall exist a strong relationship between funding and market liquidity risk. According to them, when banks portray as funding constraints in the market, there is a decline in the prices of assets being traded and as a result there exists a greater risk related to funding liquidity. In such a situation, declining prices of assets will ultimately result in increased margin calls by traders, which in itself signify the increase in risk associated with funding liquidity. In order to upkeep their liquidity positions, banking institutions tend to sell more assets and such practices lead to decline in the prices of assets and even more higher margin calls in the market. This interaction between funding liquidity and market liquidity risks play a significant role in stimulating a situation of financial crisis on a larger canvas. Keeping in view the lack of empirical evidences in this regard, Drehmann and Nikolaou (2008) conducted an empirical investigation to determine the impact of interactions between funding liquidity risk and market liquidity risk. For this purpose, the researchers investigated the relationship between liquidity risk proxy and an index used by the European Central Bank in 2008 as a representative of market liquidity. The empirical investigation revealed that when market liquidity risk was higher, the funding liquidity risk was also following an increasing trend on the graph, thus implying a positive and direct relationship between the two types of liquidity risks. This relationship can be put in a different manner by stating that funding liquidity risk is negatively related to the market liquidity index, that is to say when market liquidity increases, funding liquidity risk is on a declining side and when there is a decline in the market liquidity (index), the risk associated with funding liquidity increases (Avramov et al, 2006). 1.3. Data and Methodology In this paper, a dataset pertaining to various banks operating in different parts of the world has been considered for understanding the interaction between funding liquidity risk and market liquidity risk. The data set contains information pertaining to total assets of banks, return on assets, return on equity, spreads, certificates of deposits, stock returns and Amihud index. The information contained in the dataset pertains to financial years from 2003 to 2011. First of all, a correlation analysis has been performed between Amihud index, which is representative of the market liquidity risk, and certificates of deposits for banks as funding liquidity risk. Regression analysis between the variables included in dataset was also performed. In this regard, following regression analysis assumes Amihud index as the dependent variable and certificates of deposit as independent variable. Regression analysis between certificates of deposit (dependent variable) and return on assets, Amihud index, stock returns and total assets (independent variables) was also performed. 1.4. Results The results of the correlation analysis have been presented in the table as follows: Correlations cds Amihud_index cds Pearson Correlation 1 .081** Sig. (2-tailed)   .000 N 2013 2013 Amihud_index Pearson Correlation .081** 1 Sig. (2-tailed) .000   N 2013 2013 **. Correlation is significant at the 0.01 level (2-tailed). The results presented above from correlation analysis show that there exists a positive relationship between market liquidity risk and the volume of assets made available for trading by banks during the period under consideration. The positive relationship is depicted by the coefficient value of 0.081 between the two variables. Apart from this, it is also pertinent to note above that there exists a significant 2 - tailed correlation between Amihud index and volume of assets available or included in trading by the banks. Apart from this, regression analysis between the variables included in dataset has also been performed to understand how funding and market liquidity risks interact with each other. In this regard, following regression analysis assumes Amihud index as the dependent variable and certificates of deposit as independent variable. These considerations of variables imply that volume of assets traded in the market and market liquidity risk (index) are interrelated through regression analysis. The model used for this purpose, does not show satisfactory result since the value of R square is too small to represent variations in the data. However, the relationship between two variables is concluded to be positive and a significant one, as indicated by positive values for coefficient and p value, which is less than 0.05. Model Summary Model R R Square Adjusted R Square Std. Error of the Estimate 1 .081a .007 .006 .0032988 a. Predictors: (Constant), cds ANOVA b Model Sum of Squares D f Mean Square F Sig. 1 Regression .000 1 .000 13.207 .000a Residual .022 2011 .000     Total .022 2012       a. Predictors: (Constant), cds b. Dependent Variable: Amihud_index Coefficients a Model Unstandardized Coefficients Standardized Coefficients t Sig. B Std. Error Beta 1 (Constant) .001 .000   16.962 .000 cds .000 .000 .081 3.634 .000 a. Dependent Variable: Amihud_index Similarly, a regression analysis between certificates of deposit (dependent variable) and return on assets, Amihud index, stock returns and total assets (independent variables) has also been performed as follows: Model Summary Model R R Square Adjusted R Square Std. Error of the Estimate 1 .303a .092 .090 394.5449474 a. Predictors: (Constant), roa, Amihud_index, Stock_return_monthly, totalasset ANOVA b Model Sum of Squares df Mean Square F Sig. 1 Regression 30954361.861 4 7738590.465 49.713 .000a Residual 306350128.139 1968 155665.716     Total 337304490.001 1972       a. Predictors: (Constant), roa, Amihud_index, Stock_return_monthly, totalasset b. Dependent Variable: cds Coefficients a Model Unstandardized Coefficients Standardized Coefficients t Sig. B Std. Error Beta 1 (Constant) 255.700 12.810   19.962 .000 Amihud_index 14768.582 2871.979 .119 5.142 .000 Stock_return_monthly -93.201 15.568 -.129 -5.987 .000 totalasset .000 .000 -.132 -5.647 .000 roa -40.319 3.799 -.230 -10.613 .000 a. Dependent Variable: cds Similar to previous regression analysis, the model used in this case is also unsatisfactory because it does not provide explanation of variations in data, as indicated by the R square value of 9.2 %. In addition, the values of coefficients represent the nature of relationships independent variables have with dependent variables. As for instance, there is a positive relationship between volume (certificates of deposit) and Amihud index (coefficient value = 14768.582), a negative relationship between volume (certificates of deposit) and stock returns (coefficient value = - 93.201), a positive relationship between volume (certificates of deposit) and total assets (coefficient value = 0.00) and a negative relationship between volume (certificates of deposit) and return on assets (coefficient value = - 40.319). In addition to this, it can also be noted that there exists a significant relationship in each case, as for instance, for each of the independent variable in the above table, the p value has been determined as lower than 0.05. Following scatterplots reflect these results in a graphical illustration form: Figure 1: Scatter Plot – Certificates of Deposit vs Amihud Index Figure 2: Scatter Plot – Certificates of Deposit vs Stock Returns Monthly Figure 3: Scatter Plot – Certificates of Deposit vs Total Assets Figure 4: Scatter Plot – Certificates of Deposit vs Return on Assets 1.4.1. Monthly Stock Return It means the average return of stock in month. It has relationship with Bid-ask spread. Bid Ask spread is the difference between the bid and offer rate stated by a dealer who participates in the market and bridge the gap between buying and selling. Bid ask spread can be viewed in a way that a dealer demands a price to provide more liquidity in the market. Over the long term monthly stock return is not much variable (Keown et al, 2008). Presentation of Result 1.4.2.Interpretations of findings From the above graph we can see that percentage of monthly stock return is very fluctuating. It was maximum at 0.8% in 2009 and minimum at -0.6% in 2008 which can also be considered as global financial crisis triggered from liquidity. 1.5. Conclusion The results presented above from correlation analysis show that there exists a positive relationship between market liquidity risk and the volume of assets made available for trading by banks during the period under consideration. This is in line with Drehmann and Nikolaou (2008) who conducted an empirical investigation to determine the impact of interactions between funding liquidity risk and market liquidity risk. They revealed that when market liquidity risk was higher, the funding liquidity risk was also higher following an increasing trend on the graph, thus implying a positive and direct relationship between the two types of liquidity risks. According to Brunnemeier and Petersen (2007), in theory there shall exist a strong relationship between funding and market liquidity risk. According to them, when banks portray as funding constraints in the market, there is a decline in the prices of assets being traded and as a result there exists a greater risk related to funding liquidity. This is true basing on this study findings where there is a strong correlation between the funding and market liquidity risk. The financial market volatility in 2007 and 2008 led to most serious financial crisis since there were in great depression and threatens present in the market (Wang et al, 2009).The outburst of housing bubble influences the banks to write down its several billion dollars as bad loans. Similarly major shares of some major banks decline more than twice. From the above study of bank funding liquidity risk and market liquidity risk, it can be concluded that sudden explosive increase in mortgage is due to decline in prices of housing estate. It was one of the main reasons for such a liquidity cruch in 2007 that continued till 2009 (Bonfim, 2009). This crisis was closely related to bank liquidity crisis. The main effect of the crisis is that it causes liquidity crisis and many banks and financial institutions have faced obligations in their operations (Brunnermeier, 2009, p.98). 1.6. Reference Acharya, V., & Pedersen, H. (2005). Asset Pricing with Liquidity Risk. Journal of Financial Economics, 77, 375-410. Amihud, Y. (2002). Illiquidity and stock returns: Cross-section and Time-series Effects. Journal of Financial Markets, 5, 31-56. Amihud, Y., & Mendelson, H. (1986). Asset pricing and the bid–ask spread. Journal of Financial Economics, 17, 223-249. Avramov, D., T. Chordia, and A. Goyal, 2006. Liquidity and autocorrelations in individual stock returns. Journal of Finance 47, 427-486. BIS. (2008). Liquidity Risk: Management and Supervisory Challenges. Basel Committee on Banking Supervision. Bonfim, D., 2009. Credit risk drivers: Evaluating the contribution of firm level information and of macroeconomic dynamics. Journal of Banking and Finance 33, 281-299. Brunnermeier, M., & Pedersen, H. L. (2007). Market Liquidity and Funding Liquidity. The Review of Financial Studies. Cook, S. (2007), Threshold adjustment in the long-run relationship between stock prices and economic activity,Applied Financial Economics Letters, 3:4, 243 – 246. Drehmanna, M., & Nikolaou, K. (2008). Funding Liquidity Risk: Definition and Measurement. Munich: Deutsche Bundesbank. Holmstrom, B., & Tirole, J. (2001). LAPM - A Liquidity Based Asset Pricing Model. Journal of Finance, 56(5). Hooker, M. A., & Kohn, M. (1994). An empirical measure of asset liquidity. Hanover: Dartmouth College. Humpe, A. and Macmillan, P. (2009), Can macroeconomic variables explain long-term stock market movements? A comparison of the US and Japan, Applied Financial Economics, 19:2,111 -19. International Monetary Fund. (2008). Global Financial Stability Report. New York: Internation Monetary Fund. Keown, A.J., J.D. Martin, and J.W. Petty, 2008. Foundations of Finance (Pearson Prentice Hall, Upper saddle River, NJ). Keown, A.J., J.D. Martin, and J.W. Petty, 2008. Foundations of Finance (Pearson Prentice Hall, Uppersaddle River, NJ). King, M.A. and S. Wadhwani, 1990. Transmission of volatility between stock markets. Review of Financial Studies 3, 5-33. Lo, A.W. and A.C. MacKinlay, 1990. When are contrarian profits due to stock market overreaction? Review of Financial Studies 3, 175-206. Muskawa, T., 2013.Measuring Bank Funding Liquidity Risk. [online]. Available at: http://www.actuaries.org/lyon2013/papers/AFIR_Musakwa.pdf. [Accessed on November 28,2013]. Ratanapakorn, O. and Sharma, S. C. (2007), Dynamic analysis between the US stock returns and the macroeconomic variables, Applied Financial Economics, 17:5,369-377. Shahbaz, M., Ahmed, N., and Ali, L. (2008), Stock market development and economic growth: Ardl Causality in Pakistan, Journal of Finance and Economics, 14, pp. 182-195. Strahan, P. (2008). Liquidity Production in the 21st Century. NBER Working Paper 13798. Wang, J., G. Meric, Z. Liu, and I. Meric, 2009. Stock market crashes, firm characteristics, and stock returns. Journal of Banking and Finance 33, 1563-1574. Read More
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