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Analysis of the Association between Bank Credit and Economic Growth

Document Type : پژوهشی

Authors

1 tarbiat modares

2 Buali Sina

3 Iran University of Medical Scince

Abstract

Introduction
Financial markets development is one of the major factors in economic growth. According to the literature, financial section could affect economic growth in two ways: enhancing resource allocation and hastening technology development. This study pin out the first way, i.e., the resource allocation. To this end, this study tries to get an optimized credit allocation between oil-related and non-oil sections.
Iran’s agriculture part is one of the areas that can have an important effect on the growth of country’s economy. Concerning this, variables that can increase value added agriculture have been concentrated on and the government is supporting them. One of these policies is granting loanable facilities from specialist banks to the agriculture part, which was in the specialist banks agendum during recent years.
This study divides GDP to oil-GDP and non-oil GDP and uses GDP growth as a proxy to economic growth. After recognition of the importance of bank credit through optimizing credit allocation between oil and non-oil sections, it turns to clarify the issue in the subsection. Results show that bank credits are more efficient in non-oil section and also the agriculture subsection.
Theoretical Framework
Greenwood and Jovanovic (1990) developed a theoretical model to find that the impact of financial development on economic growth is dependent on the transitional cycles in the economy. Austrian-based credit cycle theories (Hayek, 1933, 1935; von Mises, 1912) and capital-based macroeconomics (Cochran, Call, & Glahe, 1999; Garrison, 2001) generally argue that financial development and credit expansion, especially through money creation, may cause overinvestment problems that lead to unsustainable economic growth. The economic growth, especially in small oil basted economies may experience larger fluctuations according to the credit boom explanation of the business cycle (White, 2006). Thus, the relation between financial development and economic growth in small natural resource-based economies is a non-trivial question and yet to be empirically investigated.
Several empirical studies, using macro and industry-level data, have concluded that the development of financial intermediation has a significantly positive effect on economic growth. King and Levine (1993) provided the most comprehensive empirical work where using cross-sectional data from 80 countries. They found a positive relationship between bank credit and economic growth. Efficient allocation of funds through financial institutions leads to economic growth. Other studies including Levine and Zervos (1998), Levine (1998), and Beck and Levine (2003) found similar results. Eschenbach (2004) reviewed the majority of empirical studies and concluded that the direction of causality between financial development and growth varies across countries, regions and even variables employed by these studies.
Methodology
Bayesian model averaging (BMA) is an empirical tool to deal with model uncertainty in various milieus of applied science. In general, BMA is employed when there exists a variety of models which may all be statistically reasonable but the most likely result in different conclusions about the key questions of interest to the researcher. As Raftery (1995, p. 113) noted, in this situation, the standard approach of selecting a single model and basing inference on it underestimates uncertainty about quantities of interest because it ignores uncertainty about model form." Typically, though not always, BMA focuses on which regressors to include in the analysis. The allure of BMA is that one can quickly determine models, or more specifically, sets of explanatory variables, which possess high likelihoods. By averaging across a large set of models, one can determine those variables which are relevant to the data generating process for a given set of priors used in the analysis. Each model (a set of variables) receives a weight and the final estimates are constructed as a weighted average of the parameter estimates from each of the models. BMA includes all of the variables within the analysis, but shrinks the impact of certain variables towards zero through the model weights. These weights are the key feature for estimation via BMA and will depend upon a number of key features of the averaging exercise including the choice of prior specified. These difficulties made us to apply Bayesian Model Selection (BMS) to conquer BMA model problems. BMS uses the Markov Chain Monte Carlo (MCMC) samplers to gather results on the most important part of the posterior distribution.
The MCMC sampler randomly draws a candidate model and then moves to this model if its marginal likelihood is superior to the marginal likelihood of the current model. In this algorithm, the number of times each model is kept will converge to the distribution of posterior model probabilities. There are two different MCMC samplers to look at models within the model space. These two methods differ in the way they propose candidate models. The first method is called the birth-death sampler. In this case, one of the potential regressors is randomly chosen; if the chosen variable is already in the current model Mi, then the candidate model Mj will have the same set of covariates as Mi but drop the chosen variable. If the chosen covariate is not contained in Mi, then the candidate model will contain all the variables from Mi plus the chosen covariate; hence, the appearance (birth) or disappearance (death) of the chosen variable depends on if it already appears in the model. The second approach is called the reversible-jump sampler. This sampler draws a candidate model by the birth-death method with 50% probability and with 50% probability the candidate model randomly drops one covariate with respect to Mi and randomly adds one random variable from the potential covariates that were not included in model Mi.
Results & Discussion
After decomposing true prior to several economic sections, it is turned out that non-oil section of Iran’s economy has the potential to have more growth than oil related section and also from the non-oil sections, that is, the agriculture and industrial sub-sections , the agriculture sub-section was optimizing the credit resources more efficiently than the industrial one. This study also determines 5 models, accompanied by the highest posterior probability, that place in Occam's window and Lucas-Uzawa approach is determined as the most possible growth model to the Iran’s economy.
Conclusion & Suggestions
The main conclusion of this study highlights the agriculture subsection and the non-oil economic section for having better responses to bank credits and showing more growth. Our conclusion was based on a quasi-Bayesian approach because of the lack of the degree of freedom; in adition to the regression that was implemented just for the economy of Iran. Therefore, future studies, to conquer the lack of the degree of freedom, could apply a panel model among resource-based economies and survey the role of financial development, specifically bank credits.

Keywords

References
[1]Abonori, A. and Teymori, M. (2013). The effect of financial development on economic growth: Comparison between OECD countries and UMI. Journal of economic growth and development; 3(11): 29-40 (In Persian)
[2]Adeniyia O, Oyinlolaa A, Omisakinb O, Egwaikhide F.O (2016). Financial development and economic growth in Nigeria: Evidence from threshold modeling. Economic Analysis and Policy 47(6): 11–21.
[3]Akimov, A., & Dollery, B. (2007). Financial systemreform in Kazakhstan from1993 to 2006 and its socioeconomic effects. EmergingMarkets Finance and Trade, 44, 81–97.
[4]Amini.SH, Parmeter.C.F, (2011). BAYESIAN MODEL AVERAGING. Department of Economics, Virginia Polytechnic Institute and State University.
[5]Amir azodi, A. and Mohamadi, H. (2010). Analysis of the effects of monetary and fiscal policy variables on the agricultural sector. Journal of Economic Policy; 18(53): 45-58 (In Persian)
[6]Asari,A. Naseri, A. and Aghaee, M. (2007). Financial Development and Economic Growth: A comparable OPEC oil countries and non-oil developing countries, using GMM. Journal of Economic research; 8(82): 141-162 (In Persian)
[7]Asadi, Z. and Bahrami, J. (2013). Impact of resource curse phenomenon on financial development and economic growth, a dynamic panel model. Journal of economic growth and development; 3(10): 9-26(In Persian).
[8]Bakwena, M., Bodman, P., & Sandy, S. (2008). Making abundant natural resources work for developing economies: The role of financial institutions. MRG Discussion Paper No. 2108, Macroeconomic Research Group. Australia: University of Queensland.
[9] Bakwena, M., & Bodman, P. (2010). The role of financial development in natural resource abundant economies: Does the nature of the resource matter? Botswana Journal of Economics, 7(1), 16–31.
[10]Beck, T., Levine, R., & Loayza, N. (2000). Finance and the sources of growth. Journal of Financial Economics, 58, 261–300.
[11]Beck, T., & Levine, R. (2003). Stock markets, banks, and growth: Panel evidence. Journal of Banking and Finance, 28, 423–442.
[12]Beck, T. (2009). The econometrics of finance and growth. In Terence Mills, & Kerry Patterson (Eds.), Palgrave Handbook of Econometrics, Vol. 2, : PalgraveMacmillan.
[13]Beck, T. (2011). Finance and oil: Is there a resource curse in financial development? Unpublished working paper, International Monetary Fund, Washington, D.C.
[14]Bekaert, G., & Harvey, C. (1998). Capital markets: An engine for economic growth. The Brown Journal of World Affairs, 5, 33–53.
[15]Calderon, C., & Liu, L. (2002). The direction of causality between financial development and economic growth. Central Bank of Chile, Working Papers N° 184 (October).
[16]Carlin, B.P. and Chib, S. (1995). Bayesian Model Choice via Markov Chain Monte Carlo. J. Roy. Statist. Soc., Ser. B 57, 473–484.
[17]Christopoulos, D., & Tsionas, E. (2004). Financial development and economic growth: Evidence from panel unit root and co-integration tests. Journal of Development Economics, 73, 55–74.
[18]Dawson, P. J. (2003). Financial development and growth in economies in transition. Applied Economics Letters, 10, 833–836.
[19]Eicher, T. S., Papageorgiou, C. & Raftery, A. E. (2011). Default priors and predictive performance in Bayesian model averaging with application to growth determinants. Journal of Applied Econometrics 26, 30:55.
[20]Eschenbach, F. (2004). Finance and growth: A survey of the theoretical and empirical literature. Tinbergen Institute Discussion Papers 04-039/2. Tinbergen Institute.
[21]Fahim, F. and Falihi,N. (2001). Monetary and financial policy impacts on the industry in the past 25 years. Journal of Economic; 2(8): 199-217..
[22]Fink, G., Haiss, P., & Vuksic, G. (2004). Contribution of financial market segments at different stages of development: Transition, cohesion and mature economies compared. Journal of Financial Stability; 5, 431–455.
[23]Fink, G., Haiss, P., & Mantler, H. C. (2005). The finance–growth nexus: Market economies vs. transition countries. EI Working Paper Nr. 64 (February).
[24]Figini.S & Giudici.P, (2013). Credit risk predictions with Bayesian model Averaging. Department of Economics and Management. ISSN: 2281-1346.
[25]Gelman.A & Shalizi.C.R, (2012). Philosophy and the practice of Bayesian statistics. British Journal of Mathematical and Statistical Psychology.
[26]Geweke, Jhon, (2003 & 2005). Contemporary Bayesian Econometrics and Statistics. Departments of Economics and Statistics University of Iowa, Wiley Series in Probability and Statistics. A JOHN WILEY & SONS, INC., PUBLICATION.
[27]George, E., Foster, D.P., (2000). Calibration and Empirical Bayes variable selection, Biometrika, 87, 4, 731-747.
[28]Green, P. (1995). Reversible JumpMarkov ChainMonte Carlo Computation and Bayesian Model Determination. Biometrika 82, 711–732.
[29]Greenwood, J., & Jovanovic, B. (1990). Financial development, growth, and the distribution of income. The Journal of Political Economy, 98, 1076–1107.
[30]Hanson.T.E, Branscum.A.J, Johnson.W.O, (2013). Informative g-Priors for Logistic Regression. Department of Statistics, University of South Carolina, Columbia.
[31]Hasanov.F and Huseynov.F, (2013). Bank credits and non-oil economic growth: Evidence from Azerbaijan. ELSEVIER, International Review of Economics and Finance 27 (3): 597–610.
[32]Hayek, F. A. (1933). Monetary theory and the trade cycle. Clifton, NJ: Augustus M. Kelley (Original German 1929).
[33]Jeffreys, H. (1946). An invariant form for the prior probability in estimation problems. Proceedings of the Royal Society of London Series A, 196, 453-461.
[34] Jeffreys. H. (1961). The Theory of Probability (3 ed.). Oxford. p. 432
[35]Johnstone, I.M., and Silverman, B.W. (2004). Needles and straw in haystacks: empirical Bayes estimates of possibly sparse sequence. The Annals of Statistics, 32, 1594-1649.
[36]King, R. G., & Levine, R. (1993). Finance, entrepreneurship, and growth: Theory and evidence. Journal of Monetary Economics, 32, 513–542.
[37]Kumar R.R, Stauvermannb P.J, Loganathan N , Kumar R.D, (2015). Exploring the role of energy, trade and financial development in explaining economic growth in South Africa: A revisit. Renewable and Sustainable Energy Reviews; 52(4): 1300-131.
[38]Ley, E. & Steel, M. (2009). On the effect of prior assumptions in Bayesian model averaging with applications to growth regression. Journal of Applied Econometrics 24(4), 651:674.
[39]Levine, R., & Zervos, S. (1998). Stock markets, banks, and economic growth. American Economic Review, 82, 942–963.
[40]Levine, R. (1998). The legal environment, banks, and long run economic growth. Journal of Money, Credit, and Banking, 30, 596–613.
[41]Levine, R. (2005). Finance and economic growth: Theory and evidence. In P. Aghion, & S. Durlauf (Eds.), Handbook of Economic Growth. The Netherlands: Elsevier Science.
[42]Liang, F., Paulo, R., Molina, G., Clyde, M. A., and Berger, J. O. (2008). Mixtures of g-priors for Bayesian variable selection. Journal of the American Statistical Association, 103(481):410–423.
[43]Mankiw, N. G. (2007), Macroeconomics, 6 th Ed Worth Poblishers, PP. 271-358.
[44]Masten, B. A., Coricelli, F., & Masten, I. (2007). Non-linear growth effects of financial development: Does financial integration matter? Journal of International Money and Finance, 27, 295–313.
[45]Monsef, A. Torki, L. and Alavi, J. (2013). Analysis of the effect of financial development on economic growth in D8 countries: Panel Granger causality bootstrap approach. Journal of economic growth and development; 3(10): 73-92(In Persian)
[46]Naderan, E. (2004). Effects of credit policy on value added of industry. Quarterly Economic Essays; 1(1):9-41(In Persian)
[47]Naderi, M. (2003). Financial development, financial crisis and economic growth. Journal of Economic; 4(15): 37-62. (In Persian)
[48]Nazifi, F. (2003). Financial development and economic growth in Iran. Journal of Economic; 5(14): 97-130. (In Persian)
[49]Nili, M., & Rastad, M. (2007). Addressing the growth failure of the oil economies: The role of financial development. The Quarterly Review of Economics and Finance, 46, 726–740.
[50]Pindyck, R, S. (1979). Interfile Substitution and the Industrial Demand for Energy: An International Comparison. The Review of Economics and Statistics. 61, 161-179.
[51]Pindyck, R.S, (1979). The Structure of World Energy Demand. MIT Press, No.22,PP:309-317.
[52]Ploeg, F. V. (2011). Nature resources: Curse or blessing? Journal of Economic Literature, 49, 366–420.
[53]Rafindadi A.A, Ozturk I (2015). Effects of financial development, economic growth and trade on electricity consumption: Evidence from post-Fukushima Japan. Renewable and Sustainable Energy Reviews 54(10): 1073–1084
[54]Robert.C.P, (2007). The Bayesian Choice. Springer, 75775 Paris codex 16.
[55]Rodriguez, F. (2006). The anarchy of numbers: Understanding the evidence on Venezuelan economic growth. Canadian Journal of Development Studies, 27, 503–529.
[56]Romer, P.M. (1994). The Origins of Endogenous Growth. Journal of Economic Perspectives, 8(1), PP. 3-22.
[57]Romer, P. M. (1990). Endogenous technological change. Journal of Political Economy, 98(5), 71-102.
[58]Salahuddina M, Gowb J, Ozturkd I (2016). Is the long-run relationship between economic growth, electricity consumption, carbon dioxide emissions and financial development in Gulf Cooperation Council Countries robust? Renewable and Sustainable Energy Reviews 2015(6): 317–326.
[59]Sameti,M. Ranjbar, H. and Hematzade, M. (2012). Assessing the impact of financial development on economic growth under asymmetric information (case studies of selected countries, developed and developing. Journal of economic growth and development; 3(9): 25-40
[60]Samsami,H. and Amirjan, R. (2011). Effects of credit on industry and mining sector. Journal of Economic Policy; 19(59): 129-150. (In Persian)
[61]Schumpeter, J. A. (1934). The Theory of Economic Development. Cambridge: Harvard University Press.
[62]Seyfipor,R. (2001). The effect of credit on growth of value added in industry. Journal of Economic; 1(3): 43-70. (In Persian)
[63]Shakibaee, A.R. and Ahmadlo, M. (2011). The relationship between energy consumption and economic growth in Iran Subdivision: vector error correction approach. Journal of Energy Economics; 8(30): 181-203. (In Persian).
[64]Shahbazi, K. and Saeedpor, L. (2013). Threshold effects of financial development on economic growth in D8. Journal of economic growth and development; 3(12): 21-38. (In Persian)
[65]Sims.Z.H, 1990. Nine Variable Probabillistic Macroeconomic Forecasting Model. Econometrica, 58, pp.113-144.
[66]Snowdon, B, Vane, H. and Wynarczyk, P. (1995). A Modern Guide to Macroeconomics: An Introduction to Competing Schools of Thought. Edward Elgar Publishing.
[67]Stiglitz.J, 1988. Money, Credit and Business Fluctuation. Economic Record.
[68]Taghavi, M. Bagheri, S.H. Mohajeri, P. (2011). The presence of a structural break in the relationship between financial development and economic growth And derive the optimal amount of credit provided to the private sector. Journal of economic growth and development; 2(4): 37-54. (In Persian)
[69]Thießen, U. (2005). Banking crises, regulation and growth: the case of Russia. Applied Economics, 37, 2191–2203.
[70]Zellner, A. (1983). Applications of Bayesian analysis in econometrics. The Statistician, 32, 23–34.
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Monetary & Financial Economics
Volume 22, Issue 10 - Serial Number 10
January 2016
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  • Receive Date: 15 November 2014
  • Accept Date: 15 November 2014
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