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Efecto derrame del mercado internacional en las economías latinoamericanas: los casos de Chile, Brasil, Colombia y México

Resumen

En esta investigación se evalúan los efectos del desbordamiento y la volatilidad generados por los precios del petróleo, el gas y el carbón sobre la actividad industrial de  las economías de Chile, Brasil, Colombia y México, usando la metodología propuesta por Diebold y Yilmaz (2012), que se caracteriza por el uso de vectores autorregresivos generalizados, donde la descomposición de la varianza no varía según el orden de las variables, midiendo así los efectos de contagio de la volatilidad total y direccional. Los resultados muestran que estas industrias reciben el derrame financiero de los mercados de materias primas, ocasionado por las fluctuaciones de los precios del petróleo y carbón y, además, se comportan como transmisoras del derrame que producen las oscilaciones de los precios del gas. Por otro lado, se halló que meses previos a la crisis económica del 2008, las cuatro industrias y dichos productos aumentaron el efecto derrame y la volatilidad.

Palabras clave

efecto derrame; precios del petróleo; precios del carbón; precios del gas; crecimiento económico;

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Referencias

1. Ahmed, S. (2003). Sources of economic fluctuations in Latin America and implications for choice of exchange rate regimes. Journal of Development Economics, 72(1), 181-202.

2. Almoguera, P.A., Douglas, C.C. & Herrera, A.M. (2011). Testing for the cartel in OPEC: noncooperative collusion or just noncooperative? Oxf. Rev. Econ. Policy, 27(1), 144-168.

3. Amano, A. (1990). Energy prices and CO2 emissions in the 1990s. Journal of Policy Modeling, 12(3), 495-510.

4. Andrews, D. & Rees, D. (2009). Macroeconomic volatility and terms of trade shocks. Research Discussion Paper. Reserve Bank of Australia (RBA).

5. Arteaga, C., Granados, J. & Joya, J. O. (2013). Determinantes de los precios internacionales de los bienes básicos. Ensayos sobre Política Económica, 31(71), 85-107.

6. Ayres, R.U. & Warr, B. (2010). The economic growth engine: how energy and work drive material prosperity. Edward Elgar Publishing.

7. Balke, N. S., Brown, S. & Yücel, M. (2002). Oil price shocks and the U.S. economy: Where does the asymmetry originate? Energy Journal, International Association for Energy Economics, 23(3), 27-52. https://www.jstor.org/stable/41322962?seq=1#page_scan_tab_contents

8. Becker, K.G., Finnerty, J.E. & Friedman, J. (1995). Economic news and equity market linkages between the U.S. and U.K. J. Bank. Financ., 19, 1191–1210. http://dx.doi.org/101016/0378-4266(94)00079-I.

9. Bekaert, G., Ehrmann, M., Fratzscher, M., & Mehl, A. (2014). The global crisis and equity market contagion. The Journal of Finance, 69(6), 2597-2649.

10. Bekaert, G., Engstrom, E., & Xing, Y. (2009). Risk, uncertainty, and asset prices. Journal of Financial Economics, 91(1), 59-82.

11. Bekaert, G., Harvey, C. R., & Lundblad, C. (2005). Does financial liberalization spur growth? Journal of Financial Economics, 77(1), 3-55.

12. Ben-Zeev, N., Pappa, E., & Vicondoa, A. (2016). Emerging economies business cycles: the role of the terms of trade revisited. Ben-Gurion University of the Negev, (1610).

13. Berk, I., & Yetkiner, H. (2014). Energy prices and economic growth in the long run: Theory and evidence. Renewable and Sustainable Energy Reviews, 36, 228-235.

14. Bernanke, B. S. (1983). Irreversibility, uncertainty, and cyclical investment. Journal of Economics, 98, 85-106.

15. Bernanke, B. S., Boivin, J., & Eliasz, P. (2005). Measuring the effects of monetary policy: a factor-augmented vector autoregressive (FAVAR) approach. The Quarterly Journal of Economics, 120(1), 387-422.

16. Birol, F. & Keppler, J.H. (2000). Prices, technology development and the rebound effect. Energy Policy, 28, 457–469.

17. Boug, P., Cappelen, A., & Swensen, A. R. (2016). Modelling OPEC behaviour. Theory and evidence. Discussion Papers, (843).

18. Brémond, V., Hache, E., & Mignon, V. (2012). Does OPEC still exist as a cartel? An empirical investigation. Energy Economics, 34(1), 125-131.

19. Bretschger, L. (2015). Energy prices, growth, and the channels in between: Theory and evidence. Resource and Energy Economics, 39, 29-52.

20. Broda, C. (2004). Terms of trade and exchange rate regimes in developing countries. Journal of International economics, 63(1), 31-58.

21. Cairns, R. D., & Calfucura, E. (2012). OPEC: Market failure or power failure? Energy Policy, 50, 570-580.

22. Candelo, M. (2018). Impactos indirectos de la tasa de cambio y los precios del petróleo en una economía no petrolera: aproximaciones VECM y VAR para el Valle del Cauca, Colombia. Finanzas y Política Económica, 10(2), 403–436. https://doi.org/10.14718/revfinanzpolitecon.2018.10.2.9

23. Castillo, P. & Salas, J. (2010). Los términos de intercambio como impulsores de fluctuaciones económicas en economías en desarrollo: estudio empírico. Centro de Estudios Monetarios Latinoamericanos.

24. Central Intelligence Agency (2017). The World Factbook. https://www.cia.gov/library/publications/the-world-factbook/rankorder/2241rank.html

25. Charnavoki, V., & Dolado, J. J. (2014). The effects of global shocks on small commodity-exporting economies: lessons from Canada. American Economic Journal: Macroeconomics, 6(2), 207-237.

26. Chen, G., Firth, M. & Rui, O.M. (2002). Stock market linkages: evidence from Latin America. J. Bank. Financ. 26, 1113–1141. http://dx.doi.org/10.1016/S0378- 4266(01)00160-1.

27. Colgan, J. D. (2014). The emperor has no clothes: The limits of OPEC in the global oil market. International Organization, 68(3), 599-632.

28. Davis, S. J. y Haltiwanger, J. (2001). Sectoral job creation and destruction responses to oil price changes.

29. Diebold, F. X. & Yilmaz, K. (2012). Better to give than to receive: Predictive directional measurement of volatility spillovers. International Journal of Forecasting, 28(1), 57-66.

30. Ehrmann, M., Fratzscher, M. & Rigobon, R. (2011). Stocks, bonds, money markets and exchange rates: measuring international financial transmission. J. Appl. Econ. 26, 948–974. http://dx.doi.org/10.1002/jae.1173.

31. Fei, Q., & Rasiah, R. (2014). Electricity consumption, technological innovation, economic growth and energy prices: does energy export dependency and development levels matter? Energy Procedia, 61, 1142-1145.

32. Fernández, A., González, A. & Rodríguez, D. (2015). Sharing a ride on the commodities roller coaster: Common factors in business cycles of emerging economies. Banco de la República, (014054).

33. Fernández-Serranoa, J. & Sosvilla-Rivero, S. (2003). Modelling the linkages between US and Latin American stock markets. Appl. Econ. 35, 1423–1434. http://dx.doi.org/10 1080/0003684032000100409

34. Finn, M. (2000). Perfect competition and the effects of energy price increases on economic activity. J Money Credit Bank, 32, 400–416.

35. Fondo Monetario Internacional. (2008). Housing and the business cycle. World Economic Outlook, (08).

36. Gómez, C. (2015). Más allá de un boom de recursos naturales: efectos de los choques petroleros en la economía colombiana. https://ideas.repec.org/p/col/000089/012565.html

37. Gómez‐González, J. E., Hirs‐Garzón, J. & Uribe, J. M. (2020). Giving and receiving: Exploring the predictive causality between oil prices and exchange rates. International Finance. http://dx.doi.org/10.1111/infi.12354

38. González, S. & Hernández, E. (2016). Impactos indirectos de los precios del petróleo en el crecimiento económico colombiano. Lecturas de Economía, 84, 103-141.

39. Griffin J. M. (1985). OPEC behavior: a test of alternative hypothesis. Am. Econ. Rev., 75(5), 954-962.

40. Gülen, S. G. (1996). Is OPEC a cartel? Evidence from cointegration and causality tests. The Energy Journal, 43-57.

41. Hamilton, J. D. (1983). Oil and the macroeconomy since World War II. The Journal of Political Economy, 91(2), 228-248.

42. Hamilton, J. D. (2003). What is an oil shock? Journal of Econometrics, 113(2), 363-398.

43. He, Y.X., Zhang, S.L., Liu, S., Tao, W.J. & Wang, Y.J. (2009). Analysis on impact of electricity price adjustment in China based on input–output method. Journal of North China Electric Power University, 2, 94-99.

44. Hernández, G. (2013). Colombia: Términos de intercambio y fluctuaciones de la producción. Revista Cepal, (110), 109-131.

45. Huppmann, D., & Holz, F. (2012). Crude oil market power—a shift in recent years? The Energy Journal, 1-22

46. IMF. (2013). Spillover report—analytical underpinnings and other background. IMF Spillover Report.

47. Izquierdo, A., Romero, R., & Talvi, E. (2008). Booms and busts in Latin America: the role of external factors. Banco Interamericano de Desarrollo, (631), 1- 31.

48. Jayasuriya, S. (2011). Stock market correlations between China and its emerging market neighbors. Emerg. Mark. Rev. 12, 418–431. http://dx.doi.org/10.1016/j.ememar.2011.06.005.

49. Jenkins, R. O. (2011). The "China effect" on commodity prices and Latin American export earnings. CEPAL Review, (103), 73- 87.

50. Jones, C. T. (1990). OPEC behaviour under falling prices: implications for cartel stability. The Energy Journal, 117-129

51. Karagedikli, O., & Price, G. (2012). Identifying terms of trade shocks and their transmission to the New Zealand economy. In New Zealand Association of Economists Conference 1- 25.

52. Kilian, L. & Vigfusson, R. (2011). Are the responses of the U.S. Economy asymmetric in energy price increases and decreases? Michigan University. http://wwwpersonal.umich.edu/~lkilian/kvsubmission.pdf

53. Kisswani, K. M. (2016). Does OPEC act as a cartel? Empirical investigation of coordination behavior. Energy Policy, 97, 171-180.

54. Koop, G., Pesaran, M.H. & Potter, S.M. (1996). Impulse response analysis in nonlinear multivariate models. J. Econom. 74, 119–147. https://doi.org/10.1016/

55. Kose, M. A. & Riezman, R. G. (1999). Trade shocks and macroeconomic fluctuations in Africa. Working Paper 203. Center for Economic Studies & Institute for Economic Research.

56. Kümmel, R., Ayres, R.U. & Lindenberger, D. (2010). Thermodynamic laws, economic methods and the productive power of energy. J Non-Equilib Thermodyn, 35,1–26.

57. Lee, K., Ni, S. & Ratti, R. A. (1995). Oil shocks and macroeconomy: The role of price variability. The Energy Journal, (4), 39-56.

58. Li, K., & Lin, B. (2014). The nonlinear impacts of industrial structure on China's energy intensity. Energy, 69, 258-265.

59. Lin, B.Q. & Mou, D.G. (2008). The impact of energy price increases on macro-economy: an analyses based on CGE method. Economic Research, 11, 88-101.

60. Mendoza, E. G. (1995). The terms of trade, the real exchange rate, and economic fluctuations. International Economic Review, 36(1), 101-137.

61. Mendoza, O. & Vera, D. (2010). The asymmetric effects of oil shocks on an oil-exporting Economy. Cuadernos de Economía, 47(135), 3-13.

62. Misas, M. & Ripoll, M. (1993). El ahorro privado y los términos de intercambio: el caso colombiano. Ensayos sobre política económica. Banco de la República, (23), 37-54.

63. Observatorio de Complejidad Económica Mundial –OEC-. (2017a). Perfil económico de la economía chilena. https://oec.world/es/profile/country/chl/

64. Observatorio de Complejidad Económica Mundial –OEC-. (2017b). Perfil económico de la economía colombiana. https://oec.world/es/profile/country/col/

65. Oficina Económica y Comercial de España en Brasil. (2016). Informe económico y comercial Brasil. ICEX.

66. Okullo, S. J. & Reynès, F. (2016). Imperfect cartelization in OPEC. Energy Economics, 60, 333-344.

67. Ortiz, C. H. (2016). Diversificación productiva y crecimiento económico. Programa Editorial Universidad del Valle.

68. Oviedo, A. F. & Sierra, L. P. (2019). Importancia de los términos de intercambio en la economía colombiana. Revista Cepal, (128), 125-154.

69. Oviedo-Gómez A. F. & Candelo-Viáfara, M. (2020). Mining and energy commodity price effects on colombian economic. Cuadernos de Administración, 36(67).

70. Pagan, J. & Soydemir, G. (2000). On the linkages between equity markets in Latin America. Appl Econ. Lett. 7. http://dx.doi.org/10.1080/135048500351816, 207-2010.

71. Peña, C. (2008). Choques petroleros, incertidumbre e inversión privada. Venezuela, 1968-2007. Perfil de Coyuntura Económica, (11), 51-74.

72. Peña, C. (2015). Desempleo, inversión y términos de intercambio. Venezuela 1970-2012. Perfil de Coyuntura Económica, (25), 141-163.

73. Perilla, J. R. (2010). Descomposición sectorial y dinámica del impacto de los precios del petróleo sobre el crecimiento económico en Colombia. Archivos de Economía 006446. Departamento Nacional de Planeación.

74. Pesaran, M. H. & Shin, Y. (1998). Generalized impulse response analysis in linear multivariate models. Econ. Lett. 58, 17–29. https://doi.org/10.1016/S0165-1765(97)00214-0.

75. Pindyck, R. S. (1991). Irreversibility, uncertainty, and investment. Journal of Economic Literature, 29, 1110-1148.

76. Poncela, P., Senra, E. & Sierra, L. P. (2016). Long-term links between raw materials prices, real exchange rate and relative de-industrialization in a commodity-dependent economy: empirical evidence of “Dutch disease” in Colombia. Empirical Economics, 52(2), 777-798.

77. Schmitt-Grohé, S. & Uribe, M. (2015). How important are terms of trade shocks? NBER Working Paper, N.° 21253. National Bureau of Economic Research (NBER).

78. Sims, C. A. (1980). Macroeconomics and reality. Econometrica, 48, 1.

79. Smith, J. L. (2005). Inscrutable OPEC? Behavioral tests of the cartel hypothesis. The Energy Journal, 51-82.

80. Smith, J. L. (2009). World oil: market or mayhem? Journal of Economic Perspectives, 23(3), 145-64.

81. Spatafora, N. & Warner, A. M. (1999). Macroeconomic and sectorial effects of terms-of-trade shocks: the experience of the oil-exporting developing countries. IMF.

82. Spilimbergo, A. (2001). Testing the hypothesis of collusive behavior among OPEC members. Energy Economics, 23(3), 339-353.

83. Tokarick, S. (1995). External shocks, the real exchange rate and tax policy. IMF Staff Papers, 42, 49-79

84. Uribe, J. & Ulloa, I. (2011). Otro país exportador neto de petróleo y sus reacciones macroeconómicas ante cambios del precio: Colombia. Documentos de trabajo, 140. Universidad del Valle. http://cms.univalle.edu.co/socioeconomia/media/ckfinder/files/DOCUMENTO%20DE%20TRABAJO%20CIDSE%20N%C2%B0%20140.pdf

85. Valadkhani, A. & Babacan, A. (2014). Modelling how much extra motorists pay on the road? A cross-sectional study of profit margins of unleaded petrol in Australia. Energy Policy, 69, 179-188.

86. Wing, I. S. (2008). Explaining the declining energy intensity of the US economy. Resour Energy Econ, 30, 21–49.

87. Yuan, J. H., Kang, J. G., Zhao, C. H., & Hu, Z. G. (2008). Energy consumption and economic growth: evidence from China at both aggregated and disaggregated levels. Energy Economics, 30(6), 3077-3094.

88. Zhang, Y. G. (2006). Potential effects of electricity price change on industrial structure: empirical analysis from different angles. Journal of North China Electric Power University (Social Sciences), 4, 36-41.

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