Volatility Spillovers Between Energy and Agricultural Markets: A Critical Appraisal of Theory and Practice
| dc.contributor.author | Chang, Chia-Lin | |
| dc.contributor.author | Li, Yiying | |
| dc.contributor.author | McAleer, Michael | |
| dc.date.accessioned | 2023-06-18T10:25:20Z | |
| dc.date.available | 2023-06-18T10:25:20Z | |
| dc.date.issued | 2015-06 | |
| dc.description | For financial support, the first author wishes to thank the National Science Council, Taiwan, and the third author wishes to acknowledge the Australian Research Council and the National Science Council, Taiwan. | |
| dc.description.abstract | Energy and agricultural commodities and markets have been examined extensively, albeit separately, for a number of years. In the energy literature, the returns, volatility and volatility spillovers (namely, the delayed effect of a returns shock in one asset on the subsequent volatility or covolatility in another asset), among alternative energy commodities, such as oil, gasoline and ethanol across different markets, have been analysed using a variety of univariate and multivariate models, estimation techniques, data sets, and time frequencies. A similar comment applies to the separate theoretical and empirical analysis of a wide range of agricultural commodities and markets. Given the recent interest and emphasis in bio-fuels and green energy, especially bio-ethanol, which is derived from a range of agricultural products, it is not surprising that there is a topical and developing literature on the spillovers between energy and agricultural markets. Modelling and testing spillovers between the energy and agricultural markets has typically been based on estimating multivariate conditional volatility models, specifically the BEKK and DCC models. A serious technical deficiency is that the Quasi-Maximum Likelihood Estimates (QMLE) of a full BEKK matrix, which is typically estimated in examining volatility spillover effects, has no asymptotic properties, except by assumption, so that no statistical test of volatility spillovers is possible. Some papers in the literature have used the DCC model to test for volatility spillovers. However, it is well known in the financial econometrics literature that the DCC model has no regularity conditions, and that the QMLE of the parameters of DCC has no asymptotic properties, so that there is no valid statistical testing of volatility spillovers. The purpose of the paper is to evaluate the theory and practice in testing for volatility spillovers between energy and agricultural markets using the multivariate BEKK and DCC models, and to make recommendations as to how such spillovers might be tested using valid statistical techniques. Three new definitions of volatility and covolatility spillovers are given, and the different models used in empirical applications are evaluated in terms of the new definitions and statistical criteria. | |
| dc.description.faculty | Fac. de Ciencias Económicas y Empresariales | |
| dc.description.faculty | Instituto Complutense de Análisis Económico (ICAE) | |
| dc.description.refereed | FALSE | |
| dc.description.sponsorship | National Science Council, Taiwan | |
| dc.description.sponsorship | Australian Research Council | |
| dc.description.status | unpub | |
| dc.eprint.id | https://eprints.ucm.es/id/eprint/31201 | |
| dc.identifier.issn | 2341-2356 | |
| dc.identifier.relatedurl | http://www.ucm.es/fundamentos-analisis-economico2/documentos-de-trabajo-del-icae | |
| dc.identifier.uri | https://hdl.handle.net/20.500.14352/27505 | |
| dc.issue.number | 08 | |
| dc.language.iso | eng | |
| dc.page.total | 38 | |
| dc.relation.ispartofseries | Documentos de Trabajo del Instituto Complutense de Análisis Económico (ICAE) | |
| dc.rights.accessRights | open access | |
| dc.subject.jel | C22 | |
| dc.subject.jel | C32 | |
| dc.subject.jel | C58 | |
| dc.subject.jel | G32 | |
| dc.subject.jel | O13 | |
| dc.subject.jel | Q42 | |
| dc.subject.keyword | Energy markets | |
| dc.subject.keyword | Agricultural markets | |
| dc.subject.keyword | Volatility and covolatility spillovers | |
| dc.subject.keyword | Univariate and multivariate conditional volatility models | |
| dc.subject.keyword | BEKK | |
| dc.subject.keyword | DCC | |
| dc.subject.keyword | Definitions of spillovers. | |
| dc.subject.ucm | Econometría (Economía) | |
| dc.subject.unesco | 5302 Econometría | |
| dc.title | Volatility Spillovers Between Energy and Agricultural Markets: A Critical Appraisal of Theory and Practice | |
| dc.type | technical report | |
| dc.volume.number | 2015 | |
| dcterms.references | Aielli, G.P. (2013), Dynamic conditional correlations: On properties and estimation, Journal of Business and Economic Statistics, 31, 282-299. Alghalith, M. (2010), The interaction between food prices and oil prices, Energy Economics, 32(6), 1520-1522. Algieri, B. (2014), The influence of biofuels, economic and financial factors on daily returns of commodity futures prices, Energy Policy, 69, 227-247. Amemiya, T. (1985), Advanced Econometrics, Harvard University Press, Cambridge, MA, USA. Baba, Y., R.F. Engle, D. Kraft and K.F. Kroner (1985), Multivariate simultaneous generalized ARCH. Unpublished manuscript, Department of Economics, University of California, San Diego, CA, USA. Black, F. (1976), Studies of stock market volatility changes, in Proceedings of the American Statistical Association, Business and Economic Statistics Section, Washington, DC, USA, 1976, pp. 177-181. Bollerslev, T. (1986), Generalised autoregressive conditional heteroscedasticity, Journal of Econometrics, 31, 307-327. Bollerslev, T. (1990), Modelling the coherence in short-run nominal exchange rate: A multivariate generalized ARCH approach, Review of Economics and Statistics, 72, 498-505. Bollerslev, T., R. Engle and J. Wooldridge (1988), A capital asset pricing model with time varying covariance, Journal of Political Economy, 96, 116-131. Caporin, M. and M. McAleer (2013), Ten things you should know about the dynamic conditional correlation representation, Econometrics, 1(1), 115-126. Chen, P.-Y., C.-L. Chang, C.-C. Chen and M. McAleer (2012), Modelling the effects of oil prices on global fertilizer prices and volatility, Journal of Risk and Financial Management, 5, 78-114. Comte, F. and O. Lieberman (2003), Asymptotic theory for multivariate GARCH processes, Journal of Multivariate Analysis, 84, 61-84. Du, X. and L.L. McPhail (2012), Inside the Black Box: The price linkage and transmission between energy and agricultural markets, Energy Journal, 33(2), 171-194. Engle, R.F. (1982), Autoregressive conditional heteroscedasticity with estimates of the variance of United Kingdom inflation, Econometrica 50, 987-1007. Engle, R. (2002), Dynamic conditional correlation: A simple class of multivariate generalized autoregressive conditional hereoskedasticity models, Journal of Business and Economic Statistics, 20, 339-350. Engle, R.F. and K.F. Kroner (1995), Multivariate simultaneous generalized ARCH, Econometric Theory, 11, 122-150. Gardebroek, C. and Hernandez, M.A. (2013), Do energy prices stimulate food price volatility? Examining volatility transmission between US oil, ethanol and corn markets, Energy Economics, 40, 119-129. Glosten, L.R., R. Jagannathan and D.E. Runkle (1992), On the relation between the expected value and volatility of nominal excess return on stocks, Journal of Finance, 46, 1779-1801. Hafner, C. and M. McAleer (2014), A one line derivation of DCC: Application of a vector random coefficient moving average process, Tinbergen Institute Discussion Paper 14-087, The Netherlands. Jeantheau, T. (1998), Strong consistency of estimators for multivariate ARCH models, Econometric Theory, 14, 70-86. Kawakatsu, H. (2006), Matrix exponential GARCH, Journal of Econometrics, 134, 95–128. Ling, S. and M. McAleer (2003), Asymptotic theory for a vector ARMA-GARCH model, Econometric Theory, 19, 278-308. Martinet, G, and M. McAleer (2015), On the invertibility of EGARCH(p,q), Tinbergen Institute Discussion Paper 15-022, The Netherlands. McAleer, M. (2005), Automated inference and learning in modeling financial volatility, Econometric Theory, 21(1), 232-261. McAleer, M. (2014), Asymmetry and leverage in conditional volatility models, Econometrics, 2, 145-150. McAleer, M., F. Chan, S. Hoti and O. Lieberman (2008), Generalized autoregressive conditional correlation, Econometric Theory, 24(6), 1554-1583. McAleer, M., F. Chan and D. Marinova (2007), An econometric analysis of asymmetric volatility: Theory and application to patents, Journal of Econometrics, 139(2), 259-284. McAleer, M. and C. Hafner (2014), A one line derivation of EGARCH, Econometrics, 2, 92-97. McAleer, M., S. Hoti and F. Chan (2009), Structure and asymptotic theory for multivariate asymmetric conditional volatility, Econometric Reviews, 28, 422-440. Mensi, W., S. Hammoudeh, D.K. Nguyen and S.-M. Yoon (2014), Dynamic spillovers among major energy and cereal commodity prices, Energy Economics, 43, 225-243. Nelson, D.B. (1990), ARCH models as diffusion approximations, Journal of Econometrics, 45, 7-38. Nelson, D.B. (1991), Conditional heteroskedasticity in asset returns: A new approach, Econometrica, 59, 347-370. Saucedo, A., B. Brümmer and T.J. Jaghdani (2015), The dynamic pattern of volatility spillovers between oil and agricultural markets, Scientific Paper No. 8, ULYSSES “Understanding and coping with food markets voLatilitY towards more Stable World and EU food SystEmS”, Department of Agricultural Economics and Rural Development University of Göttingen, pp. 31. Serra, T. (2011), Volatility spillovers between food and energy markets: A semiparametric approach, Energy Economics, 33(6), 1155-1164. Serra, T. and Gil, J.M. (2013), Price volatility in food markets: can stock building mitigate price fluctuations?, European Review of Agricultural Economics, 40(3), 507-528. Serra, T., D. Zilberman and J. Gil (2011), Price volatility in ethanol markets, European Review of Agricultural Economics, 38(2), 259-280. Trujillo-Barrera, A., M.L. Mallory and P. Garcia (2012), Volatility spillovers in US crude oil, ethanol and corn futures markets, Journal of Agricultural and Resource Economics, 37(2), 247-262. Tsay, R.S. (1987), Conditional heteroscedastic time series models, Journal of the American Statistical Association, 82, 590-604. Tse, Y.K. and A.K.C. Tsui (2002), A multivariate GARCH model with time-varying correlations, Journal of Business and Economic Statistics, 20, 351-362. Wu, F., Z. Guan and R.J. Myers (2011), Volatility spillover effects and cross hedging in corn and crude oil futures, Journal of Futures Markets, 31(11), 1052-1075. Wu, H. and S. Li (2013), Volatility spillovers in China’s crude oil, corn and fuel ethanol markets, Energy Policy, 62, 878-886. Zhang, Z., L. Lohr, C. Escalante and M. Wetzstein (2009), Ethanol, corn, and soybean price relations in a volatile vehicle-fuels market, Energies, 2(2), 320-339. | |
| dspace.entity.type | Publication |
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