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Shift‐contagion in energy markets and global crisis

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  • Mehdi Mili
  • Jean‐Michel Sahut
  • Frédéric Teulon

Abstract

This paper presents an analysis of shift‐contagion in energy markets, testing whether linkages between returns in energy markets increase during crisis periods. The research presented herein demonstrates how common movement between energy markets increases due to (i) shift‐contagion across energy markets, reflected by structural transmission of shocks across markets and (ii) larger common shocks operating through standard cross‐market interdependences. A regime‐switching model was developed to detect shift‐contagion across energy markets. In the approach adopted herein, the occurrence of shift‐contagion is endogenously estimated rather than being exogenously assigned. The results show that shift‐contagion has been a major feature of energy markets over the last decade. Evidence is presented which demonstrates that the linkages between energy markets do not appear to be stable. These results are remarkably accurate for forecasting Brent and natural gas for horizons for up to 50 days. Conversely, for WTI (West Texas Intermediate oil) and coal, the model performs well only for forecasting very short horizons (up to 20 days). For all products, the model shows significant biases for long horizons.

Suggested Citation

  • Mehdi Mili & Jean‐Michel Sahut & Frédéric Teulon, 2020. "Shift‐contagion in energy markets and global crisis," Journal of Forecasting, John Wiley & Sons, Ltd., vol. 39(5), pages 725-736, August.
    • Handle: RePEc:wly:jforec:v:39:y:2020:i:5:p:725-736
    DOI: 10.1002/for.2654
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