Do green energy markets catch cold when conventional energy markets sneeze?

This study analyzes the interconnectedness between conventional and green energy markets in terms of daily returns and volatility through a time and frequency connectedness perspective. Comparing conventional energy indicators like the S&P 500 Energy (ENERGY), S&P Global Oil Index (GOI), and...

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Bibliographic Details
Published in:Energy economics Vol. 127; p. 107035
Main Authors: Rao, Amar, Lucey, Brian, Kumar, Satish, Lim, Weng Marc
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2023
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Summary:This study analyzes the interconnectedness between conventional and green energy markets in terms of daily returns and volatility through a time and frequency connectedness perspective. Comparing conventional energy indicators like the S&P 500 Energy (ENERGY), S&P Global Oil Index (GOI), and Dow Jones Conventional Electricity Index (CEI) to green energy benchmarks such as the S&P Global Clean Energy Index (GCEI) and the S&P/TSX Renewable Energy and Clean Technology Index (RECTI), the findings highlight the heightened sensitivity of daily returns and volatility to shocks, especially at extreme quantiles, in the time domain. On the frequency spectrum, the connectedness patterns of conventional and green energy indices' daily returns and volatility to shocks vary, exhibiting fluctuating roles between transmission and reception. The dynamic connectedness highlights the interconnectedness between conventional and green energy markets. These findings underscore the need for risk management strategies and resilient investment approaches in energy markets. •Examined the quantile-based time and frequency connectedness between conventional and green energy markets.•Higher volatilities at extreme quantiles (0.05 and 0.95) in energy markets.•ENERGY dominates as the transmitter in the short-term range of 1 to 5 days.•In the long term, ENERGY transitions into a net receiver of shocks, while CEI acts as a net transmitter.
ISSN:0140-9883
1873-6181
DOI:10.1016/j.eneco.2023.107035