Quantile connectedness and network among Green bonds, Renewable Energy, and G7 sustainability markets
Date
2024
Authors
Mensi, W.
Gubareva, M.
Adekoya, O.B.
Kang, S.H.
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Journal article
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Renewable Energy, 2024; 231:1-13
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Abstract
This paper examines the quantile spillovers and interconnectedness between green bonds, renewable energy, and the G7 sustainability markets under extreme market conditions. It reaches beyond the widely employed studies based in the mean values of variables by resorting to the advanced quantile vector auto-regression methodology. The results show that the overall connectedness is stronger during extreme, either bearish or bullish market situations, than during normal market conditions. Furthermore, we show that all sustainability markets, except Japan, are the net transmitters of shocks, while all the green bonds are the net receivers.
Moreover, we document that spillovers vary significantly over time and that extreme market conditions reduce the net spillover influences. The relative tail dependence analysis shows that the connectedness at the lower quantile relatively dominates the connectedness at the upper quantile. Finally, the total spillovers are higher at the extremes than at the median quantile, whereas the periods of major crises are associated with unusually high connectedness, as consistent with the literature on contagion effects.
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Copyright 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies.