What does this research mean for the field?

Green bonds provide significant but unstable de-risking benefits for clean energy stocks that falter during severe macroeconomic and geopolitical turmoil, while climate change concerns do not materially impact the de-risking properties of conventional bonds. Novelty: ClaimNovelty.INCREMENTAL. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This research aims to analyze how inflation expectations and climate concerns affect the U.S. green stock-bond nexus compared to traditional investments.

March 18, 2026Open Access

Inflation Expectations and Climate Concerns in the U.S. Green versus Traditional Stock–Bond Nexus: A De-risking Analysis

Key Points

This research aims to analyze how inflation expectations and climate concerns affect the U.S. green stock-bond nexus compared to traditional investments.
Employ C-vine copulas to model dependence between clean energy stocks and green bonds.
Condition analysis on inflation expectations and climate change concerns.
Quantify de-risking capacity of green bonds under varying macroeconomic conditions.
Assess risk-reduction properties of conventional bonds in traditional portfolios.
Green bonds offered significant de-risking benefits for clean energy stocks until late 2021.
De-risking advantages were particularly notable during the early COVID-19 pandemic.
The benefits declined sharply during the Russia-Ukraine conflict due to inflation and geopolitical tensions.
Climate change concerns did not significantly affect conventional bonds' de-risking properties.

Abstract

This study examines how inflation expectations and climate change concerns influence the U.S. green stock-bond nexus compared to the traditional nexus, with a focus on the risk-mitigation role of green bonds in portfolios that combine clean energy stocks and green debt. We first employ C-vine copulas to model the dependence structure between clean energy stocks and green bonds, explicitly conditioning on inflation expectations and climate change concerns to isolate their individual effects. We then quantify the de-risking capacity of green bonds under diverse macroeconomic and environmental conditions using a measure based on expected shortfall differences. To provide comparative insight, we assess the risk-reduction properties of U.S. conventional bonds in traditional stock-bond portfolios, highlighting differences between green and conventional market segments. Our empirical findings reveal that green bonds provided significant de-risking benefits for clean energy stocks until late 2021, especially during the early stages of the COVID-19 pandemic. This benefit declined sharply with the onset of the Russia-Ukraine conflict, due to rising inflationary pressures and increased geopolitical tensions. These results underscore the conditional and context-dependent nature of green bonds’ defensive attributes, which are effective under normal market conditions but falter during severe macroeconomic and geopolitical turmoil. Climate change concerns do not materially influence the de-risking properties of conventional bonds, suggesting that climate-related risks have limited impact on the co-movement between U.S. conventional equity and bond markets. • Examine the de-risking potential of (green) bonds for (clean) energy equities • Use C-vine copulas to model the (green) stock-bond dependence • The dependence is conditioned on inflation and climate change concerns • De-risking role of green bonds for clean energy equities is noticed but unstable • Climate change concerns do not impact the de-risking role of conventional bonds

Inflation Expectations and Climate Concerns in the U.S. Green versus Traditional Stock–Bond Nexus: A De-risking Analysis

Key Points

Abstract

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