Physical inconsistencies in the representation of the ocean heat-carbon nexus in simple climate models

The Ocean Heat-Carbon Nexus, linking ocean heat and carbon uptake, is crucial for understanding climate responses to cumulative carbon dioxide (CO 2 ) emissions and to net zero CO 2 emissions. It results from a suite of processes involving the exchange of heat and carbon across the sea-air interface...

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Bibliographic Details
Published in:Communications earth & environment 2024-06, Vol.5 (1), p.291-10, Article 291
Main Authors: Séférian, Roland, Bossy, Thomas, Gasser, Thomas, Nichols, Zebedee, Dorheim, Kalyn, Su, Xuanming, Tsutsui, Junichi, Santana-Falcón, Yeray
Format: Article
Language:English
Subjects:
Assessments
Carbon cycle
Carbon dioxide
Carbon dioxide emissions
Climate models
Continental interfaces, environment
Emission
Emissions
Environmental assessment
ENVIRONMENTAL SCIENCES
Heat
Heat exchange
Intergovernmental Panel on Climate Change
Ocean models
Ocean, Atmosphere
Representations
Sciences of the Universe
Translation
Working groups
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Summary:The Ocean Heat-Carbon Nexus, linking ocean heat and carbon uptake, is crucial for understanding climate responses to cumulative carbon dioxide (CO 2 ) emissions and to net zero CO 2 emissions. It results from a suite of processes involving the exchange of heat and carbon across the sea-air interface as well as their storage below the mixed layer and redistribution by the ocean large-scale circulation. The Ocean Heat and Carbon Nexus is assumed to be consistently represented across two modelling platforms used in the latest IPCC assessments: the Earth System Models (ESMs) and the Simple Climate Models (SCMs). However, our research shows significant deficiencies in state-of-the-art SCMs in replicating the ocean heat-carbon nexus of ESMs due to a crude treatment of the ocean thermal and carbon cycle coupling. With one SCM, we show that a more realistic heat-to-carbon uptake ratio exacerbates the projected warming by 0.1  °C in low overshoot scenarios and up to 0.2  °C in high overshoot scenarios. It is therefore critical to explore how SCMs’ physical inconsistencies, such as the representation of the ocean heat-carbon nexus, can affect future warming projections used in climate assessments, not just by SCMs in Working Group 3 but also by ESMs in Working Group 1 via SCM-driven emission-to-concentration translation.
ISSN:2662-4435
2662-4435
DOI:10.1038/s43247-024-01464-x