Journal
GEOPHYSICAL RESEARCH LETTERS
Volume 50, Issue 16, Pages -Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1029/2023GL102741
Keywords
ocean heat content; climate change; anthropogenic aerosol; greenhouse gas; anthropogenic climate signals
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Based on pattern recognition analysis, researchers have found that anthropogenic aerosols have a distinct influence on ocean heat content in specific regions and time periods, primarily in the lower latitudes of the Southern Hemisphere and over a 20-year or longer period.
During recent decades, both greenhouse gases (GHGs) and anthropogenic aerosols (AAs) drove major changes in the Earth's energy imbalance. However, their respective fingerprints in changes to ocean heat content (OHC) have been difficult to isolate and detect when global or hemispheric averages are used. Based on a pattern recognition analysis, we show that AAs drive an interhemispheric asymmetry within the 20 & DEG;-35 & DEG; latitude band in historical OHC change due to the southward shift of the atmospheric and ocean circulation system. This forced pattern is distinct from the GHG-induced pattern, which dominates the asymmetry in higher latitudes. Moreover, it is found that this significant aerosol-forced OHC trend pattern can only be captured in analyzed periods of 20 years or longer and including 1975-1990. Using these distinct spatiotemporal characteristics, we show that the fingerprint of aerosol climate forcing in ocean observations can be distinguished from both the stronger GHG-induced signals and internal variability.
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