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Complex spatio-temporal structure of the Holocene Thermal Maximum

Olivier Cartapanis, Lukas Jonkers, Paola Moffa‐Sánchez, Samuel L. Jaccard, Anne de Vernal

2022Nature Communications108 citationsDOIOpen Access PDF

Abstract

Inconsistencies between Holocene climate reconstructions and numerical model simulations question the robustness of climate models and proxy temperature records. Climate reconstructions suggest an early-middle Holocene Thermal Maximum (HTM) followed by gradual cooling, whereas climate models indicate continuous warming. This discrepancy either implies seasonal biases in proxy-based climate reconstructions, or that the climate model sensitivity to forcings and feedbacks needs to be reevaluated. Here, we analyze a global database of Holocene paleotemperature records to investigate the spatiotemporal structure of the HTM. Continental proxy records at mid and high latitudes of the Northern Hemisphere portray a "classic" HTM (8-4 ka). In contrast, marine proxy records from the same latitudes reveal an earlier HTM (11-7ka), while a clear temperature anomaly is missing in the tropics. The results indicate a heterogeneous response to climate forcing and highlight the lack of globally synchronous HTM.

Topics & Concepts

HoloceneNorthern HemisphereProxy (statistics)ClimatologyClimate modelLatitudeForcing (mathematics)Climate changePaleoclimatologyTemperature recordBefore PresentGeologySouthern HemisphereEnvironmental scienceOceanographyMachine learningGeodesyComputer scienceGeology and Paleoclimatology ResearchIsotope Analysis in EcologyPleistocene-Era Hominins and Archaeology
Complex spatio-temporal structure of the Holocene Thermal Maximum | Litcius