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Dataset of Phanerozoic continental climate and Köppen–Geiger climate classes

Alexandre Pohl, Thomas W. Wong Hearing, Alain Franc, Pierre Sepulchre, Christopher R. Scotese

2022Data in Brief15 citationsDOIOpen Access PDF

Abstract

This article describes a suite of global climate model output files that provide continental climatic conditions (monthly temperatures, precipitation, evaporation, precipitation minus evaporation balance, runoff) together with the calculated Köppen–Geiger climate classes and topography, for 28 evenly spaced time slices through the Phanerozoic (Cambrian to Quaternary, 540 Ma to 0 Ma). Climatic variables were simulated with the Fast Ocean Atmosphere Model (FOAM), using a recent set of open-access continental reconstructions with paleotopography and recent atmospheric CO2 and solar luminosity estimates. FOAM is a general circulation model frequently used in paleoclimate studies, especially in the Palaeozoic. Köppen–Geiger climate classes were calculated based on simulated temperature and precipitation fields using Wong Hearing et al.’s [1] implementation of Peel et al.’s [2] updated classification. This dataset provides a unique window onto changing continental climate throughout the Phanerozoic that accounts for the simultaneous evolution of paleogeography (continental configuration and topography), atmospheric composition and greenhouse gas forcing, and solar luminosity.

Topics & Concepts

PhanerozoicPaleoclimatologyClimate changeGeologyClimatologyPrecipitationQuaternaryClimate modelPaleontologyEnvironmental scienceAtmospheric sciencesMeteorologyCenozoicOceanographyGeographyStructural basinGeology and Paleoclimatology ResearchPaleontology and Stratigraphy of FossilsGeological and Geochemical Analysis
Dataset of Phanerozoic continental climate and Köppen–Geiger climate classes | Litcius