Description: In "A pronounced spike in ocean productivity triggered by the Chicxulub impact" we study the combined effect of sulfate aerosols, carbon dioxide and dust on the oceans and the marine biosphere after the Chicxulub impact using simulations with a climate model including ocean biogeochemistry. The data presented here is the model output the results of this manuscript are based on. Additionally, the figures of the publication and scripts (Python) to analyse the model output and generate the figures are contained. The model output is provided in different netcdf files. The structure of the model output is explained in a readme file. The data is generated using the coupled ocean-atmosphere model CLIMBER-3α+C which models climate globally on a 3.75° x 3.75° (ocean) and 22.5° (longitude) x 7.5° (latitude) (atmosphere) grid. More information about the model can be found in the manuscript and the README of this data publication.
Global identifier:
Doi(
"10.5880/PIK.2020.008",
)
Tags: Staub ? Sulfat ? Kombinationswirkung ? Ozeanversauerung ? Geografische Koordinaten ? Kohlendioxid ? Klimamodell ? Studie ? Meeresgewässer ? Atmosphäre ? Daten ? Kühlung ? Klimadaten ? Chicxulub impact ? EARTH SCIENCE > CLIMATE INDICATORS > PALEOCLIMATE INDICATORS > MASS EXTINCTIONS ? EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > BIOGEOCHEMICAL CYCLES ? EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > PH ? EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > STABLE ISOTOPES ? EARTH SCIENCE > PALEOCLIMATE ? EARTH SCIENCE SERVICES > MODELS > COUPLED CLIMATE MODELS ? coupled ocean-atmosphere model ? delta13C ? end-Cretaceous mass extinction ? ocean biogeochemistry model ? strong changes in ocean productivity ?
License: cc-by/4.0
Language: Englisch/English
Issued: 2021-01-01
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