Litcius/Paper detail

Reconciling atmospheric CO <sub>2</sub> , weathering, and calcite compensation depth across the Cenozoic

Nemanja Komar, Richard E. Zeebe

2021Science Advances34 citationsDOIOpen Access PDF

Abstract

, pH, and calcite compensation depth (CCD) observational evidence and a suite of simulations, we reconcile long-term Cenozoic climate and CCD trends. We show that the CCD response was decoupled from changes in silicate and carbonate weathering rates, challenging the continental uplift hypothesis. The two dominant mechanisms for decoupling are shelf-basin carbonate burial fractionation combined with proliferation of pelagic calcifiers. The temperature effect on remineralization rates of marine organic matter also plays a critical role in controlling the carbon cycle dynamics, especially during the warmer periods of the Cenozoic.

Topics & Concepts

CenozoicWeatheringCalciteGeologyCompensation (psychology)Environmental scienceMineralogyGeochemistryPaleontologyPsychoanalysisStructural basinPsychologyMethane Hydrates and Related PhenomenaGeological and Geochemical AnalysisPaleontology and Stratigraphy of Fossils