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Rivers, chemical weathering and Earth's climate

Authors:	Bernard Dupr Cline Dessert Priscia Oliva Yves Goddris Jrme Viers Louis Franois Romain Millot Jrme Gaillardet

Institution:	^a LMTG OMP, UPS–CNRS–IRD, UMR 5563, 38, rue des Trente-Six-Ponts, 31400, Toulouse, France;^b Université de Liège, 17, allée du Six-Août, 4000, Liège, Belgium;^c LGC IPGP, 4, place Jussieu, 75252, Paris cedex 05, France

Abstract:	We detail the results of recent studies describing and quantifying the large-scale chemical weathering of the main types of continental silicate rocks: granites and basalts. These studies aim at establishing chemical weathering laws for these two lithologies, describing the dependence of chemical weathering on environmental parameters, such as climate and mechanical erosion. As shown within this contribution, such mathematical laws are of primary importance for numerical models calculating the evolution of the partial pressure of atmospheric CO₂ and the Earth climate at geological timescales. The major results can be summarized as follow: (1) weathering of continental basaltic lithologies accounts for about 30% of the total consumption of atmospheric CO₂ through weathering of continental silicate rocks. This is related to their high weatherability (about eight times greater than the granite weatherability); (2) a simple weathering law has been established for basaltic lithologies, giving the consumption of atmospheric CO₂ as a function of regional continental runoff, and mean annual regional temperature; (3) no such simple weathering law can be proposed for granitic lithologies, since the effect of temperature can only be identified for regions displaying high continental runoff; (4) a general law relating mechanical erosion and chemical weathering has been validated on small and large catchments. The consequences of these major advances on the climatic evolution of the Earth are discussed. Particularly, the impacts of the onset of the Deccan trapps and the Himalayan orogeny on the global carbon cycle are reinvestigated. *To cite this article: B. Dupré et al., C. R. Geoscience 335 (2003).*

Keywords:	river chemical and physical weathering CO₂ cycle Earth climate Deccan trapps Himalayasriviè res alté ration é rosion cycle du CO₂ climat de la Terre trapps du Deccan Himalaya
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