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The composition and weathering of the continents over geologic time

Title: The composition and weathering of the continents over geologic time
Authors: Lipp, AG; Shorttle, O; Sperling, EA; Brocks, JJ; Cole, DB; Crockford, PW; Del Mouro, L; Dewing, K; Dornbos, SQ; Emmings, JF; Farrell, UC; Jarrett, A; Johnson, BW; Kabanov, P; Keller, CB; Kunzmann, M; Miller, AJ; Mills, NT; O’Connell, B; Peters, SE; Planavsky, NJ; Ritzer, SR; Schoepfer, SD; Wilby, PR; Yang, J
Publisher Information: European Association of Geochemistry; //doi.org/10.7185/geochemlet.2109
Publication Year: 2021
Collection: Apollo - University of Cambridge Repository
Subject Terms: 37 Earth Sciences; 3703 Geochemistry
Description: The composition of continental crust records the balance between construction by tectonics and destruction by physical and chemical erosion. Quantitative constraints on how igneous addition and chemical weathering have modified the continents’ bulk composition are essential for understanding the evolution of geodynamics and climate. Using novel data-analytic techniques we have extracted temporal trends in sediments’ protolith composition and weathering intensity from the largest available compilation of sedimentary major-element compositions: ∼ 15,000 samples from 4.0 Ga to the present. We find that the average Archean upper continental crust was silica rich and had a similar compositional diversity to modern continents. This is consistent with an early-Archean, or earlier, onset of plate tectonics. In the Archean, chemical weathering sequestered ∼ 25 % more CO2 per mass eroded for the same weathering intensity than in subsequent time periods, consistent with carbon mass-balance despite higher Archean outgassing rates and more limited continental exposure. Since 2.0 Ga, over long (> 0.5 Ga) timescales, crustal weathering intensity has remained relatively constant. On shorter timescales over the Phanerozoic, weathering intensity is correlated to global climate state, consistent with a weathering feedback acting in response to changes in CO2 sources or sinks.
Document Type: article in journal/newspaper
File Description: application/pdf
Language: English
Relation: https://www.repository.cam.ac.uk/handle/1810/317201
DOI: 10.17863/CAM.64314
Availability: https://www.repository.cam.ac.uk/handle/1810/317201; https://doi.org/10.17863/CAM.64314
Rights: Attribution-NonCommercial-NoDerivatives 4.0 International ; https://creativecommons.org/licenses/by-nc-nd/4.0/
Accession Number: edsbas.F0D4C98
Database: BASE