High rates of rock organic carbon oxidation sustained as Andean sediment transits the Amazon foreland-floodplain

This is a Preprint and has not been peer reviewed. The published version of this Preprint is available: https://doi.org/10.1073/pnas.2306343120. This is version 3 of this Preprint.

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Authors

Mathieu Dellinger , Robert G Hilton, Mark Albert Torres , Emily I Burt, J. Jotautas Baronas , Kasey E Clark, Valier Galy, Adan Julian Ccahuana Quispe, A. Joshua West 

Abstract

The oxidation of organic carbon contained within sedimentary rocks (“petrogenic” carbon, or hereafter OCpetro) emits nearly as much CO2 as is released by volcanism, thereby playing a key role in the long-term global C budget. High erosion rates in mountains have been shown to increase OCpetro oxidation. However, these settings also export un-weathered material that may continue to react in downstream floodplains. The relative importance of OCpetro oxidation in mountains versus floodplains remains difficult to assess as disparate methods have been used in the different environments. Here, we investigate the sources and fluxes of rhenium (Re) in the Rio Madre de Dios to quantify OCpetro oxidation from the Andes to the Amazon floodplains using a common approach. Dissolved rhenium concentrations (n=131) range from 0.01 to 63 pmol.L-1 and vary depending on lithology and geomorphic setting. We find that >75% of the dissolved Re derives from OCpetro oxidation and that this proportion increases downstream. We estimate that in the Andes, OCpetro oxidation releases 11.2+4.5/-2.8 tC km-2 yr-1 of CO2, which corresponds to ~41% of the total OCpetro denudation (sum of oxidized and solid OCpetro). A Re mass balance across the Rio Madre de Dios shows that 46% of OCpetro oxidation takes place in the Andes, 14% in the foreland-lowlands, and 40% in the Andean-fed floodplains. This doubling of OCpetro oxidation flux downstream of the Andes demonstrates that, when present, floodplains can greatly increase OCpetro oxidation and CO2 release.

DOI

https://doi.org/10.31223/X5Z39J

Subjects

Biogeochemistry, Geochemistry

Keywords

Carbon cycle, weathering, Rivers, Amazon, Andes, organic carbon

Dates

Published: 2023-07-18 03:26

Last Updated: 2023-10-02 08:35

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License

CC BY Attribution 4.0 International