Fluvial organic carbon cycling regulated by sediment transit time and mineral protection

Repasch, Marisa; Scheingross, Joel S.; Hovius, Niels; Lupker, Maarten; Wittmann, Hella; Haghipour, Negar; Gröcke, Darren R.; Orfeo, Oscar; Eglinton, Timothy I.; Sachse, Dirk

doi:10.1038/s41561-021-00845-7

Fluvial organic carbon cycling regulated by sediment transit time and mineral protection

Repasch, Marisa; Scheingross, Joel S.; Hovius, Niels; Lupker, Maarten; Wittmann, Hella; Haghipour, Negar; Gröcke, Darren R.; Orfeo, Oscar; Eglinton, Timothy I.; Sachse, Dirk

Authors

Marisa Repasch

Joel S. Scheingross

Niels Hovius

Maarten Lupker

Hella Wittmann

Negar Haghipour

Professor Darren Grocke d.r.grocke@durham.ac.uk
Professor

Oscar Orfeo

Timothy I. Eglinton

Dirk Sachse

Abstract

Rivers transfer terrestrial organic carbon (OC) from mountains to ocean basins, playing a key role in the global carbon cycle. During fluvial transit, OC may be oxidized and emitted to the atmosphere as CO2 or preserved and transported to downstream depositional sinks. The balance between oxidation and preservation determines the amount of particulate OC (POC) that can be buried long term, but the factors regulating this balance are poorly constrained. Here, we quantify the effects of fluvial transit on POC fluxes along an ~1,300 km lowland channel with no tributaries. We show that sediment transit time and mineral protection regulate the magnitude and rate of POC oxidation, respectively. Using a simple turnover model, we estimate that annual POC oxidation is a small percentage of the POC delivered to the river. Modelling shows that lateral erosion into POC-rich floodplains can increase POC fluxes to downstream basins, thereby offsetting POC oxidation. Consequently, rivers with high channel mobility can enhance CO2 drawdown while management practices that stabilize river channels may reduce the potential for CO2 drawdown.

Citation

Repasch, M., Scheingross, J. S., Hovius, N., Lupker, M., Wittmann, H., Haghipour, N., Gröcke, D. R., Orfeo, O., Eglinton, T. I., & Sachse, D. (2021). Fluvial organic carbon cycling regulated by sediment transit time and mineral protection. Nature Geoscience, 14(11), 842-848. https://doi.org/10.1038/s41561-021-00845-7

Journal Article Type	Article
Acceptance Date	Sep 21, 2021
Online Publication Date	Oct 28, 2021
Publication Date	2021-11
Deposit Date	Dec 17, 2021
Publicly Available Date	Jan 10, 2022
Journal	Nature Geoscience
Print ISSN	1752-0894
Electronic ISSN	1752-0908
Publisher	Nature Research
Peer Reviewed	Peer Reviewed
Volume	14
Issue	11
Pages	842-848
DOI	https://doi.org/10.1038/s41561-021-00845-7
Public URL	https://durham-repository.worktribe.com/output/1219245

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