A global assessment of the mixed layer in coastal sediments and implications for carbon storage

A global assessment of the mixed layer in coastal sediments and implications for carbon storage

The sediment-water interface in the coastal ocean is a highly dynamic zone controlling biogeochemical fluxes of greenhouse gases, nutrients, and metals. Processes in the sediment mixed layer (SML) control the transfer and reactivity of both particulate and dissolved matter in coastal interfaces. Her...

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Veröffentlicht in:Nature communications 2022-08, Vol.13 (1), p.4903-4903, Article 4903
Hauptverfasser: Song, Shasha, Santos, Isaac R., Yu, Huaming, Wang, Faming, Burnett, William C., Bianchi, Thomas S., Dong, Junyu, Lian, Ergang, Zhao, Bin, Mayer, Lawrence, Yao, Qingzhen, Yu, Zhigang, Xu, Bochao
Format: Artikel
Sprache:eng
Schlagworte:
704/47
704/829/827
accumulation
amazon river
burial
Carbon
Carbon sequestration
Coastal waters
continental-shelf
Degradation
deposition
depth
dynamics
Estuaries
geochronologies
Greenhouse gases
Humanities and Social Sciences
Interfaces
Lead isotopes
marine
Marine Engineering
Marinteknik
Metals
multidisciplinary
Neural networks
Nutrients
Organic carbon
Organic matter
Oxidation
Science
Science & Technology - Other Topics
Science (multidisciplinary)
Sediment-water interface
Sediments
Total organic carbon
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Zusammenfassung:The sediment-water interface in the coastal ocean is a highly dynamic zone controlling biogeochemical fluxes of greenhouse gases, nutrients, and metals. Processes in the sediment mixed layer (SML) control the transfer and reactivity of both particulate and dissolved matter in coastal interfaces. Here we map the global distribution of the coastal SML based on excess 210 Pb ( 210 Pb ex ) profiles and then use a neural network model to upscale these observations. We show that highly dynamic regions such as large estuaries have thicker SMLs than most oceanic sediments. Organic carbon preservation and SMLs are inversely related as mixing stimulates oxidation in sediments which enhances organic matter decomposition. Sites with SML thickness >60 cm usually have lower organic carbon accumulation rates (
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-022-32650-0