Labile organic matter favors a low N2O yield during nitrogen removal in estuarine sediments

Labile organic matter favors a low N2O yield during nitrogen removal in estuarine sediments

Estuary harbors the active sediment denitrification and nitrous oxide (N2O) emission, while the knowledge of environmental controls on the denitrification-derived N2O yield remains underexplored. Here, we quantitatively assess the potential and in situ rates of N2O production during sediment denitri...

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Veröffentlicht in:Marine pollution bulletin 2024-12, Vol.209 (Pt A), p.117190, Article 117190
Hauptverfasser: Tan, Ehui, Chen, Bin, Han, Lili, Zou, Wenbin, Yan, Xiuli, Huang, Zhixiong, Han, Yu, Zheng, Zhenzhen, Zheng, Liwei, Xu, Min, Yang, Jin-Yu Terence, Bao, Hongyan, Kao, Shuh-ji
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carbon
China
Climatic feedback
Denitrification
estuaries
issues and policy
Labile organic matter
marine pollution
N2O production
nitrogen
nitrous oxide
organic matter
riparian areas
rivers
Sediment
sediments
stoichiometry
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container_end_page
container_issue Pt A
container_start_page 117190
container_title Marine pollution bulletin
container_volume 209
creator Tan, Ehui
Chen, Bin
Han, Lili
Zou, Wenbin
Yan, Xiuli
Huang, Zhixiong
Han, Yu
Zheng, Zhenzhen
Zheng, Liwei
Xu, Min
Yang, Jin-Yu Terence
Bao, Hongyan
Kao, Shuh-ji
description Estuary harbors the active sediment denitrification and nitrous oxide (N2O) emission, while the knowledge of environmental controls on the denitrification-derived N2O yield remains underexplored. Here, we quantitatively assess the potential and in situ rates of N2O production during sediment denitrification in the Pearl River Estuary (PRE), China. Organic matter determines the product stoichiometry and capacity of nitrogen removal. In particular, labile organic matter (LOM) reduces N2O yield via enhancing the complete coupled nitrification-denitrification. Our results reveal that the chain processes, primary production-LOM settling-sedimentary respiration-coupled nitrification-denitrification, control the sediment denitrification and N2O production, linking the carbon and nitrogen biogeochemical cycles in the atmosphere-water column-sediment continuum. The PRE sediments serve as nitrogen removal hotspots but with low efficiency (~25 % of riverine input) and strong N2O release (~66 % of daily sea-air N2O efflux). These findings contribute to policy makers to develop knowledge-based management actions for achieving sustainable coastal environments and mitigating N2O emission. •Organic matter demetermines sediment denitrification and N2O production in subtropical estuary.•Labile organic matter reduces N2O yield via enhancing coupled nitrification-denitrification.•Estuarine sediments are nitrogen removal hotspots but with low efficiency and strong N2O release.
doi_str_mv 10.1016/j.marpolbul.2024.117190
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subjects carbon
China
Climatic feedback
Denitrification
estuaries
issues and policy
Labile organic matter
marine pollution
N2O production
nitrogen
nitrous oxide
organic matter
riparian areas
rivers
Sediment
sediments
stoichiometry
title Labile organic matter favors a low N2O yield during nitrogen removal in estuarine sediments
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