Shifts in the spatiotemporal distribution and sources of nitrous oxide in sediment cores from the Bohai Sea and South Yellow Sea

N2O is among the most potent greenhouse gases. In this study, we investigated one of the important N2O production hotspots, the continental margins. We looked at N2O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N2O production in...

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Published inMarine pollution bulletin Vol. 186; p. 114390
Main Authors Li, Siqi, Zhen, Yu, Chen, Ye, Mi, Tiezhu, Yu, Zhigang
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.01.2023
Subjects
Denitrification
Estuaries
greenhouses
marine pollution
metagenomics
Microbial communities
Nitrification
Nitrous oxide
Nitrous Oxide - analysis
Oceans and Seas
quantitative polymerase chain reaction
Sediments
Spatiotemporal distributions
Yellow Sea
Yellow Sea
Denitrification
Nitrous oxide
Microbial communities
Sediments
Nitrification
Spatiotemporal distributions
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Abstract N2O is among the most potent greenhouse gases. In this study, we investigated one of the important N2O production hotspots, the continental margins. We looked at N2O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N2O production in sediment cores from the Bohai and South Yellow Seas. Real-time PCR and shotgun metagenomics sequencing were used to analyze the microbial communities related to N2O production. The results showed that N2O concentrations roughly decreased with depth—a trend that was consistent throughout the year and showed no significant seasonal variations. When all the research stations along the continental margin were considered, the estuary exhibited the lowest average N2O concentration. Moreover, nitrification was identified as the main process responsible for N2O production in estuary areas. This study demonstrates that spatial, as opposed to temporal, heterogeneity is the primary factor influencing N2O concentration differences in sediments. [Display omitted] •N2O concentrations roughly decreased with depth and showed no significant seasonal variations.•The estuary depicted the lowest average N2O concentration along the continental margin areas.•Nitrification was the main process responsible for N2O production in estuary.•TOC content was the most important environmental factor influencing N2O concentration.
AbstractList N₂O is among the most potent greenhouse gases. In this study, we investigated one of the important N₂O production hotspots, the continental margins. We looked at N₂O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N₂O production in sediment cores from the Bohai and South Yellow Seas. Real-time PCR and shotgun metagenomics sequencing were used to analyze the microbial communities related to N₂O production. The results showed that N₂O concentrations roughly decreased with depth—a trend that was consistent throughout the year and showed no significant seasonal variations. When all the research stations along the continental margin were considered, the estuary exhibited the lowest average N₂O concentration. Moreover, nitrification was identified as the main process responsible for N₂O production in estuary areas. This study demonstrates that spatial, as opposed to temporal, heterogeneity is the primary factor influencing N₂O concentration differences in sediments.
N2O is among the most potent greenhouse gases. In this study, we investigated one of the important N2O production hotspots, the continental margins. We looked at N2O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N2O production in sediment cores from the Bohai and South Yellow Seas. Real-time PCR and shotgun metagenomics sequencing were used to analyze the microbial communities related to N2O production. The results showed that N2O concentrations roughly decreased with depth—a trend that was consistent throughout the year and showed no significant seasonal variations. When all the research stations along the continental margin were considered, the estuary exhibited the lowest average N2O concentration. Moreover, nitrification was identified as the main process responsible for N2O production in estuary areas. This study demonstrates that spatial, as opposed to temporal, heterogeneity is the primary factor influencing N2O concentration differences in sediments. [Display omitted] •N2O concentrations roughly decreased with depth and showed no significant seasonal variations.•The estuary depicted the lowest average N2O concentration along the continental margin areas.•Nitrification was the main process responsible for N2O production in estuary.•TOC content was the most important environmental factor influencing N2O concentration.
N O is among the most potent greenhouse gases. In this study, we investigated one of the important N O production hotspots, the continental margins. We looked at N O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N O production in sediment cores from the Bohai and South Yellow Seas. Real-time PCR and shotgun metagenomics sequencing were used to analyze the microbial communities related to N O production. The results showed that N O concentrations roughly decreased with depth-a trend that was consistent throughout the year and showed no significant seasonal variations. When all the research stations along the continental margin were considered, the estuary exhibited the lowest average N O concentration. Moreover, nitrification was identified as the main process responsible for N O production in estuary areas. This study demonstrates that spatial, as opposed to temporal, heterogeneity is the primary factor influencing N O concentration differences in sediments.
N2O is among the most potent greenhouse gases. In this study, we investigated one of the important N2O production hotspots, the continental margins. We looked at N2O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N2O production in sediment cores from the Bohai and South Yellow Seas. Real-time PCR and shotgun metagenomics sequencing were used to analyze the microbial communities related to N2O production. The results showed that N2O concentrations roughly decreased with depth-a trend that was consistent throughout the year and showed no significant seasonal variations. When all the research stations along the continental margin were considered, the estuary exhibited the lowest average N2O concentration. Moreover, nitrification was identified as the main process responsible for N2O production in estuary areas. This study demonstrates that spatial, as opposed to temporal, heterogeneity is the primary factor influencing N2O concentration differences in sediments.N2O is among the most potent greenhouse gases. In this study, we investigated one of the important N2O production hotspots, the continental margins. We looked at N2O spatiotemporal distributions in situ as well as the potential contributions of nitrification and denitrification to N2O production in sediment cores from the Bohai and South Yellow Seas. Real-time PCR and shotgun metagenomics sequencing were used to analyze the microbial communities related to N2O production. The results showed that N2O concentrations roughly decreased with depth-a trend that was consistent throughout the year and showed no significant seasonal variations. When all the research stations along the continental margin were considered, the estuary exhibited the lowest average N2O concentration. Moreover, nitrification was identified as the main process responsible for N2O production in estuary areas. This study demonstrates that spatial, as opposed to temporal, heterogeneity is the primary factor influencing N2O concentration differences in sediments.
ArticleNumber 114390
Author Li, Siqi
Yu, Zhigang
Zhen, Yu
Chen, Ye
Mi, Tiezhu
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Keywords Denitrification
Nitrous oxide
Microbial communities
Sediments
Nitrification
Spatiotemporal distributions
Language English
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Snippet N2O is among the most potent greenhouse gases. In this study, we investigated one of the important N2O production hotspots, the continental margins. We looked...
N O is among the most potent greenhouse gases. In this study, we investigated one of the important N O production hotspots, the continental margins. We looked...
N₂O is among the most potent greenhouse gases. In this study, we investigated one of the important N₂O production hotspots, the continental margins. We looked...
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StartPage 114390
SubjectTerms Denitrification
Estuaries
greenhouses
marine pollution
metagenomics
Microbial communities
Nitrification
Nitrous oxide
Nitrous Oxide - analysis
Oceans and Seas
quantitative polymerase chain reaction
Sediments
Spatiotemporal distributions
Yellow Sea
Title Shifts in the spatiotemporal distribution and sources of nitrous oxide in sediment cores from the Bohai Sea and South Yellow Sea
URI https://dx.doi.org/10.1016/j.marpolbul.2022.114390
https://www.ncbi.nlm.nih.gov/pubmed/36459774
https://www.proquest.com/docview/2746395583
https://www.proquest.com/docview/2834197503
Volume 186
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