Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport

Anthropogenic water regulation activities, including reservoir interception, surface water withdrawal, and groundwater extraction, alter riverine hydrologic processes and affect dissolved organic carbon (DOC) export from land to rivers and oceans. In this study, schemes describing soil DOC leaching,...

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Main Authors: You, Yanbin, Xie, Zhenghui, Jia, Binghao, Wang, Yan, Wang, Longhuan, Li, Ruichao, Yan, Heng, Tian, Yuhang, Chen, Si
Format: Text
Language:English
Published: 2023
Subjects:
Pacific
ob river
Online Access:https://doi.org/10.5194/esd-2023-2
https://esd.copernicus.org/preprints/esd-2023-2/
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spelling ftcopernicus:oai:publications.copernicus.org:esdd108848 2023-05-15T17:48:48+02:00 Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport You, Yanbin Xie, Zhenghui Jia, Binghao Wang, Yan Wang, Longhuan Li, Ruichao Yan, Heng Tian, Yuhang Chen, Si 2023-02-22 application/pdf https://doi.org/10.5194/esd-2023-2 https://esd.copernicus.org/preprints/esd-2023-2/ eng eng doi:10.5194/esd-2023-2 https://esd.copernicus.org/preprints/esd-2023-2/ eISSN: 2190-4987 Text 2023 ftcopernicus https://doi.org/10.5194/esd-2023-2 2023-02-27T17:22:57Z Anthropogenic water regulation activities, including reservoir interception, surface water withdrawal, and groundwater extraction, alter riverine hydrologic processes and affect dissolved organic carbon (DOC) export from land to rivers and oceans. In this study, schemes describing soil DOC leaching, riverine DOC transport, and anthropogenic water regulation were developed and incorporated into the Community Land Model 5.0 (CLM 5.0) and the River Transport Model (RTM). Three simulations by the developed model were conducted on a global scale from 1981 to 2013 to investigate the impacts of anthropogenic water regulation on riverine DOC transport. The validation results showed that DOC exports simulated by the developed model were in good agreement with global river observations. The simulations showed that DOC transport in most rivers was mainly influenced by reservoir interception and surface water withdrawal, especially in central North America and eastern China. Four major rivers, including the Danube, Yangtze, Mississippi, and Ganges Rivers, have experienced reduced riverine DOC flows due to intense water management, with the largest effect occurring in winter and early spring. In the Danube and Yangtze River basins, the impact in 2013 was four to five times greater than in 1981, with a retention efficiency of over 50 %. The Ob River basin was almost unaffected. The total impact of anthropogenic water regulation reduced global annual riverine DOC exports to the ocean by approximately 13.36 Tg C yr −1 , and this effect increased from 4.83 % to 6.20 % during 1981–2013, particularly in the Pacific and Atlantic Oceans. Text ob river Copernicus Publications: E-Journals Pacific
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Anthropogenic water regulation activities, including reservoir interception, surface water withdrawal, and groundwater extraction, alter riverine hydrologic processes and affect dissolved organic carbon (DOC) export from land to rivers and oceans. In this study, schemes describing soil DOC leaching, riverine DOC transport, and anthropogenic water regulation were developed and incorporated into the Community Land Model 5.0 (CLM 5.0) and the River Transport Model (RTM). Three simulations by the developed model were conducted on a global scale from 1981 to 2013 to investigate the impacts of anthropogenic water regulation on riverine DOC transport. The validation results showed that DOC exports simulated by the developed model were in good agreement with global river observations. The simulations showed that DOC transport in most rivers was mainly influenced by reservoir interception and surface water withdrawal, especially in central North America and eastern China. Four major rivers, including the Danube, Yangtze, Mississippi, and Ganges Rivers, have experienced reduced riverine DOC flows due to intense water management, with the largest effect occurring in winter and early spring. In the Danube and Yangtze River basins, the impact in 2013 was four to five times greater than in 1981, with a retention efficiency of over 50 %. The Ob River basin was almost unaffected. The total impact of anthropogenic water regulation reduced global annual riverine DOC exports to the ocean by approximately 13.36 Tg C yr −1 , and this effect increased from 4.83 % to 6.20 % during 1981–2013, particularly in the Pacific and Atlantic Oceans.
format Text
author You, Yanbin
Xie, Zhenghui
Jia, Binghao
Wang, Yan
Wang, Longhuan
Li, Ruichao
Yan, Heng
Tian, Yuhang
Chen, Si
spellingShingle You, Yanbin
Xie, Zhenghui
Jia, Binghao
Wang, Yan
Wang, Longhuan
Li, Ruichao
Yan, Heng
Tian, Yuhang
Chen, Si
Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
author_facet You, Yanbin
Xie, Zhenghui
Jia, Binghao
Wang, Yan
Wang, Longhuan
Li, Ruichao
Yan, Heng
Tian, Yuhang
Chen, Si
author_sort You, Yanbin
title Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
title_short Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
title_full Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
title_fullStr Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
title_full_unstemmed Impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
title_sort impacts of anthropogenic water regulation on global riverine dissolved organic carbon transport
publishDate 2023
url https://doi.org/10.5194/esd-2023-2
https://esd.copernicus.org/preprints/esd-2023-2/
geographic Pacific
geographic_facet Pacific
genre ob river
genre_facet ob river
op_source eISSN: 2190-4987
op_relation doi:10.5194/esd-2023-2
https://esd.copernicus.org/preprints/esd-2023-2/
op_doi https://doi.org/10.5194/esd-2023-2
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