Variations in provenance and transport of terrestrial organic matter in the Changjiang River during the flood season
•Both soil-derived and autochthonous OC contributed approximately more than 40.0 %.•The POC derived from phytoplankton continues to increase influenced by TGD.•The decrease in POC was influenced by soil and water conservation. River is a crucial channel for the transport of terrestrial organic carbo...
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Veröffentlicht in: | Catena (Giessen) 2024-07, Vol.242, p.108083, Article 108083 |
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Sprache: | eng |
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Zusammenfassung: | •Both soil-derived and autochthonous OC contributed approximately more than 40.0 %.•The POC derived from phytoplankton continues to increase influenced by TGD.•The decrease in POC was influenced by soil and water conservation.
River is a crucial channel for the transport of terrestrial organic carbon (OCterr) into the sea, and has significant implications for the global carbon cycle. However, with the intensification of human activities within the watershed (such as dams and changes in land use), the sediment and OCterr output from rivers have significantly decreased. To study the influence of human activities on the provenance and transport of particulate organic carbon (POC) exported from the Changjiang River Basin (CRB), we collected suspended particulate matter samples during the rainy season of 2021. The POC content exhibited an increasing trend from the headwater zone to the estuary. Results of three-end-member mixing model indicated that both soil-derived and autochthonous OC (OCauto) contributed approximately more than 40.0 %. Notably, OCauto experienced a significant increase from the Three Gorges Dam (TGD) to estuary in the mainstem, attributed to the sediment interception effect of the TGD. The POC contents in the headwater zone and Jinshajiang River in 2021 were lower compared to those in 2007, which can be attributed to a decrease in cultivated land area and increase sediment trapping by cascade dams. Affected by TGD, the POC content in the middle and lower reaches as well as the delta zone first decreased in 2003 and then increased from 2007 to 2021. Additionally, the degradation of lignin phenols and n-alkanes was influenced by the TGD, which prolonged the retention time of terrestrial plants. Compared to previous studies, the decrease in soil-derived OC and increase in OCauto in CRB, influenced by dams and land use, could have long-lasting effect on carbon burial in the ECS. |
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ISSN: | 0341-8162 1872-6887 |
DOI: | 10.1016/j.catena.2024.108083 |