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Autori principali: Cheng, Zhenhao, Wang, Anxiang, Cui, Yujing, Gao, Lei, Cheng, Fei, Shu, Fengyue, Xie, Songguang
Natura: Artículo científico
Lingua:en
Pubblicazione: Ecology and evolution 2025
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41190310/
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author Cheng, Zhenhao
Wang, Anxiang
Cui, Yujing
Gao, Lei
Cheng, Fei
Shu, Fengyue
Xie, Songguang
author_facet Cheng, Zhenhao
Wang, Anxiang
Cui, Yujing
Gao, Lei
Cheng, Fei
Shu, Fengyue
Xie, Songguang
Cheng, Zhenhao
Wang, Anxiang
Cui, Yujing
Gao, Lei
Cheng, Fei
Shu, Fengyue
Xie, Songguang
collection PubMed - marine biology
contents The Impact Mechanism of Inter-Basin Water Transfer on Fish Assemblages Was Revealed Using a Model of Terminal Reservoirs. Cheng, Zhenhao Wang, Anxiang Cui, Yujing Gao, Lei Cheng, Fei Shu, Fengyue Xie, Songguang Understanding the impact mechanism of inter-basin water transfer projects (IBWTs) on fish assemblages is critical for conserving aquatic ecosystems and managing water transfer. However, direct evidence of the impact mechanism of IBWTs on fish assemblages is absent. Fish assemblages in newly built terminal reservoirs originate and assemble with diverted individuals through water transfer in IBWTs, providing a valuable model for mechanistic research. This study sampled fish quarterly using a combination net in three terminal reservoirs along the Eastern Route of the South-to-North Water Transfer Project (ER-SNWTP) from July 2021 to May 2022. We investigated assemblage composition and structure, calculated alpha and beta diversity indices, and analyzed the effects of environmental factors on fish assemblages. A total of 35 species were collected and indicated which species could be diverted accompanying water transfers along the ER-SNWTP. Fish assemblages were dominated by eurytopic species, but showed clear seasonal differences. The distance from Dongping Lake, operation time of the reservoirs, and water quality affected diversity indices, composition and structure of the fish assemblages in the reservoirs. Fish assemblages in the terminal reservoirs were unstable and periodically disturbed by the water transfers of the ER-SNWTP. Our results indicate that fish diverted by water transfer are likely to be the main cause of the impact of IBWTs on fish assemblages, and the distance and number of water transfers, and nutrient loading of diverted water are crucial factors affecting the impact of IBWTs. Our study provides a theoretical understanding of the ecological impacts of IBWTs by introducing fish and periodically disturbing fish assemblage through water transfer and highlights the necessity of scheming transfer programs to avoid overlapping with the spawning peaks of some fish with special guilds, such as small-sized fish. In terminal reservoirs, the fish assemblages are not and may have no possibility to reach a stability like a natural one, and then their management should be oriented toward water quality regulation, such as rational harvesting and replenishment of biomanipulation fish to enhance their capacity for water quality regulation.
format Artículo científico
id pubmed_41190310
institution PubMed
language en
publishDate 2025
publisher Ecology and evolution
record_format pubmed
spellingShingle The Impact Mechanism of Inter-Basin Water Transfer on Fish Assemblages Was Revealed Using a Model of Terminal Reservoirs.
Cheng, Zhenhao
Wang, Anxiang
Cui, Yujing
Gao, Lei
Cheng, Fei
Shu, Fengyue
Xie, Songguang
The Impact Mechanism of Inter-Basin Water Transfer on Fish Assemblages Was Revealed Using a Model of Terminal Reservoirs. Cheng, Zhenhao Wang, Anxiang Cui, Yujing Gao, Lei Cheng, Fei Shu, Fengyue Xie, Songguang Understanding the impact mechanism of inter-basin water transfer projects (IBWTs) on fish assemblages is critical for conserving aquatic ecosystems and managing water transfer. However, direct evidence of the impact mechanism of IBWTs on fish assemblages is absent. Fish assemblages in newly built terminal reservoirs originate and assemble with diverted individuals through water transfer in IBWTs, providing a valuable model for mechanistic research. This study sampled fish quarterly using a combination net in three terminal reservoirs along the Eastern Route of the South-to-North Water Transfer Project (ER-SNWTP) from July 2021 to May 2022. We investigated assemblage composition and structure, calculated alpha and beta diversity indices, and analyzed the effects of environmental factors on fish assemblages. A total of 35 species were collected and indicated which species could be diverted accompanying water transfers along the ER-SNWTP. Fish assemblages were dominated by eurytopic species, but showed clear seasonal differences. The distance from Dongping Lake, operation time of the reservoirs, and water quality affected diversity indices, composition and structure of the fish assemblages in the reservoirs. Fish assemblages in the terminal reservoirs were unstable and periodically disturbed by the water transfers of the ER-SNWTP. Our results indicate that fish diverted by water transfer are likely to be the main cause of the impact of IBWTs on fish assemblages, and the distance and number of water transfers, and nutrient loading of diverted water are crucial factors affecting the impact of IBWTs. Our study provides a theoretical understanding of the ecological impacts of IBWTs by introducing fish and periodically disturbing fish assemblage through water transfer and highlights the necessity of scheming transfer programs to avoid overlapping with the spawning peaks of some fish with special guilds, such as small-sized fish. In terminal reservoirs, the fish assemblages are not and may have no possibility to reach a stability like a natural one, and then their management should be oriented toward water quality regulation, such as rational harvesting and replenishment of biomanipulation fish to enhance their capacity for water quality regulation.
title The Impact Mechanism of Inter-Basin Water Transfer on Fish Assemblages Was Revealed Using a Model of Terminal Reservoirs.
url https://pubmed.ncbi.nlm.nih.gov/41190310/