Investigation on the Distribution of Bangana Tungting in Yuanshui Unique Fish Species National Aquatic Germplasm Resources Reserve Using Environmental DNA Technology

ABSTRACT Freshwater ecosystems face unprecedented challenges as the cumulative impact of human activities intensifies. While protected areas and species‐specific conservation policies are widely implemented, their effectiveness remains difficult to gauge using traditional catch‐based surveys. This r...

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Bibliographic Details
Published in:Ecology and evolution 2024-12, Vol.14 (12), p.e70626-n/a
Main Authors: Tian, Lu, Wu, Qianqian, Zou, Li, Zhou, Jinxin, Wang, Chongrui, Han, Linmei, Zhang, Zaiquan, Xiang, Xing, Liu, Mingqiu, Feng, Zhifeng, Xie, Zhonggui, Liang, Zhiqiang
Format: Article
Language:English
Subjects:
Aquatic ecosystems
Bangana
Bangana tungting
Barriers
Climate change
Commercial fishing
Conservation
Cytochrome
Dissolved oxygen
distribution
Effectiveness
Endangered animals
Endangered species
Environmental conditions
Environmental DNA
Environmental factors
Environmental policy
Fish
Fisheries
Fishing
Freshwater ecosystems
Geographical distribution
Germplasm
Human influences
hydroelectric station construction
Mitochondrial DNA
Protected areas
Protected species
reserve
River ecology
Sampling
Surveys
Technology assessment
Uniqueness
Water conservation
Water quality
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Summary:ABSTRACT Freshwater ecosystems face unprecedented challenges as the cumulative impact of human activities intensifies. While protected areas and species‐specific conservation policies are widely implemented, their effectiveness remains difficult to gauge using traditional catch‐based surveys. This research employed environmental DNA (eDNA) technology to assess the distribution of the endangered fish, Bangana tungting, within the Yuanshui Unique Fish Species National Aquatic Germplasm Resources Reserve (YUFRR) in Hunan, China. Over a 2‐year period, we conducted comprehensive eDNA survey multiple sites within the YUFRR, confirming the species' continued existence in the area. In September 2022, B. tungting eDNA was detected at 8 of 60 sampling locations, while a follow‐up survey in May 2023 identified its presence at 4 of 44 sites. Further analysis revealed critical environmental factors influencing B. tungting distribution, primarily dissolved oxygen concentration and the presence of physical barriers such as hydroelectric stations. Our data suggest a minimum dissolved oxygen tolerance threshold of 4 mg/L for this species. Moreover, we observed an inverse relationship between B. tungting detection rates and both the number of hydroelectric stations and their distance to sampling sites. This case study demonstrates the effectiveness of eDNA technology in mapping the distribution of endangered fish species like B. tungting and guiding conservation strategies. Our findings emphasize the crucial need to enhance environmental conditions, particularly water quality and habitat suitability, to ensure the effective conservation of B. tungting within the YUFRR. A 2‐year survey, using environmental DNA technology, was conducted to detect the presence of Bangana tungting in the Yuanshui Unique Fish Species National Aquatic Germplasm Resources Reserve (YUFRR), Hunan, China.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.70626