Fish Diversity in Yibin Section in Autumn Based on eDNA Technology
DANG Yingchao, LI Sha, SU Wei, HU Fanxu, JIANG Wei
1. Chinese Sturgeon Research Institute, China Three Gorges Corporation, Yichang 443100, China; 2. Hubei Key Laboratory of Three Gorges Project for Conservation of Fishes, Yichang 443100, China
Abstract:In order to explore a new method for survey of fish diversity in the Yibin River section, the fish diversity was detected in samples collected from 7 sampling sections from the downstream of the Jinsha River to the main stream section of Lizhuang Ancient Town, Yibin City (here referred to as the "Yibin River Section") from October 25 to 27, 2021 by environmental DNA metabarcoding (eDNA) technology. A total of 30 species of fish (excluding 2 genera, not identified at the species level) were detected from the environmental DNA samples in the Yibin section, belonging to 5 orders, 12 families and 29 genera, including 1 national-level protected fish species and 3 endemic fish species in the upper reaches of the Changjiang River. Coreius, Rhinogobius, Micropterus, and Liobagrus were found to be the dominant genera at each sampling section. It was found that the environmental DNA technology was characterized by high efficiency, high sensitivity and non-invasive compared with the traditional survey methods and used as an important supplementary tool for studying the fish diversity of relevant basins, even though it did not completely replace traditional methods. The finding enriches the structural and functional information of fish communities in the Yibin section and provides basic information for the evaluation of fishery ban effect.
党莹超, 李莎, 苏巍, 胡凡旭, 姜伟. 基于环境DNA技术的宜宾江段秋季鱼类多样性研究[J]. 水产科学, 2024, 43(6): 894-905.
DANG Yingchao, LI Sha, SU Wei, HU Fanxu, JIANG Wei. Fish Diversity in Yibin Section in Autumn Based on eDNA Technology. Fisheries Science, 2024, 43(6): 894-905.
[1] MAGNUSSEN E. Demersal fish assemblages of Faroe Bank:species composition, distribution, biomass spectrum and diversity[J]. Marine Ecology Progress Series,2002,238:211-225. [2] 吕立鑫,祝亚楠,潘瑞松,等.常州市运北水系鱼类群落结构及多样性的变化研究[J].安徽农业科学,2020,48(8):92-97. [3] VALDEZ-MORENO M, IVANOVA N V, ELÍAS-GUTIÉRREZ M, et al. Using eDNA to biomonitor the fish community in a tropical oligotrophic lake[J]. PLoS One,2019,14(4):e0215505. [4] DE CARVALHO M R, BOCKMANN F A, AMORIM D S, et al. Taxonomic impediment or impediment to taxonomy? A commentary on systematics and the cybertaxonomic-automation paradigm[J]. Evolutionary Biology,2007,34(3):140-143. [5] TABERLET P, COISSAC E, HAJIBABAEI M, et al. Environmental DNA[J]. Molecular Ecology,2012,21(8):1789-1793. [6] FICETOLA G F, MIAUD C, POMPANON F, et al. Species detection using environmental DNA from water samples[J]. Biology Letters,2008,4(4):423-425. [7] JERDE C L, MAHON A R, CHADDERTON W L, et al. “Sight-unseen” detection of rare aquatic species using environmental DNA[J]. Conservation Letters,2011,4(2):150-157. [8] LARSON E R, RENSHAW M A, GANTZ C A, et al. Environmental DNA (eDNA) detects the invasive crayfishes Orconectes rusticus and Pacifastacus leniusculus in large lakes of North America[J]. Hydrobiologia,2017,800(1):173-185. [9] WELTZ K, LYLE J M, OVENDEN J, et al. Application of environmental DNA to detect an endangered marine skate species in the wild[J]. PLoS One,2017,12(6):e0178124. [10] 王梦,杨鑫,王维,等.基于eDNA技术的长江上游珍稀特有鱼类国家级自然保护区重庆段鱼类多样性研究[J].水生生物学报,2022,46(1):2-16. [11] JIA H, ZHANG H, XIAN W W. Fish diversity monitored by environmental DNA in the Yangtze River main stream[J]. Fishes,2022,7(1):1. [12] 舒璐,林佳艳,徐源,等.基于环境DNA宏条形码的洱海鱼类多样性研究[J].水生生物学报,2020,44(5):1080-1086. [13] 刘波,王浩,秦斌,等.基于环境DNA宏条形码技术的北京地区鱼类多样性调查和外来鱼种入侵风险评估[J].生物安全学报,2021,30(3):220-229. [14] 赵梦迪.利用环境DNA分析冬季中国东黄海水域的鱼类多样性[D].上海:上海海洋大学,2017. [15] 凌建忠,姜亚洲,孙鹏,等.环境DNA技术在象山港水域鱼类多样性调查中的应用与评估[J].中国水产科学,2021,28(2):205-214. [16] 熊飞,刘红艳,段辛斌,等.长江上游宜宾江段渔业资源现状研究[J].西南大学学报(自然科学版),2015,37(11):43-50. [17] 刘清,苗志国,谢从新,等.长江宜宾江段渔业资源调查[J].水产科学,2005,24(7):47-49. [18] 段辛斌,刘绍平,熊飞,等.长江上游干流春季禁渔前后三年渔获物结构和生物多样性分析[J].长江流域资源与环境,2008,17(6):878-885. [19] 李雷,危起伟,吴金明,等.长江宜宾江段渔业资源现状调查[J].长江流域资源与环境,2013,22(11):1449-1457. [20] BLABOLIL P, HARPER L R, RÍČANOVÁ Š, et al. Environmental DNA metabarcoding uncovers environmental correlates of fish communities in spatially heterogeneous freshwater habitats[J]. Ecological Indicators,2021,126:107698. [21] 但胜国,张国华,苗志国,等.长江上游三层流刺网渔业现状的调查[J].水生生物学报,1999,23(6):655-661. [22] 田辉伍,何春,刘明典,等.长江上游干流三层流刺网渔获物结构研究[J].淡水渔业,2016,46(5):37-42. [23] YAMAMOTO S, MASUDA R, SATO Y, et al. Environmental DNA metabarcoding reveals local fish communities in a species-rich coastal sea[J]. Scientific Reports,2017,7:40368. [24] 李红婷,邹柯姝,张帅,等.基于环境DNA宏条形码的珠江河口鱼类种类组成[J].上海海洋大学学报,2022,31(6):1423-1433. [25] 单秀娟,李苗,王伟继.环境DNA(eDNA)技术在水生生态系统中的应用研究进展[J].渔业科学进展,2018, 39(3):23-29. [26] 曹文宣.长江鱼类资源的现状与保护对策[J].江西水产科技,2011(2):1-4. [27] 徐念,常剑波.长江中下游干流环境DNA样本鱼类物种检测的初步研究[J].水生态学杂志,2016,37(5):49-55. [28] 张爱菊,郝雅宾,郭爱环,等.基于高通量测序技术的鱼类环境DNA研究中通用引物的筛选验证[J].浙江农业学报,2019,31(10):1615-1623. [29] WILCOX T M, MCKELVEY K S, YOUNG M K, et al. Robust detection of rare species using environmental DNA:the importance of primer specificity[J]. PLoS One,2013,8(3):e59520. [30] 吴金明,赵海涛,苗志国,等.赤水河鱼类资源的现状与保护[J].生物多样性,2010,18(2):168-178. [31] 姜维,赵虎,邓捷,等.环境DNA分析技术——一种水生生物调查新方法[J].水生态学杂志,2016,37(5):1-7. [32] GILES R E, BLANC H, CANN H M, et al. Maternal inheritance of human mitochondrial DNA[J]. Proceedings of the National Academy of Sciences of the United States of America,1980,77(11):6715-6719. [33] CRISTESCU M E, HEBERT P D N. Uses and misuses of environmental DNA in biodiversity science and conservation[J]. Annual Review of Ecology, Evolution, and Systematics,2018,49(1):209-230.
2024, Vol. 43 
