基于eDNA技术的太湖鱼类多样性调查
Investigation of Fish Diversity in Lake Taihu Based on eDNA Metabarcoding
-
摘要: 基于环境DNA (environmental DNA,eDNA)技术开展太湖鱼类多样性调查,并结合传统形态学鱼类资源调查数据,初步探索eDNA技术在鱼类资源调查中的应用。结果显示:太湖16个点位共检出鱼类8目20科47属54种,其中鲫、蒙古鲌和刀鲚丰度相对较高;eDNA与传统形态学调查共同检出鱼类37种,占eDNA检出鱼类序列总数的91.89%;eDNA检出的鱼类中有45种鱼类在太湖鱼类志中有记载,占检出鱼类序列数的95.09%;2种方法得出的鱼类多样性指数均为太湖东部和太湖南部相对较高、太湖北部和太湖西部相对较低,太湖鱼类的生态类型(洄游性、栖息水层和食性)也高度一致;eDNA技术单个频次检出的鱼类物种数和单个点位的种类检出数均高于传统形态学方法,检出效率较高。综上,eDNA技术可用于鱼类资源调查,且在鱼类物种检出效率上优于传统形态学,与传统检测相结合,可以进一步增加监测调查的可靠性。Abstract: In this study, the fish diversity survey based on environmental DNA (eDNA) technology was carried out in Lake Taihu, and combined the traditional morphological investigation for the survey data analysis. The application of eDNA technology in fish resource survey was preliminarily explored. A total of 54 species of fish were found at 16 sites in Lake Taihu belonging to 47 genera, 20 families, 8 orders. Carassius auratus, Chanodichthys mongolicus and Coilia nasus had relatively high abundance. 37 fish species were detected by both eDNA technology and traditional morphological investigation, accounting for 91.89% of the total number of fish sequences detected in eDNA; 45 species detected by eDNA technology were recorded in Fishes of the Taihu Lake, accounting for 95.09% of the fish sequences detected. The diversity index of fish obtained by the two methods were all relatively higher in the east and south of Lake Taihu, and lower in the north and west of Lake Taihu. The analysis of fish ecological types found that the migratory, habitat and feeding habits of fish obtained by the two methods were highly consistent. The number of fish species detected by eDNA technology at a single frequency and at each site were higher than those of traditional morphological investigation, showing higher detection efficiency of eDNA technology. In summary, eDNA technology can be used in fish resource surveys, and it is better than traditional morphology investigation in the number of species detected efficiency. It is a good strategy to combine them to increase the reliability of monitoring surveys.
-
Key words:
- environmental DNA /
- fish diversity /
- (meta)barcoding /
- Lake Taihu
-
-
Deiner K, Bik H M, Mächler E, et al. Environmental DNA metabarcoding:Transforming how we survey animal and plant communities [J]. Molecular Ecology, 2017, 26(21):5872-5895 Dejean T, Valentini A, Duparc A, et al. Persistence of environmental DNA in freshwater ecosystems [J]. PLoS One, 2011, 6(8):e23398 Yoccoz N G. The future of environmental DNA in ecology [J]. Molecular Ecology, 2012, 21(8):2031-2038 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 Shu L, Lin J Y, Xu Y, et al. Investigating the fish diversity in Erhai Lake based on environmental DNA metabarcoding [J]. Acta Hydrobiologica Sinica, 2020, 44(5):1080-1086(in Chinese)
Evans N T, Olds B P, Renshaw M A, et al. Quantification of mesocosm fish and amphibian species diversity via environmental DNA metabarcoding [J]. Molecular Ecology Resources, 2016, 16(1):29-41 Thomsen P F, Kielgast J, Iversen L L, et al. Monitoring endangered freshwater biodiversity using environmental DNA [J]. Molecular Ecology, 2012, 21(11):2565-2573 Fujii K, Doi H, Matsuoka S, et al. Environmental DNA metabarcoding for fish community analysis in backwater lakes:A comparison of capture methods [J].PLoS One, 2019, 14(1):e0210357 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 Xu N, Chang J B. Preliminary study on fish species detection in the middle and lower Yangtze River using environmental DNA [J]. Journal of Hydroecology, 2016, 37(5):49-55(in Chinese)
孙晶莹, 杨江华, 张效伟. 环境DNA(eDNA)宏条形码技术对枝角类浮游动物物种鉴定及其生物量监测研究[J]. 生态毒理学报, 2018, 13(5):76-86 Sun J Y, Yang J H, Zhang X W. Identification and biomass monitoring of zooplankton Cladocera species witheDNA metabarcoding technology [J]. Asian Journal of Ecotoxicology, 2018, 13(5):76-86(in Chinese)
唐晟凯, 张彤晴, 沈振华, 等. 太湖鱼类学调查及渔获物分析[J]. 江苏农业科学, 2010, 38(2):376-379 李其芳, 严云志, 储玲, 等. 太湖流域河流鱼类群落的时空分布[J]. 湖泊科学, 2016, 28(6):1371-1380 Li Q F, Yan Y Z, Chu L, et al. Spatial and temporal patterns of stream fish assemblages within Taihu Basin [J]. Journal of Lake Sciences, 2016, 28(6):1371-1380(in Chinese)
杨江华, 张效伟. 一种淡水鱼类线粒体12S通用宏条形码扩增引物及其应用方法:CN109943645A [P]. 2019-06 -28.
Yang J H, Zhang L J, Mu Y W, et al. Small changes make big progress:A more efficient eDNA monitoring method for freshwater fish [J]. Environmental DNA, 2023, 5(2):363-374 刘燕山, 李大命, 朱明胜, 等. 太湖鱼类群落现状及其多样性[J]. 长江流域资源与环境, 2022, 31(9):1906-1917 Liu Y S, Li D M, Zhu M S, et al. Current status of fish community and its diversity in Lake Taihu, China [J]. Resources and Environment in the Yangtze Basin, 2022, 31(9):1906-1917(in Chinese)
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 Thomsen P F, Kielgast J, Iversen L L, et al. Detection of a diverse marine fish fauna using environmental DNA from seawater samples [J]. PLoS One, 2012, 7(8):e41732 唐晟凯, 刘燕山, 王华, 等. 环境DNA技术在邵伯湖鱼类资源监测中的应用[J]. 水产科学, 2022, 41(6):1007-1016 Tang S K, Liu Y S, Wang H, et al. Application of environmental DNA in monitoring of fish resources in Shaobo Lake [J]. Fisheries Science, 2022, 41(6):1007-1016(in Chinese)
李晓玲, 刘洋, 王丛丛, 等. 基于环境DNA技术的夏季东海鱼类物种多样性研究[J]. 海洋学报, 2022, 44(4):74-84 Li X L, Liu Y, Wang C C, et al. Study on fish species diversity in the East China Sea in summer based on environmental DNA technology [J]. Acta Oceanologica Sinica, 2022, 44(4):74-84(in Chinese)
张翔, 周国栋, 王雷. 太湖鱼类生物完整性指数构建与健康评价[J]. 水产学杂志, 2020, 33(1):25-32 Zhang X, Zhou G D, Wang L. Construction of index of biotic integrity and health evaluation of fish in Taihu Lake [J]. Chinese Journal of Fisheries, 2020, 33(1):25-32(in Chinese)
张翔, 沈伟, 周国栋. 2018-2020年太湖鱼类群落结构及其环境因子典范对应分析[J]. 生态与农村环境学报, 2021, 37(5):674-680 Zhang X, Shen W, Zhou G D. Status of the fish community and canonical correspondence analysis of environmental factors in Lake Taihu from 2018 to 2020[J]. Journal of Ecology and Rural Environment, 2021, 37(5):674-680(in Chinese)
倪勇, 朱成德. 太湖鱼类志[M]. 上海:上海科学技术出版社, 2005:23 Ni Y, Zhu C D. Fishes of the Taihu Lake [M]. Shanghai:Shanghai Scientific and Technical Publishers, 2005:23 Bohmann K, Evans A, Gilbert M T, et al. Environmental DNA for wildlife biology and biodiversity monitoring [J]. Trends in Ecology & Evolution, 2014, 29(6):358-367 刘燕山, 谷先坤, 唐晟凯, 等. 东太湖鱼类群落结构特征及其与环境因子的关系[J]. 生态学报, 2021, 41(2):769-780 Liu Y S, Gu X K, Tang S K, et al. Fish community structure and its relationship with main environmental variables in the East Taihu Lake [J]. Acta Ecologica Sinica, 2021, 41(2):769-780(in Chinese)
刘恩生, 刘正文, 陈伟民, 等. 太湖鱼类产量、组成的变动规律及与环境的关系[J]. 湖泊科学, 2005, 17(3):251-255 Liu E S, Liu Z W, Chen W M, et al. Changes in the yield and composition of the fish catches and their relation to the environmental factors in Lake Taihu [J]. Journal of Lake Science, 2005, 17(3):251-255(in Chinese)
刁曹鋆, 王闻, 线薇薇, 等. 环境DNA技术在渔业资源生物量评估中的研究进展:现状与展望[J]. 海洋科学, 2022, 46(2):135-144 Diao C Y, Wang W, Xian W W, et al. Role of the environmental DNA technology application in the biomass assessment of the fishery resource:Current status and future perspectives [J]. Marine Sciences, 2022, 46(2):135-144(in Chinese)
Li M, Shan X J, Wang W J, et al. Qualitative and quantitative detection using eDNA technology:A case study of Fenneropenaeus chinensis in the Bohai Sea [J]. Aquaculture and Fisheries, 2020, 5(3):148-155 赵彦伟, 陈家琪, 董丽, 等. 环境DNA技术在水生态领域应用研究进展[J]. 农业环境科学学报, 2021, 40(10):2057-2065 Zhao Y W, Chen J Q, Dong L, et al. Advances in the application of environmental DNA in aquatic ecosystems [J]. Journal of Agro-Environment Science, 2021, 40(10):2057-2065(in Chinese)
Imamura A, Hayami K, Sakata M K, et al. Environmental DNA revealed the fish community of Hokkaido Island, Japan, after invasion by rainbow trout [J]. Biodiversity Data Journal, 2020, 8:e56876 林渊源, 赵峥. 环境DNA技术在水生入侵生物监测中的应用[J]. 生态毒理学报, 2021, 16(6):1-12 Lin Y Y, Zhao Z. Application of environmental DNA technologies in monitoring aquatic invasive species [J]. Asian Journal of Ecotoxicology, 2021, 16(6):1-12(in Chinese)
吴昀晟, 唐永凯, 李建林, 等. 环境DNA在长江江豚监测中的应用[J]. 中国水产科学, 2019, 26(1):124-132 Wu Y S, Tang Y K, Li J L, et al. The application of environmental DNA in the monitoring of the Yangtze finless porpoise,Neophocaena phocaenoides asaeorientalis [J]. Journal of Fishery Sciences of China, 2019, 26(1):124-132(in Chinese)
Evans N T, Lamberti G A. Freshwater fisheries assessment using environmental DNA:A primer on the method, its potential, and shortcomings as a conservation tool [J]. Fisheries Research, 2018, 197:60-66 -
点击查看大图
计量
- 文章访问数: 2157
- HTML全文浏览数: 2157
- PDF下载数: 215
- 施引文献: 0
下载:
