Seasonal Variations in Community Structure of Nekton in the Bohai Sea
XU Yanzhao1,2, SHAN Xiujuan2,3, TENG Guangliang2,3
1. College of Marine Science, Shanghai Ocean University, Shanghai 201306, China; 2. Shandong Provincial KeyLaboratory of Fisheries Resources and Ecological Environment, Key Laboratory of Sustainable Developmentof Marine Fisheries, Ministry of Agriculture and Rural Affairs, Yellow Sea Fisheries Research Institute,Chinese Academy of Fishery Sciences, Qingdao 266071, China; 3. Laboratory for Marine FisheriesScience and Food Production Processes, Laoshan Laboratory, Qingdao 266237, China
Abstract:Based on the bottom trawl survey data of nekton in the Bohai Sea in May (spring) and August (summer) of 2015 and January (winter) of 2016, the seasonal variations in the community structure of nekton were analyzed. The results showed that 96 species of nekton were captured in the survey, including 55 species of fish, 37 species of crustaceans, and 4 species of Cephalopods. There were 2 to 5 dominant species [index of relative importance (IRI)>500] in the survey. The dominant species were Oratosquilla oratoria, and Crangon affinis in spring, Engraulis japonicus, Oratosquilla oratoria, Chaeturichthys stigmatia, Loligo sp. and Palaemon gravieri in summer, C. affinis, C. stigmatia, P. gravieri, Alpheus japonicus, and Acanthogobius ommaturus in winter. There was the minimum (244 ind./h) relative abundance of nekton was in spring and maximum (11 391 ind./h) in summer. The relative biomass was minimum in spring (1.56 kg/h) and maximum in summer (38.57 kg/h). From spring to winter, the relative abundance and biomass of nekton were increased firstly and then decreased. Margalef species richness index (D) was varied from 3.61 to 4.99, with the maximum in spring and the minimum in winter. Shannon-wiener's diversity index (H') was ranged from 1.83 to 2.40, with the minimum in winter and the maximum in spring. Pielou evenness index (J') was ranged from 0.49 to 0.59, with the minimum in winter and the maximum in spring. Cluster analysis and multidimensional scaling analysis showed that there was inapparent seasonal variation in similarity of community structure among subseas of the Bohai Sea. SIMPER analysis revealed that the seasonal variations in community structure in spring, summer and winter were involved in the seasonal variations of resources of O. oratoria, Loligo sp. and E. japonicus.
胥延钊, 单秀娟, 滕广亮. 渤海游泳动物群落结构季节变动[J]. 水产科学, 2023, 42(2): 260-267.
XU Yanzhao, SHAN Xiujuan, TENG Guangliang. Seasonal Variations in Community Structure of Nekton in the Bohai Sea. Fisheries Science, 2023, 42(2): 260-267.
[1]邓景耀,金显仕.莱州湾及黄河口水域渔业生物多样性及其保护研究[J].动物学研究,2000,21(1):76-82. [2]金显仕,邓景耀.莱州湾渔业资源群落结构和生物多样性的变化[J].生物多样性,2000,8(1):65-72. [3]单秀娟,金显仕,李忠义,等.渤海鱼类群落结构及其主要增殖放流鱼类的资源量变化[J].渔业科学进展,2012,33(6):1-9. [4]李显森,牛明香,戴芳群.渤海渔业生物生殖群体结构及其分布特征[J].海洋水产研究,2008,29(4):15-21. [5]张波,吴强,金显仕.1959—2011年莱州湾渔业资源群落食物网结构的变化[J].中国水产科学,2015,22(2):278-287. [6]张波,吴强,金显仕.莱州湾鱼类群落的营养结构及其变化[J].渔业科学进展,2013,34(2):1-9. [7]许思思,宋金明,李学刚,等.渤海渔获物资源结构的变化特征及其影响因素分析[J].自然资源学报,2014,29(3):500-506. [8]朱鑫华,缪锋,刘栋,等.黄河口及邻近海域鱼类群落时空格局与优势种特征研究[J].海洋科学集刊,2001(43):141-151. [9]李凡,吕振波,魏振华,等.2010年莱州湾底层渔业生物群落结构及季节变化[J].中国水产科学,2013,20(1):137-147. [10]金显仕,单秀娟,郭学武,等.长江口及其邻近海域渔业生物的群落结构特征[J].生态学报,2009,29(9):4761-4772. [11]孙鹏飞,单秀娟,吴强,等.莱州湾及黄河口水域鱼类群落结构的季节变化[J].生态学报,2014,34(2):367-376. [12]任胜民.渤海鱼类群落的研究[J].海洋水产研究,1993(14):35-45. [13]朱鑫华,杨纪明,唐启升.渤海鱼类群落结构特征的研究[J].海洋与湖沼,1996,27(1):6-13. [14]孟田湘.渤海鱼类群落结构及其动态变化[J].中国水产科学,1998,5(2):16-20. [15]金显仕.渤海主要渔业生物资源变动的研究[J].中国水产科学,2000,7(4):22-26. [16]朱鑫华,唐启升.渤海鱼类群落优势种结构及其种间更替[J].海洋科学集刊,2002(44):159-168. [17]吴强,陈瑞盛,左涛,等.莱州湾头足类的群落结构及其与环境因子的关系[J].水产学报,2018,42(5):684-693. [18]PINKAS L, OLIPHANT M S, IVERSON I L K. Food habits of albacore, bluefish tuna, and bonito in California waters[J].Fish Bulletin,1970,52:5-10. [19]程济生.东、黄海冬季底层鱼类群落结构及其多样性[J].海洋水产研究,2000,21(3):1-8. [20]何宗会,张衡,周为峰.2011—2012年东南太平洋智利竹筴鱼CPUE的时空变化及其与捕捞因子关系[J].海洋渔业,2014,36(2):138-145. [21]MARGALEF D R. Information theory in ecology[J].Society for General Systems Research,1958(3):36-71. [22]PIELOU E C.The measurement of diversity in different types of biological collections[J].Journal of Theoretical Biology,1966,13:131-144. [23]SHANNON C E. A mathematical theory of communication[J].Bell System Technical Journal,1948,27(3):379-423. [24]BRAY J R, CURTIS J T. An ordination of the upland forest communities of southern Wisconsin[J].Ecological Monographs,1957,27(4):325-349. [25]李忠义,吴强,单秀娟,等.渤海鱼类群落结构的年际变化[J].中国水产科学,2017,24(2):403-413. [26]WU Q, GUAN L S, LI Z Y, et al. Decadal variations in the community status of economically important invertebrates in the Bohai Sea[J].Acta Oceanologica Sinica,2019,38(10):60-66. [27]刘效舜.黄渤海区渔业资源调查与区划[M].北京:海洋出版社,1990:91-101,151-153. [28]金显仕,唐启升.渤海渔业资源结构、数量分布及其变化[J].中国水产科学,1998,5(3):18-24. [29]叶懋中,章隼.黄渤海区鳀鱼的分布、洄游和探察方法[J].水产学报,1965,2(2):27-34. [30]徐兆礼,陈佳杰.小黄鱼洄游路线分析[J].中国水产科学,2009,16(6):931-940. [31]农业部渔业渔政管理局. 2003中国渔业统计年鉴 [M].北京:中国农业出版社,2003:64-73. [32]农业部渔业渔政管理局. 2016中国渔业统计年鉴[M].北京:中国农业出版社,2016:79-81. [33]崔毅,马绍赛,李云平,等.莱州湾污染及其对渔业资源的影响[J].海洋水产研究,2003,24(1):35-41. [34]王平,焦燕,任一平,等.莱州湾、黄河口水域春季近岸渔获生物多样性特征的调查研究[J].海洋湖沼通报,1999(1):40-44. [35]邓景耀,朱金声,程济生,等.渤海主要无脊椎动物及其渔业生物学[J].海洋水产研究,1988,9(9):91-120. [36]张波,唐启升.渤、黄、东海高营养层次重要生物资源种类的营养级研究[J].海洋科学进展,2004,22(4):393-404. [37]郭旭鹏,金显仕,戴芳群.渤海小黄鱼生长特征的变化[J].中国水产科学,2006,13(2):243-249. [38]JIN X S. Long-term changes in fish community structure in the Bohai Sea, China[J].Estuarine, Coastal and Shelf Science,2004,59(1):163-171. [39]ZHANG B, TANG Q, JIN X. Decadal-scale variations of trophic levels at high trophic levels in the Yellow Sea and the Bohai Sea ecosystem[J].Journal of Marine Systems,2007,67(3/4):304-311. [40]邓景耀,孟田湘,任胜民,等.渤海鱼类种类组成及数量分布[J].海洋水产研究,1988,9(9):11-89.
2023, Vol. 42 
