The taxonomic diversity of fish community in the coastal waters of Xiamen
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摘要: 根据厦门海域鱼类种类组成历史资料和调查资料,系统整理了厦门海域的鱼类总名录和现有名录,并应用分类学等级多样性指数和分类差异变异指数分析了厦门海域鱼类群落分类学多样性的时空变化。结果表明:厦门海域有记录鱼类共649种;现有鱼类有331种,隶属2纲22目90科181属,其中软骨鱼纲共5目9科9属15种,辐鳍鱼纲共17目81科172属316种。厦门海域鱼类总名录的等级多样性指数Δ+和分类差异变异指数Λ+分别为79.267和220.96;现有鱼类群落分类多样性指数Δ+和分类差异指数Λ+分别为77.504和245.34。分类多样性指数Δ+在冬、春季较高,秋季次之,而夏季最低;而分类差异指数Λ+夏季较高,秋季次之,冬春季较低。秋季和冬季鱼类组成的相似度最高,其次为夏季,最后为春季。与历史总名录相比,厦门海域的现有鱼类群落分类学范围较小,生态幅变窄,群落稳定性较差。Abstract: Based on literature and survey data of fish composition collected by bottom trawl investigation from 2006 to 2007 in Xiamen coastal waters,the fish fauna was set up, fish community and the taxonomic diversity and distinctness by using taxonomic diversity Δ+ and taxonomic distinctness Λ+ were analyzed. The results show that: there were 649 species of fishes recorded in Xiamen coastal waters. 331 species of fishes were available at present,belonging to 2 classes, 22 orders, 90 families and 181 genera, as for the Chondrichthyes fishes were composed of 5 orders, 9 families, 9 genera and 15 species, while the Actinopterygii fishes were composed of 17 orders, 81 families, 172 genera and 316 species. The taxonomic diversity Δ+ and taxonomic distinctness Λ+ of the fish community master list in Xiamen coastal waters were 79.267 and 220.96, 77.504 and 245.34 at present, respectively. The taxonomic diversity Δ+ in winter and spring was higher than summer and autumn, and it was lowest in summer. While the taxonomic distinctness Λ+ was highest in summer and lower in winter and spring. The fish compositions in autumn and winter had the highest similarity, followed by summer, and lowest in spring. Compared with historical data, fish community in Xiamen coastal waters is being smaller in the taxonomic range and narrower in ecological amplitude. The stability of the fish community is potential recession and the ability to resist change is down.
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Key words:
- fish community /
- taxonomic diversity /
- taxonomic distinctness /
- Xiamen coastal waters
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徐宾铎.黄海鱼类群落结构的变化及重要种类生物学特征.中国海洋大学,2004:6-9. Simpson E H. Measurement of diversity[J].Nature, 1949, 163: 688. Shannon C E, Weaver W. The Mathematical Theory of Communication[M].Urbana: University of Illinois Press, 1963. Warwick R M, Clarke K R. New "biodiversity" measures of reveal a decrease in taxonomic distinctness with increasing stress[J]. Marine Ecology Progress Series, 1995, 129: 301-305. Clarke K R, Warwick R M.A taxonomic distinctness index and its statistical properties[J].J Appl Ecol, 1998, 35: 523-531. Clarke K R, Warwick R M.A further biodiversity index applicable to species list: variation in taxonomic distinctness[J]. Mar Ecol Prog Ser, 2001, 216: 265-278. Clarke K R, Warwick R M. Changes in Marine Communities: An Approach to Statistical Analysis and Interpretation (2nd edition)[M].Plymouth: PRIMER-ELtd, 2001. Rogers S I, Clarke, K R, Reynolds J D. The taxonomic distinctness of coastal bottom-dwelling fish communities of the northeast Atlantic[J]. Journal of Animal Ecology, 1999, 68:769-782. Hall S J, Greenstreet S P R. Taxonomic distinctness and diversity measures: responses in marine fish communities[J]. Marine Ecology Progress Series, 1998, 166: 227-229. Ferraro S P, Cole F A. Taxonomic level sufficient for assessing a moderate impact on macro benthic communities in Puget Sound, Washington, USA[J]. Canadian Journal of Fisheries and Aquatic Science, 1992, 49: 1184-1188. Nicholas A J, Graham T R, et al. Anthropogenic stressors, inter-specific competition and ENSO effects on a Mauritian coral reef[J]. Environ Biol Fish, 2007, 78: 57-69. David M, Julie L, Jean-Antoine T, et al. Assessment of coastal lagoon quality with taxonomic diversity indices of fish, zoobenthos and macrophyte communities[J]. Hydrobiologia, 2005, 550: 121-130. Carlo C, Annalisa F, Richard W. Biodiversity evaluation of the macroalgal flora of the Gulf of Trieste (Northern Adriatic Sea) using taxonomic distinctness indices[J]. Hydrobiologia, 2007, 580: 43-56. Christos A, Georgios C, Drosos K, et al. Estimating lagoonal biodiversity in Greece: comparison of rapid assessment techniques[J]. Helgol Mar Res, 2005, 59: 177-186. Bruce Campbell W, Roberto A P, Jose A G. Taxonomic distinctness and aquatic coleoptera: comparing a perennial and intermittent stream with differing geomorphologies in Hidalgo, Mexico[J]. Aquat Ecol, 2008, 42: 103-113. 徐宾铎,任一平,叶振江,等.青岛近岸水域鱼类群落分类学多样性的研究[J].中国海洋大学学报:自然科学版,2007,37(6):907-910. 徐宾铎,金显仕,梁振林. 对黄、渤海鱼类等级多样性的推算[J]. 青岛海洋大学学报,2005,35(1):25-28. 徐宾铎,金显仕,梁振林. 黄海鱼类群落分类学多样性的研究[J]. 中国海洋大学学报,2005,35(4):629-634. 张衡,陆健健.鱼类分类多样性估算方法在长江河口区的应用[J]. 华东师范大学学报(自然科学版),2007,2(3):11-22. Huang Liangmim, Zhang Yazhi, Jin Xianshi, et al. A comparative study of fish community in four main estuaries of China southeastern coastal areas and their adjacent waters[J]. J Ocean Univ China, 2010, 9(2): 169-177. 黄宗国.厦门湾物种多样性[M].北京:海洋出版社,2006:5-8. 黄良敏,张雅芝,姚舒栓.厦门东海域定置网渔获鱼类种类组成及其季节变化[J].台湾海峡,2006,25(4):509-520. 黄良敏,张雅芝,杜楚炫,等.厦门东海域流刺网渔获鱼类种类组成及其多样性分析[J].台湾海峡,2007,26(2):261-269. 国家海洋局第三海洋研究所.厦门中华白海豚饵料生物调查报告.厦门:国家海洋局第三海洋研究所.2008:26-30. 黄良敏,张雅芝,潘佳佳,等.厦门东海域鱼类食物网研究[J].台湾海峡,2008,27(1):64-73. 洪惠馨,林利民,翁奋发,等.福建九龙江口近海定置作业渔获物组成及其数量变动的调查研究[J].台湾海峡,2004,23(2):174-185. 张雅芝,黄良敏.厦门东海域鱼类的群落结构及种类多样性研究[J].热带海洋学报,2009,28(2):80-90. 卢振彬.厦门海域渔业资源评估[J].热带海洋,2000,19(2): 51-56. 李桂海. 厦门海域现代沉积环境及重金属元素的环境地球化学研究.中国海洋大学,2007. 朱元鼎. 福建鱼类志(上、下册)[M].福建:福建科学技术出版社,1984. 朱元鼎.东海鱼类志[M].北京,科学出版社,1963:1-642. 傅志芬.福建沿岸海域夏冬季底拖网鱼类种类组成及季节变动.集美:集美大学,2007. 张振勇.福建沿岸海域春、秋季底拖网鱼类种类组成及数量变动.集美:集美大学,2008. 福建省渔业区划办公室.福建省渔业资源[M].福州:福建科学技术出版社,1988:11-13. Tilman D. The ecological consequence of change in biodiversities: a search for general principle[J]. Ecology, 1999, 80: 1455-1474. 冯广朋.鱼类群落多样性研究的理论与方法[J].生态科学,2008,27(6):506-514. Ryder R A,Kerr S R,Taylor W W,et al. Community consequences of fish stock diversity[J].Can J Fish Aquat Sci,1981,38:1856-1866. Tilman D. Biodiversity: population versus ecosystem stability[J].Ecology, 1996, 77: 350-363. 福建省环境保护厅. 2011年福建省环境状况公报. 2012-06-12. 黄良敏,谢仰杰,张雅芝,等.厦门海域渔业资源现存量评析[J].集美大学学报(自然科学版),2010,15(2):81-87.
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