4 期                                     水    产    学    报                                 50 卷

                    态学杂志, 2011, 30(9): 2053-2059.                   量粒径谱季节变化     [J]. 中国海洋大学学报, 2024, 54(3): 51-
                    Song  Y  T,  Wang  P,  Zhou  D  W.  Methods  of  measuring  plant  59.
                    community functional diversity[J]. Chinese Journal of Ecology,  Qu Y Q, Liu S D, Xue Y, et al. Seasonal variation of biomass
                    2011, 30(9): 2053-2059 (in Chinese).            size  spectra  of  fish  communities  in  the  southern  waters  off
              [11]   Walker B, Kinzig A, Langridge J. Original articles: plant attrib-  Shandong  Peninsula[J].  Periodical  of  Ocean  University  of
                    ute diversity, resilience, and ecosystem function: the nature and  China, 2024, 54(3): 51-59 (in Chinese).
                    significance  of  dominant  and  minor  species[J].  Ecosystems,  [21]   陈聪, 徐楚越, 秦箭煌, 等. 2020—2023  年“三重”拉尼娜期间
                    1999, 2(2): 95-113.                             热带太平洋上层海洋的时空差异          [J]. 海洋学研究, 2024,
              [12]   Petchey  O  L,  Gaston  K  J.  Functional  diversity  (FD),  species  42(4): 12-20.
                    richness and community composition[J]. Ecology Letters, 2002,  Chen C, Xu C Y, Qin J H, et al. The spatial and temporal differ-
                    5(3): 402-411.                                  ences of upper ocean in tropical Pacific during the “triple-dip”
              [13]   Villéger S, Mason N W H, Mouillot D. New multidimensional  La  Nia  of  2020-2023[J].  Journal  of  Marine  Sciences,  2024,
                    functional  diversity  indices  for  a  multifaceted  framework  in  42(4): 12-20 (in Chinese).
                    functional ecology[J]. Ecology, 2008, 89(8): 2290-2301.  [22]   刘瑞玉. 中国海洋生物名录  [M]. 北京: 科学出版社, 2008.
              [14]   Zou J Y, Wang H X, Shan X J, et al. Spatial variation of func-  Liu R Y. Checklist of marine biota of China Seas[M]. Beijing:
                    tional structure of fish communities in the Bohai Sea[J]. Global  Science Press, 2008 (in Chinese).
                    Ecology and Conservation, 2025, 60: e03583.  [23]   陈大刚, 张美昭. 中国海洋鱼类  [M]. 青岛: 中国海洋大学出
              [15]   张蒙生, 曲方圆, 隋吉星, 等. 山东半岛南部近海冬季大型底                版社, 2016.
                    栖动物多样性及群落结构特征       [J]. 中国海洋大学学报, 2017,        Chen D G, Zhang M Z. Marine fishes of China[M]. Qingdao:
                    47(S1): 58-66.                                  China Ocean University Press, 2016 (in Chinese).
                    Zhang M S, Qu F Y, Sui J X, et al. Diversity and community  [24]   崔培东, 卞晓东, 张雨轩, 等. 黄海北部近岸海域渔业生物群
                    structure of macrobenthos in southern coast of Shandong penin-  落结构  [J]. 水产学报, 2024, 48(4): 049314.
                    sula  in  winter[J].  Periodical  of  Ocean  University  of  China,  Cui P D, Bian X D, Zhang Y X, et al. Community structure of
                    2017, 47(S1): 58-66 (in Chinese).               fishery  organisms  in  offshore  waters  of  the  North  Yellow
              [16]   李凡, 周兴, 张岚, 等. 山东近海鱼类群落分类多样性      [J]. 生       Sea[J]. Journal of Fisheries of China, 2024, 48(4): 049314 (in
                    态学报, 2015, 35(7): 2322-2330.                    Chinese).
                    Li  F,  Zhou  X,  Zhang  L,  et  al.  Taxonomic  diversity  of  fish  [25]   Pianka  E  R.  Ecology  of  the  agamid  lizard  Amphibolurus  iso-
                    assemblages in coastal waters off Shandong[J]. Acta Ecologica  lepis in western Australia[J]. Copeia, 1971, 1971(3): 527-536.
                    Sinica, 2015, 35(7): 2322-2330 (in Chinese).  [26]   程济生. 黄渤海近岸水域生态环境与生物群落    [M]. 青岛: 中
              [17]   陈大刚. 黄渤海渔业生态学   [M]. 北京: 海洋出版社, 1991.          国海洋大学出版社, 2004.
                    Chen  D  G.  Fishery  ecology  of  Bohai  Sea  and  the  Yellow  Cheng J S. Ecological environment and biotic community in the
                    Sea[M]. Beijing: China Ocean Press, 1991 (in Chinese).  coastal waters of the Yellow Sea and Bohai Sea[M]. Qingdao:
              [18]   吕振波. 山东近海经济生物资源调查与评价       [M]. 北京: 海洋         China Ocean University Press, 2004 (in Chinese).
                    出版社, 2010: 1-50.                          [27]   Yemane D, Field J G, Leslie R W. Exploring the effects of fish-
                    Lv Z B. Investigation and evaluation of economic resources in  ing on fish assemblages using abundance biomass comparison
                    Shandong offshore[M]. Beijing: China Ocean Press, 2010: 1-50  (ABC)  curves[J].  ICES  Journal  of  Marine  Science,  2005,
                    (in Chinese).                                   62(3): 374-379.
              [19]   李涛, 张秀梅, 张沛东, 等. 山东半岛南部近岸海域渔业资源          [28]   Warwick R M. A new method for detecting pollution effects on
                    群落结构的季节变化      [J]. 中国海洋大学学报, 2011, 41(1-       marine  macrobenthic  communities[J].  Marine  Biology,  1986,
                    2): 41-50.                                      92(4): 557-562.
                    Li T, Zhang X M, Zhang P D, et al. Seasonal variation on com-  [29]   张晓妆, 王晶, 徐宾铎, 等. 海州湾鱼类群落功能多样性的时
                    munity  structure  of  fishery  resources  in  the  coastal  waters  of  空变化  [J]. 应用生态学报, 2019, 30(9): 3233-3244.
                    southern  Shandong  Peninsular[J].  Periodical of  Ocean   Uni-  Zhang X Z, Wang J, Xu B D, et al. Spatio-temporal variations
                    versity of China, 2011, 41(1-2): 41-50 (in Chinese).  of functional diversity of fish communities in Haizhou Bay[J].
              [20]   曲耀琦, 刘淑德, 薛莹, 等. 山东半岛南部海域鱼类群落生物                Chinese  Journal  of  Applied  Ecology,  2019,  30(9): 3233-3244

              https://www.china-fishery.cn                           中国水产学会主办    sponsored by China Society of Fisheries
                                                            10