4 期             郑    翔，等：以山东半岛北部近岸水域为例优化设计近岸渔业资源调查站位                                     50 卷

                    52.                                             山: 浙江海洋学院, 2012.
                    Niu M X, Wang J, Zuo T, et al. Health assessment of coastal  Luo  H  Z.  Study  of  main  biology  character  and  analysis  of
                    fishery  waters  in  the  Yellow  River  Estuary  based  on  the  fish  resource status on the Harvodon nehereus[D]. Zhoushan: Zheji-
                    index  of  biotic  integrity[J].  Journal  of  Hydroecology,  2023,  ang Ocean University, 2012 (in Chinese).
                    44(6): 45-52 (in Chinese).                [26]   詹秉义. 渔业资源评估   [M]. 北京: 中国农业出版社, 1995: 31-
              [18]   陈凯, 于海燕, 张汲伟, 等, 基于底栖动物预测模型构建生物                34.
                    完整性指数评价河流健康       [J]. 应用生态学报, 2017, 28(6):     Zhan B Y. Fish stock assessment[M]. Beijing: China Agricul-
                    1993-2002.                                      ture Press, 1995: 31-34 (in Chinese).
                    Chen  K,  Yu  H  Y,  Zhang  J  W,  et  al.  Predictive  model  based  [27]   刘其根, 沈建忠, 陈马康, 等. 天然经济鱼类小型化问题的研
                    multimetric index of macroinvertebrates for river health assess-  究进展  [J]. 上海水产大学学报, 2005, 14(1): 79-83.
                    ment[J].  Chinese  Journal  of  Applied  Ecology,  2017,  28(6):  Liu Q G, Shen J Z, Chen M K, et al. Advances of the study on
                    1993-2002 (in Chinese).                         the  miniaturization  of  natural  economical  fish  resources[J].
              [19]   陈新军, 刘金立, 官文江, 等. 渔业资源生物经济模型研究及                Journal of Shanghai Fisheries University, 2005, 14(1): 79-83 (in
                    应用进展  [J]. 上海海洋大学学报, 2014, 23(4): 608-617.      Chinese).
                    Chen  X  J,  Liu  J  L,  Guan  W  J,  et  al.  Progress  of  theory  and  [28]   Yu H, Jiao Y, Su Z M, et al. Performance comparison of tradi-
                    application  of  bio-economic  model  in  fishery  resources[J].  tional sampling designs and adaptive sampling designs for fish-
                    Journal of Shanghai Ocean University, 2014, 23(4): 608-617 (in  ery-independent  surveys:  a  simulation  study[J].  Fisheries
                    Chinese).                                       Research, 2012, 113(1): 173-181.
              [20]   韩青鹏, 单秀娟, 万荣, 等. 基于地统计二阶广义线性混合模          [29]   程济生, 俞连福. 黄、东海冬季底层鱼类群落结构及多样性
                    型的黄海冬季小黄鱼时空分布和资源量指数估算            [J]. 水产        变化  [J]. 水产学报, 2004, 28(1): 29-34.
                    学报, 2019, 43(7): 1603-1614.                     Cheng  J  S,  Yu  L  F.  The  change  of  structure  and  diversity  of
                    Han Q P, Shan X J, Wan R, et al. Spatiotemporal distribution  demersal fish communities in the Yellow Sea and East China
                    and the estimated abundance indices of Larimichthys polyactis  Sea in winter[J]. Journal of Fisheries of China, 2004, 28(1): 29-
                    in winter in the Yellow Sea based on geostatistical delta-gener-  34 (in Chinese).
                    alized  linear  mixed  models[J].  Journal  of  Fisheries  of  China,  [30]   林群, 王俊, 袁伟, 等. 捕捞和环境变化对渤海生态系统的影
                    2019, 43(7): 1603-1614 (in Chinese).            响  [J]. 中国水产科学, 2016, 23(3): 619-629.
              [21]   Chen Y L, Shan X J, Jin X S, et al. Changes in fish diversity  Lin Q, Wang J, Yuan W, et al. Effects of fishing and environ-
                    and community structure in the central and southern Yellow Sea  mental change on the ecosystem of the Bohai Sea[J]. Journal of
                    from 2003 to 2015[J]. Journal of Oceanology and Limnology,  Fishery Sciences of China, 2016, 23(3): 619-629 (in Chinese).
                    2018, 36(3): 805-817.                     [31]   Bell R J, Richardson D E, Hare J A, et al. Disentangling the
              [22]   Schnute J T, Boers N, Haigh R, et al. PBSmapping: mapping  effects  of  climate,  abundance,  and  size  on  the  distribution  of
                    fisheries data and spatial analysis tools[Z]. 2017.  marine fish: an example based on four stocks from the North-
              [23]   单秀娟, 陈云龙, 金显仕, 等. 气候变化对长江口鱼类资源密                east US shelf[J]. ICES Journal of Marine Science, 2015, 72(5):
                    度分布的重塑作用    [J]. 渔业科学进展, 2016, 37(6): 1-10.     1311-1322.
                    Shan X J, Chen Y L, Jin X S, et al. Reshaping the distribution  [32]   王晶, 徐宾铎, 张崇良, 等. 黄河口鱼类底拖网调查采样断面
                    of  fish  abundance  by  climate  change:  a  case  study  in  the  数的优化  [J]. 中国水产科学, 2017, 24(5): 931-938.
                    Yangtze  River  estuary[J].  Progress  in  Fishery  Sciences,  2016,  Wang J, Xu B D, Zhang C L, et al. Sample size optimization for
                    37(6): 1-10 (in Chinese).                       cluster design of bottom trawl fish surveys in the Yellow River
              [24]   王淼, 洪波, 张玉平, 等. 春季和夏季杭州湾北部海域鱼类种                estuary[J]. Journal of Fishery Sciences of China, 2017, 24(5):
                    群结构分析   [J]. 水生态学杂志, 2016, 37(5): 75-81.        931-938 (in Chinese).
                    Wang M, Hong B, Zhang Y P, et al. Spring and summer fish  [33]   Lewy  P,  Kristensen  K.  Modelling  the  distribution  of  fish
                    community structure in northern Hangzhou Bay[J]. Journal of  accounting for spatial correlation and overdispersion[J]. Cana-
                    Hydroecology, 2016, 37(5): 75-81 (in Chinese).  dian Journal of Fisheries and Aquatic Sciences, 2009, 66(10):
              [25]   罗海舟. 龙头鱼主要生物学特性研究及资源状况分析         [D]. 舟        1809-1820.



              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
                                                            13