2 期                                     水    产    学    报                                 50 卷

                    lifespan affect the estimation of growth parameters using ELE-  of  the  National  Academy  of  Sciences  of  the  United  States  of
                    FAN[J]. Fisheries Research, 2021, 238: 105903.  America, 1928, 14(12): 922-925.
              [16]   Rudd M B, Thorson J T. Accounting for variable recruitment  [26]   Froese  R,  Binohlan  C.  Empirical  relationships  to  estimate
                    and fishing mortality in length-based stock assessments for data-  asymptotic length,  length  at  first  maturity  and  length  at   max-
                    limited fisheries[J]. Canadian Journal of Fisheries and Aquatic  imum yield per recruit in fishes, with a simple method to evalu-
                    Sciences, 2018, 75(7): 1019-1035.               ate  length  frequency  data[J].  Journal  of  Fish  Biology,  2000,
              [17]   Xu B D, Ren Y P, Chen Y, et al. Optimization of stratification  56(4): 758-773.
                    scheme for a fishery-independent survey with multiple object-  [27]   Thorson J T, Munch S B, Cope J M, et al. Predicting life his-
                    ives[J]. Acta Oceanologica Sinica, 2015, 34(12): 154-169.  tory parameters for all fishes worldwide[J]. Ecological Applica-
              [18]   中华人民共和国国家质量监督检验检疫总局, 中国国家标准                    tions, 2017, 27(8): 2262-2276.
                    化管理委员会. 海洋调查规范 第       6  部分: 海洋生物调查:     [28]   Maunder M N, Hamel O S, Lee H H, et al. A review of estima-
                    GB/T 12763.6-2007[S]. 北京: 中国标准出版社, 2008: 56-62.  tion methods for natural mortality and their performance in the
                    General Administration of Quality Supervision, Inspection and  context  of  fishery  stock  assessment[J].  Fisheries  Research,
                    Quarantine of the People’s Republic of China, National Stand-  2023, 257: 106489.
                    ardization Administration. Specifications for oceanographic sur-  [29]   Maunder M N, Piner K R. Contemporary fisheries stock assess-
                    vey—Part 6: marine biological survey: GB/T 12763.6-2007[S].  ment: many issues still remain[J]. ICES Journal of Marine Sci-
                    Beijing: Standards Press of China, 2008: 56-62 (in Chinese).  ence, 2015, 72(1): 7-18.
              [19]   Lee H H, Maunder M N, Piner K R, et al. Can steepness of the  [30]   Hordyk  A,  Ono  K,  Valencia  S,  et  al.  A  novel  length-based
                    stock–recruitment  relationship  be  estimated  in  fishery  stock  empirical estimation method of spawning potential ratio (SPR),
                    assessment models?[J]. Fisheries Research, 2012, 125-126: 254-  and  tests  of  its  performance,  for  small-scale,  data-poor
                    261.                                            fisheries[J]. ICES Journal of Marine Science, 2015, 72(1): 217-
              [20]   Taylor  M  H,  Mildenberger  T  K.  Extending  electronic  length  231.
                    frequency analysis in R[J]. Fisheries Management and Ecology,  [31]   Schijns  R,  Pauly  D.  Management  implications  of  shifting
                    2017, 24(4): 330-338.                           baselines  in  fish  stock  assessments[J].  Fisheries  Management
              [21]   王琨, 张崇良, 陈宁, 等. 基于  Bootstrap  的  ELEFAN  方法在评  and Ecology, 2022, 29(2): 183-195.
                    估方氏云鳚群体生长参数中的应用        [J]. 中国水产科学, 2019,  [32]   Goodyear C P. Spawning stock biomass per recruit in fisheries
                    26(3): 512-521.                                 management: foundation and current use[M]//Smith S J, Hunt J
                    Wang K, Zhang C L, Chen N, et al. Evaluating the growth para-  J, Rivard D. Risk evaluation and biological reference points for
                    meters  of  Pholis  fangi  based  on  the  bootstrap-ELEFAN  fisheries management. Canadian Special Publication of Fisher-
                    method[J]. Journal of Fishery Sciences of China, 2019, 26(3):  ies and Aquatic Sciences, 1993: 67-82.
                    512-521 (in Chinese).                     [33]   王一邦. 长江口鱼类浮游生物群落结构演变和优势种小眼绿
              [22]   Then A Y, Hoenig J M, Hall N G, et al. Evaluating the predict-  鳍鱼适应性研究  [D]. 青岛: 中国科学院大学  (中国科学院海
                    ive performance of empirical estimators of natural mortality rate  洋研究所), 2023.
                    using information on over 200 fish species[J]. ICES Journal of  Wang Y B. Variation on ichthyoplankton community structure
                    Marine Science, 2015, 72(1): 82-92.             and  adaptation  of  the  dominant  species  in  the  Yangtze
              [23]   Pauly  D.  On  the  interrelationships  between  natural  mortality,  Estuary[D]. Qingdao:  University  of  Chinese  Academy  of   Sci-
                    growth parameters, and mean environmental temperature in 175  ences (Institute of Oceanology, Chinese Academy of Sciences),
                    fish  stocks[J].  ICES  Journal  of  Marine  Science,  1980,  39(2):  2023 (in Chinese).
                    175-192.                                  [34]   Froese R, Winker H, Coro G, et al. A new approach for estimat-
              [24]   任一平. 海州湾渔业资源与栖息环境      [M]. 北京: 中国农业出          ing stock status from length frequency data[J]. ICES Journal of
                    版社, 2022: 7, 52-55.                             Marine Science, 2018, 75(6): 2004-2015.
                    Ren  Y  P.  Fishery  Resources  and  habitat  environment  in  [35]   Punt A E, Castillo-Jordán C, Hamel O S, et al. Consequences of
                    Haizhou Bay[M]. Beijing: China Agriculture Press, 2022: 7, 52-  error in natural mortality and its estimation in stock assessment
                    55 (in Chinese).                                models[J]. Fisheries Research, 2021, 233: 105759.
              [25]   Keys A B. The weight-length relation in fishes[J]. Proceedings  [36]   Han Q P, Shan X J, Jin X S, et al. Data-limited stock assess-

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