4 期                                     水    产    学    报                                 50 卷

                    nical note on seasonal growth models[J]. Reviews in Fish Bio-  the  Yellow  Sea  and  Bohai  Sea,  Dalian[J].  Northern  Chinese
                    logy and Fisheries, 2012, 22(3): 635-640.       Fisheries, 2025, 44(6): 705-712 (in Chinese).
              [28]   Taylor  M  H,  Mildenberger  T  K.  Extending  electronic  length  [38]   李晓玺, 袁金国, 刘夏菁, 等. 基于  MODIS  数据的渤海净初级
                    frequency analysis in R[J]. Fisheries Management and Ecology,  生产力时空变化  [J]. 生态环境学报, 2017, 26(5): 785-793.
                    2017, 24(4): 330-338.                           Li  X  X,  Yuan  J  G,  Liu  X  J,  et  al.  Study  on  spatiotemporal
              [29]   Mildenberger  T  K,  Taylor  M  H,  Wolff  M.  TropFishR:  an  R  changes of net primary productivity in bohai sea using MODIS
                    package  for  fisheries  analysis  with  length-frequency  data[J].  Data[J]. Ecology and Environmental Sciences, 2017, 26(5): 785-
                    Methods in Ecology and Evolution, 2017, 8(11): 1520-1527.  793 (in Chinese).
              [30]   詹秉义. 渔业资源评估  [M]. 北京: 中国农业出版社, 2005.     [39]   Kim S, Kim H, Bae H, et al. Growth and reproduction of the
                    Zhan  B  Y.  Fishery  reources  assessment[M].  Beijing:  China  Japanese mantis shrimp, Oratosquilla oratoria (De Haan 1844)
                    Agriculture Press, 2005 (in Chinese).           in  the  coastal  area  of  Tongyeong,  Korea[J].  Ocean  Science
              [31]   Alverson D L, Carney M J. A graphic review of the growth and  Journal, 2017, 52(2): 257-265.
                    decay  of  population  cohorts[J].  ICES Journal  of  Marine   Sci-  [40]   Hart P, Pitcher T J. Fisheries ecology[M]. Dordrecht: Springer,
                    ence, 1975, 36(2): 133-143.                     1983.
              [32]   Pauly  D.  On  the  interrelationships  between  natural  mortality,  [41]   王琨, 张崇良, 陈宁, 等. 基于  Bootstrap  的  ELEFAN  方法在评
                    growth parameters, and mean environmental temperature in 175  估方氏云鳚群体生长参数中的应用  [J]. 中国水产科学, 2019,
                    fish  stocks[J].  ICES  journal  of  Marine  Science,  1980,  39(2):  26(3): 512-521.
                    175-92.                                         Wang K, Zhang C L, Chen N, et al. Evaluating the growth para-
              [33]   Rikhter V A, Efanov V N. On one of the approaches to estima-  meters  of  Pholis  fangi  based  on  the  bootstrap-ELEFAN
                    tion of natural mortality of fish populations[M]. Nova Scotia:  method[J]. Journal of Fishery Sciences of China, 2019, 26(3):
                    International Commission for the Northwest Atlantic Fisheries,  512-521 (in Chinese).
                    1976.                                     [42]   Schwamborn  R,  Mildenberger  T  K,  Taylor  M  H.  Assessing
              [34]   Gunderson D R, Dygert P H. Reproductive effort as a predictor  sources of uncertainty in length-based estimates of body growth
                    of  natural  mortality  rate[J].  ICES  Journal  of  Marine  Science,  in populations  of  fishes  and  macroinvertebrates  with   boot-
                    1988, 44(2): 200-209.                           strapped ELEFAN[J]. Ecological Modelling, 2019, 393: 37-51.
              [35]   Kodama K, Yamakawa T, Shimizu T, et al. Age estimation of  [43]   De Barros M, Oliveira-Filho R, Aschenbrenner A, et al. Evalu-
                    the  wild  population  of  Japanese  mantis  shrimp  Oratosquilla  ation of traditional and bootstrapped methods for assessing data-
                    oratoria (Crustacea: Stomatopoda) in Tokyo Bay, Japan, using  poor  fisheries:  a  case  study  on  tropical  seabob  shrimp
                    lipofuscin as an age marker[J]. Fisheries Science, 2005, 71(1):  (Xiphopenaeus kroyeri) with an improved length-based mortal-
                    141-150.                                        ity estimation method[J]. PeerJ, 2024, 12: e18397.
              [36]   李鹏程, 张崇良, 任一平, 等. 山东近海春季口虾蛄空间分布          [44]   Brodziak J, Ianelli J, Lorenzen K, et al. Estimating natural mor-
                    与关键环境因子及生物学特性的关系          [J]. 中国水产科学,          tality in stock assessment applications[M]. Seattle: US Depart-
                    2021, 28(9): 1184-1194.                         ment of Commerce, National Oceanic and Atmospheric Admin-
                    Li P C, Zhang C L, Ren Y P, et al. Spatial distribution of spring  istration, National Marine Fisheries Service, 2011.
                    Oratosquilla  oratoria  in Shandong  offshore  and  the   relation-  [45]   Hamel O S. A method for calculating a meta-analytical prior for
                    ships   with   environmental   factors   and   biological  the  natural  mortality  rate  using  multiple  life  history
                    characteristics[J]. Journal of Fishery Sciences of China, 2021,  correlates[J]. ICES Journal of Marine Science, 2014, 72(1): 62-
                    28(9): 1184-1194 (in Chinese).                  69.
              [37]   刘心怡, 姜玉声, 张溱, 等. 大连黄渤海口虾蛄形态与性腺发          [46]   Chen N, Zhang C L, Sun M, et al. The impact of natural mortal-
                    育的比较研究   [J]. 黑龙江水产, 2025, 44(6): 705-712.      ity variations on the performance of management procedures for
                    Liu X Y, Jiang Y S, Zhang Z, et al. Comparative study on mor-  Spanish  mackerel  (Scomberomorus  niphonius)  in  the  Yellow
                    phology and gonadal development of Oratosquilla oratoria in  Sea, China[J]. Acta Oceanologica Sinica, 2018, 37(8): 21-30.










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