3 期                                     水    产    学    报                                 50 卷

              [33]   常剑波. 长江中华鲟繁殖群体结构特征和数量变动趋势研究              [40]   柯福恩, 危起伟, 张国良, 等. 中华鲟产卵洄游群体结构和资
                    [D]. 武汉: 中国科学院水生生物研究所, 1999.                    源量估算的研究    [J]. 淡水渔业, 1992(4): 7-11.
                    Chang  J  B.  Spawning  population  features  and  variation  trend  Ke F E, Wei Q W, Zhang G L, et al. Investigations on the struc-
                    for the Chinese sturgeon in the Yangtze River[D]. Wuhan: Insti-  ture  of  spawning  population  of  Chinese  sturgeon  (Acipenser
                    tute of Hydrobiology, Chinese Academy of Sciences, 1999 (in  sinensis Gray) and the estimate of its stock[J]. Freshwater Fish-
                    Chinese).                                       eries, 1992(4): 7-11 (in Chinese).
              [34]   张陵, 郭文献, 李泉龙. 长江流域珍稀特有物种中华鲟生态保           [41]   刘鉴毅, 危起伟, 杜浩, 等. 中华鲟人工繁殖关键技术的改进
                    护措施  [J]. 华北水利水电大学学报     (自然科学版), 2022,         效果研究  [J]. 经济动物学报, 2006, 10(2): 96-100.
                    43(1): 96-102.                                  Liu J Y, Wei Q W, Du H, et al. Studies on promoted key tech-
                    Zhang L, Guo W X, Li Q L. Ecological protection measures of  nologies  in  artificial  propagation  of  Chinese  sturgeon[J].
                    Chinese  sturgeon,  a  rare  and  endemic  species  in  the  Yangtze  Journal of Economic Animal, 2006, 10(2): 96-100 (in Chinese).
                    River  Basin[J].  Journal  of  North  China  University  of  Water  [42]   危起伟, 李罗新, 杜浩, 等. 中华鲟全人工繁殖技术研究  [J].
                    Resources and Electric Power (Natural Science Edition), 2022,  中国水产科学, 2013, 20(1): 1-11.
                    43(1): 96-102 (in Chinese).                     Wei Q W, Li L X, Du H, et al. Research on technology for con-
              [35]   Zhang H, Wei Q W, Kyanrd B E, et al. Spatial structure and  trolled propagation of cultured Chinese sturgeon (Acipenser sin-
                    bottom characteristics of the only remaining spawning area of  ensis)[J]. Journal of Fishery Sciences of China, 2013, 20(1): 1-
                    Chinese  sturgeon  in  the  Yangtze  River[J].  Journal  of  Applied  11 (in Chinese).
                    Ichthyology, 2011, 27(2): 251-256.        [43]   余文公, 夏自强, 于国荣, 等. 三峡水库水温变化及其对中华
              [36]   王成友. 长江中华鲟生殖洄游和栖息地选择        [D]. 武汉: 华中        鲟繁殖的影响    [J]. 河海大学学报  (自然科学版), 2007, 35(1):
                    农业大学, 2012.                                     92-95.
                    Wang  C  Y.  Migrations  for  reproduction  of  Chinese  sturgeon  Yu W G, Xia Z Q, Yu G R, et al. Water temperature variation
                    (Acipenser  sinensis)  and  its  habitat  selections  in  the  Yangtze  in Three-Gorges Reservoir and its influences on procreation of
                    River[D]. Wuhan: Huazhong Agricultural University, 2012 (in  Chinese sturgeons[J]. Journal of Hohai University (Natural Sci-
                    Chinese).                                       ences), 2007, 35(1): 92-95 (in Chinese).
              [37]   陶江平, 乔晔, 杨志, 等. 葛洲坝产卵场中华鲟繁殖群体数量          [44]   罗江, 杜浩, 危起伟, 等. 濒危中华鲟人工群体的繁殖生物学
                    与繁殖规模估算及其变动趋势分析        [J]. 水生态学杂志, 2009,       [J]. 中国水产科学, 2020, 27(3): 269-276.
                    2(2): 37-43.                                    Luo J, Du H, Wei Q W, et al. Reproductive biology of an artifi-
                    Tao  J  P,  Qiao  Y,  Yang  Z,  et  al.  Estimation  on  the  spawning  cial population of endangered Chinese sturgeon (Acipenser Sin-
                    population and spawning sizes of Chinese sturgeon (Acipenser  ensis)[J].  Journal  of  Fishery  Sciences  of  China,  2020,  27(3):
                    sinensis) and trend analysis of their change in recent years[J].  269-276 (in Chinese).
                    Journal of Hydroecology, 2009, 2(2): 37-43 (in Chinese).  [45]   Wang L H, Huang Z L. Passive drifting and high mortality rate
              [38]   杨德国, 危起伟, 王凯, 等. 人工标志放流中华鲟幼鱼的降河                of released subadult Chinese sturgeons in the Yangtze River[J].
                    洄游  [J]. 水生生物学报. 2005, 29(1): 26-30.            Reviews in Fish Biology and Fisheries, 2024, 34(1): 201-219.
                    Yang D G, Wei Q W, Wang K, et al. Downstream migration of  [46]   Brown C, Day R L. The future of stock enhancements: lessons
                    tag released juvenile Chinese sturgeon (Acipenser sinensis) in  for  hatchery  practice  from  conservation  biology[J].  Fish  and
                    the Yangtze River[J]. Acta Hydrobiologica Sinica, 2005, 29(1):  Fisheries, 2002, 3(2): 79-94.
                    26-30 (in Chinese).                       [47]   Yang H L, Leng X Q, Du H, et al. Adjusting the prerelease gut
              [39]   吴建辉, 陈锦辉, 高春霞. 基于标志放流信息的长江口中华鲟                 microbial community by diet training to improve the postrelease
                    降海洄游和分布特征     [J]. 中国水产科学, 2021, 28(12): 1559-  fitness  of  captive-bred  Acipenser  dabryanus[J].  Frontiers  in
                    1567.                                           Microbiology, 2020, 11: 488.
                    Wu  J  H,  Chen  J  H,  Gao  C  X.  Research  on  the  downstream  [48]   郑跃平, 杨海乐, 徐嘉楠, 等. 人工繁育中华鲟成体在长江口
                    migration and distribution characteristics of Chinese sturgeon in  放流后可以进行溯河洄游  [J]. 湖泊科学, 2025, 37(5): 1722-
                    the Yangtze  Estuary  based  on  tagging  and  releasing   informa-  1732.
                    tion[J].  Journal  of  Fishery  Sciences  of  China,  2021,  28(12):  Zheng  Y  P,  Yang  H  L,  Xu  J  N,  et  al.  Artificially  bred  adult
                    1559-1567 (in Chinese).                         Chinese  sturgeon  (Acipenser  sinensis)  can  migrate  upstream

              https://www.china-fishery.cn                           中国水产学会主办    sponsored by China Society of Fisheries
                                                            16