2 期                     徐晓雁，等：我国主要养殖野鲮亚科种质资源研究进展                                         50 卷

                    学特性的比较研究    [J]. 内陆水产, 2004, 29(6): 36-37.      mental  morphology  and  growth  in  early  stages  of  laboratory-
                    Chen K J, Xiao D Y, Wen Z Y, et al. Comparative study on the  reared Cirrhinus molitorella and C. microlepis (Cypriniformes:
                    biological  characteristics  of  labeo  rohita  and  labeo  Cyprinidae)[J]. Ichthyological Research, 2021, 68(4): 506-516.
                    fimbriatus[J].  Current  Fisheries,  2004,  29(6):  36-37  (in  [16]   Huang Y F, Li X H, Zhu S L, et al. Identification of two hatch
                    Chinese).                                       date-dependent  cohorts  and  variation  in  early  growth  rate  of
              [  8  ]   叶星, 刘家照. 麦瑞加拉鲮与鲮的养殖效果及抗寒能力和肌                mud  carp  (Cirrhinus  molitorella)  in  the  Pearl  River  Delta,
                    肉营养成分的比较    [J]. 中国水产科学, 1999, 6(4): 126-128.   China[J]. Marine and Freshwater Research, 2018, 69(8): 1231-
                    Ye X, Liu J Z. Comparisons of culture effects, cold-resistance  1237.
                    and nutrient contents in muscles between Cirrhinus mrigala and  [17]   黄卫盛. 鲮鱼人工催产技术研究  [J]. 农技服务, 2017, 34(2):
                    C. molitorella[J]. Journal of Fishery Sciences of China, 1999,  154, 153.
                    6(4): 126-128 (in Chinese).                     Huang W  S.  Research  on  artificial  induced  breeding   techno-
              [  9  ]   郑光明, 张跃, 朱新平, 等. 鲮、麦鲮和野鲮之  RAPD  的遗传        logy of Cirrhinus molitorella[J]. Agricultural Technology Ser-
                    标记  [J]. 上海水产大学学报, 1999, 8(3): 215-220.         vice, 2017, 34(2): 154, 153 (in Chinese).
                    Zheng G M, Zhang Y, Zhu X P, et al. The genetic markers of  [18]   董芳, 方冬冬, 张辉, 等. 长江十年禁渔后保护与发展  [J]. 水
                    Cirrhina molitorella, C. mrigola and Labeo rohit from rapd[J].  产学报, 2023, 47(2): 029318.
                    Journal of Shanghai Fisheries University, 1999, 8(3): 215-220  Dong F, Fang D D, Zhang H, et al. Protection and development
                    (in Chinese).                                   after the ten-year fishing ban in the Yangtze River[J]. Journal of
              [10]   刘家照, 罗志腾, 谢刚, 等林礼堂, 钟海浪. 露斯塔野鲮人工生              Fisheries of China, 2023, 47(2): 029318 (in Chinese).
                    殖和胚胎发育   [J]. 淡水渔业, 1982(3): 6-8.         [19]   王子彤, 张鹗. 赣江鱼类物种更新名录     [J]. 生物多样性, 2021,
                    Liu  J  Z,  Luo  Z  T,  Xie  G,  et  al.  Artificial  reproduction  and  29(9): 1256-1264.
                    embryonic  development  of  labeo  fimbriatus[J].  Freshwater  Wang Z T, Zhang E. An updated species checklist of freshwa-
                    Fisheries, 1982(3): 6-8 (in Chinese).           ter  fishes  from  the  Ganjiang  River[J].  Biodiversity  Science,
              [11]   叶金明, 吴建开, 杨显祥, 等. 麦鲮和赤眼鳟作为鳜鱼养殖配                2021, 29(9): 1256-1264 (in Chinese).
                    套饵料鱼适宜性的评价      [J]. 上海海洋大学学报, 2016, 25(4):  [20]   Tao J P, Wang X, Tan XC, et al. Diel pattern of fish presence at
                    569-574.                                        the  Changzhou  fishway  (Pearl  River,  China)  during  the  flood
                    Ye J M, Wu J K, Yang X X, et al. Evaluation of suitability of  season[J].  Journal  of  Applied  Ichthyology,  2015,  31(3):  451-
                    Squaliobarbus  curriculus  and  Cirrhinus  mrigala  as  food  fish  458.
                    for Mandarin fish farming[J]. Journal of Shanghai Ocean Uni-  [21]   朱书礼, 陈蔚涛, 武智, 等. 基于环境 DNA 技术的珠江中下游
                    versity, 2016, 25(4): 569-574 (in Chinese).     鱼类多样性初步研究      [J]. 南方水产科学, 2024, 20(1): 120-
              [12]   蒋高中, 李群, 明俊超, 等. 中国古代淡水养殖鱼类苗种的来                129.
                    源和培育技术研究     [J]. 南京农业大学学报   (社会科学版),           Zhu S L, Chen W T, Wu Z, et al. Preliminary investigation of
                    2012, 12(3): 88-93.                             fish diversity in middle and lower reaches of Pearl River based
                    Jiang G Z, Li Q, Ming J C, et al. The study on the sources and  on  environmental  DNA  technology[J].  South  China  Fisheries
                    cultivation of fry in freshwater aquaculture in ancient China[J].  Science, 2024, 20(1): 120-129 (in Chinese).
                    Journal  of  Nanjing  Agricultural  University  (Social  Sciences  [22]   Zhou L, Wang G P, Kuang T X, et al. Fish assemblage in the
                    Edition), 2012, 12(3): 88-93 (in Chinese).      Pearl River Estuary: spatial‐seasonal variation, environmental
              [13]   李跃飞, 李新辉, 谭细畅, 等. 珠江中下游鲮早期资源分布规                influence and trends over the past three decades[J]. Journal of
                    律  [J]. 中国水产科学, 2011, 18(1): 171-177.           Applied Ichthyology, 2019, 35(4): 884-895.
                    Li Y F, Li X H, Tan X C, et al. Drifting larval resources of mud  [23]   广西壮族自治区水产研究所. 广西鲮鱼的生物学及其养殖
                    carp (Cirrhina molitorella) in middle and lower reaches of Pearl  [J]. 水生生物学集刊, 1975, 5(4): 449-470.
                    River[J]. Journal of Fishery Sciences of China, 2011, 18(1): 171-  The  Fisheries  Research  Institute  of  the  Kwangsi  Chuang
                    177 (in Chinese).                               Autonomous  Region.  On  the  biology  and  culture  of  the  mud
              [14]   Xinping Z, Crespi V. New M. Cirrhinus molitorella[R]. Rome,  carp,  Cirrhinus  molitorella[J].  Acta  Hydrobiologica  Sinica,
                    Italy: FAO, 2009.                               1975, 5(4): 449-470 (in Chinese).
              [15]   Morioka S M, Vongvichith B, Chanthasone P, et al. Develop-  [24]   许建, 赵建, 徐礼鸣, 等. 基于  RNA-Seq  技术的鲮转录组分析

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