2 期              安建国，等：浙江汤浦水库鱼类群落时空分布格局及其与环境因子的关系                                        50 卷

              [28]   张琳琳, 周永东, 蒋日进, 等. 浙江中南部近岸海域春季主要                31(4): 940-949.
                    鱼类空间生态位    [J]. 应用生态学报, 2020, 31(2): 659-666.   Yuan C, Pei R H, Hu Z J, et al. Structural characteristics of fish
                    Zhang L L, Zhou Y D, Jiang R J, et al. Spatial niche of major  assemblage  and  its  relationship  with  environmental  factors  in
                    fish species in spring in the coastal waters of central and south-  Songmushan  Reservoir,  Dongguan  City  of  Guangdong
                    ern  Zhejiang  Province,  China[J].  Chinese  Journal  of  Applied  Province[J].  Journal  of  Shanghai  Ocean  University,  2022,
                    Ecology, 2020, 31(2): 659-666 (in Chinese).     31(4): 940-949 (in Chinese).
              [29]   樊紫薇, 蒋日进, 张洪亮, 等. 岱衢洋产卵场鱼卵、仔稚鱼群          [36]   连玉喜, 李昌, 叶少文, 等. 云南高原渔洞水库鱼类空间分布
                    落结构及其与环境因子的关系        [J]. 水产学报, 2020, 44(4):    格局及主要影响因子     [J]. 湖泊科学, 2018, 30(6): 1755-1765.
                    606-620.                                        Lian Y X, Li C, Ye S W, et al. Fish spatial distribution patterns
                    Fan Z W, Jiang R J, Zhang H L, et al. Community structure of  and  controlling  factors  in  Yudong  Reservoir,  Yunnan
                    ichthyoplankton and its relationship with environmental factors  Plateau[J].  Journal  of  Lake  Sciences,  2018,  30(6):  1755-1765
                    in  Daiquyang  spawning  ground[J].  Journal  of  Fisheries  of  (in Chinese).
                    China, 2020, 44(4): 606-620 (in Chinese).  [37]   孙明波, 谷孝鸿, 曾庆飞, 等. 基于水声学方法的天目湖鱼类
              [30]   韩洁, 张杰, 宋蒙蒙, 等. 济南市水域鱼类功能群结构及其季                季节和昼夜空间分布研究      [J]. 生态学报, 2015, 35(17): 5597-
                    节性变化  [J]. 环境科学研究, 2018, 31(9): 1537-1544.      5605.
                    Han  J,  Zhang  J,  Song  M  M,  et  al.  Structure  and  seasonal  Sun M B, Gu X H, Zeng Q F, et al. Seasonal and daily spatial
                    changes of fish functional groups in Jinan Region[J]. Research  distribution of fish in Lake Tianmu based on the hydroacoustic
                    of  Environmental  Sciences,  2018,  31(9):  1537-1544  (in  method[J]. Acta Ecologica Sinica, 2015, 35(17): 5597-5605 (in
                    Chinese).                                       Chinese).
              [31]   隋晓云, 陈咏霞, 卫玉龙. 潭江鱼类群落组成及资源评价       [J].  [38]   周兴安, 乔永民, 王赛, 等. 洱海鱼类群落结构特征及其与环
                    四川师范大学学报    (自然科学版), 2014, 37(4): 589-596.      境因子关系   [J]. 生态学杂志, 2016, 35(6): 1569-1577.
                    Sui X Y, Chen Y X, Wei Y L. Composition of the fish com-  Zhou  X  A,  Qiao  Y  M,  Wang  S,  et  al.  Characteristics  of  fish
                    munity  in  the  Tanjiang  river  and  resources  evaluation[J].  assemblages associated with environmental factors in the Lake
                    Journal of Sichuan Normal University (Natural Science), 2014,  Erhai[J]. Chinese Journal of Ecology, 2016, 35(6): 1569-1577
                    37(4): 589-596 (in Chinese).                    (in Chinese).
              [32]   Barnes  R  S  K,  Mann  K  H.  Fundamentals  of  aquatic  ecology  [39]   Prchalová M, Kubečka J, Čech M, et al. The effect of depth,
                    [M]. Oxford: Blackwell Scientific Publications, 1991: 277.  distance from dam and habitat on spatial distribution of fish in
              [33]   Yunev  O  A,  Shulman  G  E,  Yuneva  T  V,  et  al.  Relationship  an  artificial  reservoir[J].  Ecology  of  Freshwater  Fish,  2009,
                    between the abundance of small pelagic fishes and the phyto-  18(2): 247-260.
                    plankton biomass as an indicator of the state of the pelagic eco-  [40]   Lian Y X, Ye S W, Godlewska M, et al. Diurnal, seasonal and
                    system of the Black Sea[J]. Doklady Biological Sciences, 2009,  inter-annual  variability  of  fish  density  and  distribution  in  the
                    428(1): 454-457.                                Three  Gorges  Reservoir  (China)  assessed  with  hydroacoustics
              [34]   代培, 阎明军, 周游, 等. 太湖五里湖沿岸带浮游植物群落                 [J]. Limnologica, 2017, 63: 97-106.
                    生态特征  (2014—2015  年)[J]. 长江流域资源与环境, 2018, 27  [41]   Eloranta  P,  Eloranta  A.  Vertical  distribution  of  fishes  in  one
                    (10): 2348-2357.                                lake deep  (Lake  Kuusvesi,  Central  Finland)[J].  SIL   Proceed-
                    Dai  P,  Yan  M  J,  Zhou  Y,  et  al.  Ecological  characteristics  of  ings, 1922-2010, 1978, 20(3): 2092-2097.
                    phytoplankton community structure in the littoral zone of Lake  [42]   林鹏程, 高欣, 刘春池, 等. 葛洲坝上下游江段鱼类时空分布
                    Wuli,  Lake  Taihu  in  2014-2015[J].  Resources and   Environ-  特征研究  [J]. 长江流域资源与环境, 2011, 20(9): 1047-1053.
                    ment  in  the  Yangtze  Basin,  2018,  27(10):  2348-2357  (in  Lin P C, Gao X, Liu C C, et al. Hydroacoustic surveys on tem-
                    Chinese).                                       poral and spatial distribution of fishes in the upper and lower
              [35]   袁晨, 裴瑞华, 胡忠军, 等. 广东东莞松木山水库鱼类群落结                reaches of the Gezhouba dam[J]. Resources and Environment in
                    构及其与环境因子的关系       [J]. 上海海洋大学学报, 2022,          the Yangtze Basin, 2011, 20(9): 1047-1053 (in Chinese).










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