禁捕初期鄱阳湖鱼类群落的结构特征

CHARACTERISTICS OF FISH ASSEMBLAGES OF POYANG LAKE AT THE INITIAL STAGE OF THE FISHING BAN

  • 摘要: 为掌握禁捕初期鄱阳湖鱼类群落的结构特征, 研究于2020年4月(春季)、7月(夏季)、10月(秋季)和2021年1月(冬季)在鄱阳湖21个采样点开展了渔获物调查。全年共采集到57种鱼类, 隶属于8目12科43属。优势种有贝氏䱗(Hemiculter bleekeri)、短颌鲚(Coilia brachygnathus)、蛇(Saurogobio dabryi)、和似鳊(Pseudobrama simoni)等4种鱼类。江湖洄游型、江海洄游型和河流型鱼类物种数共占比45.61%, 平均体重<20 g的物种的丰度占所有渔获物丰度的88.47%。在空间结构上, 基于鱼类丰度的非度量多维排序分析将鄱阳湖分为通江水道和主湖区两个大的空间类群, 方差分析表明通江水道鱼类丰度显著低于主湖区, 但多样性高于主湖区。在季节变化方面, 不同季节渔获物丰度、生物量和多样性的差异极其显著, 高水位时期(夏、秋季)的多样性高于低水位时期(春、冬季)。2020年10月在鄱阳湖主湖区中部的S9和通江水道的S20两个采样点发现了鄱阳湖历史文献中没有记录的广盐性近海鱼类——鲻(Mugil cephalus), 可能得益于长江禁捕, 由于消除了捕捞压力, 促使了该鱼类的资源恢复和上溯, 也不排除其他人为因素的可能, 因而需要更长时间序列的跟踪和监测。研究为全面评估鄱阳湖禁捕的生态效果提供了基础数据, 也为制定鄱阳湖鱼类资源的保护政策提供了参考。

     

    Abstract: To systematically investigate fish assemblages of Poyang Lake at the initial stage of the fishing ban, quantitative field investigation on fish communities from a total of 21 sampling sites was carried out in four consecutive seasons represented by April as spring, July as summer, October as autumn in 2020 and January as winter in 2021. A total of 57 fish species was collected throughout the study, which belonged to 8 orders, 12 families, and 43 genera. There were 4 dominant species, namely Hemiculter bleekeri, Coilia brachygnathus, Saurogobio dabryi, and Pseudobrama simoni. Migratory and riverine fish accounted for 45.61% of total species. The number of species with an average body weight of less than 20 g per individual represented 88.47% of the total catch. Non-metric multidimensional scaling based on fish abundance divided the samples into two spatial groups, the channel and the main lake of Poyang Lake. Fish abundance of sampling sites in the channel was significantly lower than that in the main lake, while fish diversity was higher in the channel. Fish abundance and biomass varied significantly in four seasons. Diversity during summer and autumn seasons which witnessed high water levels was found higher than those during spring and winter seasons which had low water levels. A new euryhaline fish species, Mugil cephalus, which has never been recorded in this area, was collected both at the channel (S20) and the main lake (S9) sites during the October sampling. This possibly reflected the fishing ban effects on reducing the fishing pressure and promoting the fish resource recovery and migration, and other potential human related factors. Longer term monitoring and tracking is needed. This study provided basic information for assessing the ecological effects of the fishing ban and references for developing fish resources conservation strategies in Poyang Lake.

     

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