调水调沙影响下黄河山东段鱼类群落格局及多样性

FISH COMMUNITY PATTERN AND DIVERSITY AFFECTED BY WATER AND SEDIMENT REGULATION IN SHANDONG SECTION OF THE YELLOW RIVER

  • 摘要: 文章于2019—2021年调水调沙前后利用多种网具对黄河山东段4个站位开展鱼类资源调查, 研究了黄河山东段鱼类群落的种类组成、生态类型、优势种、生物多样性及环境影响因子等。结果表明, 山东段共采集鱼类59种, 隶属于10目20科, 调水前优势种为鲫(Carassius auratus)、鳊(Parabramis pekinensis)、鲤(Cyprinus carpio)、赤眼鳟(Squaliobarbus curriculus)、翘嘴鲌(Culter alburnus)、草鱼(Ctenopharyngodon idellus)、鲻(Mugil cephalus)、鮻(Liza haematocheilus), 调水后优势种为鲫、鳊、鲤、赤眼鳟。多样性指数方面Shannon-Wiener指数、丰富度指数差异较显著(0.01<P<0.05), 均匀度指数差异不显著(P>0.05)。聚类分析表明, 调水调沙前后黄河山东段鱼类群落结构在相似水平为45%时可以划分为2组, 调水调沙后东阿断面(AH2)与其他断面相比具有较强的差异性; 相似水平为60%时可以划分为4组, 分别为A组群(AH3、BH3和BH2)、B组群(AH1和BH1)、C组群(AH4和BH4)、D组群(AH2)。SIMPER分析显示, A组群平均相似率为60.66%, 特征种包括鳊、翘嘴鲌、赤眼鳟、鮻、似鳊(Pseudobrama simoni)、鲢(Hypophthalmichthys molitrix), B组群平均相似率为66.38%, 特征种包括鳊、鲫、鲇(Silurus asotus)、鲤、䱗(Hemiculter leucisculus), C组群平均相似率为68.48%, 特征种包括鲤、鲫、翘嘴鲌、鳊、鮻。RDA分析表明径流量、总磷是影响群落结构的主要因子。基于以上结果, 研究对比黄河各河段鱼类群落结构特征, 分析调水调沙对黄河山东段鱼类群落格局及多样性的影响, 发现庞口湾作为鱼类栖息地的重要性并提出保护建议。研究可为黄河山东段渔业资源保护和可持续发展提供理论依据和技术支撑。

     

    Abstract: To practice the ecological conservation and high-quality development of the Yellow River Basin, the species composition, biomass, dominant species, biodiversity and environmental factors were surveyed at 4 sampling sections in Shandong section of the Yellow River before and after water and sediment regulation (WSR) in June and July by multi-mesh composite gillnets and ground cage nets. The results showed that 59 fish species, belonging to 9 orders and 19 families were collected in Shandong section. The dominant species changed non-significant before and after water diversion. However, there were significant differences between Shannon-wiener index (0.01<P<0.05) and the Margalef index, but Pielou index showed no significant difference (P>0.05). Cluster analysis showed that all sections could be divided into four groups when the similarity level was 60%, among which the Dong’e (AW2) section displayed strong difference after WSR. Furthermore, RDA analysis indicated that velocity and TP were the main factors affecting community structure. Based on the results, we found that the species number and Shannon-Wiener index significant increased in Shandong section of the Yellow River over the past decade. This positive trend was attributed to fish following the water and sediment regulation and residing in the area between Dongping Lake and the Yellow River, characterized by slow flowing water, abundant baits, and low sedimentcontent. Additionally, the stabilization and normalization of the Yellow River runoff had transformed previously dry section into habitats rich in water, effectively forming a river inlet for fish. Moreover, the irregular opening of the sluice in Dongping Lake not only enriched the bait species in Pangkou Inlet, but also provided a path for fish, such as Coilia nasus, to enter the Yellow River. In view of the fish community structure and diversity in Shandong section of the Yellow River, this study recommends implementing environmental restoration in Pangkou Inlet, enhancing the protection of rare species, conducting research on endemic species, maintaining stability of the Yellow River runoff and optimizing flow management in Shandong section of the Yellow River to ensure a more scientifically guided approach.

     

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