富营养化和渔业生产对保安湖沉水植物群落演替的影响

IMPACTS OF EUTROPHICATION AND FISHERY PRODUCTION ON THE SUCCESSION OF SUBMERGED MACROPHYTES IN BAO’AN LAKE

  • 摘要: 为了解其沉水植物群落特征及富营养化和渔业生产对植物群落演替的影响, 利用长期监测数据分析了保安湖近40年来沉水植物、水质及渔业资源的变化, 结果表明: (1)1970s—1980s, 常见沉水植物约10种, 以穗状狐尾藻、微齿眼子菜和菹草为主, 生物量较高(年均值, 1005—5954 g/m2); 1990s常见沉水植物约7种, 以微齿眼子菜和菹草为主, 生物量有所下降(209—877 g/m2); 2000s—2010s, 沉水植物群落结构趋于简单化, 菹草演替为单优种群, 生物量变化较大(1—1478 g/m2); 2021年以来, 沉水植物基本消失; (2)1980s至今保安湖氮磷营养水平呈持续上升趋势; 1980s—1990s水体总磷含量(TP)约0.03 mg/L, 远低于浅水湖泊草藻稳态转换阈值(0.08—0.12 mg/L), 此时富营养化对沉水植物的影响不大; 2000s水体营养含量快速上升, 2003年TP为0.07 mg/L, 接近草藻稳态转换阈值, 此后一直维持在较高水平, 是导致沉水植物群落衰退的重要原因之一; (3)1980s—1990s以放养草鱼和河蟹为主, 鱼产量为(62—101)×104 kg, 草鱼放养量约1.5×104 kg, 河蟹产量约3.0×104 kg, 草鱼和河蟹对植物的摄食是导致这一时期沉水植物生物量下降的主要原因; 2000s鱼产量大增, 最高达500×104 kg, 放养鱼类以滤食性的鲢鳙为主, 还有大量河蟹, 对沉水植物的生存与发展仍存在不利影响; 自2018年禁渔后, 渔业资源量大幅降低, 仅放养鲢鳙, 对沉水植物的直接影响较小。以上结果表明近40年保安湖沉水植物生物多样性显著下降、群落结构趋于简单化; 1980s—1990s, 过度发展渔业(草鱼牧食)是影响沉水植物群落演替的关键因素, 2000s植物群落演替受富营养化和过度养殖的双重胁迫, 近年来富营养化是影响植物群落的关键因素。研究以保安湖为例, 阐述了富营养化和渔业生产对阻隔湖泊沉水植物群落演替的影响, 可为长江中下游类似浅水湖泊的管理工作提供理论依据。

     

    Abstract: In recent decades, submerged macrophytes recession has become a prevalent environmental problem in shallow lakes in the middle and lower reaches of the Yangtze River affected by human disturbance and other factors. Bao’an Lake is located in the middle reaches of the Yangtze River. To understand the characteristics of submerged macrophytes community and the impacts of eutrophication and fishery production on the succession of macrophytes community, we analyzed the changes of the submerged macrophytes community, water quality and fishery resources in Bao’an Lake in the recent 40 years. The data were collected from our long-term monitoring, literature and the local lake management department. The results showed that: (1) During 1970s—1980s, there were about 10 common species of submerged macrophytes, mainly including Myriophyllum spicatum, Potamogeton maackianus and Potamogeton crispus, the annual average biomass was 1005—5954 g/m2. In 1990s, there were about 7 common species of submerged macrophytes, mainly Potamogeton maackianus and Potamogeton crispus, and the biomass decreased to 209—877 g/m2. During 2000s—2010s, the structure of submerged macrophytes was simplified, and Potamogeton crispus became the monodominant species, and the biomass changed greatly, fluctuated between 1 and 1478 g/m2. Since 2021, submerged macrophytes have basically disappeared. (2) From the 1980s to now, the nutrients content of Bao’an Lake exhibited an upward trend. Total phosphorus content (TP) during 1980s—1990s was about 0.03 mg/L, which was much lower than the regime shift threshold in shallow lakes. Eutrophication has little effect on submerged macrophytes at this time. In the 21st century, the nutrients content in lake water increased rapidly. In 2003, TP was 0.07 mg/L, which was close to the regime shift threshold. Since then, it was maintained at a relatively high level, which was one of the important reasons resulting in the decline of submerged macrophytes. (3) During 1980s—1990s, Ctenopharyngodon idellus and Eriocheir japonica sinensis were mainly stocked, and the fish yield fluctuated between 0.62×104 and 1.01×104 kg. The Ctenopharyngodon idellus was cultured at high density during 1986—1989 (about 2.6×104 kg), which was the main reason for the decline of submerged macrophytes during this period. In the 21st century, the fishery output has increased greatly, up to 500×104 kg. Hypophthalmichthys molitrix and Aristichthys nobilis have been the dominant species farming in the lakes, and there were so many Eriocheir japonica sinensis, which has adverse effects on the survival and development of submerged macrophytes. After the fishery withdrawal in 2018, the fishery resources have been greatly reduced, and only Hypophthalmichthys molitrix and Aristichthys nobilis were stocked, which has little direct impact on submerged macrophytes. The results indicated that in past 40 years, the biodiversity of submerged macrophytes in Bao’an Lake has decreased considerably, and the community structure has tended to be simplified. The succession of submerged macrophytes was mainly regulated by fishing (grazing pressure from Ctenopharyngodon idellus) during 1980s—1990s, while suffered with dual pressure from eutrophication and excessive aquaculture at the beginning of the 21st century. In recent years, eutrophication become the key factor influencing submerged macrophytes community. This research clarified the effects of eutrophication and excessive aquaculture on the succession of submerged macrophytes communities in isolated lakes, and provided theoretical basis for the ecological management for comparable shallow lakes located in the middle and lower reaches of the Yangtze River.

     

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