长江河流-泛滥平原生态系统面临的威胁与整体保护对策

THE YANGTZE RIVER-FLOODPLAIN ECOSYSTEM: MULTIPLE THREATS AND HOLISTIC CONSERVATION

  • 摘要: 长江中下游河流-泛滥平原是中国乃至世界最重要的生态系统之一, 但正面临着多重的严重威胁。因此, 迫切需要修复和保护这一至关重要的生态系统。文章全面系统地综述了长江河流-泛滥平原系统的生态研究进展, 进而提出了整体修复与保护对策。首先, 介绍了河流景观生态系统与水文连通性的基本概念和研究进展。然后, 回顾了长江河流-泛滥平原的历史, 概述环境与资源现状。2300万年前, 长江贯通三峡东流, 形成统一的大河。中下游泛滥平原星罗棋布河溪、湖泊(现有面积15770 km2)和湿地, 孕育出独特而复杂的淡水生物群落, 为我国最重要的淡水渔业基地。第三, 指出长江河流-泛滥平原生态系统面临四大威胁: (1)栖息地丧失, 包括河流渠道化、湖泊面积锐减(19世纪50年代后减少了约10000 km2)、湖滨带退化和过度采砂; (2)水文情势和水文连通改变, 包括建成的4.7万座梯级水库、大多数湖泊以闸坝与干流阻隔; (3)水体污染, 包括富营养化、重金属、有机污染物和微塑料; (4)生物资源过度利用, 包括过度捕捞和高强度围栏养殖。第四, 系统阐明江湖水文连通度与湖泊生态系统的关系: (1)江湖阻隔是湖泊富营养化的重要原因之一; (2)大型植物和底栖动物的物种多样性、生物量和生产量在一定程度的江湖水文连通度下达到最大; (3)阻隔导致各生态类群的鱼类物种多样性下降、天然鱼苗资源枯竭; (4)阻隔导致湖泊底层食物网结构简化, 营养基础更加依赖有机碎屑。江湖阻隔的作用机制是: (1)阻碍湖泊与河流的水沙和营养传输, 扰乱周期性水文波动, 阻断或延滞生物的交流和生长过程; (2)削弱自然水文地貌过程, 降低生境的时空异质性; (3)终止或减弱水文干扰作用。最后, 提出了修复与保护对策。由于长江河流-泛滥平原是一个不可分割的巨系统, 故必须在水系尺度上实施多样性整体保护战略。通过建立鱼类累积种数-面积关系模型, 估算通江湖泊的最小保护面积,约为14400 km2。因此, 至少需要8900 km2阻隔湖泊恢复通江, 而闸坝生态水文调度是最现实的途径。基于生物的生态水文需求研究, 提出如下调度措施: (1)恢复阻隔湖泊春季低水位, 促进植物萌发; 控制春夏水位上涨速率, 保证水生植物正常生长。(2)在4—9月适时开闸, 恢复幼鱼洄游入湖通道; 11—12月适时开闸, 恢复成鱼入江洄游通道。

     

    Abstract: The Yangtze (Changjiang) river-floodplain is one of the most important ecosystems in China and the world, but is seriously threatened by multiple stresses. Thus, it is crucial and urgent to rehabilitate and conserve the river-floodplain. This paper reviews ecological studies conducted on the Yangtze river-floodplain, and presents suggestions for conservation and rehabilitation. First, basic concepts and research advances of riverscape and hydrological connectivity are introduced. Second, the history and current status of the Yangtze River system are summarized. Before 23 Ma, the Yangtze River cut through the Three Gorges, forming the river much like the modern one. Numerous rivers, streams, lakes (the total area 15770 km2 at present) and wetlands are distributed in the mid-lower Yangtze river-floodplain. Such a river-lake complex ecosystem holds a unique and diverse biota, and is the most important fishery area of China. Third, main threats to the Yangtze river-floodplain ecosystem are identified, i.e., a) habitat loss, including river channelization, sharp shrinkage of lake area (ca. 10000 km2 since the 1950s), degradation of lakeshore zones and sand over-mining; b) alternations of hydrological regimes, including construction of ca. 47000 reservoirs and disconnection of most lakes from the mainstem; c) water pollution, including eutrophication, heavy metals, organic pollutants and microplastic; d) overexploitation of biological resources, including overfishing and intensive pen culture. Fourth, effects of river-lake disconnection on lake ecosystems are summarized. It was found that a) disconnection is one of the main causes of lake eutrophication; b) species diversity, biomass, production of macrophytes and macrobenthos reach maxima at some levels of intermediate river connectivity; c) disconnection greatly reduces fish species richness of each habitat guild, and natural fish larvae is severely depleted; d) disconnection simplifies macroinvertebrate food web structure, and trophic basis is more heavily relied on detritus in disconnected lakes. Last, conservation strategies are proposed. Since the Yangtze river-floodplain is a huge integrated system, the biodiversity conservation must be conducted on the whole basin scale. By establishing species-area models of fishes, the minimum protected area of Yangtze-connected lakes is estimated to be ca. 14400 km2. It means that at least 8900 km2 of disconnected lakes should be reconnected with the Yangtze mainstem, and ecohydrological operation of dams and sluices is the feasible approach. Based upon our studies on environmental flow requirements, the following measures are suggested: a) lower water levels during spring to improve germination of macrophytes, and control rising rates of water levels during spring-summer to ensure development of macrophytes; b) open sluice gates to restore migration routes for juveniles migrating into lakes during April-September, and for adults migrating back to the Yangtze mainstem during November-December.

     

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