基于周丛藻类的雅鲁藏布江流域水生态系统健康评价

USING PERIPHYTON ALGAE TO ASSESS STREAM CONDITIONS OF YARLUNG ZANGBO RIVER BASIN

  • 摘要: 为评估雅鲁藏布江流域水生态系统的健康状态, 研究于2013年10月、2014年4月和2014年7月, 在雅鲁藏布江流域干流及其4大支流上设置了26个采样点, 先对河流每个点位的海拔、坐标、河道底质类型及构成比例、河岸植被类型、水电工程等环境数据进行收集, 随后采集周丛藻类群落数据, 并在此基础上构建了周丛藻类生物完整性指数(P-IBI)评价指标体系, 结果显示: 调查期间, 雅鲁藏布江流域干支流共观察到周丛藻类7门10纲23目34科70属(种), 硅藻门(35.71%)、绿藻门(32.86%)和蓝藻门(20.00%)为前3个优势门类, 周丛藻类的优势种均属于硅藻门, 该水域属硅藻-绿藻-蓝藻型水体。周丛藻类Shannon-Wiener多样性指数的变幅为4.84—9.41, Pielou均匀度指数的变幅为2.41—4.80, 则表明雅鲁藏布江流域整体为轻污型-清洁型水体。周丛藻类的Shannon-Wiener多样性指数、Pielou均匀度指数与P-IBI评价指标体系共同说明: 雅鲁藏布江流域干流上下游及其4大支流水生态系统的健康状态优于雅鲁藏布江流域干流中游的健康状态。研究雅鲁藏布江流域水生态系统周丛藻类的群落特征和水环境的健康状态, 一方面能为西藏土著鱼类食性、摄食机制等的研究提供饵料数据基础, 另一方面能对河流水生态系统的健康状况进行科学评价, 从而保障西藏水生态安全。

     

    Abstract: Periphyton algae are one of the main groups of organisms in the aquatic ecosystem. They are self-sustaining and can store solar energy by converting it into chemical energy through photosynthesis, as well as generate and release oxygen to promote the material circulation, energy flow and information transfer of the aquatic ecosystem. Periphyton algae are rich in species, attached growth, short life cycle, sensitive to changes in the water environment, and can absorb pollutants in water bodies and purify water quality. They are the beginning of the food chain in the water ecosystem and an important indicator species for water quality monitoring, and often used to the health evaluation of aquatic ecosystems. The Yarlung Zangbo River Basin has high average altitude, low water temperature, and strong ultraviolet radiation, which is the most important natural aquatic ecosystem in Tibet Autonomous Region. It can adjust the climate characteristics of Tibet Autonomous Region and has special geomorphological and ecological conditions that many low altitude rivers do not have, the ecological environment is very sensitive and fragile, and it is highly susceptible to events such as global climate change and human disturbance. Ensuring its water environment has a high health status is an important foundation for protecting green mountains and rivers. In order to assess the health status of the water ecosystem, 26 sampling points were set up on the main stream and four major tributaries of the Yarlung Zangbo River Basin from 2013 to 2014. The environmental data and the periphyton algae community were collected, and the periphytic index of biological integrity (P-IBI) were constructed. A total of 7 phyla, 10 classes, 23 orders, 34 families and 70 genera (species) of periphyton were identified, most of which were Bacillariophyta (35.71%), Chlorophyta (32.86%) and Cyanophyta (20.00%), and the dominant species of periphyton algae were the Bacillariophyta belonging to Bacillariophyta-chlorophyta-cyanophyta type of water. The species richness and total abundance of periphyton algae in the mainstream were slightly lower than those of the tributaries of the Yarlung Zangbo River Basin. The Shannon-Wiener diversity index varied from 4.84 to 9.41, and the Pielou evenness index varied from 2.41 to 4.80, indicating that the investigated water area was light pollution-clean water. The biodiversity characteristics and the P-IBI evaluation system of periphyton algae in the Yarlung Zangbo River Basin indicated that the water ecosystems in the upper, lower reaches of the main stream and four major tributaries were better than those in the middle reaches of the main stream of the Yarlung Zangbo River Basin. These results provide a basis for studying feeding habits and mechanisms of Tibet indigenous fishes to ensure the safety of water ecology and to realize the sustainable development of resources and environmental protection.

     

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