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机构地区:[1]中国科学院水生生物研究所,淡水生态与生物技术国家重点实验室,武汉430072 [2]河南师范大学,水产学院,新乡453007
出 处:《水生生物学报》2016年第3期615-623,共9页Acta Hydrobiologica Sinica
基 金:河南师范大学博士启动基金项目(qd14183)资助~~
摘 要:水体富营养化和气候变暖是淡水生态系统面临的两大威胁。文章分别阐述了富营养化和气候变暖对淡水湖泊浮游藻类直接和间接效应,并总结气候变暖可能通过影响水体理化性质、水生植物组成、食物链结构从而直接或间接改变浮游藻类生物量或群落结构。作者重点分析了气候变暖下湖泊生态系统蓝藻水华暴发机制,比较了不同湖泊蓝藻对气候变暖和富营养化响应的异同点,发现气候变暖和富营养化对湖泊生态系统影响存在相似性,表现在均促进湖泊由清水-浊水稳态转变、增加蓝藻水华发生频率和强度。然而二者对湖泊浮游藻类影响的相对重要性取决于分层型湖泊和混合型湖泊的差异性、不同营养型湖泊和不同类群蓝藻组成差异性。作者认为,开展气候变暖和富营养化下,湖泊浮游藻类功能群响应研究亟待进行。Currently, freshwater ecosystems are suffering from eutrophication and climate warming. We enumerated both direct and indirect effects of eutrophication and climate wanning on phytoplankton communities of freshwater lakes. It was indicated that climate warming might alter algae biomass or community structure through influences on physic-chemical properties, aquatic plants composition and food-chain structure. We further analyzed potential mechanisms of cyanobacterial-blooms by comparing diversified responses of different lakes to climate warming and eutrophi- cation. The results demonstrated that eutrophication and warming played similar roles in affecting lake ecosystems. Both eutrophication and warming promoted regime shift from clear-water state to turbid ones and accelerated the increase of cyanobacterial biomass and bloom intensity. However, the relative contribution of the two factors on biomass was dependent on lake types (Hierarchical or Hybrid), trophic level and phytoplankton community structure. Finally, we suggest that further studies on responses of phytoplankton functional groups to eutrophication and warming are ne- cessary and obligatory.
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