Da Wen-Yi, Zhu Guang-Wei, Li Yun-Xiang, Wu Zhi-Xu, Zheng Wen-Ting, Lan Jia, Wang Yu-Cheng, Xu Hai, Zhu Meng-Yuan
State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, China.
College of Environmental Science and Engineering, China West Normal University, Nanchong 637002, China.
Huan Jing Ke Xue. 2020 Feb 8;41(2):713-727. doi: 10.13227/j.hjkx.201906143.
The tail of the reservoir is the unstable zone regarding water quality and phytoplankton community. Therefore, it is the crucial zone in aquatic ecosystem transitions. To understand the transition characteristics and driving mechanisms of water environment dynamics, high-frequency monitoring of the water environment and phytoplankton community in the tail of a deep and large reservoir, the Xin'anjiang Reservoir in southeast of China, was conducted using a water quality monitoring buoy and three-day interval water sampling during 18 months. Results show clear seasonal thermal and oxygen stratification in the river mouth of the reservoir. The nutrient and chlorophyll-a concentrations also show stratifying phenomena during the thermal stratification period. Heavy rain and inflow quickly consume the stratification. Nutrient concentrations were highly dynamic in the river mouth. The total phosphorus ranges from 0.011 mg·L to 0.188 mg·L, and total nitrogen ranges from 0.75 mg·L to 2.76 mg·L. Dissolved phosphorus comprised 56% of total phosphorus, and dissolved nitrogen occupied 88% of total nitrogen, respectively. Nutrient concentrations were influenced strongly by rainfall intensity and inflow rate. Total phosphorus and nitrogen concentrations were significantly related to the three-day accumulated rainfall. Nutrient concentrations in the flood season (March to June) were significantly higher than in the non-flood season (<0.001). Seasonal phytoplankton proliferation also significantly influenced by total phosphorus concentration. The phytoplankton community changes significantly with seasons and flood events. Bacillariophytea was generally dominant throughout the year, with the predominant genus of spp., spp., spp., and spp. Cyanophyta biomass peaked in July, August, and September, with the dominant genus of spp., spp., and spp. Apart from the high temperature, storm inflow events also triggered Cyanophyta proliferation. The proliferation of Chlorophyta was similar to Cyanophyta, with the predominant genus of spp. and spp.. While the Cryptophyta biomass peaked during March to May, with the predominant genus of spp.. Redundancy analysis shows that the influence factors of phytoplankton community dynamics include the inflow rate, temperature, water level, water transparency, total nitrogen, total phosphorus, and nitrogen to phosphorus ratio. The meteorological and hydrological factors were major factors for phytoplankton dynamics during later autumn and winter, while the nutrient will be the co-driving factors of phytoplankton community dynamics during summer and early autumn. The research confirmed the huge influence of the intensity rainfall event on the water environment in reservoirs and described the key environmental conditions for phytoplankton community dynamics. The research is useful for the design of the monitoring and forecasting system for water safety in drinking water source reservoirs.
水库尾部是水质和浮游植物群落的不稳定区域。因此,它是水生生态系统转变的关键区域。为了解水环境动态的转变特征和驱动机制,在中国东南部的大型深水水库新安江水库尾部,使用水质监测浮标并每隔三天进行一次水样采集,对水环境和浮游植物群落进行了为期18个月的高频监测。结果表明,水库河口存在明显的季节性热力和氧气分层现象。在热力分层期间,营养物质和叶绿素-a浓度也呈现分层现象。暴雨和入库流量会迅速消耗这种分层。河口的营养物质浓度变化很大。总磷范围为0.011mg·L至0.188mg·L,总氮范围为0.75mg·L至2.76mg·L。溶解磷占总磷的56%,溶解氮分别占总氮的88%。营养物质浓度受降雨强度和入库流量的强烈影响。总磷和总氮浓度与三天累计降雨量显著相关。汛期(3月至6月)的营养物质浓度显著高于非汛期(<0.001)。季节性浮游植物增殖也受总磷浓度的显著影响。浮游植物群落随季节和洪水事件发生显著变化。硅藻全年通常占主导地位,优势属为 属、 属、 属和 属。蓝藻生物量在7月、8月和9月达到峰值,优势属为 属、 属和 属。除了高温外,暴雨入库事件也会引发蓝藻增殖。绿藻的增殖情况与蓝藻相似,优势属为 属和 属。隐藻生物量在3月至5月达到峰值,优势属为 属。冗余分析表明,浮游植物群落动态的影响因素包括入库流量、温度、水位、水体透明度、总氮、总磷和氮磷比。气象和水文因素是晚秋和冬季浮游植物动态的主要因素,而营养物质将是夏季和初秋浮游植物群落动态的共同驱动因素。该研究证实了降雨强度事件对水库水环境的巨大影响,并描述了浮游植物群落动态的关键环境条件。该研究对饮用水源水库水安全监测与预报系统的设计具有参考价值。
