摘要
水库库尾区的水环境多变,是水库生态系统突变的重要策源地.为探究大型水库水源地水环境演变特征及其突变的促发机制,以新安江水库为例,通过库尾河口断面18个月水质浮标的高频记录及3 d一次的藻类群落结构人工鉴定数据等,分析了气象水文过程影响下的水库库尾区的水温、溶解氧、浊度及营养盐等环境指标及藻类群落结构的高频变化特征,揭示了降雨、入流及季节温度变化等关键气象水文过程对水库水质及藻类群落结构的影响机制.结果表明:①在27 m深的河流入库区的水体温度和溶解氧存在明显的季节分层,相应水体藻类叶绿素a和营养盐等指标也同步发生分层,水温分层从气温达到14℃以上的3月中旬开始,至气温降至24℃后的10月中旬结束,期间较大降雨和入流多次破坏水温分层;②河道入库区水体氮、磷等营养盐变幅大,总磷浓度变幅为0.011~0.188 mg·L^-1之间,总氮浓度变幅为0.75~2.76 mg·L^-1之间,总磷和总氮中的溶解态占比分别为56%及88%,降雨入流对水体营养盐浓度影响巨大,3 d的累积降雨与水体氮、磷浓度显著正相关,3~6月(雨季)的营养盐含量明显高于其他月份(P<0.001),藻类的季节性增殖反过来也会影响水体总磷浓度;③藻类群落结构及其优势属呈现明显的季节变化,在总体硅藻门类占优的背景下,蓝藻、绿藻、隐藻等在不同季节形成明显峰值,蓝藻在7~10月的夏秋季形成明显的生物量峰值,其峰值形成原因除了高温之外,还与暴雨入流有关.蓝藻主要优势属为束丝藻属(Aphanizomenon spp.)、微囊藻(Microcystis spp.)及颤藻(Oscillatoria spp.)等,绿藻峰值与蓝藻基本同步,优势属为盘星藻属(Pediastrum spp.)和新月藻属(Closterium spp.),隐藻在3~5月形成峰值,优势属为隐藻属(Cryptomonas spp.),硅藻门中的优势属分别为脆杆藻属(Fragilaria spp.)、小环藻属(Cyclotella spp.)、针杆藻属(Synedra spp.)�
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 from0.011 mg·L^-1 to 0.188 mg·L^-1,and total nitrogen ranges from 0.75 mg·L^-1 to 2.76 mg·L^-1.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(P<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 Fragilaria spp.,Cyclotella spp.,Synedra spp.,and Melosira spp.Cyanophyta biomass peaked in July,August,and September,with the dominant genus of Aphanizomenon spp.,Microcystis spp.,and Oscillatoria spp.Apart from the high temperature,storm inflow events also triggered Cyanophyta proliferation.The proliferation of Chlorophyta was sim
作者
笪文怡
朱广伟
黎云祥
吴志旭
郑文婷
兰佳
王裕成
许海
朱梦圆
DA Wen-yi;ZHU Guang-wei;LI Yun-xiang;WU Zhi-xu;ZHENG Wen-ting;LAN Jia;WANG Yucheng;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;Hangzhou Bureau of Ecology and Environment Chun'an Branch,Hangzhou 311700,China)
出处
《环境科学》
EI
CAS
CSCD
北大核心
2020年第2期713-727,共15页
Environmental Science
基金
国家自然科学基金项目(41830757)
中国科学院野外站联盟项目(KFJ-SW-YW036)
前沿科学重点研究项目(QYZDJ-SSW-DQC008)
南京地理与湖泊研究所“一三五”项目(NIGLAS2017GH04).
关键词
饮用水源地
水库
高频监测浮标
浮游植物
水温分层
有害蓝藻
水质风险
drinking water source
reservoir
high-frequency monitoring buoy
phytoplankton
thermal stratification
harmful algae
water safety
