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引用本文:钱玺亦,李金彪,敖文,庞博,包萨茹,王琪,刘波,王增龙.呼伦湖浮游植物群落季节动态及其与环境因子的关系.湖泊科学,2022,34(6):1814-1827. DOI:10.18307/2022.0603
Qian Xiyi,Li Jinbiao,Ao Wen,Pang Bo,Bao Saru,Wang Qi,Liu Bo,Wang Zenglong.Seasonal dynamics of phytoplankton and its relationship with environmental factors in Lake Hulun. J. Lake Sci.2022,34(6):1814-1827. DOI:10.18307/2022.0603
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呼伦湖浮游植物群落季节动态及其与环境因子的关系
钱玺亦1,2, 李金彪1,2, 敖文3,2, 庞博3,2, 包萨茹3,2, 王琪3,2, 刘波1,2, 王增龙3,2
1.南通大学地理科学学院, 南通 226001;2.国家环境保护呼伦湖湿地生态环境科学观测研究站, 呼伦贝尔 021000;3.内蒙古自治区呼伦贝尔市北方寒冷干旱地区内陆湖泊研究院, 呼伦贝尔 021000
摘要:
为探究呼伦湖浮游植物群落的季节变化特征及其与环境因子的关系,本研究分别于2019年3、5—10月对呼伦湖浮游植物的种类、细胞密度和生物量及湖水水质进行调查.结果显示,共鉴定出120种浮游植物,隶属于7门72属.从浮游植物群落季节组成差异上来看,春季绿藻门种类数最多,其次是硅藻门、蓝藻门;夏秋季绿藻门种类数最多,蓝藻门次之;冬季硅藻门种类数最多,绿藻门次之.呼伦湖浮游植物优势种主要为硅藻门的梅尼小环藻(Cyclotella meneghiniana)、蓝藻门的卷曲长孢藻(Anabaena circinalis)和细小平裂藻(Merismopedia minima),种类数在春季最多,秋冬季最少.浮游植物细胞密度在春季(123.52×104 cells/L)和冬季(16.41×104 cells/L)较夏季(280.80×104 cells/L)和秋季(380.63×104 cells/L)低,春冬季绿藻门细胞密度最高,夏秋季蓝藻门细胞密度最高.就浮游植物生物量而言,夏季(0.38 mg/L)最大,其次是秋季(0.26 mg/L)和春季(0.24 mg/L),冬季(0.13 mg/L)最小.香农-威纳(Shannon-Wiener)多样性指数、均匀度指数和综合营养状态指数均表明呼伦湖水体处于中营养状态.冗余分析(RDA)表明:水温、叶绿素a、pH和营养盐浓度是影响呼伦湖浮游植物群落分布的主要环境因子.
关键词:  呼伦湖  浮游植物  群落结构  水体富营养化
DOI:10.18307/2022.0603
分类号:
基金项目:科技兴蒙合作项目(2021CG0037)、内蒙古自治区呼伦贝尔市科技计划项目(HZ2020003)和国家级大学生创新训练计划项目(202110304043Z)联合资助.
Seasonal dynamics of phytoplankton and its relationship with environmental factors in Lake Hulun
Qian Xiyi1,2, Li Jinbiao1,2, Ao Wen3,2, Pang Bo3,2, Bao Saru3,2, Wang Qi3,2, Liu Bo1,2, Wang Zenglong3,2
1.School of Geographical Science, Nantong University, Nantong 226001, P. R. China;2.State Environmental Protection Scientific Observation and Research Station for Ecological Environment of Lake Hulun Wetland, Hulun Buir 021000, P. R. China;3.Administration Bureau of Inner Mongolia Lake Hulun National Nature Reserve in Inner Mongolia, Hulun Buir 021000, P. R. China
Abstract:
To understand the phytoplankton community characteristics and its relationships with environmental factors, we investigated the species, abundance and biomass of phytoplankton and environmental factors at eight sampling sites in Lake Hulun during March and from May to October of 2019. The results showed that:A total of 120 phytoplankton species were identified, belonging to 7 plyla and 72 genera. In terms of the seasonal composition of the phytoplankton community, Chlorophyta was the dominant groups in spring, followed by Bacillariophyta and Cyanophyta. The number of Chlorophyta was the largest in summer and autumn, followed by Cyanophyta. Bacillariophyta was the dominant group in winter, followed by Chlorophyta. The dominant species of phytoplankton in Lake Hulun were Cyclotella meneghiniana of Bacillariophyta, Anabaena circinalis and Merismopedia minima of Cyanophyta. The number of the dominant species was the most in spring and the least in autumn and winter. The phytoplankton abundance in spring (123.52×104 cells/L) and winter (16.41×104 cells/L) was lower than that in summer (280.80×104 cells/L) and autumn (380.63×104 cells/L). The abundance of Chlorophyta was the highest in spring and winter, and the abundance of Cyanophyta was the highest in summer and autumn. In terms of phytoplankton biomass, summer (0.38 mg/L) had the largest, followed by autumn (0.26 mg/L) and spring (0.24 mg/L), and winter (0.13 mg/L) had the smallest. Shannon-Wiener diversity index, evenness index J and comprehensive trophic state index all indicated that Lake Hulun was in mesotrophic condition. Redundancy analysis of phytoplankton abundance and water environmental factors showed that water temperature, chlorophyll-a, pH and nitrogen and phosphorus nutrients were the main environmental factors that affected the distribution of the phytoplankton community in Lake Hulun.
Key words:  Lake Hulun  phytoplankton  community structure  water eutrophication
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