Temporal and spatial variations in phytoplankton: correlations with environmental factors in Shengjin Lake, China

文献类型: 外文期刊

第一作者: Wang, Lan

作者: Wang, Lan;Wang, Chao;Zhou, Zhongze;Deng, Daogui;Zhao, Xiuxia

作者机构:

关键词: Shengjin Lake;Phytoplankton;Environmental factors;Abundance;Biomass;Redundancy analysis (RDA)

期刊名称:ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH ( 影响因子:4.223; 五年影响因子:4.306 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Temporal and spatial variations in the phytoplankton community and environmental variables were investigated from February to July 2014, in the upper lake of Shengjin Lake, China. We identified 192 species of phytoplankton belonging to 8 phyla and 84 genera, of which 46.4 % of Chlorophyta, 29.2 % of Bacillariophyta, and 12.5 % of Cyanophyta. There were 14 predominant species. Marked temporal and spatial variations were observed in the phytoplankton community. The total abundance of phytoplankton ranged from 3.66 x 10(5) to 867.93 x 10(5) cells/L and total biomass ranging from 0.40 to 20.89 mg/L. The Shannon-Wiener diversity index varied from 3.50 to 8.35 with an average of 5.58, revealing high biodiversity in the phytoplankton community. There were substantial temporal changes in the dominant species, from Bacillariophyta and Cryptophyta to Cyanophyta and Chlorophyta. Phytoplankton biomass and abundance showed a similar increasing trend from February to July. Pearson correlations and Redundancy analysis revealed that the most significant environmental factors influencing phytoplankton community were water temperature (T), transparency (SD), and nutrient concentration. The positive correlation between the key water bird areas and phytoplankton biomass indicated that the droppings of wintering water birds had an important influence on the phytoplankton community in the upper lake of Shengjin Lake.

分类号: X5`X

  • 相关文献

[1]Forecasting the invasive potential of Nile tilapia (Oreochromis niloticus) in a large subtropical river using a univariate approach. Shuai, Fangmin,Li, Xinhui,Li, Yuefei,Jie, Li,Yang Jiping,Shuai, Fangmin,Li, Xinhui,Li, Yuefei,Jie, Li,Yang Jiping,Shuai, Fangmin,Lek, Sovan. 2015

[2]Influence of environmental factors on zooplankton assemblages in Bosten Lake, a large oligosaline lake in arid northwestern China. Dai, Li-li,Gong, Ying-chun,Feng, Wei-song,Yu, Yu-he,Dai, Li-li,Li, Xue-mei. 2014

[3]Microphytoplankton communities off the Antarctic Peninsula region in austral summer 2010/2011. Luan, Qingshan,Wang, Chenghua,Wang, Xinliang,Sun, Jianqiang,Niu, Mingxiang,Wang, Jun. 2013

[4]Spatio-temporal patterns and predictions of phytoplankton assemblages in a subtropical river delta system. Wang, Chao,Li, Xinhui,Yang, Wanling,Lai, Zini,Wang, Chao,Li, Xinhui,Yang, Wanling,Lai, Zini,Wang, Chao,Li, Xinhui,Yang, Wanling,Lai, Zini,Lek, Sovan,Wu, Naicheng,Wang, Xiangxiu. 2016

[5]A bibliometric analysis of scientific trends in phytoplankton research. Wang, Chao,Li, Xinhui,Lai, Zini,Wang, Chao,Lek, Sovan,Liu, Yang,Tackx, Michele,Wang, Chao,Li, Xinhui,Lai, Zini. 2015

[6]Study on limiting nutrients and phytoplankton at long-line-culture areas in Laizhou Bay and Sanggou Bay, northeastern China. Liu, H,Fang, JG,Zhu, JX,Dong, SL,Wang, F,Liang, XM,Zhang, JH,Lian, Y,Wang, LC,Jiang, WW. 2004

[7]Community Structure and Environmental Adaptation of Phytoplankton in Yangmeikeng Artificial Reef Area in Daya Bay, South China Sea. Liao, Xiuli,Chen, Pimao,Ma, Shengwei,Chen, Haigang. 2013

[8]Experimental Simulation of Microcystis Bloom Formation from Natural Phytoplankton Communities. Wang, Xiaodong,Qin, Boqiang,Gao, Guang,Wang, Xiaodong,Liu, Xingguo. 2011

[9]Patterning and predicting phytoplankton assemblages in a large subtropical river. Wang, Chao,Li, Xinhui,Lai, Zini,Li, Yuefei,Wang, Chao,Lek, Sovan,Dauta, Alain,Wang, Chao,Li, Xinhui,Lai, Zini,Li, Yuefei.

[10]Long-term changes in the Changjiang Estuary plankton community related to anthropogenic eutrophication. Li, Yun,Li, Daoji,Tang, Jingliang,Wang, Yiming,Liu, Zhigang,He, Songqin,Li, Yun.

[11]Size fraction of phytoplankton and the contribution of natural plankton to the carbon source of Zhikong scallop Chlamys farreri in mariculture ecosystem of the Sanggou Bay. Jiang Zengjie,Du Meirong,Fang Jinghui,Gao Yaping,Li Jiaqi,Fang Jianguang,Jiang Zengjie,Fang Jianguang,Zhao Li. 2017

[12]Seasonal variations in phytoplankton community structure in the Sanggou, Ailian, and Lidao Bays. Yuan Mingli,Zhang Cuixia,Guo Shujin,Sun Jun,Jiang Zengjie. 2014

[13]The phytoplankton Community Structure and its Relationship with the Water Environment in the Chishui River, a Protected Tributary of the Yangtze River. Wu, Xiangxiang,Li, Yunfeng,Shen, Ziwei,Zhang, Yan,Ni, Zhaohui. 2013

[14]Spatio-Temporal Pattern of Phytoplankton Assemblages in the Southern Part of the Caspian Sea. Mehdipour, Neda,Wang, Chao,Gerami, Mohammad Hasan. 2017

[15]Global trends in phytoplankton research of river ecosystems during 1991-2016: A bibliometric analysis. Wang, Chao,Yang, Wanling,Liu, Yang,Wu, Naicheng,Zhan, Qin,Yang, Wanling,Liu, Yang. 2017

[16]Seasonal nutrient chemistry in an integrated multi-trophic aquaculture region: case study of Sanggou Bay from North China. Mahmood, Tariq,Mahmood, Tariq,Zhang, Jing,Mahmood, Tariq,Fang, Jianguang,Jiang, Zengjie.

[17]Phytoplankton pigments and functional community structure in relation to environmental factors in the Pearl River Estuary. Chai, Chao,Chai, Chao,Jiang, Tao,Cen, Jingyi,Lu, Songhui,Ge, Wei.

[18]Seasonal variations of Aulacoseira granulata population abundance in the Pearl River Estuary. Wang, Chao,Li, Xinhui,Lai, Zini,Tan, Xichang,Pang, Shixun,Yang, Wanling.

[19]Top-down effects of bighead carp (Aristichthys nobilis) and Leptodora richardi (Haplopoda, Leptodoridae) in a subtropical reservoir during the winter-spring transition: a mesocosm experiment. Zhao, Shuai-Ying,Sun, Yu-Ping,Han, Bo-Ping.

[20]Seasonal phytoplankton response to physical processes in the southern Yellow Sea. Liu, Xin,Huang, Bangqin,Huang, Qiu,Wang, Lei,Ni, Xiaobo,Tang, Qisheng,Sun, Song,Wei, Hao,Sun, Jun,Liu, Sumei.

作者其他论文 更多>>

微信小程序