SPATIOTEMPORAL VARIATION OF WATER QUALITY AND ALGAL BIOMASS IN ERHAI LAKE AND ITS ENVIRONMENTAL MANAGEMENT IMPLICATIONS

Author:

LIU Xiaofei,WU Yue,NI Zhaokui,WANG Shengrui

Publisher

China Engineering Science Press Co. Ltd.

Subject

General Agricultural and Biological Sciences,General Veterinary,Biotechnology

Reference35 articles.

1. $lt;span class='magtech_ref_source'$gt; H G, Kim S, Hong T-S, Chon G-J Joo . Spatial patterning of chlorophyll a and water-quality measurements for determining environmental thresholds for local eutrophication in the Nakdong River basin. $lt;i$gt;Environmental Pollution$lt;/i$gt;, 2021, 268(Part A): 115701$lt;/span$gt;

2. $lt;span class='magtech_ref_source'$gt; H W, Paerl K E, Havens H, Xu G, Zhu M J, Mccarthy S E, Newell J T, Scott N S, Hall T G, Otten B Qin . Mitigating eutrophication and toxic cyanobacterial blooms in large lakes: the evolution of a dual nutrient (N and P) reduction paradigm. $lt;i$gt;Hydrobiologia$lt;/i$gt;, 2020, 847(21): 4359–4375 $lt;/span$gt;

3. $lt;span class='magtech_ref_source'$gt; J, Huang Y, Zhang G B, Arhonditsis J, Gao Q, Chen N, Wu F, Dong W Shi . How successful are the restoration efforts of China’s lakes and reservoirs. $lt;i$gt;Environment International$lt;/i$gt;, 2019, 123: 96–103 $lt;/span$gt;

4. $lt;span class='magtech_ref_source'$gt; W, Zou G, Zhu H, Xu M, Zhu Y, Zhang B Qin . Temporal dependence of chlorophyll $lt;i$gt;a$lt;/i$gt;-nutrient relationships in Lake Taihu: drivers and management implications. $lt;i$gt;Journal of Environmental Management$lt;/i$gt;, 2022, 306: 114476 $lt;/span$gt;

5. $lt;span class='magtech_ref_source'$gt; M E, Monchamp P, Spaak I, Domaizon N, Dubois D, Bouffard F Pomati . Homogenization of lake cyanobacterial communities over a century of climate change and eutrophication. $lt;i$gt;Nature Ecology & Evolution$lt;/i$gt;, 2018, 2(2): 317–324 $lt;/span$gt;

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