[1] O Allison A, D Randy A, D Michael L. The upside-down river: Reservoirs, algal blooms, and tributaries affect temporal and spatial patterns in nitrogen and phosphorus in the Klamath River, USA. Journal of Hydrology, 519, 164-176(2014).

[2] R Anna, C Cayelan C, W Ba et al. The interaction between climate warming and eutrophication to promote cyanobacteria is dependent on trophic state and varies among taxa. Limnology and Oceanography, 59, 99-114(2014).

[3] J Bowes M, E Gozzard, C Johnson A et al. Spatial and temporal changes in chlorophyll-a concentrations in the River Thames basin, UK: Are phosphorus concentrations beginning to limit phytoplankton biomass?. Science of the Total Environment, 426, 45-55(2012).

[4] W Chen Q. Discipline of eco-hydraulics and the application to modeling and mitigating eco-environmental effects of hydraulic works. Journal of Hydraulic Engineering, 47, 413-423(2016).

[5] Y Cui S, H Li X, X Huang H et al. Causes and countermeasures of cyanobacteria blooms in Dianchi Lake in 2015. Proceedings of 2016 Annual Conference of Yunnan Water Conservancy Society. 2016.11. Kunming, China, 694-699(2016).

[6] C Dai H, Q Mao J, P Zhang et al. Key technologies and methods for regulation and control of eutrophication and algal blooms in channel-type reservoirs. Water Resources and Hydropower Engineering, 46, 54-58, 66(2015).

[7] F Dai H, H Li Y, C Yang S. The occurrence and prevention of algae blooms in the sea. Yunnan Agriculture, 77-78(2017).

[8] W David, E Suzanne, R Brian et al. The effects of climatic warming on the properties of boreal lakes and streams at the Experimental Lakes Area, northwestern Ontario. Limnology and Oceanography, 41, 1004-1017(1996).

[9] J Dong, B Li G. Influencing factors and mechanisms on colony formation of microcystis: A review. Acta Hydrobiologica Sinica, 40, 378-387(2016).

[10] X Gao Y, C Zhang Y. Influences of hydrometeorologic factor on algae bloom. Water Sciences and Engineering Technology, 10-12(2006).

[11] P Grover J. Sink or swim? Vertical movement and nutrient storage in phytoplankton. Journal of Theoretical Biology, 432, 38-48(2017).

[12] H Han J, M Ro H, H Cho K et al. Fluxes of nutrients and trace metals across the sediment-water interface controlled by sediment-capping agents: Bentonite and sand. Environmental Monitoring and Assessment, 188, 566(2016). https://www.ncbi.nlm.nih.gov/pubmed/27633179

[13] X Hang, M Xu, P Xie X et al. Assessment of the influence of meteorological conditions on cyanobacteria bloom in Taihu Lake under eutrophication. Science Technology and Engineering, 19, 294-301(2019).

[14] P Hans W. Mitigating harmful cyanobacterial blooms in a human- and climatically-impacted world. . Life, 4, 988-1012(2014).

[15] S Jeong K, K Kim D, J Jo G. Delayed influence of dam storage and discharge on the determination of seasonal proliferations of Microcystis aeruginosa and Stephanodiscushantzschii in a regulated river system of the lower Nadong River (South Korea). Water Research, 41, 1269-1279(2007).

[16] W Jeremy T, W Kevin H, D Jason C et al. Hot and toxic: Temperature regulates microcystin release from cyanobacteria. Science of the Total Environment, 611, 786-795(2018).

[17] Y Jiang C, X Tang, C Wang et al. Influence of meteorological factors on outbreaks of cyanobacterial blooms in water resource region of Chaohu Lake. Jiangsu Agricultural Sciences,, 47, 281-286(2019).

[18] Y Jiang X, Y Li C, H Shi X et al. Spatial and temporal distribution of Chlorophyll-a Concentration and its relationships with environmental factors in Lake Ulan suhai. Ecology and Environmental Sciences, 28, 964-973(2019).

[19] W Jung S, Y Kwon O, H Lee J et al. Effects of water temperature and silicate on the winter blooming diatom stephanodiscushantzschii (Bacillariophyceae) growing in eutrophic conditions in the lower Han River, South Korea. Journal of Freshwater Ecology, 24, 219-226(2009).

[20] C Kim M, S Jeong K, K Kang D et al. Time lags between hydrological variables and phytoplankton biomass responses in a regulated river (the Nakdong River). Journal of Ecology & Environment, 32, 221-227(2009).

[21] X Kong F, R Song L et al. Formation process of cyanobacteria blooms and its environmental characteristics., 43-44(2011).

[22] O Lee S, S Kim, M Kim et al. The effect of hydraulic characteristics on algal bloom in an artificial seawater canal: A case study in Songdo City, South Korea. Water, 6, 399-413(2014).

[23] M Lewis W, K Hamilton S, A Lasi M et al. Ecological determinism on the Orinoco floodplain: A 15-year study of the Orinoco floodplain shows that this productive and biotically diverse ecosystem is functionally less complex than it appears hydrographic and geomorphic controls induce a high degree of determinism in biogeochemical and biotic processes. Bio Science,, 50, 681-692(2000).

[24] S Li B, Y Li H, J Zhou P. Study on eco-environmental effect assessment for cascade hydropower development in Hanjiang River basin. Yangtze,, 47, 16-22(2016).

[25] S Li B. Study of influence on water eco-environment and ecosystem health assessment for water resources development and utilization in Hanjiang river basin. PhD diss., Wuhan University(2013).

[26] S Li J, J Wang G, B Gong W et al. Characteristics of bacterial community of the grass carp pond when cyanobacterial blooming occurred. Journal of Shanghai Ocean University, 25, 541-550(2016).

[27] J Li, W Jin Z, J Yang W. Numerical modeling of the Xiangxi River algal bloom and sediment-related process in China. Ecological Informatics, 22, 23-35(2014).

[28] C Li Y, P Xie X, L Zhu X et al. Applying remote sensing techniques in analysis of temperature features causing cyanobacteria bloom in Lake Taihu. Journal of Lake Sciences, 28, 1256-1264(2016).

[29] F Liu D, J Yang Z, B Ji D et al. A review on the mechanism and its controlling methods of the algal blooms in the tributaries of Three Gorges Reservoir. Journal of Hydraulic Engineering, 47, 443-454(2016).

[30] S Liu Y, F Cao P. On the possibility of blue-green Algae outbreak in Hongze Lake on the Eastern Route of South-to-North Water Transfer Project. Water Resources Planning and Design, 9-12(2014).

[31] K Lu W, X Yu L, K Xu X et al. Relationship between occurrence frequency of cyanobacteria bloom and meteorological factors in Lake Dianchi. Journal of Lake Sciences, 29, 534-545(2017).

[32] R Ma J, D Brookes J, Q Qin B et al. Environmental factors controlling colony formation in blooms of the cyanobacteria Microcystis spp. in Lake Taihu, China. Harmful Algae, 31, 136-142(2014).

[33] R Ma J, Q Qin B, P Wu et al. Controlling cyanobacterial blooms by managing nutrient ratio and limitation in a large hyper-eutrophic lake: Lake Taihu, China. Journal of Environmental Sciences,, 27, 80-86(2015).

[34] M Petra, H Jolanda M et al. How rising CO₂ and global warming may stimulate harmful cyanobacterial blooms. Harmful Algae,, 54, 145-159(2016).

[35] Q Qin B, H Xu, L Dong B. The principle and practice of eutrophic lake restoration and management., 1-326(2011).

[36] D Rita B, G Cátia C, B Ana et al. Are nutrients and light limiting summer phytoplankton in a temperate coastal lagoon. Aquatic Ecology, 49, 127-146(2015).

[37] D Rita B, G Cátia C, B Ana et al. Will nutrient and light limitation prevent eutrophication in an anthropogenically-impacted coastal lagoon. Continental Shelf Research, 141, 11-25(2017).

[38] X Rui, Z Yuan, C Andrea et al. The potential impacts of climate change factors on freshwater eutrophication: Implications for research and countermeasures of water management in China. Sustainability,, 8, 229(2016).

[39] M Simon M, C Bruce C, D Alec et al. Development of blooms of Cyclotella meneghiniana and Nitzschia spp.( Bacillariophyceae) in a shallow river and estimation of effective suppression flows. Hydrobiologia, 596, 173-185(2008).

[40] H Smith V. Low nitrogen to phosphorus ratios favor dominance by blue-green algae in lake phytoplankton. Science, 221, 669-671(1983).

[41] Q Su J, X Wang, F Yang Z. Lake eutrophication modeling in considering climatic factors change: A review. Chinese Journal of Applied Ecology, 23, 3197-3206(2012).

[42] G Wang. Active and passive remote sensing of inland waters cyanobacteria bloom. PhD diss., East China Normal University(2015).

[43] J Wei J. Temporal and spatial variation of nutrients and chlorophyll a, and their relationship in Pengxi River backwater area, the Three Gorges Reservoir. Ms. diss., Southwest University(2015).

[44] G Wu, Y Ni L, T Cao et al. The long-term effects of climate warming and nutrient levels on phytoplankton in Bohai Sea (1980-2009). Journal of Lake Science, 25, 209-212(2013).

[45] R Xia, Y Zhang, L Wang et al. Characteristics identification of multiple influencing factors on Hanjiang River algal bloom. Environmental Science Research, 1-14(2019).

[46] Q Xia Z. Study of temporal-spatial distribution of the water quality and phytoplankton of the Three Gorges Area in algal blooms sensitive season. PhD diss., Southwest University.(2014).

[47] C Xiao, P Xi, T Tang et al. Influence of the mid-route of south-to- north water transfer project on the water quality of the mid-lower reach of Hanjiang River. Journal of Safety and Environment, 9, 82-84(2009).

[48] K Xin X, C Wang Y, S Hu et al. Analysis of the causes of diatom blooms in the lower reaches of the Hanjiang River in 2018. International Journal of Hydroelectric Energy, 37, 25-28(2019).

[49] J Xiong, D Huang, F Shen et al. Discuss on early warning monitor system to algal bloom in Hubei Province. Environmental Science & Technology, 38, 312-315(2015).

[50] P Xu H, J Yang G, J Zhou et al. Effect of nitrogen and phosphorus concentration on colony growth of Microcystis flos-aquae in Lake Taihu. Journal of Lake Sciences, 26, 213-220(2014).

[51] X Xu, X Zhang Y. Study on the nutrient characteristics of lake and mechanism of cyanobacteria bloom in China.. Proceedings of the National Academic Annual Conference 2019 of Environmental Engineering, Beijing, China, 54-58(2019).

[52] Y Yang L, Y Yang X, M Ren L et al. Mechanism and control strategy of cyanobacterial bloom in Lake Taihu. Journal of Lake Sciences, 31, 18-27(2019).

[53] Z Yang, M Zhang, X Shi et al. Nutrient reduction magnifies the impact of extreme weather on cyanobacterial bloom formation in large shallow Lake Taihu, China. Water Research, 103, 302-310(2016).

[54] H Zeng, R Song L, G Yu Z et al. Distribution of phytoplankton in the Three-Gorge Reservoir during rainy and dry seasons. Science of the Total Environment, 367, 999-1009(2006).

[55] J Zhang. Research on remote sensing monitoring and risk pre-warning of cyanobacterial blooms based on multi-source data in Erhai Lake. PhD diss., Wuhan University(2017).

[56] T Zhang L. Summary of the main genesis and mechanism of eutrophic cyanobacteria blooms. Water Resources Development Research, 19, 28-33(2019).

[57] Q Zhang X, W Chen Q. The temporal and spatial characteristics of water quality in Taihu Lake and its relationship with Cyanobacteria blooms. Journal of Lake Sciences, 23, 339-347(2011).

[58] Y Zhang, R Xia, H Zhang M et al. Research progress on cause analysis and modeling of river algal blooms under background of mega water projects. Research of Environmental Sciences, 30, 1163-1173(2017).

[59] C Zhou. Research of hydrology, water quality plankton, and their relationship in Pengxi River, the Three Gorges Reservoir. PhD diss., Southwest University(2016).

[60] W Zhu, M Chen H, C Wang R et al. Analysis on the reasons for the large bloom area of Lake Taihu in 2017. Journal of Lake Sciences, 31, 621-632(2019).