2016
DOI: 10.1007/s11356-016-6799-6
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Fenced cultivation of water hyacinth for cyanobacterial bloom control

Abstract: To achieve the goals of harmful cyanobacterial bloom control and nutrient removal, an eco-engineering project with water hyacinth planted in large-scale enclosures was conducted based on meteorological and hydrographical conditions in Lake Dianchi. Water quality, cyanobacteria distribution, and nutrient (TN, TP) bioaccumulation were investigated. Elevated concentrations of N and P and low Secchi depth (SD) were relevant to large amount of cyanobacteria trapped in regions with water hyacinth, where biomass of t… Show more

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Cited by 19 publications
(7 citation statements)
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“…At present, more than 70% of the major lakes in China have undergone severe eutrophication (Jin et al, 2005; Yu et al, 2018). For these reasons, there is increased demand for certain aquatic alien plant for water purification in China, such as E. crassipes , P. stratiotes , M. aquaticum , A. philoxeroides , T. dealbata , S. alterniflora , which all have excellent phytoremediation properties, with a high nutrient removal ability and allelopathic inhibition of harmful algae (Zuo et al, 2012; Qin et al, 2016a); consequently, water transparency and the control of cyanobacterial blooms could increase.…”
Section: Eutrophication Promotes the Applicability And Invasion Risksmentioning
confidence: 99%
See 1 more Smart Citation
“…At present, more than 70% of the major lakes in China have undergone severe eutrophication (Jin et al, 2005; Yu et al, 2018). For these reasons, there is increased demand for certain aquatic alien plant for water purification in China, such as E. crassipes , P. stratiotes , M. aquaticum , A. philoxeroides , T. dealbata , S. alterniflora , which all have excellent phytoremediation properties, with a high nutrient removal ability and allelopathic inhibition of harmful algae (Zuo et al, 2012; Qin et al, 2016a); consequently, water transparency and the control of cyanobacterial blooms could increase.…”
Section: Eutrophication Promotes the Applicability And Invasion Risksmentioning
confidence: 99%
“…in China, further benefiting the spread and diffusion of aquatic alien plants (Wang et al, 2016). For example, the water hyacinth, Eichhornia crassipes , a free-floating aquatic macrophyte native to South America, was initially introduced into China for its ornament value (Qin et al, 2016a), and it also has water purifying properties in many large freshwater bodies of China (Wang et al, 2012, 2013; Liu et al, 2015). However, due to the booming economy and industrial development of China, high amounts of nutrients have been largely deposited into freshwater, accelerating eutrophication (Ding et al, 2008) and facilitating E. crassipes growth, which has made this plant the most important aquatic invasive plant in South China (Ding et al, 2006; You et al, 2014).…”
Section: Introductionmentioning
confidence: 99%
“…In work from eutrophic lakes in China, windy conditions led to water hyacinth trapping cyanobacteria blooms (Zhang et al, 2019). The effect was also observed when water hyacinth were cultivated in in-lake enclosures (Qin et al, 2016). Based on these observations, water hyacinth growth could potentially concentrate cyanobacterial cells, which could be detrimental to water quality unless cyanobacterial growth or toxin production was lessened.…”
mentioning
confidence: 96%
“…When confined growth, mechanized harvesting and utilization have been realized and all these processes are effectively linked, E. crassipes are applied in Lake Dianchi and Lake Taihu (China) on a large scale [13]. Due to the eutrophic water status, E. crassipes always coexits with M. aeruginosa blooms, whether it is artificially confined in special aera of Lake Dianchi (China) or spread naturally in Guadiana River (Spain) [14][15]. Moreover, E. crassipes has a special advantage of being able to grow well in waters full of thick cyanobacterial scum where many other aquatic macrophytes cannot survive [14].…”
mentioning
confidence: 99%
“…Due to the eutrophic water status, E. crassipes always coexits with M. aeruginosa blooms, whether it is artificially confined in special aera of Lake Dianchi (China) or spread naturally in Guadiana River (Spain) [14][15]. Moreover, E. crassipes has a special advantage of being able to grow well in waters full of thick cyanobacterial scum where many other aquatic macrophytes cannot survive [14]. The interactions between E. crassipes and M. aeruginosa is worth paying attention to.…”
mentioning
confidence: 99%