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Harmful Cyanobacterial Blooms: Causes, Consequences, and Controls
Microbial Ecology, 2013Cyanobacteria are the Earth's oldest oxygenic photoautotrophs and have had major impacts on shaping its biosphere. Their long evolutionary history (≈ 3.5 by) has enabled them to adapt to geochemical and climatic changes, and more recently anthropogenic modifications of aquatic environments, including nutrient over-enrichment (eutrophication), water ...
Hans W, Paerl, Timothy G, Otten
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Cyanobacterial blooms in China: diversity, distribution, and cyanotoxins
Harmful Algae, 2021Cyanobacterial blooms, which refer to the massive growth of harmful cyanobacteria, have altered the global freshwater ecosystems during the past decades. China has the largest population in the world, and it is suffering from the harmful effect of water eutrophication and cyanobacterial blooms along with rapid development of the economy and society ...
Da Huo +6 more
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Monitoring Approaches for a Toxic Cyanobacterial Bloom
Environmental Science & Technology, 2013Cyanobacterial blooms, dominated by Microcystis sp. and associated microcystin variants, have been implicated in illnesses of humans and animals. Little is known regarding the formation of blooms and the presence of cyanotoxin variants in water bodies. Furthermore, the role played by ecological parameters, in regulating Microcystis blooms is complicate
Ankita, Srivastava +4 more
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Are cyanobacterial blooms trophic dead ends?
Oecologia, 2012Cyanobacterial blooms induce significant costs that are expected to increase in the near future. Cyanobacterial resistance to zooplankton grazing is one factor thought to promote bloom events. Yet, numerous studies on zooplankton ability to graze upon cyanobacteria have been producing contradictory results and such a puzzle might arise from the lack of
Perga, Marie-Elodie +4 more
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1987
Publisher Summary Besides the many species representative of the major eukaryotic algal phyla, the freshwater phytoplankton comprises a number of cyanobacteria (or blue-green algae). These aggregations have earned recognition in their own collective term, “water blooms”.
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Publisher Summary Besides the many species representative of the major eukaryotic algal phyla, the freshwater phytoplankton comprises a number of cyanobacteria (or blue-green algae). These aggregations have earned recognition in their own collective term, “water blooms”.
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Economic cost of cyanobacterial blooms
2008Cyanobacterial blooms impact upon the water quality, environmental and ecological status of water bodies and affect most of the uses we make of water. The extent of the impact depends upon the type, size and frequency of the blooms, the size of the water body affected, the uses made of the water and the treatment options available to respond to the ...
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Cyanobacterial blooms in Argentinean inland waters
Lakes & Reservoirs: Science, Policy and Management for Sustainable Use, 1999The occurrence of cyanobacterial blooms in Argentina is documented and note is made of particular water‐bodies at risk from blooms.
L. Pizzolon +3 more
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Allelopathic control of cyanobacterial blooms by periphyton biofilms
Environmental Microbiology, 2010Summary Periphyton biofilms are natural mixtures comprised of photoautotrophic and heterotrophic complex microorganisms. In this work, the inhibition effects of periphyton biofilms on cyanobacterial blooms were studied in pilot and field trials.
Wu, Yonghong +6 more
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The roles of cyanobacterial bloom in nitrogen removal
Science of The Total Environment, 2017Annually occurred cyanobacterial bloom aggravated eutrophication situation and changed the lacustrine ecosystem components. Recently, high concentration of bloom cyanobacteria had been found to accelerate total nitrogen (TN) removal. However, the contribution of cyanobacterial bloom to TN removal remained unclear.
Yuke, Peng +3 more
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Separation of wind's influence on harmful cyanobacterial blooms
Water Research, 2016Wind is an important physical factor involved in Harmful Cyanobacterial blooms (CyanoHABs). Its integrated influence was separated to three components: (a) Direct Disturbance Impact (DDI) on cyanbacterial proliferation, (b) Indirect Nutrient Impact (INI) by sediment release and (c) Direct Transportation Impact (DTI) by both gentle wind-induced surface ...
Hua, Wang +6 more
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