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Anas Ghadouani
Researcher at University of Western Australia
Publications - 76
Citations - 2658
Anas Ghadouani is an academic researcher from University of Western Australia. The author has contributed to research in topics: Biomass (ecology) & Phytoplankton. The author has an hindex of 26, co-authored 73 publications receiving 2221 citations. Previous affiliations of Anas Ghadouani include Cooperative Research Centre & Université de Montréal.
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Effects of rainfall patterns on toxic cyanobacterial blooms in a changing climate: Between simplistic scenarios and complex dynamics
TL;DR: More effort is needed to understand the relationship between rainfall patterns and cyanobacterial bloom dynamics, and in particular toxin production, to be able to assess and mediate the significant threat cyanobacteria blooms pose to the authors' water resources.
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Effects of experimentally induced cyanobacterial blooms on crustacean zooplankton communities
TL;DR: It is demonstrated that zooplankton communities can be negatively affected by cyanobacterial blooms and therefore the potential to use herbivory to reduce algal blooms in such eutrophic lakes appears limited.
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The Resilience Architecture Framework: Four Organizational archetypes
TL;DR: An organizational typology, the Resilience Architecture Framework (RAF), is introduced, which forms a platform for the integration of divergent research streams – organizational rigidity, dynamic capabilities and organizational ambidexterity – into the study of organizational resilience.
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Application of Hydrogen Peroxide for the Removal of Toxic Cyanobacteria and Other Phytoplankton from Wastewater
Dani Barrington,Anas Ghadouani +1 more
TL;DR: This work proposed the application of hydrogen peroxide (H2O2) to induce cyanobacterial cell death to induce phytoplankton blooms containing elevated levels of cyanobacteria in wastewater treatment plants to establish the effect of H2O1 addition on phy toplankon in wastewater samples.
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The use of hydrogen peroxide to remove cyanobacteria and microcystins from waste stabilization ponds and hypereutrophic systems
TL;DR: WSP operators are offered the possibility to assess the benefit of using H 2 O 2 to rapidly suppress cyanobacterial and microcystin concentrations and hence prevent them from entering the environment.