Water velocity and groundwater upwelling influence benthic algal biomass in a sandy tropical river: implications for water-resource development (scientific paper)

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22 January 2020

Water velocity and groundwater upwelling influence benthic algal biomass in a sandy tropical river: implications for water-resource development

Keywords: Environmental flows, eflows, e-flows, flooding, flood, rivers, wetlands, wetland, waterhole, waterholes, estuaries, mangroves, river catchment, freshwater wetlands, flow regimes, estuary, aquatic life, riparian, vegetation, UWA, The University of Western Australia, Ryan Burrows, Michael Douglas, Leah Beasley, Brad Pusey, Mark Kennard, radon, floodplain, tropical river, nutrients, algae, algal biomass, groundwater, groundwater-surface water

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