Impacts of climate change on coastal floodplain wetland biogeochemistry and surface water quality. The most vulnerable Australian landscapes to global warming driven sea-level rise are our low-lying coastal floodplains. Seawater inundation dramatically affects soil chemistry and water quality. Over 74,000 km2 of the low-lying coastal floodplains of Australia contain acid sulfate soils. For these soils, seawater inundation has the potential to greatly enhance the release of acidity, with a high c ....Impacts of climate change on coastal floodplain wetland biogeochemistry and surface water quality. The most vulnerable Australian landscapes to global warming driven sea-level rise are our low-lying coastal floodplains. Seawater inundation dramatically affects soil chemistry and water quality. Over 74,000 km2 of the low-lying coastal floodplains of Australia contain acid sulfate soils. For these soils, seawater inundation has the potential to greatly enhance the release of acidity, with a high capacity to severely degrade wetlands, estuaries and farmland. This project will directly contribute to our national capacity to assess and manage impacts from climate change, providing greater protection of our coastal floodplains resources.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668226
Funder
Australian Research Council
Funding Amount
$186,000.00
Summary
A new X-ray spectrometer facility for VIEPS: major and trace element characterisation of geological materials. Australia has a well-earned reputation as a leading innovator in analytical geochemistry and the acquisition of this instrumentation will reinforce that standing. The equipment will support a broad range of research activities and enhance our capability for research training at Honours and post-graduate student level. In addition this project addresses directly our current National Rese ....A new X-ray spectrometer facility for VIEPS: major and trace element characterisation of geological materials. Australia has a well-earned reputation as a leading innovator in analytical geochemistry and the acquisition of this instrumentation will reinforce that standing. The equipment will support a broad range of research activities and enhance our capability for research training at Honours and post-graduate student level. In addition this project addresses directly our current National Research Priority 'an environmentally sustainable Australia', and priority goals 'Developing deep earth resources' and 'Responding to climate change and variability'Read moreRead less