Collection Summary Description Data and Resources Subjects Fields of Research Keywords Socio-economic Objectives Organisations & Groups Related Datasets: Recently updated datasets Related Projects: Recently updated projects Dataset SummaryResource Summary Resource Description Resource Type Resource Access Storage Size Publication Summary Description Related Collections: Recently updated collections Related Datasets: Recently updated datasets Related Projects: Recently updated projects Research Collaborator Summary Biography Other information Related Collections: Recently updated collections Related Datasets: Recently updated datasets Related Projects: Recently updated projects Related Publications: Recently updated publications Organisation Summary Description Related Collections: Recently updated collections Related Datasets: Recently updated datasets Related Projects: Recently updated projects JavaScript is not enabled This application requires Javascript, however the system has detected that Javascript is not enabled on the browser. Please follow these instructions on how to enable Javascript. After Javascript has been enabled, press F5 to reload this page to make this message disappear. ProjectsHydrological modelling of the parafield wetlands for hazard analysis planning Hydrological modelling of the parafield wetlands for hazard analysis planning Published: 31 August 2017 As Australia¿s population grows, especially in urban areas, there is increased demand for water supplies for all types of uses. Urban stormwater is a relatively untapped resource that could help us meet future water supply demands. If natural aquifers (any geological formation capable of receiving, storing and transmitting significant quantities of water) are present beneath a city, they may be used for convenient storage and additional treatment of urban stormwater. The MARSUO project used Adelaide as a case study and provided the South Australian Government with information to confidently assess the range of stormwater use options for the city, with particular emphasis on addressing water safety issues and community acceptance. Data and resources Other resources collected by the researchers may be available subject to researcher approval. Please contact Mr David Pezzaniti. This project is related to the following collections Hydrological modelling of the Parafield wetlands for hazard analysis planning collection This project is related to the following publications Hydrological modelling of the Parafield harvesting scheme catchment for hazard analysis planning Coverage area Period covered by the dataset Start date: 04 Jan 2011 End date: 20 Dec 2011 Research collaborators Mr David Pezzaniti Senior Research Engineer, Centre for Water Management and Reuse Chief Investigator Dr Baden Myers Research Fellow Chief Investigator Baden.Myers@unisa.edu.au Organisations and groups Primary organisation: University of South Australia