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Climate change and environmental water reallocation
Simulation of river flows and diversions under different climate change scenarios, using a hydrology-economics model. Observation of economic returns on irrigation. -
Outcomes of environmental watering in the Lower Goulburn
A collection of perspectives regarding the success and outcomes of the FLOW-MER program in the Lower Goulburn River. Includes observations and research from community members,... -
Salinity targets review: Environmental values and data analysis
As part of the Basin planning process, MDBA is developing a Murray–Darling Basin Water Quality and Salinity Management Plan (WQSMP). This review is the first in a series of four... -
Methods to assess environmental flow and groundwater management scenarios
Methods to assess environmental flow and groundwater management scenarios for floodplain tree health in the Lower River Murray: this thesis investigates the major causes of... -
Riverine tree response to water availability
Abstract: Ecological condition continues to decline in arid and semi-arid river basins globally due to hydrological over-abstraction combined with changing climatic conditions.... -
Murray–Darling Water and Environment Research Program (MD-WERP)
The Murray–Darling Water and Environment Research Program is a 4-year, $20 million Australian Government initiative to strengthen scientific knowledge of the Murray–Darling... -
Book 4 Dryland Salinity: Productive Use of Saline Land and Water
Managing dryland salinity successfully requires treatment of both the causes and the symptoms.Treatment of the symptoms of salinity in a local area requires a targeted and site... -
VMFRP - EES/ER Technical Studies
Technical presentations and reports regarding findings of Environmental Effects Statement/Environment assessments of Victorian Murray Floodplain Restoration Projects, as... -
Adaptive Management of Return Flows
Adaptive Management of Return Flows: Lessons from a Case Study in Environmental Water Delivery to a Floodplain River Environmental return flows (the managed delivery of wetland... -
Aquatic ecosystems toolkit
Nationally agreed framework that provides a set of good practice tools provided by the Commonwealth Environmental Water Holder. Supports mapping, classifying and assessing the... -
Blackwater Risk Assessment Tool (BRAT)
Modelling tool for predicting dissolved oxygen and dissolved organic carbon in flood return water, using minimal data inputs. -
Webinar: Understanding trends of woody vegetation using field evapotranspirat...
Flow-MER Fridays: Series 1 Webinar 6: Understanding trends of woody vegetation using field evapotranspiration and remote sensing New broadscale information to identify and... -
Organic matter as a dominant driver of hypoxic blackwater
"Constraining organic matter composition and dynamics as a dominant driver of hypoxic blackwater risk during river Murray floodplain inundation". Includes article and open... -
Conservation triage framework for wetlands
The Dammed and the Saved: a Conservation Triage Framework for Wetlands under Climate Change in the Murray–Darling Basin, Australia: We developed a framework for conservation... -
Outcomes presentation for the Unsaturated zone data review and modelling proj...
This project focused on local-scale interactions between groundwater, surface water, soils, and vegetation. It collates and interprets field data already collected by DEW,... -
Floodplain inundation and drying project 2021-22
The Floodplain inundation and drying project was conducted by the University of Queensland, the South Australian Department for Environment and Water, and the MDBA. This project... -
4th Basin Salinity Forum
Full Program Welcome Welcome Campbell Fitzpatrick Keynote Speaker Catchment salinity change management from a landholder and Landcare perspective in Central West NSW River... -
Basin salinity management 2030: strategies and reports
Salinity is a significant management challenge and poses ongoing environmental, social and economic risks in the Murray–Darling Basin. Salinity is forecast to continue to...