Discovery Early Career Researcher Award - Grant ID: DE160100213
Funder
Australian Research Council
Funding Amount
$335,000.00
Summary
Optimising the National Benefits From Restoring Environmental Water Flows. The project plans to evaluate strategies that may maximise the national benefits from restoring environmental flows in Australia’s Murray–Darling Basin (MDB). MDB water supply is characterised by prolonged droughts and flood events, and future climatic projections anticipate that these water supply events will intensify. As the uncertainty of future water supply increases, it is important that the volume of water provided ....Optimising the National Benefits From Restoring Environmental Water Flows. The project plans to evaluate strategies that may maximise the national benefits from restoring environmental flows in Australia’s Murray–Darling Basin (MDB). MDB water supply is characterised by prolonged droughts and flood events, and future climatic projections anticipate that these water supply events will intensify. As the uncertainty of future water supply increases, it is important that the volume of water provided by the portfolio of water rights is known. By examining how decision-makers adapt to water supply uncertainty, optimal management strategies could be determined for watering key ecological assets, trading water between irrigators and the government; and private and public investments.Read moreRead less
Transitioning to a water-secure future in the Basin. Increased water scarcity threatens the viability of the Murray-Darling Basin. There has been little analysis conducted of the consequences of water market impediments. The economic dimensions of trade impediments, water management, water market intervention and the net social benefits of water markets are at the core of this project. In particular, this project aims to explore: the impact of impediments and policy in water markets; how further ....Transitioning to a water-secure future in the Basin. Increased water scarcity threatens the viability of the Murray-Darling Basin. There has been little analysis conducted of the consequences of water market impediments. The economic dimensions of trade impediments, water management, water market intervention and the net social benefits of water markets are at the core of this project. In particular, this project aims to explore: the impact of impediments and policy in water markets; how further water market products may increase water market efficiency; and, the nature and sources of transactions costs in markets. Benefits from this project will enhance resilience and adaptation of irrigators to future climate change and water shortages, as well as providing future policy guidance.Read moreRead less
The impacts of land ownership change on rural social and economic change. This project aims to develop a comprehensive framework for explaining how and why rural land is changing hands, what this means for the ways we understand socio-economic change in rural Australia, and how it can inform best-practice rural and regional decision making by public, private and community sector interests. The project will generate a unique, research-ready database that will detail every land transaction in rura ....The impacts of land ownership change on rural social and economic change. This project aims to develop a comprehensive framework for explaining how and why rural land is changing hands, what this means for the ways we understand socio-economic change in rural Australia, and how it can inform best-practice rural and regional decision making by public, private and community sector interests. The project will generate a unique, research-ready database that will detail every land transaction in rural NSW over a period of ten years, and analyse these data in light of complementary datasets and a series of in-depth interviews with land-owners and key stakeholders. The project expects to transform national understanding of rural land-ownership change, and promote best practice decision making.Read moreRead less
Integrated governance of water and coal seam gas. This project aims to evaluate the governance of the water effects on unconventional gas, to develop legal and policy principles for the integration of these effects in an effective, efficient and legitimate manner, and to investigate problems posed for integrated and polycentric governance, more generally. Australia must meet its unconventional gas needs without harming its water resources. The project is expected to deliver effective and legitim ....Integrated governance of water and coal seam gas. This project aims to evaluate the governance of the water effects on unconventional gas, to develop legal and policy principles for the integration of these effects in an effective, efficient and legitimate manner, and to investigate problems posed for integrated and polycentric governance, more generally. Australia must meet its unconventional gas needs without harming its water resources. The project is expected to deliver effective and legitimate outcomes for water, energy and potentially other social and environmental issues, aiming to establish Australia as a leader in sustainable water management.Read moreRead less
Non-urban water governance: rethinking compliance and enforcement. This project aims to critically evaluate the practices and strategies of non-urban water compliance and enforcement in Australia and internationally, to identify and develop innovations for water governance. New law and policy knowledge is expected from its fusion of empirical data and regulatory theory. The project expects to advance applied regulatory theory by identifying improvements in compliance and enforcement to help solv ....Non-urban water governance: rethinking compliance and enforcement. This project aims to critically evaluate the practices and strategies of non-urban water compliance and enforcement in Australia and internationally, to identify and develop innovations for water governance. New law and policy knowledge is expected from its fusion of empirical data and regulatory theory. The project expects to advance applied regulatory theory by identifying improvements in compliance and enforcement to help solve environmental issues. It will also lead to policy reforms for delivering more effective, efficient and politically-acceptable compliance outcomes for non-urban water management that will benefit water regulators and the sustainability and productivity of Australia's agricultural industry.Read moreRead less
Compliance and enforcement of non-urban water extraction in New South Wales. This project will examine the compliance and enforcement practices of regulators and regulated communities in the water context. Results will provide legal and policy guidance to reshape compliance and enforcement strategies to effectively and efficiently enhance the legitimacy of water law, protect water resources and prevent overuse.
Discovery Early Career Researcher Award - Grant ID: DE170101536
Funder
Australian Research Council
Funding Amount
$346,000.00
Summary
Regulation and governance for the sustainable management of groundwater. This project aims to manage groundwater through analysing six national and international case studies. Groundwater management in Australia confronts a multi-dimensional crisis stemming from neglect, over-allocations and policy mismanagement. Overcoming this will require a transformation in the regulation and governance of groundwater. The project’s findings are expected to advance regulation and governance empirical theory, ....Regulation and governance for the sustainable management of groundwater. This project aims to manage groundwater through analysing six national and international case studies. Groundwater management in Australia confronts a multi-dimensional crisis stemming from neglect, over-allocations and policy mismanagement. Overcoming this will require a transformation in the regulation and governance of groundwater. The project’s findings are expected to advance regulation and governance empirical theory, normative and applied theory and provide policy solutions for sustainable groundwater management within a pluralistic governance model. This is significant and timely given planned policy reviews in the Murray Darling Basin, the effect of climate change and plans to develop agriculture in Northern Australia.Read moreRead less
Impacts of changing water ownership and reforms on Australian water markets. Water markets play a critical role in helping Australia’s food bowl survive periods of severe drought. This project aims to evaluate how the Murray-Darling Basin water markets performed, in terms of the impact of water ownership, and investigate how water reforms have affected rural communities over the past two decades. Expected outcomes include a clearer understanding on how different water ownership structures impact ....Impacts of changing water ownership and reforms on Australian water markets. Water markets play a critical role in helping Australia’s food bowl survive periods of severe drought. This project aims to evaluate how the Murray-Darling Basin water markets performed, in terms of the impact of water ownership, and investigate how water reforms have affected rural communities over the past two decades. Expected outcomes include a clearer understanding on how different water ownership structures impact price and price volatility of water, market power, economic welfare of water traders, and what social and economic impacts water reforms in the past decades have in the Basin. The findings will provide critical evidence for evaluating future water reforms, building resilient rural communities and safeguarding food security.Read moreRead less
An integrated modelling approach for efficient management of irrigated landscapes. Northern Victoria's irrigators use a substantial portion of water from the Murray-Darling Basin, which is under mounting pressure to satisfy competing economic, social and environmental needs for water in the face of climate change. Up to 20 per cent of this water may be on-farm surface runoff and deep percolation, with poorly known spatial distributions. This project will provide reliable temporally and spatially ....An integrated modelling approach for efficient management of irrigated landscapes. Northern Victoria's irrigators use a substantial portion of water from the Murray-Darling Basin, which is under mounting pressure to satisfy competing economic, social and environmental needs for water in the face of climate change. Up to 20 per cent of this water may be on-farm surface runoff and deep percolation, with poorly known spatial distributions. This project will provide reliable temporally and spatially distributed information on surface runoff and deep percolation for Northern Victoria irrigation regions. This will inform decisions which improve water use efficiency, agricultural productivity and environmental values through optimisation of irrigation infrastructure and by better management of groundwater resources and salinity.Read moreRead less
Vulnerabilities for environmental water outcomes in a changing climate. This project aims to assess the vulnerability of freshwater ecosystems to extended droughts in a variable and changing climate. Governments around the world are investing in the restoration of regulated river systems with environmental water. However, the risks of climate change for environmental water management are seldom considered. This project will model the change in environmental and consumptive water use during exten ....Vulnerabilities for environmental water outcomes in a changing climate. This project aims to assess the vulnerability of freshwater ecosystems to extended droughts in a variable and changing climate. Governments around the world are investing in the restoration of regulated river systems with environmental water. However, the risks of climate change for environmental water management are seldom considered. This project will model the change in environmental and consumptive water use during extended dry periods, and couple this to models of ecological dynamics and failure thresholds. This will improve the success of Australia’s major environmental water programs in sustaining benefits through future multi-year droughts.Read moreRead less