Socio-ecological models for environmental decision making. The success of efforts to solve environmental problems will hinge, at least partly, on human responses. Yet environmental decision analysis tools typically do not include social processes, due to theoretical and methodological obstacles including strong disciplinary divides. For the first time, this project will combine computational social science and ecology to develop a new approach to environmental decision science. Using case-studie ....Socio-ecological models for environmental decision making. The success of efforts to solve environmental problems will hinge, at least partly, on human responses. Yet environmental decision analysis tools typically do not include social processes, due to theoretical and methodological obstacles including strong disciplinary divides. For the first time, this project will combine computational social science and ecology to develop a new approach to environmental decision science. Using case-studies in the design of biodiversity markets, this project will provide concrete examples of how socio-ecological models can support management decisions. The use of socio-ecological models will represent a paradigm shift in environmental decision theory that will lead to more effective environmental management.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101306
Funder
Australian Research Council
Funding Amount
$373,848.00
Summary
Valuing the non-market benefits of mine site rehabilitation. This project aims to improve decisions about mine site rehabilitation. Mining causes environmental damage, which mine operators are legally required to rehabilitate. Although companies invest considerably in mine site restoration and biodiversity offsets, we don’t know whether their practices match public preferences for rehabilitation outcomes. Filling this knowledge gap is challenging because the benefits of rehabilitation (eg biodiv ....Valuing the non-market benefits of mine site rehabilitation. This project aims to improve decisions about mine site rehabilitation. Mining causes environmental damage, which mine operators are legally required to rehabilitate. Although companies invest considerably in mine site restoration and biodiversity offsets, we don’t know whether their practices match public preferences for rehabilitation outcomes. Filling this knowledge gap is challenging because the benefits of rehabilitation (eg biodiversity) are not traded in markets. This project aims to address these challenges by estimating, in monetary terms, the values provided by mine site restoration. By identifying these values, the project expects to contribute to improving the design of mine rehabilitation standards, and will enable future policy decisions to be more closely aligned with society’s preferences.Read moreRead less
The value of characteristics of Australian wheat. This project will identify the functional wheat characteristics considered by the Japanese millers when deciding what and how much to buy. It will also determine how these functional and non-functional Australian wheat characteristics are perceived by the millers compared to other countries, and determine the importance of each one of these characteristics on the final choice.
Discovery Early Career Researcher Award - Grant ID: DE200101319
Funder
Australian Research Council
Funding Amount
$373,857.00
Summary
Building a carbon neutral future for Australian agriculture . The aim of this research is to design an economically sound policy strategy for making the Australian agriculture sector carbon neutral by 2040. This strategy will provide policy makers with a menu of policy packages to improve the sector’s international competitiveness, in the context of growing demands from consumers and international markets for low emission products while meeting the challenges of a changing climate. To assist in ....Building a carbon neutral future for Australian agriculture . The aim of this research is to design an economically sound policy strategy for making the Australian agriculture sector carbon neutral by 2040. This strategy will provide policy makers with a menu of policy packages to improve the sector’s international competitiveness, in the context of growing demands from consumers and international markets for low emission products while meeting the challenges of a changing climate. To assist in developing this strategic knowledge a national-scale quantitative economic model will be developed. Given the absence of a clear national strategy for agricultural GHG emissions and the growing global urgency addressing climate change, this research fills an important gap and comes at an opportune time. 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
Understanding and predicting sediment distribution and net transport in estuaries and coastal oceans with an emphasis on muddy bottom layers. This project will design and implement a field campaign to observe fluid mud layers in the muddy harbours and develop predictive models to investigate these layers. This research will give new direction to port management by developing adaptive tools to solve water quality and siltation problems in muddy ports and harbours in Australia.