Improved methods for predicting species' distributions under environmental change. Understanding the impacts of climate change and invasive species on the distribution and persistence of species is an issue of global and national significance and concern. This project will provide tools essential for the effective management of Australia's ecosystems by delivering clear guidelines and practical methods that will substantially improve the modelling of future species distributions.
Robust prediction and decision strategies for managing extinction risks under climate change. Climate change is a principal threat to biodiversity and ecosystem health. The loss of ecosystem services from loss of species and ecosystem change may have serious social and economic repercussions. Unreliable predictions of climate change impacts and inefficient adaptation decisions result in wasted public resources and unnecessary loss of natural assets. In addition to direct benefits of efficient ad ....Robust prediction and decision strategies for managing extinction risks under climate change. Climate change is a principal threat to biodiversity and ecosystem health. The loss of ecosystem services from loss of species and ecosystem change may have serious social and economic repercussions. Unreliable predictions of climate change impacts and inefficient adaptation decisions result in wasted public resources and unnecessary loss of natural assets. In addition to direct benefits of efficient adaptation strategies for case-study ecosystems, techniques arising from this research will improve the way we respond to uncertain, but potentially catastrophic consequences of climate change. Bringing state-of-the-art modelling and formal decision methods to climate change adaptation is a central aim of this research.Read moreRead less
Modelling species distributions for a changing world. Understanding the impacts of climate change and invasive species on the distribution and persistence of species is an issue of global and national significance and concern. This project will provide tools essential for the effective management of Australia's ecosystems by delivering clear guidelines and practical methods that will substantially improve the modelling of future species distributions.
Practical utility of new classes of species distribution models. This project aims to improve species distribution modelling practice by developing new tools and determining the net value of competing approaches under realistic data-availability scenarios and for real applications. Expected outcomes are clear protocols for using process-based distribution models in biodiversity management. This will have significant benefits, such as equipping researchers, governments and land managers with tool ....Practical utility of new classes of species distribution models. This project aims to improve species distribution modelling practice by developing new tools and determining the net value of competing approaches under realistic data-availability scenarios and for real applications. Expected outcomes are clear protocols for using process-based distribution models in biodiversity management. This will have significant benefits, such as equipping researchers, governments and land managers with tools and guidance necessary for better prediction of distributions, enabling them to efficiently allocate public resources while also protecting biodiversity and natural assets.Read moreRead less