Sustainable coastal city development. This project aims to model sustainable development options of low-lying coastal cities under rapid population growth, climate change and intensive human activity. Using Brisbane (Australia) and Ningbo (China) as case studies, the project will empirically test and understand how cities grow as complex systems built out of the interactions between humans and their living environment at the individual scale and in a cross-jurisdictional context. The project exp ....Sustainable coastal city development. This project aims to model sustainable development options of low-lying coastal cities under rapid population growth, climate change and intensive human activity. Using Brisbane (Australia) and Ningbo (China) as case studies, the project will empirically test and understand how cities grow as complex systems built out of the interactions between humans and their living environment at the individual scale and in a cross-jurisdictional context. The project expects to offer a spatially explicit understanding of the development of coastal cities and science-based decision tools to improve policy-making.Read moreRead less
Remote sensing estimation of greenhouse gas emissions from floodplains in the wet-dry tropics. This project provides regional-scale estimates of greenhouse gas emissions from major floodplains in the wet-dry tropics. These estimates are required for future national carbon accounting, and are critical knowledge gaps for current global climate models.
From environmental monitoring to management: extracting knowledge about environmental events from sensor data. New, high-detail sources of environmental sensor data are useless without new methods for identifying patterns and extracting knowledge from that data. This project will develop improved techniques for interacting with environmental sensor data to assist environmental scientists and manager in understand the important events that are occurring.
Ultrahigh-resolution remote sensing for assessing biodiversity hotspots. Robust indicators are central to the complex problem of conserving vegetation biodiversity. The project aims to address this by developing advanced techniques for interpreting data from ultrahigh-resolution remote sensing of essential indicators in Australian biodiversity hotspots. The expected benefit is to significantly advance international efforts in the large-scale validation of biodiversity indicators mapped from sate ....Ultrahigh-resolution remote sensing for assessing biodiversity hotspots. Robust indicators are central to the complex problem of conserving vegetation biodiversity. The project aims to address this by developing advanced techniques for interpreting data from ultrahigh-resolution remote sensing of essential indicators in Australian biodiversity hotspots. The expected benefit is to significantly advance international efforts in the large-scale validation of biodiversity indicators mapped from satellites.Read moreRead less
Beyond discrete landscape metrics: spatial analysis tools and surface textural measures for quantifying gradients in landscape structure. The project will make an important contribution to an Environmental Sustainable Australia, especially the sustainable use and management of Australia's biodiversity. The focus is Australia's biodiversity hotspots in northern Australia, where fauna species are threatened as a result of habitat modification and biological invasions. The landscape analysis tools ....Beyond discrete landscape metrics: spatial analysis tools and surface textural measures for quantifying gradients in landscape structure. The project will make an important contribution to an Environmental Sustainable Australia, especially the sustainable use and management of Australia's biodiversity. The focus is Australia's biodiversity hotspots in northern Australia, where fauna species are threatened as a result of habitat modification and biological invasions. The landscape analysis tools and supporting knowledge will allow for more effective landscape-level conservation strategies to be developed in northern regions by assisting researchers and managers to answer key questions about how to manage the structure of native vegetation for the long-term conservation of fauna populations. The project will also deliver benefits for conserving marine biodiversity. Read moreRead less
Efffective Management of Water Resources in Semiarid Regions Using Remote Sensing. Due to the vast expense and difficulties to access many areas from the ground, there is currently no effective system for assessing and managing water resources over many large semi-arid regions of the world. Through the study of two complementary Basins - The Murray and Lake Chad Basins - we propose a new approach based on satellite imagery to provide regular and detailed information on the state of our water res ....Efffective Management of Water Resources in Semiarid Regions Using Remote Sensing. Due to the vast expense and difficulties to access many areas from the ground, there is currently no effective system for assessing and managing water resources over many large semi-arid regions of the world. Through the study of two complementary Basins - The Murray and Lake Chad Basins - we propose a new approach based on satellite imagery to provide regular and detailed information on the state of our water resources in these areas. These innovative techniques will yield new information on critical water issues: water availability, salinity, groundwater/surface water interactions, climate and land use change impact. This project provides the basis for sustainable water use in regional Australia.Read moreRead less
Coral Reefs - Innovative Satellite Image Mapping Techniques. Two primary outcomes are expected from this project, the first is aimed at solving a fundamental challenge to understanding and managing coral reefs in Australia and worldwide. The optimal reef mapping method(s) will enable coral reef monitoring and management programs in Australia and internationally to make full use of satellite and airborne image data sets. Secondly, the project will significantly advance the capabilities of remote ....Coral Reefs - Innovative Satellite Image Mapping Techniques. Two primary outcomes are expected from this project, the first is aimed at solving a fundamental challenge to understanding and managing coral reefs in Australia and worldwide. The optimal reef mapping method(s) will enable coral reef monitoring and management programs in Australia and internationally to make full use of satellite and airborne image data sets. Secondly, the project will significantly advance the capabilities of remote sensing applications in coral reefs, by providing a unique international test of current state of the art algorithms.In combination, these outcomes will enable Australia to continue to play a role as the world's leading developer and provider of solutions for coral reef monitoring and management.Read moreRead less