Australia's changing urban tree estate: a socio-ecological study of patterns, causes and consequences. The project will significantly advance social and environmental understanding of the patterns, causes and consequences of changes in the Australian urban tree estate, therefore having immediate relevance to the home-environment of the majority of Australians. This knowledge will be of direct benefit to researchers, planners, land managers and residents in improving the sustainability of Austral ....Australia's changing urban tree estate: a socio-ecological study of patterns, causes and consequences. The project will significantly advance social and environmental understanding of the patterns, causes and consequences of changes in the Australian urban tree estate, therefore having immediate relevance to the home-environment of the majority of Australians. This knowledge will be of direct benefit to researchers, planners, land managers and residents in improving the sustainability of Australian cities. In particular, better informed decisions about the urban tree estate will help to maintain Australia's biodiversity, mitigate local and global climate change effects, manage fire risk, contribute to water conservation, improve air quality, enhance environmental amenity, reduce tree-related social conflict and enhance sense of place. Read moreRead less
Landscape-scale population dynamics of open forests in the Australian monsoon tropics. Over the last century there has been a trend of increasing tree cover in many landscapes. Yet the causes of this globally important ecological phenomenon are poorly understood, but may include the effects of climate, fire, grazing and CO2. We will determine how an area of forest has changed over 50 years in Kakadu National Park, linking forest demography with remote sensing techniques, re-measurement and analy ....Landscape-scale population dynamics of open forests in the Australian monsoon tropics. Over the last century there has been a trend of increasing tree cover in many landscapes. Yet the causes of this globally important ecological phenomenon are poorly understood, but may include the effects of climate, fire, grazing and CO2. We will determine how an area of forest has changed over 50 years in Kakadu National Park, linking forest demography with remote sensing techniques, re-measurement and analysis of long-term tree demography datasets, and simulation models of tree population dynamics on a landscape scale. This will provide a scientific framework to develop sustainable land management and the conservation of Australia's forest biodiversity.Read moreRead less
Supporting or sabotaging sustainable development? State policy responses to environmental certification schemes. Almost everywhere, forests and fisheries are experiencing degradation and biodiversity loss. Since 1990, governments, industry and civil society organizations have expressed growing interest in market-based instruments for environmentally sustainable development. However, while states support the use of market-based instruments in general, serious problems arise with specific schemes. ....Supporting or sabotaging sustainable development? State policy responses to environmental certification schemes. Almost everywhere, forests and fisheries are experiencing degradation and biodiversity loss. Since 1990, governments, industry and civil society organizations have expressed growing interest in market-based instruments for environmentally sustainable development. However, while states support the use of market-based instruments in general, serious problems arise with specific schemes. This is particular true of environmental certification schemes, several of which have been opposed. Our study will explore the underlying factors that shape government responses to certification schemes in the forestry and fisheries sectors, thereby providing practical policy advice to ensure state institutions support rather than sabotage environmentally sustainable development.Read moreRead less
Novel governance for marine ecosystems in rapid transition. This project will develop the governance knowledge required to manage rapidly changing marine ecosystems. Australia has the third largest marine estate globally, and its ecosystems support critical economic and sociocultural values. However, human pressures are tipping marine ecosystems into alternate states, inspiring new interventions to sustain industries and communities. New interventions necessitate transitions in governance. Expec ....Novel governance for marine ecosystems in rapid transition. This project will develop the governance knowledge required to manage rapidly changing marine ecosystems. Australia has the third largest marine estate globally, and its ecosystems support critical economic and sociocultural values. However, human pressures are tipping marine ecosystems into alternate states, inspiring new interventions to sustain industries and communities. New interventions necessitate transitions in governance. Expected outcomes include a comparative understanding of novel marine interventions now underway globally, and practical guidance on how to diagnose and implement responsible marine governance. Significant benefits include enhanced governance and sustainability of Australian and international marine ecosystems.Read moreRead less
Universal properties and application of species size distributions. This project aims to identify general properties of body size distributions for thousands of aquatic species by bringing together datasets enabled by global observation and citizen science programs, novel statistical methods and latest theoretical advances. By addressing temperature effects on body sizes, the project expects to generate new knowledge about species status globally, under the combined impacts of climate change and ....Universal properties and application of species size distributions. This project aims to identify general properties of body size distributions for thousands of aquatic species by bringing together datasets enabled by global observation and citizen science programs, novel statistical methods and latest theoretical advances. By addressing temperature effects on body sizes, the project expects to generate new knowledge about species status globally, under the combined impacts of climate change and harvesting. Expected outcomes include new tools to integrate limited body size data into a consistent framework for significance advancement of models used in research and management. This should increase the capacity to assess human impacts on natural ecosystems and predict global warming driven changes.Read moreRead less