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
Applying macroecology to assist in the management of Kakadu National Park. The ecological integrity of Kakadu National Park is threatened by fires, weeds, and feral animals. To help tackle these problems, we will develop a cost-effective, culturally appropriate, park-wide monitoring system based on changes in the boundaries of closed forests, woodland and grassland. We will gauge the effect of broad-scale land management interventions, and predict the consequences of future change. The findings ....Applying macroecology to assist in the management of Kakadu National Park. The ecological integrity of Kakadu National Park is threatened by fires, weeds, and feral animals. To help tackle these problems, we will develop a cost-effective, culturally appropriate, park-wide monitoring system based on changes in the boundaries of closed forests, woodland and grassland. We will gauge the effect of broad-scale land management interventions, and predict the consequences of future change. The findings of this study will be transferable to other landscape settings in Australia and overseas. It will contribute to debates about the ecological consequences of current land management practices and how these compare with past Aboriginal land management.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
Grazing-fire interactions and vegetation dynamics. Grazing and fire are the two major cost-effective tools that can be used to manipulate the vegetation of reserves and rangelands. This project will result in information and models that will enable a more effective use of grazing than at present in natural vegetation management for both nature conservation and production. An understanding of the ways in which vertebrate grazing animals influence the incidence and intensity of fire is also highly ....Grazing-fire interactions and vegetation dynamics. Grazing and fire are the two major cost-effective tools that can be used to manipulate the vegetation of reserves and rangelands. This project will result in information and models that will enable a more effective use of grazing than at present in natural vegetation management for both nature conservation and production. An understanding of the ways in which vertebrate grazing animals influence the incidence and intensity of fire is also highly important in planning to prevent the occasional vegetation fire that causes substantial losses of life, property and conservation values, especially in the context of predicted climatic change.Read moreRead less
Understanding the impact of global environmental change on Australian forests and woodlands using rainforest boundaries and Callitris growth as bio-indicators. Human-caused climate change is a fact but the ecological responses are uncertain. These could include accelerated tree growth, expansion of rainforest, and thickening of woodlands, although cessation of Aboriginal firing may be equally important. We will provide a historical context to understand how and why Australian forests have change ....Understanding the impact of global environmental change on Australian forests and woodlands using rainforest boundaries and Callitris growth as bio-indicators. Human-caused climate change is a fact but the ecological responses are uncertain. These could include accelerated tree growth, expansion of rainforest, and thickening of woodlands, although cessation of Aboriginal firing may be equally important. We will provide a historical context to understand how and why Australian forests have changed. Our results will inform management and policy debates about (i) rainforest conservation (ii) the role of fire in forest management (iii) the likely impact of increased CO2 ('fertiliser effect') of forest productivity (iv) national carbon accounting and (v) the consequences of climate change on forest ecosystems, particularly the respective wetting and drying trends in the north and south of Australia.Read moreRead less
High resolution health assessment of Antarctic plants as climate changes. Declines in terrestrial ecosystem health as a result of a drying climate have been observed in some areas of East Antarctica. This project aims to determine if such changes are widespread. Since mosses, the dominant plants of Antarctica, preserve a record of past climate down their shoots they can be used as surrogates to study how both ecosystems and climate are changing at remote polar sites. Outcomes will include improv ....High resolution health assessment of Antarctic plants as climate changes. Declines in terrestrial ecosystem health as a result of a drying climate have been observed in some areas of East Antarctica. This project aims to determine if such changes are widespread. Since mosses, the dominant plants of Antarctica, preserve a record of past climate down their shoots they can be used as surrogates to study how both ecosystems and climate are changing at remote polar sites. Outcomes will include improved climate data for Antarctica, enabling more robust analysis of regional climate change, and development of ultrahigh-resolution techniques capable of non-destructively monitoring Antarctic ecosystem health. This research will advance ecosystem science and inform best practice in management of Antarctic biodiversity.Read moreRead less