Australian alpine seed ecology: Plant conservation and adaptation to climate change. The Australian alpine region is critically vulnerable to climate change. Many alpine plant species are already threatened. Our project facilitates effective management of Australian alpine flora, enabling us to preserve alpine biodiversity and improve ecosystem resilience to climate change. Seed banking provides conservation of nationally vulnerable and threatened flora, providing insurance against extinction. O ....Australian alpine seed ecology: Plant conservation and adaptation to climate change. The Australian alpine region is critically vulnerable to climate change. Many alpine plant species are already threatened. Our project facilitates effective management of Australian alpine flora, enabling us to preserve alpine biodiversity and improve ecosystem resilience to climate change. Seed banking provides conservation of nationally vulnerable and threatened flora, providing insurance against extinction. Our exemplary contribution to global seed conservation provides a national resource of alpine seeds for revegetation and research and interpretive resources at the Australian National Botanic Gardens facilitate public awareness of the ecological significance and fragility of Australian alpine ecology in response to climate change.Read moreRead less
Does adaptive plasticity play a significant role in the initial colonisation of novel habitats? An increased understanding of the evolutionary and ecological processes responsible for generating Australian biodiversity can facilitate effective management and conservation of this unique resource. Islands are especially significant in this context because they host many kinds of distinctive fauna and flora that have vanished from mainland habitats. It is therefore crucial to understand the biolo ....Does adaptive plasticity play a significant role in the initial colonisation of novel habitats? An increased understanding of the evolutionary and ecological processes responsible for generating Australian biodiversity can facilitate effective management and conservation of this unique resource. Islands are especially significant in this context because they host many kinds of distinctive fauna and flora that have vanished from mainland habitats. It is therefore crucial to understand the biology of these small isolated systems, as a way to preserve those unique systems as well as the distinctive evolutionary processes that occur within them.Read moreRead less
Extrinsic threats and biological predisposition in animal extinction and rediscovery. A global extinction crisis looms, and Australia has a shocking record, especially of mammal extinctions. The results of this project to find how different threats affect each species will lead to management that focusses on species- and region-specific causes. This will help to prevent further extinctions of Australian mammals and other fauna. Many people hope that species of particular importance to us such as ....Extrinsic threats and biological predisposition in animal extinction and rediscovery. A global extinction crisis looms, and Australia has a shocking record, especially of mammal extinctions. The results of this project to find how different threats affect each species will lead to management that focusses on species- and region-specific causes. This will help to prevent further extinctions of Australian mammals and other fauna. Many people hope that species of particular importance to us such as the thylacine have defied extinction, and will be rediscovered. This project will test which predictive factors can increase the chance of species rediscovery, and help management agencies plan for the expected number of future rediscoveries.Read moreRead less
Why aren't all species everywhere? The evolution of species' borders in tropical reef fishes. Virtually nothing is known about how geographic range limits evolve in the wild in the absence of barriers to dispersal and habitat discontinuities. This project will investigate the evolution of range limits of fishes on the Great Barrier Reef using combinations of mathematical modelling and field- and laboratory-based analyses of evolutionary patterns and processes. By advancing understanding of the ....Why aren't all species everywhere? The evolution of species' borders in tropical reef fishes. Virtually nothing is known about how geographic range limits evolve in the wild in the absence of barriers to dispersal and habitat discontinuities. This project will investigate the evolution of range limits of fishes on the Great Barrier Reef using combinations of mathematical modelling and field- and laboratory-based analyses of evolutionary patterns and processes. By advancing understanding of the fundamental causes of species' range limits, this research will provide new options for the management and conservation of this very valuable resource, and other complex biological systems, under increasing pressures of exploitation, habitat degradation and climate change.Read moreRead less
Mate choice near and far: Genetic compatibility, sexual selection, and speciation in Australian grass finches. The pressure on individuals to choose a genetically compatible partner has the capacity to drive the evolution of mating systems and the process of speciation, and is therefore a major engine of biodiversity. Reproductive failure resulting from incompatibility between individuals is more likely when individuals from fragmented and genetically structured populations mate with one another ....Mate choice near and far: Genetic compatibility, sexual selection, and speciation in Australian grass finches. The pressure on individuals to choose a genetically compatible partner has the capacity to drive the evolution of mating systems and the process of speciation, and is therefore a major engine of biodiversity. Reproductive failure resulting from incompatibility between individuals is more likely when individuals from fragmented and genetically structured populations mate with one another. This work will give new insight into biological processes that drive biodiversity and effect the management of threatened populations and endangered species. The proposed research will raise the international profile of Australian science and biodiversity and improve our ability to manage our natural biological resources. Read moreRead less
Ecological and evolutionary impacts of toxic prey. The current invasion of feral cane toads into the Australian wet-dry tropics provides a unique opportunity to study natural selection in action. These highly toxic anurans kill many of the predators that attempt to ingest them. Within two years, the toads will reach a floodplain near Darwin where we are conducting a longterm (already, > 15-year) ecological research program on snakes. The knowledge and data base resulting from this program, pl ....Ecological and evolutionary impacts of toxic prey. The current invasion of feral cane toads into the Australian wet-dry tropics provides a unique opportunity to study natural selection in action. These highly toxic anurans kill many of the predators that attempt to ingest them. Within two years, the toads will reach a floodplain near Darwin where we are conducting a longterm (already, > 15-year) ecological research program on snakes. The knowledge and data base resulting from this program, plus many thousands of individually-marked predators whose home ranges and demographic histories are known, provide a unique opportunity to examine the ecological and evolutionary impact of toads.Read moreRead less
The role of ecological specialisation in insect-plant macroevolutionary processes: a molecular phylogenetic approach across three kingdoms. Flowering plants and phytophagous insects are major components of the world's biodiversity and their evolution has been closely linked. This project will increase our knowledge of insect-endosymbiont-plant interactions and enhance our understanding of the origin, generation and maintenance of much of the world's biodiversity. A broader understanding of how i ....The role of ecological specialisation in insect-plant macroevolutionary processes: a molecular phylogenetic approach across three kingdoms. Flowering plants and phytophagous insects are major components of the world's biodiversity and their evolution has been closely linked. This project will increase our knowledge of insect-endosymbiont-plant interactions and enhance our understanding of the origin, generation and maintenance of much of the world's biodiversity. A broader understanding of how insects, their symbionts and plants have co-evolved should improve our understanding of why and how some insects are able to become pests whereas others do not. Scale insects (the model system in this study) are important pests, both ecologically (Christmas Island interaction between coccids, rainforest plants and crazy ants) and economically (e.g. citrus mealybug).Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346454
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Native plant mesocosm facility. Mesocosms allow ecological processes to be studied at scales intermediate between the field and laboratory. We will establish a native plant mesocosm, allowing us to accurately manipulate environmental factors such as soil moisture, mineral nutrients and temperature. This will enable us to assess how plants adjust resource allocation patterns and determine genotypic and phenotypic responses to varying environmental conditions. Such research will provide insight in ....Native plant mesocosm facility. Mesocosms allow ecological processes to be studied at scales intermediate between the field and laboratory. We will establish a native plant mesocosm, allowing us to accurately manipulate environmental factors such as soil moisture, mineral nutrients and temperature. This will enable us to assess how plants adjust resource allocation patterns and determine genotypic and phenotypic responses to varying environmental conditions. Such research will provide insight into how native plants persist in and adapt to changing environmental conditions. The facility will strengthen existing collaboration with NSW NPWS, enhance post-graduate and post-doctoral training, and provide improved conservation and management outcomes for native plants.Read moreRead less
Mechanisms of plant species co-existence in species-rich ecosystems: testing hypotheses using spatially-explicit field data and computer models. A generally accepted explanation for the co-existence of species in high diversity communities is one of the outstanding unresolved issues in ecology. Current hypotheses fail to satisfy in their generality; spatial implications are inadequately explored empirically, and the hypotheses are not testable within a common framework. Advances in spatial analy ....Mechanisms of plant species co-existence in species-rich ecosystems: testing hypotheses using spatially-explicit field data and computer models. A generally accepted explanation for the co-existence of species in high diversity communities is one of the outstanding unresolved issues in ecology. Current hypotheses fail to satisfy in their generality; spatial implications are inadequately explored empirically, and the hypotheses are not testable within a common framework. Advances in spatial analysis and complex system modelling now make the search for a general explanation feasible. This project will parameterise and test the different co-existence hypotheses using spatial statistics, empirical/experimental studies of dispersal, recruitment, competition and herbivory, and spatially-explicit computer simulation models of community assemblage in species-rich Australian shrubland communities.Read moreRead less
Landscape Fragmentation and Rare Plant Species: Can We Develop a General Framework of Population Responses? The project aims to categorise threatened plant taxa on the basis of functional attributes, and choose taxa for detailed investigation on the basis of their distribution across the landscape and potential to deliver quantitative data. Models will then be developed for each functional group of how rates of pollination, seed production, genetic diversity and seed fitness are affected by popu ....Landscape Fragmentation and Rare Plant Species: Can We Develop a General Framework of Population Responses? The project aims to categorise threatened plant taxa on the basis of functional attributes, and choose taxa for detailed investigation on the basis of their distribution across the landscape and potential to deliver quantitative data. Models will then be developed for each functional group of how rates of pollination, seed production, genetic diversity and seed fitness are affected by population size and landscape context. Information from models for each functional group will then be extrapolated, where possible, to other taxa in that group to provide guidelines for flora conservation, including translocations, threatened ecological communities and restoration / revegetation programs.Read moreRead less