A framework linking tree species coexistence, zonation and patterns of species richness in forests. Our curiosity-driven proposal capitalizes on a superb opportunity afforded by the occurrence of forest vegetation across a wide range of climates and soils in eastern Australia, an ideal setting for testing ideas about how environment shapes plant evolution as well as forest structure and dynamics. This research will contribute to international interchange of ideas by promoting interaction with co ....A framework linking tree species coexistence, zonation and patterns of species richness in forests. Our curiosity-driven proposal capitalizes on a superb opportunity afforded by the occurrence of forest vegetation across a wide range of climates and soils in eastern Australia, an ideal setting for testing ideas about how environment shapes plant evolution as well as forest structure and dynamics. This research will contribute to international interchange of ideas by promoting interaction with collaborators in New Zealand, and will generate a series of publications in high-impact international journals. We will help Australians better understand the forces that shape patterns of woody vegetation across local landscapes, and our carbon-balance framework may shed light on the causes of rarity of some tree species with conservation problems.Read moreRead less
What is the spatial and environmental distribution of phylogenetic diversity in the Australian biota? Almost nothing is known about the geographic distribution of phylogenetic relationships across Australia at fine resolutions of the order of tens of kilometres. The aim of this research is to map the spatial patterns of phylogenetic diversity in the Australian biota and identify possible environmental controls over them. We will analyse five disparate groups at a spatial resolution that is ord ....What is the spatial and environmental distribution of phylogenetic diversity in the Australian biota? Almost nothing is known about the geographic distribution of phylogenetic relationships across Australia at fine resolutions of the order of tens of kilometres. The aim of this research is to map the spatial patterns of phylogenetic diversity in the Australian biota and identify possible environmental controls over them. We will analyse five disparate groups at a spatial resolution that is orders of magnitude finer than previous research, analysing their relationship with possible environmental controls using advanced spatial analysis methods. The knowledge we will generate about the spatial distribution of these relationships is essential to understand and conserve Australia's unique biodiversity.Read moreRead less
Ecology of insect herbivore assemblages: influence of climate, evolutionary history and plant traits. The results from this project will be a key reference when assessing future impacts of human-induced impacts on natural communities. Our research will provide insights into the impacts of climate change on herbivorous insects associated with Acacia: the dominant plant genus in the major climatic zones of Australia. Results and conclusions from this research will aid land-holders, government agen ....Ecology of insect herbivore assemblages: influence of climate, evolutionary history and plant traits. The results from this project will be a key reference when assessing future impacts of human-induced impacts on natural communities. Our research will provide insights into the impacts of climate change on herbivorous insects associated with Acacia: the dominant plant genus in the major climatic zones of Australia. Results and conclusions from this research will aid land-holders, government agencies and other parties in determining how important Acacia-dominated ecosystems are in conserving insect biodiversity in a range of different habitats within regional and rural Australia. Our research will also aid in a better understanding of biocontrol agents of Australian Acacia pest species here and overseas.Read moreRead less
Estimating evolutionary time-scales using genomic sequence data: exploiting opportunities and meeting challenges. Genomic data are being produced at a phenomenal rate, enabling detailed investigations of various biological questions. This project will exploit the new opportunities for improving the estimation of evolutionary time-scales, and develop methods and software to address the new challenges that have surfaced.
Comparative phylogeography and patterns of diversification in Amazonian fishes. I anticipate that this project will increase the research profile of Australia in the international scientific community by answering fundamental questions about the origin of biodiversity in the world's most diverse ecosystem, the lowland forests of central Amazonia. This will be achieved by analysing what will be the most comprehensive phylogeographic data set ever generated for Amazonian organisms. The project wil ....Comparative phylogeography and patterns of diversification in Amazonian fishes. I anticipate that this project will increase the research profile of Australia in the international scientific community by answering fundamental questions about the origin of biodiversity in the world's most diverse ecosystem, the lowland forests of central Amazonia. This will be achieved by analysing what will be the most comprehensive phylogeographic data set ever generated for Amazonian organisms. The project will provide information for comparing with patterns seen in the Australian wet tropics and will be inspirational for studies on population diversification of Australian fishes. Read moreRead less
Characterising rates of molecular evolution across the Tree of Life. This project aims to characterise the variation in molecular evolutionary rates across the Tree of Life. Despite advances in genetic methods and genomic data, a critical gap remains in knowledge of evolutionary rates across species. The project will evaluate and refine methods for estimating rates, develop genomic data for molecular clocks, create an online database of rate estimates, and reconstruct ecological communities’ res ....Characterising rates of molecular evolution across the Tree of Life. This project aims to characterise the variation in molecular evolutionary rates across the Tree of Life. Despite advances in genetic methods and genomic data, a critical gap remains in knowledge of evolutionary rates across species. The project will evaluate and refine methods for estimating rates, develop genomic data for molecular clocks, create an online database of rate estimates, and reconstruct ecological communities’ responses to past environmental and climatic factors. The project’s database of evolutionary rates in different species is expected to increase understanding of evolutionary and demographic events across species, including the Australian biota, and improve conservation efforts.Read moreRead less
Northern connections-movement of birds between Australia and its near northern neighbours. This project will better enable Australia to meet its international treaty obligations on migratory birds and provide much needed data on patterns of migratory connectivity in northern Australia. These data are critical for the conservation and management of bird species that spend part of their life-cycle outside Australia. The outputs of the project will be used to assist decision makers with policy and ....Northern connections-movement of birds between Australia and its near northern neighbours. This project will better enable Australia to meet its international treaty obligations on migratory birds and provide much needed data on patterns of migratory connectivity in northern Australia. These data are critical for the conservation and management of bird species that spend part of their life-cycle outside Australia. The outputs of the project will be used to assist decision makers with policy and management decisions relevant to (1) targeted surveillance for exotic and emergent diseases of relevance to Australia and (2) the conservation and management of bird populations in Northern Australia.Read moreRead less
Latitudinal gradients in biotic processes affecting plant growth and establishment. The idea that plant-animal interactions are more intense in the tropics underpins much thinking about tropical ecology, global patterns in plant traits, and latitudinal gradients in biodiversity. In this project, we will provide the first direct and global test of this idea by quantifying the intensity of herbivory, seed predation and density-dependent seedling mortality at approximately 100 study sites around th ....Latitudinal gradients in biotic processes affecting plant growth and establishment. The idea that plant-animal interactions are more intense in the tropics underpins much thinking about tropical ecology, global patterns in plant traits, and latitudinal gradients in biodiversity. In this project, we will provide the first direct and global test of this idea by quantifying the intensity of herbivory, seed predation and density-dependent seedling mortality at approximately 100 study sites around the world. We will also investigate the causes of these latitudinal gradients by determining which environmental variables are most closely associated with the strength of biotic interactions.Read moreRead less
Unravelling the last great Gondwanan mystery: the first land vertebrate fauna from the Tertiary of New Zealand. This project will dramatically increase knowledge about Australia's and New Zealand's shared biodiversity and the history of trans-Tasman dispersals. By comparing Australian and New Zealand fossil records, it will be possible to assess the speed at which evolving vertebrates of one landmass invade another, as well as the biotic consequences of such events, and provide data important fo ....Unravelling the last great Gondwanan mystery: the first land vertebrate fauna from the Tertiary of New Zealand. This project will dramatically increase knowledge about Australia's and New Zealand's shared biodiversity and the history of trans-Tasman dispersals. By comparing Australian and New Zealand fossil records, it will be possible to assess the speed at which evolving vertebrates of one landmass invade another, as well as the biotic consequences of such events, and provide data important for predicting and responding to future potentially-damaging events of this kind. Developing understanding about the timing and intensity of antipodean faunal response to past climate change will improve ability to anticipate and manage processes that threaten ecosystem resilience in both lands.Read moreRead less
Comparative Biogeography of Australasian biota. Establishing an internationally recognised biogeographical research program will help scientists, policy makers and the public understand the past and future distribution patterns of the plants and animals of Australia. Discovering these patterns will help conservation biologists and government implement the right policies and practices to deal with biodiversity loss and climate change.