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Boom and bust: the role of fire and rain in driving the dynamics of seeds and rodents in arid Australia. The arid Australian environment oscillates between spectacular boom periods, when biotic productivity and diversity are high, and busts, when biotic resources are depleted. This project first outlines a conceptual model of this dynamic and complex system. It then investigates the roles of rainfall and fire in driving boom-bust events, focusing particularly on food resources (seeds) and their ....Boom and bust: the role of fire and rain in driving the dynamics of seeds and rodents in arid Australia. The arid Australian environment oscillates between spectacular boom periods, when biotic productivity and diversity are high, and busts, when biotic resources are depleted. This project first outlines a conceptual model of this dynamic and complex system. It then investigates the roles of rainfall and fire in driving boom-bust events, focusing particularly on food resources (seeds) and their consumers (desert rodents) in the hyper-variable Simpson Desert. We propose observations and experiments to quantify how these climatic events affect seed production, seed fate, and ultimately the dynamics of desert rodents, and outline their importance for effective management of the desert environment.Read moreRead less
The regeneration niche of invasive plants: managing the weed-shaped hole. In Australia $20 million was spent on weed control in natural areas in 2001-02 and is indicative of the level of funding for weed control programs each year. An understanding of how current weed control programs affect the regeneration of weeds in the system will give us novel insights into the persistence of weed populations despite sustained investment in control. Environmental weeds threaten biodiversity and ecosystem ....The regeneration niche of invasive plants: managing the weed-shaped hole. In Australia $20 million was spent on weed control in natural areas in 2001-02 and is indicative of the level of funding for weed control programs each year. An understanding of how current weed control programs affect the regeneration of weeds in the system will give us novel insights into the persistence of weed populations despite sustained investment in control. Environmental weeds threaten biodiversity and ecosystem function in unique Australian communities, better management of weeds will have conservation, ecosystem service provision and amenity values nationally. This project highlights the importance of understanding the weed regeneration niche for successful long-term and sustainable control.Read moreRead less
Factors influencing the reovery of orchids and their mycorrhizal fungi in the post-mining landscape. Australian terrestrial orchids are highly vulnerable to reductions in soil fungus diversity after disturbance, due to their highly specific associations with soil fungi. This project would investigate how mycorrhizal fungal diversity and spatial variability changes with time during restoration of jarrah forest vegetation after bauxite mining. The impact of mycorrhizal fungi and other soil and ha ....Factors influencing the reovery of orchids and their mycorrhizal fungi in the post-mining landscape. Australian terrestrial orchids are highly vulnerable to reductions in soil fungus diversity after disturbance, due to their highly specific associations with soil fungi. This project would investigate how mycorrhizal fungal diversity and spatial variability changes with time during restoration of jarrah forest vegetation after bauxite mining. The impact of mycorrhizal fungi and other soil and habitat factors on orchid taxonomic diversity and habitat preferences in rehabilitated bauxite mine soils will be investigated. The post-mining environment will also be contrasted with undisturbed jarrah forest to understand why some orchids are common and others rare in these environments.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775666
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Flora and Fauna Research Facility. Our ability to make informed decisions regarding conservation and management of unique Australian ecosytems depends greatly on our understanding of the organisms inhabiting them. Researchers at the University of Wollongong are addressing this need through a wide range of studies including the: effects of climate change on plants, biology of invasive species, possible causes for declining frog populations, role of the immune system in aging and natural selection ....Flora and Fauna Research Facility. Our ability to make informed decisions regarding conservation and management of unique Australian ecosytems depends greatly on our understanding of the organisms inhabiting them. Researchers at the University of Wollongong are addressing this need through a wide range of studies including the: effects of climate change on plants, biology of invasive species, possible causes for declining frog populations, role of the immune system in aging and natural selection, effects of maternal hormones on offspring, effects of pesticides on native vertebrates, and impacts of bushfires on ecosystems. The infrastructure requested will enable research in these and other important areas.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
Development and calcification in benthic marine invertebrates (Mollusca and Echinodermata) in an acidified and warm ocean. As an island continent Australia generates considerable wealth from its oceans with marine invertebrate resources playing a key role. These resources are at risk due to the impact of climate change, ocean acidification and warming, on availability of carbonate minerals for shell production. Of major concern is potential recruitment failure if planktonic larvae cannot produc ....Development and calcification in benthic marine invertebrates (Mollusca and Echinodermata) in an acidified and warm ocean. As an island continent Australia generates considerable wealth from its oceans with marine invertebrate resources playing a key role. These resources are at risk due to the impact of climate change, ocean acidification and warming, on availability of carbonate minerals for shell production. Of major concern is potential recruitment failure if planktonic larvae cannot produce their skeleton and if benthic stages cannot grow due to impaired skeleton formation. This project addresses uncertainties in knowledge of the response of ecologically and commercially important marine biota to climate change, knowledge crucial to inform risk assessment of future changes to our marine resources.Read moreRead less
From developmental stability to organismic senility: Hox genes and telomere impact on life history evolution. Australia benefits from training researchers and technicians in new, break-through biotechnology and from applying this knowledge to relevant, cutting-edge questions in highly publicized research fields. This project contains both these ingredients. Our model species (a lizard) has a relatively high level of offspring malformations (ca 15%), which makes it much more likely to detect thei ....From developmental stability to organismic senility: Hox genes and telomere impact on life history evolution. Australia benefits from training researchers and technicians in new, break-through biotechnology and from applying this knowledge to relevant, cutting-edge questions in highly publicized research fields. This project contains both these ingredients. Our model species (a lizard) has a relatively high level of offspring malformations (ca 15%), which makes it much more likely to detect their underlying genetic mechanism. Furthermore, we can also assess how these animals survive and reproduce in relation to how quickly they age, which can be measured by assessing the shortening of telomeres per unit time. Thus, this collaboration provides an opportunity to train Australian researchers and in that process generate very high profile research.Read moreRead less
BEYOND ABUNDANCE: HOW TOP PREDATORS AFFECT MESOPREDATOR BEHAVIOUR AND LIFE HISTORY. Top predators strongly influence biodiversity. Areas with high biodiversity attract tourism income and provide valuable ecosystem services. In Australia, high biodiversity, and the opportunity to view top predators, increase the experience quality of tourists, and increase the probability that they will visit an area, but Australia has many highly fragmented ecosystems, which lose top predators. Disappearance of ....BEYOND ABUNDANCE: HOW TOP PREDATORS AFFECT MESOPREDATOR BEHAVIOUR AND LIFE HISTORY. Top predators strongly influence biodiversity. Areas with high biodiversity attract tourism income and provide valuable ecosystem services. In Australia, high biodiversity, and the opportunity to view top predators, increase the experience quality of tourists, and increase the probability that they will visit an area, but Australia has many highly fragmented ecosystems, which lose top predators. Disappearance of top predators can lead to expanding populations of mid-level predators, and concomitant losses of biodiversity. In Australia, where lizards are major top- and mid-level predators in terrestrial systems, our study will directly address the consequences of predator disappearance, and provide management strategies to deal with it.Read moreRead less
Dispersal and gene flow in habitat-forming algae. The temperate coast of Australia has a unique and diverse algal flora. Many of these algae play a central role in subtidal ecology by providing habitat to an astonishing diversity of taxa. Despite this, we have no understanding of levels of gene flow within and among populations of habitat forming algae or how such populations persist in nature. By addressing this lack of knowledge, my research will contribute information that is critical for the ....Dispersal and gene flow in habitat-forming algae. The temperate coast of Australia has a unique and diverse algal flora. Many of these algae play a central role in subtidal ecology by providing habitat to an astonishing diversity of taxa. Despite this, we have no understanding of levels of gene flow within and among populations of habitat forming algae or how such populations persist in nature. By addressing this lack of knowledge, my research will contribute information that is critical for the conservation and management of algal habitats. This is particularly pertinent because anthropogentic stressors are beginning to precipitate significant changes in algal forests along Australia's coastline. Read moreRead less
Beyond Abundance: An experimental study of the effects of predators on prey behaviour and reproduction. Understanding the influence of top predators on community composition and population dynamics at lower trophic levels is a central problem in ecology, with important implications for ecological theory and conservation biology. Our study will be among the first to examine effects of presence and absence of top-level predators on the behaviour, reproduction, and microhabitat use of mid-level p ....Beyond Abundance: An experimental study of the effects of predators on prey behaviour and reproduction. Understanding the influence of top predators on community composition and population dynamics at lower trophic levels is a central problem in ecology, with important implications for ecological theory and conservation biology. Our study will be among the first to examine effects of presence and absence of top-level predators on the behaviour, reproduction, and microhabitat use of mid-level predators. Understanding how the behaviour and ecology of lower-level species change in response to changes in abundance of top-level predators will increase the ability of managers to mitigate the impacts of changes in predator abundance on managed ecosystems.Read moreRead less