Testing the Flood Pulse Concept for rivers with variable flow regimes. For floodplain rivers the major unifying conceptual model linking hydrology, biogeochemistry and ecology is the Flood Pulse Concept (FPC). The model is based on rivers that have a seasonally predictable and long duration inundation of floodplain habitats. Recent reviews of the FPC indicate that the model needs to be broadened to describe the function of rivers with more variable flow regimes. This project will test some of th ....Testing the Flood Pulse Concept for rivers with variable flow regimes. For floodplain rivers the major unifying conceptual model linking hydrology, biogeochemistry and ecology is the Flood Pulse Concept (FPC). The model is based on rivers that have a seasonally predictable and long duration inundation of floodplain habitats. Recent reviews of the FPC indicate that the model needs to be broadened to describe the function of rivers with more variable flow regimes. This project will test some of the predictions of the FPC for variable dryland rivers by investigating how food webs in the channels of a floodplain reach respond to flows of different magnitude, seasonal timing and duration.Read moreRead less
Complex system dynamics: restoring riparian and riverine ecosystems. Attempts to restore damaged ecosystems reveal inadequacies in theories describing ecosystem structure and function. For rivers, it is unclear whether theories relating to fluvial geomorphology and ecosystem dynamics are adequate to predict system trajectories following restoration. We will use empirical data on a degraded river to develop cross-scale models of system function, and predict ecosystem structure and dynamics follow ....Complex system dynamics: restoring riparian and riverine ecosystems. Attempts to restore damaged ecosystems reveal inadequacies in theories describing ecosystem structure and function. For rivers, it is unclear whether theories relating to fluvial geomorphology and ecosystem dynamics are adequate to predict system trajectories following restoration. We will use empirical data on a degraded river to develop cross-scale models of system function, and predict ecosystem structure and dynamics following restoration. Following revegetation of riparian habitats and replacement of large woody debris in in-stream habitats of the river, we will test theoretical predictions about changes to physical processes, biotic community assemblage rules and food webs to develop improved ecosystem-based restoration guidelines.Read moreRead less
A new approach to understanding community variation in marine soft-sediments. Sustainable management of Australia's rich coastal biodiversity requires an mechanistic understanding of soft-sediment systems, as these dominate the benthic environment of our Exclusive Economic Zone. This project will substantially enhance our fundamental knowledge of soft-sediment systems by determining major processes responsible for variation in benthic community structure. This research will improve sustainable ....A new approach to understanding community variation in marine soft-sediments. Sustainable management of Australia's rich coastal biodiversity requires an mechanistic understanding of soft-sediment systems, as these dominate the benthic environment of our Exclusive Economic Zone. This project will substantially enhance our fundamental knowledge of soft-sediment systems by determining major processes responsible for variation in benthic community structure. This research will improve sustainable management of estuaries by (i) increasing the cost-effectiveness of detecting environmental change, (ii) determining any negative effects of changing detrital resources, and (iii) documenting soft-sediment species currently present in Botany Bay, which will aid in the early detection of invasive pests.Read moreRead less
Setting rehabilitation targets for regulated floodplain wetlands: linking system structure and function. Limited understanding of ecosystem processes in floodplain wetlands impedes adaptive management strategies for combating the decline in aquatic productivity and biodiversity. This project addresses three knowledge gaps critical for effective floodplain wetland management: 1) hierarchical spatial and temporal patterns of structural diversity; 2) correspondence between patterns of structural d ....Setting rehabilitation targets for regulated floodplain wetlands: linking system structure and function. Limited understanding of ecosystem processes in floodplain wetlands impedes adaptive management strategies for combating the decline in aquatic productivity and biodiversity. This project addresses three knowledge gaps critical for effective floodplain wetland management: 1) hierarchical spatial and temporal patterns of structural diversity; 2) correspondence between patterns of structural diversity, rates of system production, and food web structure, and 3) conceptual models of relationships between hydrologic regime and wetland structure and function. The project will improve understanding of the impacts of regulation on floodplain wetlands, contribute to adaptive management, and set rehabilitation targets for delivery of environmental flows for ecosystem sustainability.Read moreRead less
Assessing Effects of Petroleum Oil Pollution on Estuarine Rock Platform Invertebrate Communities. The effects of oil spills on our native intertidal organisms are virtually unknown. For some years before and since a major oil spill in Sydney, 1999, we have conducted impact and recovery studies on rock platform species assemblages of Port Jackson. Results show impacts at both community and individual species levels. This project aims to answer important questions arising from this work and wou ....Assessing Effects of Petroleum Oil Pollution on Estuarine Rock Platform Invertebrate Communities. The effects of oil spills on our native intertidal organisms are virtually unknown. For some years before and since a major oil spill in Sydney, 1999, we have conducted impact and recovery studies on rock platform species assemblages of Port Jackson. Results show impacts at both community and individual species levels. This project aims to answer important questions arising from this work and would allow: (1) to establish a cause and effect relationship between oil exposure and Australian invertebrate species responses(2) generate quantitative chronic and acute oil impact data on invertebrate species at a range of oil exposures and best practice amelioration, (3) generation of the first toxicological data of the impact of oil pollutants on Australian estuarine invertebrates, (4)investigation of possible early-warning biomarkers of oil exposure, and (5) rapid assessment monitoring procedures for future environmental management of our estuarine systems.Read moreRead less
The renaissance predator: complex predator-prey interactions and vertebrate diversity in arid Australia. This project will greatly increase understanding of how predators influence the ecology and diversity of their prey in Australia's deserts, and thus improve our ability to conserve and manage our iconic but fragile inland landscapes. It will increase awareness locally about the richness of desert life and stimulate national and international interest by contributing to emerging debate about h ....The renaissance predator: complex predator-prey interactions and vertebrate diversity in arid Australia. This project will greatly increase understanding of how predators influence the ecology and diversity of their prey in Australia's deserts, and thus improve our ability to conserve and manage our iconic but fragile inland landscapes. It will increase awareness locally about the richness of desert life and stimulate national and international interest by contributing to emerging debate about how predators influence diversity. It will also establish an unparalleled 24-year time series of ecological data, and thus provide a key resource to chart the biological effects of climate change and assist sustainable management of biodiversity across the continent's vast interior. Read moreRead less
Biodiversity enhancement in arid Australia: the importance of micro-refugia and biotic interactions. This project will dramatically increase our understanding of the factors that influence the biodiversity of Australia's deserts, and thus improve our ability to manage these iconic landscapes for both conservation and production needs. It will attract attention from the international community by helping to resolve contentious theoretical debate about the function of refuge habitats, and how spec ....Biodiversity enhancement in arid Australia: the importance of micro-refugia and biotic interactions. This project will dramatically increase our understanding of the factors that influence the biodiversity of Australia's deserts, and thus improve our ability to manage these iconic landscapes for both conservation and production needs. It will attract attention from the international community by helping to resolve contentious theoretical debate about the function of refuge habitats, and how species interact with each other to influence overall diversity. It will provide the longest time series of ecological data available for any Australian desert, and hence provide a key resource for increasing community awareness and achieving sustainable management of biodiversity throughout the continent's arid interior. Read moreRead less
Fire severity, habitat heterogeneity and life histories. Resolving the persistence ability of plants in frequently fired landscapes. The wise management of Australia's biodiversity has major economic and social benefits for the nation through the provision of ecosystem services, bio-products and tourism. Fire is a pivotal environmental factor that will continue to influence plant biodiversity in fire-prone ecosystems. Inappropriate fire regimes, however, threaten biodiversity through disruption ....Fire severity, habitat heterogeneity and life histories. Resolving the persistence ability of plants in frequently fired landscapes. The wise management of Australia's biodiversity has major economic and social benefits for the nation through the provision of ecosystem services, bio-products and tourism. Fire is a pivotal environmental factor that will continue to influence plant biodiversity in fire-prone ecosystems. Inappropriate fire regimes, however, threaten biodiversity through disruption of life cycles. If too many or too few fires occur in an area this can lead to decline and extinction of plant and animal species. This research will provide a risk-assessment tool for the management of biodiversity to reverse population declines and prevent extinctions.
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The role of natural selection in macroevolution: a case study examining convergence of form and function in marine predator guilds. Darwin's theory of evolution natural selection is one of the most successful in the history of science and provides the framework for modern biology: however, areas of debate or uncertainty are often misinterpreted by non-scientists as indication of fundamental flaws in the theory. New 'hi-tech' tools provide the opportunity to re-examine these areas, and also to de ....The role of natural selection in macroevolution: a case study examining convergence of form and function in marine predator guilds. Darwin's theory of evolution natural selection is one of the most successful in the history of science and provides the framework for modern biology: however, areas of debate or uncertainty are often misinterpreted by non-scientists as indication of fundamental flaws in the theory. New 'hi-tech' tools provide the opportunity to re-examine these areas, and also to demonstrate the process of science to the public. The new tool is Computational Biomechanics, the future of studying biological form, and this project will further develop the leading role of Australian research in this technology which has applications for palaeontology, environmental management, medical science, and the next generation of engineering using 'biomaterials'.Read moreRead less
More than mud: how will disruption of soft-sediments threaten coastal biodiversity? Habitat destruction and increased nutrient input are combining with climate change to threaten the biodiversity and fisheries productivity of soft sediment habitats that dominate Australia's sixteen million square kilometre exclusive economic zone. This project will develop the tools necessary for the sustainable management of our coastal biodiversity under multiple scenarios of change. Because many of the result ....More than mud: how will disruption of soft-sediments threaten coastal biodiversity? Habitat destruction and increased nutrient input are combining with climate change to threaten the biodiversity and fisheries productivity of soft sediment habitats that dominate Australia's sixteen million square kilometre exclusive economic zone. This project will develop the tools necessary for the sustainable management of our coastal biodiversity under multiple scenarios of change. Because many of the results will be broadly applicable to coastal systems worldwide, this project will generate high-impact publications that will increase the research profile of Australia. It will train postgraduate students in strategies to help ensure the sustainable use of our biodiversity and will generate collaborations with leading international scientists.Read moreRead less