Enhancing biodiversity conservation in Australia: new insights and general principles from powerful new ecological syntheses. The innovative ecological syntheses in the exciting project aim to build Australia's national research capacity to greatly increase the effectiveness of biodiversity conservation strategies. The new insights, knowledge and practical solutions gained from this important research initiative will be critical for future visions and management of Australian landscapes. Without ....Enhancing biodiversity conservation in Australia: new insights and general principles from powerful new ecological syntheses. The innovative ecological syntheses in the exciting project aim to build Australia's national research capacity to greatly increase the effectiveness of biodiversity conservation strategies. The new insights, knowledge and practical solutions gained from this important research initiative will be critical for future visions and management of Australian landscapes. Without them we risk depleting the nation's biodiversity - which is a key issue given Australia's megadiversity status. Hence, this project addresses National Research Priority #1 - An Ecologically Sustainable Australia given its fundamental importance for key goals such as managing the nation's biodiversity and understanding natural systems. Read moreRead less
Innovative enhancement and management of threatened temperate woodlands for improved biodiversity conservation. We will test the broad question: Does woodland management affect woodland biota, and if so, which groups and in what ways? To answer this, we will quantify the effects of major woodland treatments (prescribed fire, timber addition, grazing control) on animals. We will implement a long-term, large-scale 'natural experiment' to provide critical data & analyses on the simultaneous effects ....Innovative enhancement and management of threatened temperate woodlands for improved biodiversity conservation. We will test the broad question: Does woodland management affect woodland biota, and if so, which groups and in what ways? To answer this, we will quantify the effects of major woodland treatments (prescribed fire, timber addition, grazing control) on animals. We will implement a long-term, large-scale 'natural experiment' to provide critical data & analyses on the simultaneous effects of management regimes on woodland biota. A key outcome will be an improved understanding of woodland biota response to management critical for use on grazing properties, reserves, travelling stock routes in rural south-eastern Australia. This will be a major step forward given that temperate woodlands are among Australia's most threatened vegetation types.Read moreRead less
Sustainable Farms: Tree Regeneration and the Future of Farmland Biodiversity. While many government and community initiatives aim to enhance the sustainability of Australian farming systems, none specifically target the important regional-scale threatening process of tree recruitment failure. Unless this problem is addressed urgently, many farming landscapes may be virtually treeless in the future, with severe negative ramifications for both biodiversity and agricultural productivity. 'Sustainab ....Sustainable Farms: Tree Regeneration and the Future of Farmland Biodiversity. While many government and community initiatives aim to enhance the sustainability of Australian farming systems, none specifically target the important regional-scale threatening process of tree recruitment failure. Unless this problem is addressed urgently, many farming landscapes may be virtually treeless in the future, with severe negative ramifications for both biodiversity and agricultural productivity. 'Sustainable Farms' will have major national and community benefits because it will: (1) identify more sustainable farming practices that are conducive to successful tree recruitment in the future, and (2) raise awareness about a much neglected threat to the sustainability of Australian farming landscapes.Read moreRead less
Growing a multi-scale internal structure: new wrought metals for energy conservation. This research aims to reduce the weight of wrought metal parts so that transport and machinery will use less energy. It will establish how to grow novel multi-scale internal structures and will thereby pioneer a new class of metals that display superior properties.
Development and Testing of an Australia-wide Biodiversity Conservation Assessment and Planning System. This project aims to develop and test a Conservation Planning System that can be used by governments, industry, land managers and other stakeholders concerned with the long-term conservation of Australia's biodiversity. The project comprises three interrelated research foci: (1) addressing knowledge gaps about large scale ecological processes critical to long term biodiversity conservation toge ....Development and Testing of an Australia-wide Biodiversity Conservation Assessment and Planning System. This project aims to develop and test a Conservation Planning System that can be used by governments, industry, land managers and other stakeholders concerned with the long-term conservation of Australia's biodiversity. The project comprises three interrelated research foci: (1) addressing knowledge gaps about large scale ecological processes critical to long term biodiversity conservation together with the landscape linkages needed to maintain their integrity; (2) developing and testing a new computer based conservation assessment and planning tool that incorporates information about these ecological processes; and (3) investigating how these can be used to facilitate biodiversity conservation assessment and planning.Read moreRead less
An unprecedented opportunity to quantify biodiversity recovery after major wildfire. Recent fire disasters in southern Australia emphasise that wildfire is one of the major social, economic and ecological issues facing the nation. Biodiversity loss and environmental degradation are also substantial national issues. The outcomes and new understanding obtained from this project will have enormous rural, regional, national and international benefits through developing better informed, and ecologica ....An unprecedented opportunity to quantify biodiversity recovery after major wildfire. Recent fire disasters in southern Australia emphasise that wildfire is one of the major social, economic and ecological issues facing the nation. Biodiversity loss and environmental degradation are also substantial national issues. The outcomes and new understanding obtained from this project will have enormous rural, regional, national and international benefits through developing better informed, and ecologically sustainable, principles and practices for biodiversity conservation, vegetation management, and fire management. It also will guide natural resource managers such as national park staff and state forest managers in best practice methods to manage post-fire ecological recovery on land under their jurisdiction. Read moreRead less
Biodiversity conservation, vegetation restoration and landscape design. There has been considerable recent activity through major Government-funded programs to restore native vegetation. Despite extensive expenditure, the biodiversity conservation values of restoration remain very poorly known. This innovative project will address this major knowledge gap. It will generate quality data and new principles to guide restoration that maximizes biodiversity conservation. The principal aim is to estim ....Biodiversity conservation, vegetation restoration and landscape design. There has been considerable recent activity through major Government-funded programs to restore native vegetation. Despite extensive expenditure, the biodiversity conservation values of restoration remain very poorly known. This innovative project will address this major knowledge gap. It will generate quality data and new principles to guide restoration that maximizes biodiversity conservation. The principal aim is to estimate tree planting effects on vertebrates and assess whether the effects are consistent across different landscapes, farm units and regions. New insights from the project will aid the design of cost-effective and ecologically-effective restoration programs for future landscapes in rural Australian production environments.Read moreRead less
Towards sustainable floodplain communities: Assessing River Red Gum health. Floodplain vegetation in Australia has suffered severe degradation from river regulation but there is limited understanding of the functioning, responses and requirements of the ecosystem's most critical species, the River Red Gum. We will address three knowledge gaps needed for effective management of floodplain river red gums by assessing current and past health, determining stressors affecting health and by building ....Towards sustainable floodplain communities: Assessing River Red Gum health. Floodplain vegetation in Australia has suffered severe degradation from river regulation but there is limited understanding of the functioning, responses and requirements of the ecosystem's most critical species, the River Red Gum. We will address three knowledge gaps needed for effective management of floodplain river red gums by assessing current and past health, determining stressors affecting health and by building a model for predicting future health based on projected trends. Outcomes from this study will help land managers to prioritise environmental flow allocations based on the requirements for sustaining future river red gum populations.Read moreRead less
Metapopulation and habitat quality: towards an integrated approach to the conservation of an endangered grassland lizard. Our research will provide the basis upon which the grassland earless dragon can be removed from its endangered status and provide a template for the future science based management of other endangered species. Australia will gain through this project by reducing its risk of losing yet another species through inappropriate management.
Entrainment and Mixing in Turbulent Negatively Buoyant Jets and Fountains. The project intends to develop tools to accurate predict fountain flows. Volcanic eruptions, building ventilation and brine discharge from desalination plants are all examples of turbulent fountains and negatively buoyant jets. The project aims to conduct an investigation into the turbulent structure of fountains and negatively buoyant jets using numerical simulation and laboratory experiments, and to assess the accuracy ....Entrainment and Mixing in Turbulent Negatively Buoyant Jets and Fountains. The project intends to develop tools to accurate predict fountain flows. Volcanic eruptions, building ventilation and brine discharge from desalination plants are all examples of turbulent fountains and negatively buoyant jets. The project aims to conduct an investigation into the turbulent structure of fountains and negatively buoyant jets using numerical simulation and laboratory experiments, and to assess the accuracy of the commonly used integral models and test the effect of the use of more accurate entrainment relations. This may have a range of applications – enabling better prediction of environmental impacts, reduction of the adverse effects of the discharge of pollutants, and reduction in energy consumption in building ventilation and other industrial applications.Read moreRead less