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Forecasting soil conditions. Not knowing where and how soil responds to climate change and human intervention compromises food, water, climate and energy security. Currently there is a lack of soil process knowledge and data infrastructure collectively causing significant uncertainty and risk in the assessments of key threats to soil. The project devises a transformational digital soil model to forecast where and how soil pH and carbon will change in New South Wales. Tested on sites within Au ....Forecasting soil conditions. Not knowing where and how soil responds to climate change and human intervention compromises food, water, climate and energy security. Currently there is a lack of soil process knowledge and data infrastructure collectively causing significant uncertainty and risk in the assessments of key threats to soil. The project devises a transformational digital soil model to forecast where and how soil pH and carbon will change in New South Wales. Tested on sites within Australia, the model will give insight on the drivers of change and will provide a unique analysis of the effect of climate change and land management on the dynamics of soil.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100058
Funder
Australian Research Council
Funding Amount
$659,060.00
Summary
Unmanned aerial vehicle sensing and data discovery for a changing planet. This project aims to establish an earth systems monitoring facility, using unmanned aerial vehicles and world-leading sensor technology. It will have the capability to measure the natural and built environment at millimetre to centimetre scales and to monitor rapid changes. The ensuing data and interpretations will be useful for decision-making and policy development amongst government agencies and the agricultural, enviro ....Unmanned aerial vehicle sensing and data discovery for a changing planet. This project aims to establish an earth systems monitoring facility, using unmanned aerial vehicles and world-leading sensor technology. It will have the capability to measure the natural and built environment at millimetre to centimetre scales and to monitor rapid changes. The ensuing data and interpretations will be useful for decision-making and policy development amongst government agencies and the agricultural, environmental, civil infrastructure and mining industries.Read moreRead less
A next generation spatially distributed model for soil profile dynamics and paedogenesis incorporating soil geochemistry and organic matter. Soil is the interface between the land, atmosphere, and biosphere. We are unable to fully characterise it because it varies in space and data collection is difficult. This project will develop models of soil formation to understand the spatial distribution of soil and how this distribution links with its biogeochemical role in the environment.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100083
Funder
Australian Research Council
Funding Amount
$155,000.00
Summary
A gamma spectrometry facility for cutting edge environmental geochemistry investigations. A gamma spectrometry facility for cutting edge environmental geochemistry investigations: This project will provide a cutting edge gamma spectrometry facility. The facility will perform high precision radionuclide measurements to resolve complex environmental processes such as sediment accumulation, soil erosion, submarine groundwater discharge, atmospheric deposition, marine carbon scavenging, and water ma ....A gamma spectrometry facility for cutting edge environmental geochemistry investigations. A gamma spectrometry facility for cutting edge environmental geochemistry investigations: This project will provide a cutting edge gamma spectrometry facility. The facility will perform high precision radionuclide measurements to resolve complex environmental processes such as sediment accumulation, soil erosion, submarine groundwater discharge, atmospheric deposition, marine carbon scavenging, and water mass circulation. This project is significant because the data obtained will fill fundamental gaps in the understanding of carbon, nitrogen, and trace metal cycling in soils, groundwater, rivers, estuaries, and the ocean. The outcome of this project is a better understanding of regional and global biogeochemical cycles. Read moreRead less
Global space-time soil carbon assessment. Soil carbon is a key component of functional ecosystems and is crucial for food, water and energy security, and for climate change mitigation. The project will contribute to global understanding of soil carbon and its management for sustainable wellbeing.
A general soil spatial scaling theory. Soil diversity is crucial for maintenance of sustainable ecosystems. Soil varies on a continuum from microbial habitats to fields, regions, continents and the globe. This project will take a unifying approach to derive a general spatial scaling theory that will allow us to estimate the likely behaviour of soil properties at all scales. Understanding the scaling behaviour of soil means one can be certain about describing the changes in relationships between ....A general soil spatial scaling theory. Soil diversity is crucial for maintenance of sustainable ecosystems. Soil varies on a continuum from microbial habitats to fields, regions, continents and the globe. This project will take a unifying approach to derive a general spatial scaling theory that will allow us to estimate the likely behaviour of soil properties at all scales. Understanding the scaling behaviour of soil means one can be certain about describing the changes in relationships between soil properties and processes. It will enhance the ability to monitor soil property changes through time, essential for gauging effects of climate change and achieving food security. Read moreRead less
Wealth from water: soil information for new sustainable irrigated agriculture in Tasmania. Key to sustainable irrigation for agricultural production is an understanding of the soil resource. Conventional methods to obtain soil information are outdated and expensive. This project will develop a new strategy to quantitatively assess soil sustainability and to analyse management options thoroughly.
Optimised field delineation of contaminated soils. This project seeks to cost-efficiently identify the contaminated areas of a soil site which will require remediation. There are many thousands of sites contaminated with metals and/or organics across urban and rural Australia and some tens of millions across the world. These sites pose a serious potential threat to human health. Detection (and remediation) of such sites is expensive. The project aims to deliver a cheaper method of detection thro ....Optimised field delineation of contaminated soils. This project seeks to cost-efficiently identify the contaminated areas of a soil site which will require remediation. There are many thousands of sites contaminated with metals and/or organics across urban and rural Australia and some tens of millions across the world. These sites pose a serious potential threat to human health. Detection (and remediation) of such sites is expensive. The project aims to deliver a cheaper method of detection through a novel combination of infra-red and X-ray spectroscopies combined with data-fused soil inference and optimised directed sampling and mapping. This is intended to reduce the economic barrier to detection and remediation, considerably hastening the removal of this health risk. Resulting novel technology could be transferred and commercialised internationally.Read moreRead less
Synergising pedodiversity and biodiversity to secure soil functionality. This project aims to understand the coupling between soil physical, chemical and biological diversity at a range of scales and land uses across New South Wales and its relationship with soil functioning. Soil diversity with its coupled biodiversity is crucial for conservation of sustainable ecosystems. Soil diversity varies on a continuum from microbial habitats to elds, catchments and regions. This project will enhance ou ....Synergising pedodiversity and biodiversity to secure soil functionality. This project aims to understand the coupling between soil physical, chemical and biological diversity at a range of scales and land uses across New South Wales and its relationship with soil functioning. Soil diversity with its coupled biodiversity is crucial for conservation of sustainable ecosystems. Soil diversity varies on a continuum from microbial habitats to elds, catchments and regions. This project will enhance our ability to understand the drivers of soil change through time, critical for minimising loss of biodiversity, achieving food and soil security and inferring effects of climate change.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100054
Funder
Australian Research Council
Funding Amount
$3,277,650.00
Summary
A calculable approach to securing Australia's soil. Much of our productive land is currently degraded, severely impacting the ability of soils to contribute to planetary health. The aim of this program is to deliver a comprehensive systematic soil monitoring system within a world-first soil security framework. The research will create a detailed reference of the Australian landscape to elucidate impacts on our soil cover. Soil security indicators will be created from which ameliorative actions c ....A calculable approach to securing Australia's soil. Much of our productive land is currently degraded, severely impacting the ability of soils to contribute to planetary health. The aim of this program is to deliver a comprehensive systematic soil monitoring system within a world-first soil security framework. The research will create a detailed reference of the Australian landscape to elucidate impacts on our soil cover. Soil security indicators will be created from which ameliorative actions can be prioritised, while early warning systems will offer predictive capability around emerging threats to soil condition, feeding into best-management practices for regeneration. Outcomes will see soil secured for future generations and Australia at the forefront of soil assessment and restoration.Read moreRead less