Understanding the importance of lianas for forest health and management. This project aims to assess the impact of lianas (woody vines) and their removal on forest health and value. New field infrastructure, removal experiments and global datasets will be used to compare forest health under varying liana dominance, determine whether lianas are preventing recovery, and to predict regional and global impacts. The project expects to generate new knowledge regarding ecosystem function and global cha ....Understanding the importance of lianas for forest health and management. This project aims to assess the impact of lianas (woody vines) and their removal on forest health and value. New field infrastructure, removal experiments and global datasets will be used to compare forest health under varying liana dominance, determine whether lianas are preventing recovery, and to predict regional and global impacts. The project expects to generate new knowledge regarding ecosystem function and global change biology, building collaboration between ecologists, economists and forest managers. The project expects to have significant implications for forest health and the global economy. The expected benefit will be implementation of restoration methods in priority areas and subsequently improved forest health.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100900
Funder
Australian Research Council
Funding Amount
$426,718.00
Summary
When and where are temperate reef communities vulnerable to ocean warming? This project will test in the laboratory and the field, when and where ocean warming will exceed the thermal limits of marine species and why certain species show greater sensitivity to warming temperatures than others. This project expects to generate robust estimates about how temperature sensitivity varies between populations across species’ ranges and identify the ecological implications for habitat loss in areas wher ....When and where are temperate reef communities vulnerable to ocean warming? This project will test in the laboratory and the field, when and where ocean warming will exceed the thermal limits of marine species and why certain species show greater sensitivity to warming temperatures than others. This project expects to generate robust estimates about how temperature sensitivity varies between populations across species’ ranges and identify the ecological implications for habitat loss in areas where thermal limits differ between key species. Expected outcomes include an enhanced capacity to detect when and where vulnerability hotspots will emerge that could jeopardise the immense social, ecological, and economic value of Australia’s temperate reefs, next to which 70% of Australians live, along 8,000 km of coastline.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100492
Funder
Australian Research Council
Funding Amount
$462,720.00
Summary
Robust strategies to achieve sustainable savannas under rapid global change. This project aims to design approaches for financial incentive programs that are robust to uncertainties in global climate and economic change, while delivering multiple ecosystem services. Despite billions of dollars allocated to landholders, these schemes have not been evaluated under a range of potential futures. This project expects to incorporate an unprecedented range of uncertainties into incentive program design ....Robust strategies to achieve sustainable savannas under rapid global change. This project aims to design approaches for financial incentive programs that are robust to uncertainties in global climate and economic change, while delivering multiple ecosystem services. Despite billions of dollars allocated to landholders, these schemes have not been evaluated under a range of potential futures. This project expects to incorporate an unprecedented range of uncertainties into incentive program design, and test program performance using spatial simulations of Australia’s dynamic savanna rangelands. This should lay the groundwork for applications to other environments facing similarly uncertain futures, and may prove vital to ensure we can adapt and thrive in a changing climateRead moreRead less
Special Research Initiatives - Grant ID: SR200100005
Funder
Australian Research Council
Funding Amount
$36,000,000.00
Summary
Securing Antarctica's Environmental Future. This program aims to deliver unprecedented research capability for securing Antarctic environments in the face of uncertain change.
By integrating a highly skilled team with new approaches and breakthrough technologies, the program anticipates discovery science, enhanced environmental forecasting and optimised decision-making to advance Australia’s position as an influential Antarctic nation.
Expected outcomes include better environmental management ....Securing Antarctica's Environmental Future. This program aims to deliver unprecedented research capability for securing Antarctic environments in the face of uncertain change.
By integrating a highly skilled team with new approaches and breakthrough technologies, the program anticipates discovery science, enhanced environmental forecasting and optimised decision-making to advance Australia’s position as an influential Antarctic nation.
Expected outcomes include better environmental management, unparalleled strategic decision-support for an effective Antarctic Treaty, and new minds to address Antarctica’s new challenges.
Anticipated benefits are the means to transform environmental forecasting and management in the Antarctic, for Australia, and to the advantage of global security.Read moreRead less
A step change in modeling leaf respiration-photosynthesis relationships . This project aims to use innovative, high-throughput technologies to develop a novel framework that links daytime photosynthesis and starch/amino acid mobilisation to variations in night-time leaf respiration. Variations in leaf respiration can have large impacts on ecosystem functioning and the Earth’s climate. Although advances have been made in respiration modelling, current models are unable to predict dynamic, day-to- ....A step change in modeling leaf respiration-photosynthesis relationships . This project aims to use innovative, high-throughput technologies to develop a novel framework that links daytime photosynthesis and starch/amino acid mobilisation to variations in night-time leaf respiration. Variations in leaf respiration can have large impacts on ecosystem functioning and the Earth’s climate. Although advances have been made in respiration modelling, current models are unable to predict dynamic, day-to-day variations in respiratory rates. Expected outcomes include equations that predict daily variations in night-time leaf respiration for environments across Australia and overseas. Benefits to planners include the ability to more accurately model vegetation-atmosphere carbon exchange and future changes in climate. Read moreRead less
Reef Breath Testing (RBT): exhaled volatile-gas biomarkers of coral health. This Project aims to uncover volatile gas "fingerprints" of coral reef taxa and how they are diagnostic of healthy reef functioning over space and time. All organisms emit distinct volatile gases via physiological fine-tuning and signalling as their environments change. Whilst coral reef taxa and coral reefs are hotspots for volatile gas emissions, which gases are produced, when and why, is entirely unexplored. This proj ....Reef Breath Testing (RBT): exhaled volatile-gas biomarkers of coral health. This Project aims to uncover volatile gas "fingerprints" of coral reef taxa and how they are diagnostic of healthy reef functioning over space and time. All organisms emit distinct volatile gases via physiological fine-tuning and signalling as their environments change. Whilst coral reef taxa and coral reefs are hotspots for volatile gas emissions, which gases are produced, when and why, is entirely unexplored. This project unites a multidisciplinary team of experts to, for the first time, couple volatile gas assessment, metabolic physiology and functional genomics techniques to transform understanding of how key volatile gases underpin coral resilience to stress and disease, which is essential to improve coral reef ecosystem management.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100144
Funder
Australian Research Council
Funding Amount
$446,548.00
Summary
Linking changes in plant-pollinator networks to plant reproduction. The project aims to investigate how human actions in agricultural landscapes affect the activity of pollinating insects and the consequence for the plants that rely on them for reproduction. The project seeks to reveal how the structure of plant-pollinator networks is related to the reproductive success of plants through the novel application of networks that describe patterns in species interactions. The knowledge gained from t ....Linking changes in plant-pollinator networks to plant reproduction. The project aims to investigate how human actions in agricultural landscapes affect the activity of pollinating insects and the consequence for the plants that rely on them for reproduction. The project seeks to reveal how the structure of plant-pollinator networks is related to the reproductive success of plants through the novel application of networks that describe patterns in species interactions. The knowledge gained from this study will enhance our ability to forecast the effects of insect declines for plant seed production in Australia and the world. The intended benefit is an improved capacity to identify vulnerable plant species and maintain pollination services in managed landscape for both wild and cultivated plant populations.Read moreRead less
The role of pollutants and emerging diseases in endangering a global migratory flyway. This project aims to investigate the role of chemical pollution on disease susceptibility and survival in shorebirds along the East Asian-Australasian Flyway (EAAF). Among all long-distance migratory birds, the more than eight million shorebirds along the EAAF have notably been hit hard by global change, with population declines up to 80%. This project will use data from birds on their Asian migratory stopover ....The role of pollutants and emerging diseases in endangering a global migratory flyway. This project aims to investigate the role of chemical pollution on disease susceptibility and survival in shorebirds along the East Asian-Australasian Flyway (EAAF). Among all long-distance migratory birds, the more than eight million shorebirds along the EAAF have notably been hit hard by global change, with population declines up to 80%. This project will use data from birds on their Asian migratory stopover sites, data from seven years of blood and virus samples, and 38 years of banding data collected while staying on the Australian non-breeding grounds. The project will provide essential data for developing mitigation strategies to help curb the populations’ demise, while informing on the effects of pollution on the role of migrants in disease spread.Read moreRead less