The role of leaf veins in vascular plant evolution. Leaves are continuously irrigated by a system of internal plumbing that defines their maximum photosynthetic output, and angiosperms are the most productive plants on earth largely by virtue of a uniquely efficient system of leaf plumbing. This project will identify how such an important modification of leaf water transport came to evolve.
Consequences of temporal community turnover. This project aims to understand how environmental change affects compensatory dynamics of species. Species numbers do not change over time in local ecological communities, but species composition is changing at an unprecedented level across the globe. The implications of these compensatory dynamics for the resilience of ecological communities and how they affect ecosystems are important for community ecology and conservation. This project could reveal ....Consequences of temporal community turnover. This project aims to understand how environmental change affects compensatory dynamics of species. Species numbers do not change over time in local ecological communities, but species composition is changing at an unprecedented level across the globe. The implications of these compensatory dynamics for the resilience of ecological communities and how they affect ecosystems are important for community ecology and conservation. This project could reveal the functional consequences of temporal community change, contributing new insights into the effects of environmental change especially on soil ecosystems.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100601
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Incorporating developmental plasticity into models of species distributions. This project aims to develop a generalizable framework for predicting effects of environmental variability on organisms’ developmental strategies, using anuran tadpoles as a test case. This framework will reveal how environmental variability influences geographic variation in developmental strategies, and provide tools to account for that variation in mechanistic models of species distributions. These tools are expected ....Incorporating developmental plasticity into models of species distributions. This project aims to develop a generalizable framework for predicting effects of environmental variability on organisms’ developmental strategies, using anuran tadpoles as a test case. This framework will reveal how environmental variability influences geographic variation in developmental strategies, and provide tools to account for that variation in mechanistic models of species distributions. These tools are expected to increase the capacity to predict extinction risk in changing environments, and be amenable to any taxon or environment, providing a solid foundation for understanding the evolution of life-history strategies in variable environments.Read moreRead less
Making Green Guard® greener: enhancing the efficacy of a biopesticide. The project aims to identify naturally occurring micro-organisms to increase the effectiveness of Green Guard ®, which is a biopesticide used against the Australian plague locust. The project will use next-generation sequencing and other molecular techniques to potentially identify candidate microbes or combinations of microbes that can be added to Green Guard to enhance locust susceptibility. The project also aims to quantif ....Making Green Guard® greener: enhancing the efficacy of a biopesticide. The project aims to identify naturally occurring micro-organisms to increase the effectiveness of Green Guard ®, which is a biopesticide used against the Australian plague locust. The project will use next-generation sequencing and other molecular techniques to potentially identify candidate microbes or combinations of microbes that can be added to Green Guard to enhance locust susceptibility. The project also aims to quantify the interactive impact of temperature and nutrition on immune function, disease resistance and host-plant quality of plague locusts; and to explore the combined effects of temperature, habitat and Green Guard, in combination with candidate microbes or pathogens, on the behaviour and collective movement of locusts. It is anticipated that this will have implications for management and control strategies.Read moreRead less