Adaptive Morphology and Evolution of Invasive Rabbits and Hares. This project aims to uncover the morphological variation that allows rapid adaptive evolution in two invasive species, the rabbit and hare. This project expects to generate new knowledge at the interface between invasion biology and evolutionary biology, using cutting-edge methods to phenotype widespread populations. This project will address key inter-related hypotheses of rapid adaptive evolution at temporal, spatial and phylogen ....Adaptive Morphology and Evolution of Invasive Rabbits and Hares. This project aims to uncover the morphological variation that allows rapid adaptive evolution in two invasive species, the rabbit and hare. This project expects to generate new knowledge at the interface between invasion biology and evolutionary biology, using cutting-edge methods to phenotype widespread populations. This project will address key inter-related hypotheses of rapid adaptive evolution at temporal, spatial and phylogenetic scales, particularly about changing morphologies involved role in locomotion and dispersal ability. Expected outcomes of this project include a comprehensive phenotypic database of these two species and identifying how these invasive species are adapting to the Australian landscape.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100043
Funder
Australian Research Council
Funding Amount
$454,000.00
Summary
Kangaroos, feral herbivores and bushfires: Consequences for forest dynamics. This project aims to investigate the functional role of native and introduced herbivores in forest ecosystems using a powerful, highly replicated, herbivore exclosure experiment. This project expects to create new knowledge of the effects of mammalian herbivores, particularly kangaroos and invasive deer, on forest plants, soils and productivity. Expected outcomes include fundamental insights into above and belowground i ....Kangaroos, feral herbivores and bushfires: Consequences for forest dynamics. This project aims to investigate the functional role of native and introduced herbivores in forest ecosystems using a powerful, highly replicated, herbivore exclosure experiment. This project expects to create new knowledge of the effects of mammalian herbivores, particularly kangaroos and invasive deer, on forest plants, soils and productivity. Expected outcomes include fundamental insights into above and belowground interactions in forests, and an enhanced capacity to predict effects of changing herbivore populations across environmental gradients, and following bushfire. This should produce significant benefits for forest management in Australia, allowing informed, targeted, and pre-emptive management of invasive herbivore populations.Read moreRead less
Managing complex networks in endangered grasslands to restore food webs. This project aims to quantify the impacts of native and non-native animal consumer removal by examining food webs in endangered grasslands. Grasslands are Australia’s largest biome yet land-use changes, livestock and invasive plants, have altered entire food webs, including the integrity of ecosystem services such as nutrient cycling. Measuring disrupted food webs in field experiments, then modelling the impacts of mammals ....Managing complex networks in endangered grasslands to restore food webs. This project aims to quantify the impacts of native and non-native animal consumer removal by examining food webs in endangered grasslands. Grasslands are Australia’s largest biome yet land-use changes, livestock and invasive plants, have altered entire food webs, including the integrity of ecosystem services such as nutrient cycling. Measuring disrupted food webs in field experiments, then modelling the impacts of mammals to invertebrates, will assist managers in making more effective decisions relating to ecosystem integrity. Understanding the consequences of biodiversity loss including implications for ecosystem resilience is crucial to Australia’s future food production, carbon sequestration and hydrological flows.Read moreRead less