Feast or famine: how Australian plants stay productive under low phosphorus. Phosphorus (P) is in low supply in soils around the nation, and limits plant production in the Australian landscape, as well as for many tropical forests worldwide. How scarce P restricts photosynthetic capacity has remained elusive. We will determine how Australian plants achieve high phosphorus-use efficiency despite low P concentrations in leaves and soils. We will synthesise knowledge of how plants maintain producti ....Feast or famine: how Australian plants stay productive under low phosphorus. Phosphorus (P) is in low supply in soils around the nation, and limits plant production in the Australian landscape, as well as for many tropical forests worldwide. How scarce P restricts photosynthetic capacity has remained elusive. We will determine how Australian plants achieve high phosphorus-use efficiency despite low P concentrations in leaves and soils. We will synthesise knowledge of how plants maintain productivity with low P availability, and inform global models how to represent P biogeochemistry and photosynthesis to improve C-cycle estimates. The understanding of plant photosynthetic and P-saving mechanisms that emerge should provide benefits through improved ecological models and enhanced management of primary production.Read moreRead less
Optimising biodiversity conservation in managed forest landscapes. How to meet human needs for timber while limiting harm to biodiversity is an urgent scientific goal. The project will address this challenge by quantifying the impacts of forestry systems and wildfire on mammal species. Novel network modelling of interactions among plants, animals, and environmental variables will establish cost-effective management improvements to maximise biodiversity values. A systematic conservation planning ....Optimising biodiversity conservation in managed forest landscapes. How to meet human needs for timber while limiting harm to biodiversity is an urgent scientific goal. The project will address this challenge by quantifying the impacts of forestry systems and wildfire on mammal species. Novel network modelling of interactions among plants, animals, and environmental variables will establish cost-effective management improvements to maximise biodiversity values. A systematic conservation planning approach will deliver spatially and temporally explicit solutions to balancing trade-offs between production and conservation taking into account dynamic impacts from climate change and fire. Outcomes will provide a foundation for policy changes to put theoretical solutions into practice.Read moreRead less
Conserving biodiversity in timber production forests. Intensified forestry to meet rising demand for timber is placing biodiversity at risk. The aim of this project is to develop and field-test a novel framework to reconcile forest conservation with production. The project seeks to resolve whether intensive forestry coupled with a large reserve network produces better biodiversity outcomes than less intensive forestry with fewer reserves. I will integrate abundances of plant and animal species w ....Conserving biodiversity in timber production forests. Intensified forestry to meet rising demand for timber is placing biodiversity at risk. The aim of this project is to develop and field-test a novel framework to reconcile forest conservation with production. The project seeks to resolve whether intensive forestry coupled with a large reserve network produces better biodiversity outcomes than less intensive forestry with fewer reserves. I will integrate abundances of plant and animal species with forest industry timber yield data in a uniquely suited landscape. Survey results will be synthesised with global data on biodiversity responses to forestry. This research will benefit the forest industry by providing guidelines that improve conservation outcomes while maintaining timber yield.Read moreRead less
The role of common species in biodiversity turnover and function . This project aims to understand how common species change across regions and how this affects the functions that biodiversity provides across natural and built landscapes. Using a novel, information-rich approach and metric, the project aims to combine simulation experiments, and empirical data using organisms with low (plants) and high mobility (birds). Expected outcomes include new theory and improved biodiversity models, polic ....The role of common species in biodiversity turnover and function . This project aims to understand how common species change across regions and how this affects the functions that biodiversity provides across natural and built landscapes. Using a novel, information-rich approach and metric, the project aims to combine simulation experiments, and empirical data using organisms with low (plants) and high mobility (birds). Expected outcomes include new theory and improved biodiversity models, policy and management-relevant insights, new institutional collaborations, and student training. The research aims to provide significant benefits for understanding and monitoring the dynamics of common species, including problem species and common native species in rapid decline.Read moreRead less
Optimising fire management for a resilient future. Optimising fire management for a resilient future. This project aims to quantify how changes in fire frequency, fire season, invasive weeds and climate interact to affect native species’ persistence. Fire risk management is a conundrum for agencies responsible both for protection of life and property and biodiversity conservation. Global change factors (rainfall decline, warming, invasive species, ecosystem fragmentation) interact with changes i ....Optimising fire management for a resilient future. Optimising fire management for a resilient future. This project aims to quantify how changes in fire frequency, fire season, invasive weeds and climate interact to affect native species’ persistence. Fire risk management is a conundrum for agencies responsible both for protection of life and property and biodiversity conservation. Global change factors (rainfall decline, warming, invasive species, ecosystem fragmentation) interact with changes in fire regime (interval and season) associated with prescribed burning to affect native species’ regeneration capacity. Anticipated outcomes are fuel reduction burning policy and management changes that balance and minimise risk of fire to economy, society and biodiversity.Read moreRead less