Coral Reef Fishes And The Global Decline In Reef Health: Is Biodiversity At Risk Or Resilient? Successful management and protection of marine species depends on understanding the processes that control the biodiversity of marine communities at both local and regional scales. This study will develop a general model to predict the response of reef fish communities to declining habitat structure and diversity across the tropical Pacific Ocean. Using expertise and ecological tools developed in Austr ....Coral Reef Fishes And The Global Decline In Reef Health: Is Biodiversity At Risk Or Resilient? Successful management and protection of marine species depends on understanding the processes that control the biodiversity of marine communities at both local and regional scales. This study will develop a general model to predict the response of reef fish communities to declining habitat structure and diversity across the tropical Pacific Ocean. Using expertise and ecological tools developed in Australia, and in collaboration with scientists working on the other side of the Pacific, this project will develop a broad-scale understanding of the threats to coral reefs and play a leading role in the development of marine-biodiversity management plans for Australia and neighbouring regions.Read moreRead less
Forecasting coral reef recovery with new data-driven dispersal models. This project aims to combine innovative mathematical methods and new genetic data to accurately predict the larval dispersal patterns of reef fish and corals. Larval dispersal is central to the ecology of coral reefs, and has vital implications for conservation. Most marine organisms spend their early life dispersing in the ocean, but our understanding of where these tiny larvae go is limited by sparse data and unvalidated mo ....Forecasting coral reef recovery with new data-driven dispersal models. This project aims to combine innovative mathematical methods and new genetic data to accurately predict the larval dispersal patterns of reef fish and corals. Larval dispersal is central to the ecology of coral reefs, and has vital implications for conservation. Most marine organisms spend their early life dispersing in the ocean, but our understanding of where these tiny larvae go is limited by sparse data and unvalidated models. Applied to extensive case-studies from Australia and across the western Pacific Ocean, these methods will be used to forecast and understand the recovery of fish and coral populations following severe disturbances. This will provide benefits such as enabling us to prioritise conservation actions in the aftermath of severe disturbances, including the catastrophic 2016 mass coral bleaching on the Great Barrier Reef.Read moreRead less
Conserving coral reef fish and sustaining fisheries in the anthropocene. This project aims to re-evaluate principles for designing marine reserves to conserve reef fish and sustain fisheries under current and future scenarios of habitat quality and population connectivity. The project will integrate advanced genetic methods, novel field experiments and new quantitative approaches to optimise reserve network design to promote population recovery, persistence and yield for a range of fish species. ....Conserving coral reef fish and sustaining fisheries in the anthropocene. This project aims to re-evaluate principles for designing marine reserves to conserve reef fish and sustain fisheries under current and future scenarios of habitat quality and population connectivity. The project will integrate advanced genetic methods, novel field experiments and new quantitative approaches to optimise reserve network design to promote population recovery, persistence and yield for a range of fish species. It will recommend optimal reserve size, spacing and location for geographic regions subject to different levels of habitat degradation and fishing pressure. It will benefit Australia and our regional neighbours by providing the critical science necessary for the successful management of shared coral reef assets and resources.Read moreRead less