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
Investing in ecological portfolios: retaining migratory strategies of fish. In finance, investors minimize risk and optimize long term returns by building stock portfolios with different attributes. This contingency strategy also occurs in ecological systems. We will use portfolio effects as a conceptual model to characterise the poorly known sub-population variations in migratory strategies of estuarine fish and their response to environmental conditions. In doing so, we will determine how envi ....Investing in ecological portfolios: retaining migratory strategies of fish. In finance, investors minimize risk and optimize long term returns by building stock portfolios with different attributes. This contingency strategy also occurs in ecological systems. We will use portfolio effects as a conceptual model to characterise the poorly known sub-population variations in migratory strategies of estuarine fish and their response to environmental conditions. In doing so, we will determine how environmental change drives variations in migratory strategies, impacts long-term growth and population trophic web dynamics. Outcomes will foster novel and dynamic management frameworks that enhance population stability despite the predicted volatility of environmental conditions.Read moreRead less