Addressing social and ecological constraints to expand marine restoration. This project aims to improve social and ecological outcomes of marine habitat restoration by increasing community and industry engagement in restoration practices with high socio-economic benefits. By understanding and overcoming social and ecological barriers to successful restoration efforts, this project will generate new knowledge on how communities – both human and marine – can work together to rapidly restore robust ....Addressing social and ecological constraints to expand marine restoration. This project aims to improve social and ecological outcomes of marine habitat restoration by increasing community and industry engagement in restoration practices with high socio-economic benefits. By understanding and overcoming social and ecological barriers to successful restoration efforts, this project will generate new knowledge on how communities – both human and marine – can work together to rapidly restore robust, productive reef habitats. Expected outcomes of this project include a new ecological, multi-species approach that boosts restoration resilience; and a collaborative framework for developing government policy that builds industry and community support for cooperative management of coastal ecosystem restoration.Read moreRead less
The Devonian Gogo Fauna: Diversity, Palaeoecology and Global Significance. The late Devonian Gogo Formation (380 million years old) is undoubtedly one of the richest and best-preserved assemblages of fossil fishes and invertebrates from this age anywhere on Earth. This project will use CT scanning for stomach contents, plus use biomechanical and morphometric analyses to reconstruct tropic relationships of reef-dwelling organisms and test the resilience of the reef ecosystem. Several new species .... The Devonian Gogo Fauna: Diversity, Palaeoecology and Global Significance. The late Devonian Gogo Formation (380 million years old) is undoubtedly one of the richest and best-preserved assemblages of fossil fishes and invertebrates from this age anywhere on Earth. This project will use CT scanning for stomach contents, plus use biomechanical and morphometric analyses to reconstruct tropic relationships of reef-dwelling organisms and test the resilience of the reef ecosystem. Several new species will be published and the heritage significance of the site will be assessed. Working with local indigenous stakeholders, the scientific findings will feed into developing a long-term management plan to protect and conserve the site for future research work and to grow tourism in the region.Read moreRead less