The sponge genome project and the evolution of multicellularity: using comparative genomics and developmental biology to reconstruct the first animals. Recently the entire genome from a living fossil - a sponge from the Great Barrier Reef - was sequenced (jointly supported by the ARC and US Department of Energy). As this genome is assembled and analysed, many of the fundamental biological processes that underlie the construction and evolution of all animals, including humans, will be revealed. ....The sponge genome project and the evolution of multicellularity: using comparative genomics and developmental biology to reconstruct the first animals. Recently the entire genome from a living fossil - a sponge from the Great Barrier Reef - was sequenced (jointly supported by the ARC and US Department of Energy). As this genome is assembled and analysed, many of the fundamental biological processes that underlie the construction and evolution of all animals, including humans, will be revealed. In addition, sponge genomics will fuel innovations in medicine and biotechnology. Specifically, sponges are renowned for their capacity to synthesise bioactive compounds used in drug development, and high-grade silica used for semi-conductor construction. This project will identify the gene networks controlling these biosynthetic processes.Read moreRead less
The essence of being an animal: sponge allorecognition and the evolution of individuality. The human genome encodes the ability to recognise self from nonself at the cellular level. In medicine, this innate ability results in the rejection of transplanted (grafted) tissues from unrelated individuals. This project seeks to get to the evolutionary foundation of self-nonself recognition by studying this process in a simple and tractable model - a sponge from the Great Barrier Reef. Like humans, spo ....The essence of being an animal: sponge allorecognition and the evolution of individuality. The human genome encodes the ability to recognise self from nonself at the cellular level. In medicine, this innate ability results in the rejection of transplanted (grafted) tissues from unrelated individuals. This project seeks to get to the evolutionary foundation of self-nonself recognition by studying this process in a simple and tractable model - a sponge from the Great Barrier Reef. Like humans, sponges reject cells and tissues derived from another individual. By defining the genetic basis of self-recognition in sponges we reveal the antiquity of this system and the core features of histocompatibility and immunity. Such insights can inform a range of regenerative medical pursuits.Read moreRead less
Variation in larval gene expression in a marine invertebrate: implications for population divergence via differential settlement response. Evolutionary and ecological functional genomics is an emerging field that integrates gene profiling technologies with experimental and field approaches of ecology and evolution. I take this approach to address a key problem in marine invertebrate biology: how do larvae respond to their environment and how does variation in this response influence the distribu ....Variation in larval gene expression in a marine invertebrate: implications for population divergence via differential settlement response. Evolutionary and ecological functional genomics is an emerging field that integrates gene profiling technologies with experimental and field approaches of ecology and evolution. I take this approach to address a key problem in marine invertebrate biology: how do larvae respond to their environment and how does variation in this response influence the distribution and evolution of a species? I will use a marine gastropod (abalone) model, for which there exists substantial development and population genetic data, and established aquaculture methodologies. Outcomes of this study will enhance knowledge of the stock structure of this and other commercial fisheries, as well as aquaculture efficiency.Read moreRead less
Origin of animal sensory and nervous systems: a case study in cell type evolution. The origin of the nerve cell and the nervous system allowed the first animals to interact with their biotic and abiotic environment in rapid and complex ways. These capabilities are the primary agents for success in the animal kingdom, underpinning the ability to capture food, avoid predation, and find a mate. These same nerve cells have bestowed on the human brain cognitive abilities that have driven our biologic ....Origin of animal sensory and nervous systems: a case study in cell type evolution. The origin of the nerve cell and the nervous system allowed the first animals to interact with their biotic and abiotic environment in rapid and complex ways. These capabilities are the primary agents for success in the animal kingdom, underpinning the ability to capture food, avoid predation, and find a mate. These same nerve cells have bestowed on the human brain cognitive abilities that have driven our biological and cultural evolution. Despite the phenomenal importance of the nerve cell, we know almost nothing about its origin and early evolution. This basic research project seeks to make a major contribution towards addressing this gap in knowledge.Read moreRead less
Solar radiation, coral bleaching and climate change. Corals reefs like the Great Barrier Reef (GBR) underpin approximately $2 billion annually in sustainable tourism and fisheries. Warming of Australia's tropical seas, however, has increased mass coral bleaching/mortality and is placing reefs like the GBR at increasing risk. Solar radiation (PAR, UVR) plays an important influence on the biological outcome of thermal stress. Understanding the role of solar radiation is critical if we are to unde ....Solar radiation, coral bleaching and climate change. Corals reefs like the Great Barrier Reef (GBR) underpin approximately $2 billion annually in sustainable tourism and fisheries. Warming of Australia's tropical seas, however, has increased mass coral bleaching/mortality and is placing reefs like the GBR at increasing risk. Solar radiation (PAR, UVR) plays an important influence on the biological outcome of thermal stress. Understanding the role of solar radiation is critical if we are to understand the changes that will occur on coral reefs as temperatures increase. This multidisciplinary international team will define and model the role of solar radiation on thermal stress at local, regional and global scales. Read moreRead less
MICROENDOLITHS, CORAL BLEACHING AND ENVIRONMENTAL CHANGE. Planning for sustainable use of ecosystems like the Great Barrier Reef (GBR) can only be done with an accurate understanding of how ecosystems are likely to change, and at what rate, under persistent climate change. This project, aligned with National Research Priority 'An Environmentally Sustainable Australia', will be performed over 3 oceans and focusing on the GBR, will contribute to the national benefit by rapidly improving our unders ....MICROENDOLITHS, CORAL BLEACHING AND ENVIRONMENTAL CHANGE. Planning for sustainable use of ecosystems like the Great Barrier Reef (GBR) can only be done with an accurate understanding of how ecosystems are likely to change, and at what rate, under persistent climate change. This project, aligned with National Research Priority 'An Environmentally Sustainable Australia', will be performed over 3 oceans and focusing on the GBR, will contribute to the national benefit by rapidly improving our understanding on one such major factor-the endolithic community in coral skeletons. It will allow better predictions of short and long-term consequences to reefs, and will also continue to show Australia's leadership in understanding the rate and direction of changes within coral reef ecosystems.Read moreRead less
Understanding the molecular basis of marine invertebrate larval settlement and metamorphosis using complementary molecular, developmental, chemical and ecological approaches. The colonisation and fouling of submerged structures is a major economic problem for maritime industries. This proposal will detail the molecular mechanisms underlying the first crucial steps of marine invertebrate colonisation - settlement and metamorphosis - and determine how natural anti-foulant chemicals impact on these ....Understanding the molecular basis of marine invertebrate larval settlement and metamorphosis using complementary molecular, developmental, chemical and ecological approaches. The colonisation and fouling of submerged structures is a major economic problem for maritime industries. This proposal will detail the molecular mechanisms underlying the first crucial steps of marine invertebrate colonisation - settlement and metamorphosis - and determine how natural anti-foulant chemicals impact on these developmental processes. By using complementary developmental, molecular, chemical and ecological approaches, we will obtain knowledge of key control points in settlement and metamorphosis, and thus identify potential pest management strategies. This proposal comprehensively delineates the role of novel anti-foulants, linking their effect on invertebrate development with their role in shaping marine communities on natural and built surfaces.Read moreRead less