Faculty of Engineering, Architecture and Information Technology
Affiliate of Centre for Marine Science
Centre for Marine Science
Faculty of Science
Availability:
Available for supervision
Dr. Simon Albert has a background in the fields of natural resource management, water quality, marine ecology and climate change. For the past 15 years he has worked at the intersection of these fields in both Australia and Melanesia providing a gradient of social-political-ecological factors. Through this foundation of land-sea connectivity Dr. Albert has developed integrated monitoring approaches that capture temporally and spatially relevant water quality trends. Dr. Albert has worked on a range of resource projects across Melanesia in both a research and consulting capacity. Over the past 10 years of working closely with communities, government and industry, Dr. Albert has established strong networks and is a highly skilled communicator of environmental monitoring and research.
Dr Andy Barnes obtained his BSc (Hons) in Microbiology from Heriot-Watt University, Edinburgh and his PhD from the Medical School, University of Edinburgh. Andy worked for the Scottish Office Agriculture and Fisheries Department and at the Moredun Research Institute, Edinburgh before joining a small Canadian biotech company, Aqua Health Ltd, specialising in vaccines for aquaculture in 1993. In 1999, Aqua Health was bought by Swiss pharmaceutical giant Novartis and Andy worked in their animal health division for 4 years before beginning an academic career at The University of Queensland. Currently in the School of Biological Sciences, Andy’s Aquatic Animal Health Lab researches vaccines for the aquaculture industry and investigates health and immunity in aquatic animals ranging from reef-building corals, through prawns and oysters, to barramundi, stingrays and grouper.
Rich is an Honorary Research Fellow with UQ School of the Environment and the Centre for Biodiversity and Conservation Science who focuses on how human food production systems affect our planet. His main research interests lie in the field of aquaculture – the farming of fish, seaweeds and aquatic invertebrates – and particularly how this rapidly growing food sector can evolve to sustainably provide a critical source of food and nutrition to a human population growing in number and affluence under global change.
Through data synthesis, spatial analysis, and ecological modelling, Rich’s research aims to understand the trajectory of aquaculture growth through three main approaches. The first focuses on the growth potential of aquaculture in response to demand given its need for space and inputs (e.g., feed). The second is understanding the environmental and social impacts of aquaculture’s current and projected growth. And the third is to understand how this picture changes amid a backdrop of meteorological and geopolitical shock events and sustained pressures of climate change.
He is currently developing decision-making tools for project partners in the aquaculture feed industry to minimise their environmental footprint at both global and local scales.
I am a comparative and environmental physiologist based at the University of Queensland. My research focuses primarily how the environment constrains the physiology of invertebrates, fish, amphibians and reptiles. I have a highly diverse research program that incorporates fundamental, curiosity-driven research and increasingly, a more applied research agenda in the emerging field of conservation physiology. Conservation physiology explores the responses of organisms to anthropogenic threats and attempts to determine the ecophysiological constraints dictated by current conditions and future environmental change. My research interests encompass the general areas of osmo- and ion-regulation, digestive and thermal physiology, environmental drivers of physiological function (specifically immune function and disease susceptibility) and animal performance in anthropogenically modified environments.
My research interests are in coral reef ecology and marine parasitology.
I also incorporate other fields in my research including evolutionary biology, molecular biology, parasitology, and animal behaviour. I use field observations to generate hypotheses which are tested using field and laboratory experiments.
Currently, I have research programmes at Lizard Island on the Great Barrier Reef and on campus.
Specific projects include:
Cleaning symbiosis as a model system for developing and testing models of non-kin cooperation in multispecies mutualisms
The ecological significance of cleaning behaviour in reef fishes
The direct and indirect effects of cleaner fish on the coral reef community
Interactions between larval coral reef fish and parasites
The effects of parasites on fish physiology
The taxonomy of gnathiid isopods and their identification using DNA
The role of colour and pattern in communication among animals
The molecular and colour pattern biogeography of cleaner fish
Affiliate of ARC Research Hub for Sustainable Crop Protection
ARC Research Hub for Sustainable Crop Protection
Queensland Alliance for Agriculture and Food Innovation
Availability:
Available for supervision
Sandya's primary research focus lies in the study of ocean sustainability, regional fisheries management organizations, conservation and sustainable utilization of marine biodiversity in Areas Beyond National Jurisdiction (ABNJ), and the management of Large Marine Ecosystems (LMEs). Recently, she has expanded her research interests to include the examination of biopesticides and agriculture policies and laws, with a specific emphasis on understanding decision-making processes related to food security. She possesses proficient knowledge in qualitative research analysis using NVivo and Leximancer, as well as quantitative research methods employing SPSS.
My current research is all about finding ways to improve teaching and student learning, with a focus on biology and other sciences. This is a new and exciting direction for me to which I and my group are now dedicated. Of particular interest to me is finding ways to improve communication abilities of science students through the design, testing and implementation of effective curricula, class activities and assessment methods. Naturally, no learning occurs in isolation, so my current research also looks at learning scientific reasoning, information literacy, and how to improve the relevance and authenticity of practical/lab classes and assessment tasks.
Previously my research focussed on using physiological approaches and techniques to address questions in ecology, conservation and aquaculture, especially in vertebrates living in extreme environments (see references for examples). I continue to be involved in biological research through teaching, co-supervision and examination of postgraduate students.
My current projects aim to find effective ways to...
Improve abilities of first year biology students to work effectively in groups.
Improve science students’ communication abilities through the development and implementation of a new 3rd year course titled Communicating in Science.
Improve scientific reasoning and writing in first year biology students.
Improve tutor support and consequently student learning through implementation of a program of tailored tutor professional development.
Improve information literacy in first year biology students.
Motivate students to improve their biological knowledge and use of modern communication technologies by implementing authentic assignments throughout the curriculum e.g., websites, video, blogs.
Improve the ability of students to articulate the skills and knowledge they develop in undergraduate ecology research through the use of a skills portfolio.
Improve student practice and confidence in avoiding plagiarism and adhering to academic integrity.
Affiliate of ARC Training Centre for Bioplastics and Biocomposites
ARC Training Centre for Bioplastics and Biocomposites
Faculty of Engineering, Architecture and Information Technology
Centre Manager – ARC Industrial Transformation Training Centre for Bioplastics and Biocomposites
School of Chemical Engineering
Faculty of Engineering, Architecture and Information Technology
Availability:
Not available for supervision
I have a strong interest in applied research, using information to improve policy. I have a broad interest in applying population genetics to the management of wild populations, particularly through a better understanding of dispersal.
Affiliate of Centre for Biodiversity and Conservation Science
Centre for Biodiversity and Conservation Science
Faculty of Science
Professor
School of the Environment
Faculty of Science
Availability:
Available for supervision
Media expert
Professor Anthony J. Richardson uses mathematical, statistical, computational and spatial planning tools to investigate human impacts on our oceans - and to find solutions. Particular foci include:
Marine spatial planning - Where best to locate marine protected areas to minimise impacts on people, maximise ecosystem benefits, ensure they are climate-smart and connected, and enable multiple-use zoning of the ocean.
Developing models of marine ecosystems - How do lower trophic levels (plankton) regulate fisheries productivity and carbon sequestration, and how will these be impacted by climate change.
Long-term change in lower trophic levels (plankton) in the ocean. This includes both field work around Australia and global analyses.
Anthony did an undergradulate degree in Mathematics and Biology at the University of Queensland, followed by an Honours degree there. He was awarded a PhD degree from the University of Cape Town in 1998, modelling the dynamics of marine ecosystems. Since 2005, Anthony has held a joint position between UQ (School of the Environment) and CSIRO Environment. He has previously held positions at the University of Cape Town (South Africa), the University of the Western Cape (South Africa), and the Sir Alister Hardy Foundation of Ocean Science (UK).
Anthony runs a dynamic lab at the nexus between conservation science and mathematics. His focus is on using mathematical tools to better conserve biodiversity, predict impacts of climate change, and understand the functioning of marine ecosystems. If you have a background in marine ecology and are interested in applying mathematics/statistics/computational science and want to apply your skills to real-world problems, get in touch.
Affiliate of Centre for Biodiversity and Conservation Science
Centre for Biodiversity and Conservation Science
Faculty of Science
Professor
School of the Environment
Faculty of Science
Availability:
Not available for supervision
Media expert
Ecological and evolutionary genomics
My research group uses genetic markers as tools for understanding dispersal and gene flow, often with conservation implications and most frequently focusing on highly dispersive marine animals such as fishes, mussels, and corals. We also study how gene flow and natural selection affect genomic variation and limit gene exchange across genomes, populations, and species.
Affiliate of Centre for Biodiversity and Conservation Science
Centre for Biodiversity and Conservation Science
Faculty of Science
Associate Professor
School of the Environment
Faculty of Science
Availability:
Available for supervision
Media expert
Research interest: Monitoring ecosystem health of coral reefs and seagrass habitats, integrating field and remote sensing image datasets, and the developing applied cost-effective mapping and monitoring approaches. Developed approaches have been adopted as standard practice globally, making a difference in conservation of these valuable habitats. The long term monitoring studies at Heron and Moreton Bay formed the basis for the development of mapping and monitoring over time and space at local to global scale. See here major research impact
Major projects:
Long term monitoring of benthic composition at Heron Reef (2002-ongoing).
Long term monitoring of seagrass composition and abundance in Moreton bay Marine Park (2000-ongoing).
Smart Sat CRC Hyperspectral Remote Sensing of Seagrass and Coral Reefs 2023-2027.
Developement of Underwater Field Spectrometry and Benthic Photo Collection and Analysis
3D GBR Habitat Mapping Project 2015 - ongoing:
Global habitat mapping project 2019-2023 Allen Coral Atlas .
Current position: Associate Professior in Marine Remote Sensing leading the Marine Ecosystem Monitoring Lab. . Academic Director Heron Island Research Station and affiliated researchers with Centre for Marine Science and Centre for Biodiversity and Conservation Science
Capacity Building and Citizen Science: Capacity: under/post graduate courses; Msc/PhD supervision, workshops/courses; Remote Sensing Educational Toolkit, and online courses (e.g. TNC).Strong supporter of citizen science based projects, as trainer, organiser and advisor for Reef Check Australia, CoralWatch, Great Reef Census and UniDive.
I grew up on the Devon coast hunting among the fucoids for crabs and shrimp. I undertook research while at school on the diet of blennies. At university in Swansea, south Wales, and as a marine Biology student I investigated informally the behaviour of intertidal pool dwelling organisms andmore formally (Hons) the ecology of benthic invertebrates. My PhD at the University of Queensland delved into the ecology and evolution of halfbeaks (Hemiramphidae) . My research track-record since reflects both my early interests and those developed subsequent to my PhD. I have published in diverse fields reflecting my general curiosity about marine life, and in particular the dynamic between evolution and action addressing challenges to extant paradigms that my extensive time in the field have prompted.