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Ross McVinish has research interests in applied probability, Bayesian statistics and mathematical modelling of complex systems in population biology.

He received his PhD from Queensland University of Technology in 2002.

He is currently an associate editor for the Australian and New Zealand Journal of Statistics.

Jochen’s research focusses on monitoring of trace organic pollutants, including pioneering work on sources, fate, monitoring techniques (including development of passive sampling techniques) and trends in human exposure to trace contaminants. More recently his group has been leading research in the field of wastewater epidemiology.

Jochen joined QAEHS in 1997 and was awarded an ARC Future Fellowship in 2012 to understand changes in chemical exposure through integrative sampling and systematic archiving. As part of his research program at QAEHS he has lead numerous national and international studies, such as Australia's National Dioxin Program, the Brominated Flame Retardant Program and a major study to investigate bush-fire emissions (the results of which are included in the UNEP Toolkit). He works closely with governments (state, federal and international including UNEP) on the development of systematic monitoring strategies, including for protection of the Great Barrier Reef. As part of his Future Fellowship, he has established an extensive sample archive, the Australian Environmental Specimen Bank (ESB), to allow retrospective analysis of changes in pollutant exposure in Australia.

Jochen’s work on passive samplers, bioanalytical techniques for emerging chemicals and wastewater epidemiology has received support from ARC and numerous industry partners.

Peter began his career helping to design MPAs in Belize, Central America. On realising how little science was available to guide this he moved to the University of Sheffield to undertake a PhD on the use of remote sensing for mapping coral reefs, seagrass beds and mangroves. After his PhD, Peter won a NERC Post-doctoral Fellowship to study ecological processes on coral reefs and moved to the University of Newcastle to join the Centre for Tropical Coastal Management Studies. He was then awarded a Royal Society Fellowship to integrate empirical ecological data into models of coral reefs with a view to studying how changes in human activity can affect the health of reefs. At this point he moved to the University of Exeter where he was made Professor at the age of 34. In 2010, Peter moved closer to coral reefs when he moved to the University of Queensland to take up an ARC Laureate Fellowship. He loves living in Australia! Peter was awarded a Pew Fellowship in Marine Conservation in 2010, and is also winner of the Rosenstiel Award for excellence in marine biology and fisheries, and the Marsh Award for contributions to marine conservation.

Dr Ngoc N. Nguyen is an associate lecturer and an ARC DECRA Fellow at School of Chemical Engineering, The University of Queensland (UQ), Australia. He was awarded an Australia Award Scholarship by the Australian Government for studying at UQ and attained a PhD in Chemical Engineering at UQ in 2018. After completing his PhD, he was awarded a renowned Alexander von Humboldt (AvH) Fellowship by the AvH Foundation (the German Government) and worked as an AvH fellow at the Department of Physics at Interfaces, Max Planck Institute for Polymer Research (Germany) for three years (2019-2021). Dr Nguyen used to work as a visiting scholar to Pacific Northwest National Laboratory in USA and a lecturer at Hanoi University of Science and Technology in Vietnam. He recently secured a prestigious ARC DECRA (Discovery Early-Career Researcher Award) granted by the Australian Research Council (ARC). He is also an associate investigator within the ARC Centre of Excellence for Eco-enabling Beneficiation of Minerals.

His research strives for creating cutting-edge knowledge and innovations in three inter-related pillars of the low-carbon economy:

(1) sustainable energy,

(2) natural resources including critical metals,

(3) innovative approaches for tackling environmental issues such as CO2 emissions and mine waste.

He is working concurrently in these pillars. In particular, he is leading an ARC DECRA project about unconventional energy storage by locking fuel gases (e.g., hydrogen, methane) in the solid lattice of water, taking the intrinsic advantages of water as the cheapest, safest and most sustainable feedstock on Earth. Besides, he his working actively in eco-efficient extraction and separation of valuable resources from the Earth's crust toward a sustainable mineral processing industry for supplying sufficient commodities (e.g., metals) for the energy transition. In addition, Dr Nguyen has enduring interest in creating innovations for tackling the pressing environment problems such as CO2 emissions, with special interest in carbon capture and storage and utilisation, as well as addressing the mine waste in the mineral processing industry and the recylcing of critical metal-containing waste.

Professor Kate O'Brien applies modelling and data analysis to explore sustainability challenges in engineered, ecological and human systems. Professor O'Brien works with a diverse network of local and international collaborators, from academia, government and industry, to tackle important questions such as: In restoring valuable coastal habitat, what is the minimum patch size required for success, and why? How much oil can individual fossil fuel producers extract without compromising global climate targets? Why is gender equality in the workplace so hard to achieve? She uses modelling as a tool to connect ideas across traditional disciplinary boundaries to promote innovation and tackle complex, open-ended problems. Professor O'Brien is the former Director of Teaching and Learning in the UQ School of Chemical Engineering. She has won numerous awards for teaching students critical thinking and other transferrable skills needed to lead the shift from the current "take-make-waste" paradigm to genuine sustainability. She teaches new academics to take a practical, student-centred approach to teaching called "Ruthless Compassion", and she is passionate about finding creative solutions to work-family conflict.

Doctor Jake O’Brien is Senior Research Fellow and NHMRC Emerging Leadership Fellow at the Queensland Alliance for Environmental Health Sciences (QAEHS). His main field of interest is in wastewater-based epidemiology, but he also has interest in developing analytical methods for chemicals of emerging concern within biological and environmental samples. Doctor O'Brien is a strong advocate for collaborative research having co-authored with more than 300 collaborators worldwide on over 150 publications. Jake is strongly supportive of early career researcher development and is currently the chair of the EMCR@UQ Committee. He is also a Chief Investigator of the National Wastewater Drug Monitoring Program since its establishment in 2016.

Plant nutrition, specialising in tropical root crops.

Since joining the University of Queensland in 1992, Dr. O'Sullivan has completed a series of projects characterising deficiencies and toxicities of mineral nutrients, in species of sweetpotato, aroids and yams, and identifying and remediating nutritional disorders in semi-subsistence production contexts in collaboration with project partners in Pacific Island countries.

Julie’s research is mainly focussed on gas-water-rock core reactivity at reservoir conditions using experimental, field, and geochemical modelling techniques. Recent projects have been in the application of carbon dioxide geological storage in which CO2 is captured and stored in formations generally contained by low permeability cap-rock. The safe containment of the injected CO2 and the potential changes to rock porosity, permeability, and water quality should be determined. Recent and current projects with a focus on a demonstration site in the Surat Basin (Precipice Sandstone) include the impacts of impurity or acid gases present in industrial CO2 streams (collaboration with D. Kirste, SFU), inducing carbonate precipitation (in collaboration with S. Golding), and understanding dissolved metal sources and fate. Julie has also worked closely with the CO2CRC, CTSCo, Glencore, SEAL, the NSW government, CI-NSW, and ANLEC R&D, and provided expert opinion to the Queensland Government, and input to Environmental Impacts Assessments.

Julie is currently working with landholders, the QLD regional government, RDMW, councils and industry to understand the sources of methane in aquifers of the Great Artesian Basin, especailly those overlying coal seam gas reservoirs (CSG) (with Arrow Energy, SANTOS, APLNG, H. Hoffman, K, Baublys).

Other projects include gas-water-rock or acid-rock reactivity that modify nano-porosity and gas flow in gas or oil bearing shales.

Julie Pearce graduated with an MCHEM (Hons) degree in Chemistry from the University of York, UK. She then moved to the University of Bristol to complete a Ph.D. in 2007 focusing on laser spectroscopic studies to understand the detailed reaction dynamics of atmospheric processes. From 2007 – 2009 she accepted a Japan Society for the Promotion of Science Postdoctoral Fellowship, hosted at Nagoya University, Japan. There she measured delta 13C and delta 18O isotopic signatures of CO2 simultaneously in real time in the atmosphere using a laser spectroscopic technique to understand anthropogenic and biogenic sources of CO2. After taking a career break to travel in 15 countries in Asia, she moved to Brisbane in 2010 where she is enjoying the surrounding natural beauty of Queensland.

Stuart is a scientist, educator, and leader who builds and applies methods to measure and understand how our environments are changing at multiple scales (www.eorc.org.au ). He works across collaborative, multi-disciplinary teams and organisations to deliver quality science that draws upon field-work, satellite-image data, and modelling, through: founding directorships of Australia national earth observation coordination body (www.eoa.org.au) and collaborative research infrastructure (www.tern.org.au ) and a world-leading research to operational program that supports government environmental monitoring (www.jrsrp.org.au ); and program leadership of industry-driven research (www.smartsatcrc.com ). Stuart’s work provides solutions to support sustainable development and resource use for all levels of government, various industries, and communities.

Hugh Possingham's research interests are in conservation research, operations research and ecology. More specifically his lab works on problems to secure the world's biological diversity: efficient nature reserve design, habitat reconstruction, optimal monitoring, optimal management of populations for conservation, cost-effective conservation actions for threatened species, pest control and population harvesting, survey methods for detecting bird decline, bird conservation ecology, environmental accounting and metapopulation dynamics. He has always been actively involved in conservation policy and advocacy - to learn how listen to "The 2023 Univ Canberra Krebs lecture on Science, Maths and Environmental Policy - https://www.youtube.com/watch?v=Ix2_UamShUw"

Hugh is 40% UQ in the Centre for Biodiversity and Conservation Science to our website homepage (https://cbcs.centre.uq.edu.au/); 10% Accounting for Nature and 10% co-chair of the national Biodiversity Council. He sits on c30 other boards and committees pro bono.

His research projects are in the field of decision theory in conservation biology, including co-developing Marxan MaPP - Marxan (marxansolutions.org):

• Biodiversity offsetting
• Biodiversity markets
• Conservation policy at all levels of government
• Reserve design, biodiversity management and fire regime management
• Population viability analysis (PVA) - including the development of ALEX
• Pollination ecology
• Metapopulation dynamics
• Ecological economics
• Optimal monitoring and environmental accounts
• Stochastic modelling
• Biodiversity and climate change
• Population dynamics of marine organisms
• Marine reserve design
• Marine population dynamics
• Avian community ecology
• Edge effects and fragmentation
• Landscape ecology
• Behavioural and population ecology of parasitoids

Dr David Pullar's research interests are in: Geographical Information Science (Spatial analysis, Spatial modelling languages and frameworks, 3D visualisation, Environmental database applications) and Landscape Modelling (Catchment hydrology, Landuse change, Landscape dynamics).

David Pullar received his PhD from the University of Maine in 1994. His current research projects are in the fields of:

Incorporating Level Set Methods in Geographical Information Systems (GIS) for Land-Surface Process ModellingUsing Spatial Simulation to Create a Process Classification of Provincial BioregionsEnvironmental Database Management and IntegrationHis collaborators include:Coastal CRCIntelligent Real-time Imaging and Sensing (IRIS)The Ecology CentreHigh Performance Computing, VisAC Lab

Sreekar’s research focuses on using ecological theory to inform conservation decision making. He is interested in a broad range of topics, including spatial conservation planning, evidence-based conservation policy, community assembly rules, extinction synergies, and land-use management. A big question that drives his research is how to address the twin crises of climate change and biodiversity loss. His current research is centred around studying the environmental risks associated with mining and mineral processing.

He serves as an Associate Editor for the Journal of Applied Ecology and has spent the past 15 years at universities across Australia, China, Czechia, India and Singapore. Sreekar is an avid birder and enjoys this aspect of his work both professionally and recreationally.

Cassandra is a Senior Research Fellow at QAEHS, joining the group in 2019. She completed her PhD at the University of Birmingham in 2014 where her research focussed on determining how humans are exposed to flame retardants from their indoor environments. Following her PhD she completed a Postdoctoral Fellowship at Environment and Climate Change Canada where she was the principal researcher for the Global Atmospheric Passive Sampling (GAPS) Network, researching chemicals of concern in the atmosphere. Following her Postdoctoral Fellowship she worked for the Oil Sands Monitoring Program in Canada, assisting with facilitating a multi-stakeholder funding program for assessing environmental impact of Oil Sands operations, before returning to Australia in 2019.

At QAEHS she is the project lead investigating human exposure to microplastics and developing new methods for detecting micro and nanoplastics in human matrices. Her other research interests include the impact of tyre road wear particles and the chemical additives they contain on urban water ways, and developing novel biomonitoring methods for assessing human exposure to chemicals of concern (e.g. silicone wristbands and breast implants).

Marguerite Renouf BSc(Hons)/BA, PhD (Env Man) UQ is a Research Fellow at the School of Chemical Engineering's Water-Energy-Carbon Research Group (www.chemeng.uq.edu.au/water-energy-carbon).

She has worked in environmental research at UQ for 20 years, with a particular interest in the environmental evaluation of production systems and urban systems using environmental life cycle assessment (LCA), urban metabolism evaluation and eco-efficiency analysis. She is interested how we can produce and consume with less drain on the environment.

Since completing a PhD in 2011, she has driven a stream of research that evaluates the environmental performance of agri-based product supply chains and products (bio-fuels, bio-materials, food, beverages) using LCA. She has collaborated with industries and researchers in Australia and overseas to develop LCA tools for industry to support the identification of more environmentally-friendly production practices and processes.

Prior to this, her research was concerned with eco-efficiency in manufacturing industries (food processing, metal industries, retail and tourism sectors) and was a long-term contributor to UQ’s Working Group for Cleaner Production (now operating as the Eco-Efficienc Group), and its Director for three years (2009-2012).

Currently, Marguerite is a lead researcher with the CRC for Water Sensitive Cities, develop methods and metrics for quantifiying the water water-sensitive performance of Australian cities, using urban metabolism approaches. In this work she collaborates cloesely with urban planners, water manager and architects.

April Reside is a lecturer in the School of the Environment and School of Agriculture and Food Sustainability, affiliated with the Centre for Biodiversity and Conservation Science.

Dr Reside's research encompasses ecology, conservation, and policy; investigating refuges and refugia; and recovery actions and their costs for Australia’s threatened species. April also works on conservation of woodland bird communities, the impact of climate change on biodiversity, and strategies for climate change adaptation. This work has involved applying conservation planning frameworks to identify spatial priorities for climate change adaptation for biodiversity and carbon sequestration.

April has a particular fascination of flying vertebrates, and has worked on bats on three continents and nine countries. She worked as a field ecologist for non-government organisations before her PhD on understanding potential impacts of climate change on Australian tropical savanna birds. She adapted species distribution modelling techniques to account for temporal and spatial variability in the distributions of highly vagile bird species. These dynamic species distribution models take into account species’ responses to fluctuations in weather and short-term climatic conditions rather than long-term climate averages. In her first postdoctoral position, Dr Reside modelled the distribution of c.1700 vertebrates across Australia at a fine resolution, and located the future location of suitable climate for all these species for each decade until 2085. From this, she identified hotspots across Australia where species were moving to in order to track their suitable climate, informing the IUCN SSC Guidelines for Assessing Species’ Vulnerability to Climate Change by the IUCN Species Survival Commission.

April has been involved in conservation of the Black-throated Finch for over 12 years, and is Chair of the Black-throated Finch Recovery Team. She has served on Birdlife Australia's Research and Conservation Committee and Threatened Species Committee; and the Science Committee for the Invasive Species Council.