×îÐÂÌÇÐÄVlog

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Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýphill.cassey@adelaide.edu.au
Area of expertise:ÌýMany of ×îÐÂÌÇÐÄVlog’s unique habitats and endemic flora and fauna are highly threatened by invasive alien species - particularly mammalian predators and large herbivores. ÌýMany of these species (e.g., feral horses, goats, deer, and predatory cats and foxes) will respond quicker following extreme habitat changes (such as fire) than native species, and will exacerbate the population extinction risk for these species. Fire events will often lead to a concentration of populations (distribution and abundance) and can facilitate unique opportunities for innovative control strategies, post fire.

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Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýtimothy.cavagnaro@adelaide.edu.au
Area of expertise:ÌýThe soil ecology research group at the ×îÐÂÌÇÐÄVlog of Adelaide focuses on the question: How do we manage soil ecological processes to achieve agricultural and environmental sustainability in a time of significant environmental change? Ìý When plant material is not completely burnt; or is exposed to differing degrees of charring before it falls to the soil surface where it is decomposed by the soil microbiome; it can cause a dramatic shift in the composition of the soil microbial community and reduced mineral nitrogen availability in the soil. ÌýThis will have important flow on effects for vegetation and soil recovery after a fire.Ìý

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Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýanne-lise.chaber@adelaide.edu.au
Area of expertise:ÌýConservation of endangered species, emerging wildlife diseases, wildlife disease ecology, health and diseases of ×îÐÂÌÇÐÄVlogn native wildlife, wildlife anaesthesia. ÌýCrisis management with the organisation of emergency wildlife care. Post-fire – wildlife recovery: led several wildlife re-introduction or animal supplementation programs.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýdavid.chittleborough@adelaide.edu.au
Area of expertise:ÌýMovement of particulate and dissolved organic carbon, clays from soils In catchments and their impact on water quality in streams and storages. Element and mineral analysis of soils. Chemical and mineralogical techniques to track the source and dispersion of clays and organo-mineral components from their source in catchments and transport into waterways.Ìý

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Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýanna.churhansen@adelaide.edu.au
Area of expertise:ÌýKnowledge and research abilities in relation to the psychological impact of loss of companion animals, livestock and wildlife on individuals and groups.

Faculty: Professions
·¡³¾²¹¾±±ô:Ìýjodie.conduit@adelaide.edu.au
Area of expertise:ÌýCustomer engagement, corporate volunteering, volunteer engagement, service systems, market shaping.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýsean.connell@adelaide.edu.au
Area of expertise:ÌýLocal marine conservation and local marine technology. ÌýAquaculture industry (abalone & oysters). Diversifying income with eco-tourism.

Faculty: Sciences
·¡³¾²¹¾±±ô:ÌýChris.Daniels@sa.gov.au
Area of expertise: Wildlife recovery.

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Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýsteven.delean@adelaide.edu.au
Area of expertise:ÌýBiodiversity monitoring, and the management of over-abundant native and pest species. Statistical models to guide the management of native and feral species.

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Faculty: Sciences
·¡³¾²¹¾±±ô:ÌýSteve.Donnellan@samuseum.sa.gov.au
Area of expertise:ÌýSystematics and population genetics of Kangaroo Island and Mount Lofty Ranges vertebrates. Are island populations conspecific with the mainland or island endemic? Impact on conservation status, translocations and rescue options.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýjuraj.farkas@adelaide.edu.au
Area of expertise:ÌýThe Metal Isotope Group offer expertise and tools to trace the sources and pathways of heavy metals released into the environment due to bushfires. They can apply existing methods and develop new metal isotope tracers to better understand the mobilisation and fluxes of these toxic metals released from 'burned vegetation & infrastructure' into the local soils and eventually hydrological reservoirs - soil waters, streams, groundwaters - contaminated by such fire-mobilised metals.

Faculty: Sciences
Email: robert.fitzpatrick@adelaide.edu.au
Area of expertise:ÌýSoil Forensics. The irreversible alterations to soil minerals and soil structure from intense fires. ÌýFire may cause severe mineral alterations to soils, which includes the permanent conversion of some minerals into new minerals under a range of temperature conditions. Trace element availability and soil structure is affected. X-ray diffraction analysis (and experiments) on bone fragments - can be applied to bones and bone fragments being recovered from wild animals in fires.

Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýsharyn.gaskin@adelaide.edu.au
Area of expertise:ÌýAdelaide Exposure Science & Health (AESH) specialises in understanding the population exposures (environmental and occupational) during and after fire and what to do and avoid to ensure the by-products of combustion do not contribute to adverse acute and chronic health outcomes. Technical Advice Co-ordinators for the State Emergency response network.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýbronwyn.gillanders@adelaide.edu.au
Area of expertise:ÌýEffects of bush fire on the estuarine systems including water quality and fish assemblages.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýfrank.grutzner@adelaide.edu.au
Area of expertise:ÌýGenetic testing of scat, swap, hair and soil samples. Citizen Science and public engagement.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýbob.hill@adelaide.edu.au
Area of expertise:ÌýThe evolutionary response of plant species to regenerate after fire. ÌýAs fire frequency rises with climate change and they become more intense, especially when associated with long-term drought events, then the evolutionary mechanisms can begin to fail. It is critical that we monitor this, since failure of these adaptations is a major issue prohibiting successful native vegetation regeneration post-fire.

Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýsandra.hodge@adelaide.edu.au
Area of expertise:ÌýRespiratory diseases. Understanding key respiratory and inflammatory responses and designing specific clinical approaches that improve recovery time, and monitor/minimise long-term health adversity from bushfires.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýkatja.hogendoorn@adelaide.edu.au
Area of expertise:ÌýInsect recovery and monitoring. How certain key invertebrate taxa (for functional groups) recover over time (ants, native bees, water invertebrates etc).

Faculty: Professions
·¡³¾²¹¾±±ô:Ìýcraig.johns@adelaide.edu.au
Area of expertise:ÌýAnalysis of agribusiness and agroforestry value chains and value chain improvement activities across the industry. Global food experience from production through to consumption from the perspective of both the private and public sectors.Ìý

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Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýmegan.lewis@adelaide.edu.au
Area of expertise:Ìý

The Spatial Sciences Group (SSG) offer considerable expertise in environmental surveillance, remote sensing and geospatial analysis, to enhance management and monitoring of fire affected environments at scales ranging from extremely high-resolution to broad landscapes. They are able to advise and provide training for field personnel in the use of novel technologies and data streams.ÌýÌý

• Rapid mapping of burnt areas
• Monitoring impacts and regeneration after fires Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý
• Characterisation of past fire frequencies, extents and regimes (using decades of archived imagery) to inform fire prediction, control burning and habitat management for wildlife Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý Ìý
• Analysis of climatic, environmental and cultural influences on fire regimes
• Spatial prediction of heatwaves and extreme weather
• Dynamic regional land cover and fuel load assessment to inform fire prediction models
• Geographic analysis of land uses, infrastructure and environmental constraints to underpin safety and emergency planning.

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Faculty:ÌýProfessions
·¡³¾²¹¾±±ô:Ìýmichelle.lim@adelaide.edu.au
Area of expertise:ÌýFutures-focused biodiversity law and governance.

Faculty: Engineering, Computer and Mathematical Sciences (ECMS)
·¡³¾²¹¾±±ô:Ìýholger.maier@adelaide.edu.au
Area of expertise:ÌýThe integrated assessment of regional bushfire risk and the effectiveness of different mitigation strategies over a range of time periods due to changes in future conditions such as climate change, population growth, economic development, land-use planning, fuel load reduction. The group have co-developed UNHaRMED – the Unified Natural Hazard Risk Mitigation Exploratory Decision support system for testing the effectiveness of different bushfire risk reduction strategies supporting Government agencies reduce future risk.Ìý

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýluke.mosley@adelaide.edu.au
Area of expertise:ÌýIntense bushfires can have major deleterious effects on soil including loss of organic carbon and nutrients, increased erosion, and water repellency. Effects may last for decades or more post-fire. Wind and water erosion post-fires also can create major impacts on water supplies and ecosystems.

Faculty:ÌýSciences
Email:Ìýcesca.mcinerney@adelaide.edu.au
Area of expertise:ÌýExamines how climate change influenced terrestrial ecosystems in the geologic past.

Faculty:ÌýArts
·¡³¾²¹¾±±ô:Ìýmelissa.nursey-bray@adelaide.edu.au
Area of expertise:ÌýDevelopment of short courses/workshops on adapting to bushfires - to deliver to stakeholders/local governments re risk/climate management or for bushfire management/situations. Community engagement/building adaptive capacity. Building effective disaster and recovery communications to manage future risk. Indigenous engagement re managing after fire events on country/places of residence.

Faculty: Professions
·¡³¾²¹¾±±ô:Ìýpatrick.oconnor@adelaide.edu.au
Area of expertise:ÌýEcological assessment design and implementation. Incentive design and implementation. Recovery evaluation and reporting.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýj.packer@adelaide.edu.au
Area of expertise:ÌýCo-designing alternatives to prescribed burns for landscape-scale and fine-scale management (threatened flora) with industry; Co-designing with industry and community on translocations to minimise future risk to threatened species from bushfire. Responses after fire for wildlife and their habitat quality.

Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýdino.pisaniello@adelaide.edu.au
Area of expertise:ÌýAdelaide Exposure Science & Health (AESH) specialises in understanding the population exposures (environmental and occupational) during and after fire and what to do and avoid to ensure the by-products of combustion do not contribute to adverse acute and chronic health outcomes. Technical Advice Co-ordinators for the State Emergency response network.

Faculty: Engineering, Computer and Mathematical Sciences (ECMS)
·¡³¾²¹¾±±ô:Ìýthomas.prowse@adelaide.edu.au
Area of expertise:ÌýThe impact of prescribed burning on avian diversity and abundance in the Mount Lofty Ranges and is familiar with the broader literature on optimising anthropogenic burning for conservation and biodiversity.

Dr Ramesh Raja Segaran
Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýramesh.rajasegaran@adelaide.edu.au
Area of expertise:ÌýThe Uncrewed Research Aircraft Facility (URAF) offers environmental surveillance, remote sensing and geospatial analysis, to enhance management and monitoring of fire affected environments. Training for field personnel in the use of novel technologies and data streams. Detecting post fire hotspots and wildlife data collection/retrieval. Fuel load assessment to inform fire prediction models. Longer-term impacts of controlled burning and habitat management.

Faculty:ÌýEngineering, Computer and Mathematical Sciences (ECMS)
·¡³¾²¹¾±±ô:Ìýabel.santos@adelaide.edu.au
Area of expertise:ÌýWater Research Centre (see also Westra, Gillanders, Santos). Modifications to landuse change the way the water flows and how this transports particles, chemicals and contaminants across the landscape. Wildfires change the landscape and chemistry and soils become highly erodible. This presents an immediate threat to aquatic habitats as particles and chemicals are transported into streams, rivers and estuaries. Particles can reduce light availability and so change primary production in the system, which is the basis for energy flow and food webs. An additional challenge with fires is a modification of hydrology as vegetation rebounds and water capture and evapotranspiration increases. This changes water yield in water supply catchments and groundwater recharge rates.

Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýcarolyn.semmler@adelaide.edu.au
Area of expertise:ÌýImmediate psychological responses to crisis and long term science communication and behaviour change to mitigate risk and prepare for climate change.

Faculty: Engineering, Computer and Mathematical Sciences (ECMS)
·¡³¾²¹¾±±ô:Ìýveronica.soebarto@adelaide.edu.au
Area of expertise:ÌýEco-friendly and resilient approaches to planning, building design and construction.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýnatasha.speight@adelaide.edu.au
Area of expertise:ÌýResearch on the diseases of koalas - supporting their conservation and management.

Faculty: Arts
·¡³¾²¹¾±±ô:Ìýyan.tan@adelaide.edu.au
Area of expertise:ÌýMigration and displacement. Translation into workable policy to reduce vulnerability and promote sustainable urbanisation and rural development.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìývicki.thomson@adelaide.edu.au
Area of expertise:ÌýFeral cats are one of the main drivers of native animal declines and extinctions in ×îÐÂÌÇÐÄVlog. Feral cats are often able to move into burnt areas after fires and outcompete, or predate on, vulnerable populations of local native animals that are now without protective cover. How native species survive this post-fire devastation is important for their future prognosis.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýandrew.thornhill@adelaide.edu.au
Area of expertise:ÌýMolecular phylogenetic analyses. The genetic spatial distribution of ×îÐÂÌÇÐÄVlog's flora to improve conservation planning. Vegetation survey, plant identification, and herbarium collection skills.

Faculty: Arts
·¡³¾²¹¾±±ô:Ìýjohn.tibby@adelaide.edu.au
Area of expertise:ÌýCan combine fire records (from charcoal and potentially other indicators ­ such as sediment FTIR) to infer fire history and then use a suite of other approaches (sediment geochemistry, pollen and diatom analysis) to examine the soil response to fires and the knock on effects to vegetation and aquatic ecosystems. The resilience of soils and ecosystems to fire. To what extent do they resist perturbations vs entering a new state?

Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýlenoid.turczynowicz@adelaide.edu.au
Area of expertise:Ìý• Adelaide Exposure Science & Health (AESH) specialises in understanding the population exposures (environmental and occupational) during and after fire and what to do and avoid to ensure the by-products of combustion do not contribute to adverse acute and chronic health outcomes.Ìý
• Provision of occupational health advice on mitigation of hazards for workers in affected areas including correct PPE.
• Technical Advice Co-ordinators for the State Emergency response network.
• Human health risk assessment of chemicals produced or released following bushfires to air, soil, water and for buildings.
• Vapour intrusion exposure assessment associated with leaks and losses of fuels and other volatile unburnt hydrocarbons into soils and groundwaters.
• Risk communication for affected communities including workers.

Faculty: Health and Medical Sciences
·¡³¾²¹¾±±ô:Ìýdeborah.turnbull@adelaide.edu.au
Area of expertise:ÌýMental health.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýjonathan.tyler@adelaide.edu.au
Area of expertise:ÌýReconstructing climate and fire histories from lake and wetland sediments. Assessing the long-term link between climate variability, vegetation change and fire occurrence. Using stable isotopes to trace the movement of water and materials through the environment.

Faculty: Professions
·¡³¾²¹¾±±ô:Ìýwendy.umberger@adelaide.edu.au
Area of expertise:ÌýBehavioural economics, agribusiness, agricultural, food and nutrition/health sciences. Understanding the links between food system transformation and consumer and producer welfare.

Faculty: Sciences/Department of Environment and Water (DEW)
·¡³¾²¹¾±±ô:Ìýmichelle.waycott@adelaide.edu.au
Area of expertise:ÌýHow plants adapt to stressful environments and respond to specific stressors such as fire, sea-level rise, nutrient excess/depletion and physical disturbance. Plant attributes at a species level – sometimes referred to as ‘vital attributes’ – that relate to a species ability to recover from fire. ÌýPopulation structure studies to determine provenances and the ability of species to maintain modern connectivity, increasingly important in our current climate. ÌýResilience of plant habitats under changing conditions. Seed collections for restoration and translocation activities.

Faculty:ÌýHealth and Medical Sciences
·¡³¾²¹¾±±ô:Ìýphilip.weinstein@adelaide.edu.au
Area of expertise:ÌýThe effects of bushfire smoke on firefighters. The mental health effects of environmental degradation. The post-disaster needs of communities.

Faculty: Engineering, Computer and Mathematical Sciences (ECMS)
·¡³¾²¹¾±±ô:Ìýseth.westra@adelaide.edu.au
Area of expertise:ÌýWater Research Centre - hydrological team. Implications on runoff volumes from catchments, Ìýflood risk implications, water security for reservoirs and environmental water implications.Ìý

Faculty: Professions
·¡³¾²¹¾±±ô:Ìýsarah.wheeler@adelaide.edu.au
Area of expertise:ÌýWater markets, climate change and agriculture. FocusÌýon the links between mental health of farmers and children, climate change, water scarcity and farmer adoption.

Faculty: Sciences
·¡³¾²¹¾±±ô:Ìýtom.wigley@adelaide.edu.au
Area of expertise:ÌýPre-fire drought and weather during the fires. With a focus on climate, carbon cycle modelling and climate data analysis he is one of the world's foremost experts on climate change and one of the most highly cited scientists in the discipline.