Delivering science and technology to reduce the impact of fire on Australia’s people, environment and economy
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CSIRO is Australia’s national science agency and a trusted advisor on fire prediction, management, behaviour and recovery.
For almost 70 years we have been working collaboratively in bushfire-research, from understanding and modelling impact of bushfires on the environment to post-fire assessments and improving infrastructure design.
Our scientists are developing reliable tools to predict bushfire behaviour, and advance fire spread prediction and bushfire suppression systems. We train all state fire agencies in fire behaviour and prediction and use world-class facilities and models to understand and manage fires under future climate conditions.
CSIRO was the first agency internationally to link an increase in bushfire weather severity to climate change in 1988. Our research and practical resilience measures in relation to bushfires and climate change are more important than ever before as Australia faces continued extreme fire weather into the future.
As a multidisciplinary science agency, CSIRO draws on a wide range of expertise to understand, predict, and manage fires and support recovery, rehabilitation and resilience.
Solving the nation’s biggest challenges like increased extreme fire weather cannot be done alone.
CSIRO works with rural fire agencies and other research agencies so our scientists can apply knowledge of ecosystem and bushfire dynamics to real events. These partnerships enable CSIRO to share its bushfire research with the wider community.
We also work with state fire authorities to predict, manage and assess the impacts of bushfires. Predictions conducted using CSIRO research and expertise have been critical to timely identification of potential impacts and issue of emergency warnings.
Whether it’s state fire agencies, Traditional Owners, government, business or a community in need, we are here to help. We apply cutting edge science and technology to deliver material benefit to Australian communities.
CSIRO is involved in a range of bushfire-related research, including:
CSIRO has performed post-bushfire surveys since the 1940s. In addition to our array of other bushfire research, this in-the-field work provides invaluable information on how fires start, what influences their spread, how they impact buildings and how they can be stopped. Through this work, CSIRO developed the Forest Fire Danger Index in 1967, which, even today, forms the basis of Australia’s fire-risk warning system.
Following the 2019–20 Australian bushfire season, the Australian Government called on CSIRO for help to deliver practical resilience measures in relation to bushfires and climate change. We were tasked by the Prime Minister to deliver a report to Australian governments on climate and disaster resilience, working with an Expert Advisory Panel led by Australia’s Chief Scientist Alan Finkel.
Bushfire research involves working in partnership with different levels of government, the private sector and communities. Our research areas and bushfire-related projects are helping Australians better understand and respond to a changing climate and environment.
The Bushfire Behaviour and Risks team focuses on the study of the behaviour of bushfires and the development of systems to predict their spread and behaviour. CSIRO trains all state agencies in fire behaviour and prediction, and has world-class facilities and models to understand, predict, and manage fires under future climate conditions.
Predictions conducted by agencies using CSIRO’s suite of models have been critical to the timely issue of emergency warnings.
CSIRO is working on better detection methods, enhanced fire spread simulation models and suppression effectiveness models. When these are linked into a single modelling environment (Spark), they allow agencies to prioritise efforts to suppress new and running fires according to their potential to cause loss.
Spark, developed by CSIRO’s Data61, is a state-of-the-art fire spread simulation framework for simulating the spread of fire across the landscape and is used by NSW, SA, QLD, VIC and Tas fire authorities.
CSIRO has compiled a comprehensive dataset of the life and house loss during bushfires from 1900 to 2018. The database forms the basis of many advice guides and warning systems by the Australasian Fire Authorities Council (AFAC), the peak Australasian body for the fire and emergency services, and various fire agencies. It has influenced the timeliness and targeting of messaging in recent fire events.
Data61’s Emergency Situation Awareness (ESA) software provides situation awareness by using data mining techniques on Twitter to detect when disaster events, such as fires, are being broadcast on social media, and alerts users. ESA also stores complete Twitter stream information, allowing for post-event analysis.
Such useful and accessible information can provide timely situation awareness for disaster managers and emergency response agencies, allowing them to prepare their responses prior to receiving official confirmation of an event.
Sentinel Hotspots is an internet-based satellite mapping system hosted by Geoscience Australia (GA) which provides emergency service managers access to the latest fire location information using satellite data collected up to three times a day. Since it was launched in 2003, firefighting organisations in all Australian states have used this tool to identify and zoom in on fire hotspots. This formed part of the early warning system for fire agencies and community during the 2019–2020 fires. The system was developed by CSIRO in collaboration with Department of Defence and Geoscience Australia.
Burnover-protection systems for Victorian crew-cabs have been developed in collaboration with CSIRO over 20 years and are now fitted as a standard requirement in all Victorian fire trucks. NSW and WA fire departments are also developing prototypes using this knowledge base.The impact of these protective measures for fire trucks was demonstrated in the 2009 Black Saturday fires in Victoria when 12 fire trucks were impacted by fire and their crews emerged safely with no loss of life. These protection systems continued to provide crews with increased safety in subsequent fires including the 2019–2020 bushfires.
Our post-bushfire surveys and research provide invaluable information on how fires impact buildings and communities. Our bushfire scientists visit non-active fire zones to survey damage and gather data. This research effort has underpinned extensive policy and regulatory development and reform for building design, planning and education through various fire agencies and other state agencies.
This is a 25-m-long combustion wind tunnel designed, built and operated by CSIRO to enable the safe and repeatable study of the behaviour and spread of fires. This facility at the CSIRO Yarralumla site, Canberra allows statistically robust investigation of the processes of flame propagation in a range of bushfire fuels from grass, to forest litter, to small shrubs. Published results include analysis of greenhouse gas emission as a function of fire behaviour and spread mode and investigation of fire growth and acceleration.
CSIRO has conducted a series of full-scale house burnover experiments to assess the viability of conventional and novel building systems in a bushfire situation. This work has resulted in various building design innovations including an approved eco-house design and the development of a national bushfire building standard adopted by the National Construction Code in 2015. These codes have influenced a significant number of houses built since their adoption.
CSIRO has played a key role in providing technical support and scientific input to ensure the guidelines and regulatory systems for personal bushfire shelters are effective and reliable. Following the 2009 Victorian fires, the Victorian Building Authority engaged CSIRO to provide science input to support the development of policy guidelines around the use of personal bunkers for bushfire protection.
CSIRO has worked with Victoria’s Department of Environment, Land, Water and Planning (DELWP), the BOM, and the university sector to develop a tool that is being used to help manage smoke exposure from prescribed burns and bushfires.
AQFx (the air quality forecasting system) is run operationally by BOM and uses a fire spread model to calculate smoke emissions from ongoing fires and planned burns. Wind-blown dust and urban sources of pollution are also included in AQFx. The transport of smoke by the wind is forecast using the meteorology from BOM’s ACCESS weather forecasting system.
Our research has led to the adoption of AQFx by land-use agencies in Victoria and NSW to aid in smoke management from prescribed burning and issue targeted health warnings when needed. AQFx has also been used to forecast smoke exposure from bushfires, with this information being made available to the emergency management centres and the state environment protection authorities. This capability has been extensively used since 2016. Forecasts provided by AQFx in 2019–20 were used in Victoria and NSW to anticipate hazards to health, aviation and Australian Defence Force operations. A national rollout of AQFx (endorsed by AFAC) is being planned to ensure that advanced warnings of community exposure to smoke from vegetation fires are available for all Australians. The smoke forecasts will also be applied to other industries such as agriculture (e.g. viticulture) and solar photo-voltaic systems.
Several fire safe materials have been developed, including pre-cast concrete panel technology (HySSIL) that is fire resistant for four hours. These new materials can be utilised as fire-proof insulative building materials in fire shelters, bunkers, sheds and panic rooms.
Fire resistant coatings based on inorganic polymers have also been trialled to provide improved fire protection for timber products used for construction and furniture.
We conduct laboratory testing and assessment of materials, elements of construction and systems in accordance with Australian requirements for the construction of buildings in bushfire prone areas. We also provide large scale evaluations for buildings exposed to radiant heat and large flaming sources for bushfire attack levels up to the flame zone.
To support improved bushfire resilience, CSIRO has researched the root causes of our vulnerabilities, rather than focussing only on managing the hazards. This requires understanding of the interdependent systems that our society depends on to deliver essential goods and services, such as energy, water, food, health, education and other social services, transport, and communications. CSIRO has used this approach in aiding the development of the federal government’s National Disaster Risk Reduction Framework, and in developing Climate Compass. This is a framework designed to help Australian public servants manage the risks from the changing climate and incorporate this into developing policies, programs and asset management approaches.
CSIRO was a partner of the Australian Government’s National Resilience Taskforce, established in 2018 and led the national engagement process to build understanding of the causes of disaster vulnerability. We also worked on scenarios to understand disaster risk, reduce vulnerability, and deliver better outcomes by focusing on governance
and communities.
The impact of climate change has led to longer, more intense fire seasons and an increase in the average number of elevated fire weather days. So preparing for and managing bushfires is critical to minimise the risk and potential damage of bushfires.
In the same way we have solved some of Australia’s greatest challenges for more than 100 years CSIRO continues to apply scientific and technological solutions to help Australia face the challenges and opportunities of a variable and changing climate.
1939 Black Friday Victorian fires
1944 First post-bushfire house loss survey. Beaumaris fire, Victoria.
1953 Alan McArthur, Australia’s first full time bushfire behaviour researcher employed.
1967 Black Tuesday Tasmanian fires
1966–67 Introduction of first operational versions of the Forest and Grassland Fire Danger Rating Systems (still in use today).
1983 Ash Wednesday South Australia and Victorian bushfires
1983 Standard post-bushfire surveys implemented following every major fire.
1988 CSIRO first links bushfire weather severity increase to climate change (Beer 1988).
1989 CSIRO pioneered SiroFire which was the first major effort to computerise the task of graphically predicting landscape fire spread utilising operational fire behaviour models for grasslands and forests.
1993 Importance of fire size and shape on rate of spread in grass fires discovered.
2000 Development of appliances for crews and trucks that can resist bushfire burnover.
2003 Burnover-protection systems fitted to Victorian fire trucks.
Firefighting organisations use CSIRO Sentinel Hotspots satellite tool to identify fire hotspots.
ACT Government uses CSIRO revegetation options in burnt catchments from ACT fires.
2007 CSIRO predict earlier starts to the fire seasons, more frequent and more intense fires by 2020 (Lucas, Hennessy, Mills and Bathols).
Creation of national training curriculum for fire behaviour analysts.
2008 Pyrotron launched at CSIRO Yarralumla site, Canberra to test and better understand bushfire spread.
Investigation of effectiveness of different suppressant dropped by aircraft.
2009 Black Saturday Victorian fires
2009 First fully digital post bushfire survey following 2009 Black Saturday Fires.
Work with Victorian Government to rebuild houses using best practice sustainability principles.
CSIRO support 10-year, $750 million Powerline Bushfire Safety Program (PBSP) established in Victoria.
Inform the Victorian Royal Commission on design and construction standard for bunkers.
2010 A ‘fire-proof’ house is tested at the Rural Fire Services Hot Test Fire Facility at Mogo, NSW.
Evaluation of DC-10 air tanker for aerial firefighting.
2011 CSIRO supports development of Community fire refuges across Victoria.
2012 Bushfire hazard mapping methodology incorporates climate change projections into Queensland bushfire planning (Leonard, Blanchi 2012).
CSIRO and Melbourne University develop nationally recognised bushfire course.
2013 Bushfire life and house loss database underpins national policy reform (Blanchi, Leonard 2013).
Commencement of development of Spark wildfire spread simulation framework (completed in 2015).
2015 National bushfire building standard is adopted by the National Construction Code in 2015.
Publication of A Guide to Rate of Fire Spread Models for Australian Vegetation.
2016 AQFx air quality forecasting system to measure smoke exposure from bushfires.
Development of protocols for indigenous
fire management partnerships.
2017 State-wide mapping of annual bushfire fuel loads introduced in Queensland. (Newnham, Opie, Leonard, 2017).
2018 CSIRO named the official project partner for the Australian Government’s National Resilience Taskforce.
2019–20 South Eastern Australian bushfires
2019–20 Australian Government calls on CSIRO to help deliver practical resilience measures in relation to bushfires and climate change.
2021–22 AQFx air quality forecasting rolls out nationally for warnings of community exposure to smoke.
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For further information
Dr Peter Mayfield
Executive Director – Environment, Energy and Resources
+61 2 4960 6046
peter.mayfield@csiro.au
Ben Creagh
Executive Manager – Corporate Affairs
+61 7 3833 5523
ben.creagh@csiro.au