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RESEARCH ARTICLE
Contents Vol 19(5)

Implementation of quantitative bushfire risk analysis in a GIS environment

Dale Atkinson A , Mark Chladil B , Volker Janssen A C and Arko Lucieer A
+ Author Affiliations
- Author Affiliations

A School of Geography and Environmental Studies, University of Tasmania, Private Bag 76, Hobart, TAS 7001, Australia.

B Tasmania Fire Service, GPO Box 1526, Hobart, TAS 7000, Australia.

C Corresponding author. Email: volker.janssen@utas.edu.au

International Journal of Wildland Fire 19(5) 649-658 https://doi.org/10.1071/WF08185
Submitted: 1 November 2008  Accepted: 17 November 2009   Published: 9 August 2010

Abstract

Bushfires pose a significant threat to lives and property. Fire management authorities aim to minimise this threat by employing risk-management procedures. This paper proposes a process of implementing, in a Geographic Information System environment, contemporary integrated approaches to bushfire risk analysis that incorporate the dynamic effects of bushfires. The system is illustrated with a case study combining ignition, fire behaviour and fire propagation models with climate, fuel, terrain, historical ignition and asset data from Hobart, Tasmania, and its surroundings. Many of the implementation issues involved with dynamic risk modelling are resolved, such as increasing processing efficiency and quantifying probabilities using historical data. A raster-based, risk-specific bushfire simulation system is created, using a new, efficient approach to model fire spread and a spatiotemporal algorithm to estimate spread probabilities. We define a method for modelling ignition probabilities using representative conditions in order to manage large fire weather datasets. Validation of the case study shows that the system can be used efficiently to produce a realistic output in order to assess the risk posed by bushfire. The model has the potential to be used as a reliable near-real-time tool for assisting fire management decision making.

Additional keywords: bushfire simulation, fire behaviour, fire probabilities, modelling, Tasmania, wildfire threat analysis.


Acknowledgements

We thank the Tasmania Fire Service, the Bureau of Meteorology (Tasmania Antarctica Region), the Department of Primary Industries and Water and the University of Tasmania for their contribution in providing datasets.


References


Aguado E, Burt JE (2004) ‘Understanding Weather and Climate.’ (Pearson Education: Upper Saddle River, NJ)

Ahern A, Chladil M (1999) How far do bushfires penetrate urban areas? In ‘Proceedings of the 1999 Australian Disaster Conference’, 1–3 November, Canberra, ACT. pp. 21–26. (Emergency Management of Australia: Canberra, ACT)

AS/NZS (2004) ‘Risk management. Australian/New Zealand Standard AS/NZS 4360:2004.’ (Standards Australia: Sydney)

Bachmann A , Allgower B (2002) Uncertainty propagation in wildland fire behaviour modelling. International Journal of Geographical Information Science  16, 115–127.
Crossref | GoogleScholarGoogle Scholar | Bally J (1995) The Haines index as a predictor of fire activity in Tasmania. In ‘Bushfire ’95: Presented Papers. Australian Bushfire Conference, 27–30 September, Hobart’. (Forestry Tasmania, Parks & Wildlife Service and Tasmania Fire Service: Hobart, TAS)

Berjak SG , Hearne JW (2002) An improved cellular automaton model for simulating fire in a spatially heterogeneous savanna system. Ecological Modelling  148, 133–151.
Crossref | GoogleScholarGoogle Scholar | Blanchi R, Leonard J, Maughan D (2004) Towards new information tools for understanding bushfire risk at the urban interface. In ‘Online Proceedings of Bushfire 2004, Australian Bushfire Conference’, 25–28 May, Adelaide, SA. Available at http://www.bushfirecrc.com/research/downloads/Bushfire-adelaide-2004-blanchi1.pdf [Verified 2 June 2009]

Bradstock RA , Gill AM (2001) Living with fire and biodiversity at the urban edge: in search of a sustainable solution to the human protection problem in southern Australia. Journal of Mediterranean Ecology  2, 179–195.
Bresnehan SJ (1998) ‘An Assessment of Fuel Characteristics and Fuel Loads in Dry Sclerophyll Forests in South-East Tasmania.’ (Tasmanian Forest Research Council: Hobart, TAS)

Byram GM (1959) Forest fire behavior. In ‘Forest Fire: Control and Use’. (Ed. KP Davis) pp. 90–123. (McGraw-Hill: New York)

Catchpole WR, Bradstock RA, Choate J, Fogarty LG, Gellie N, McCarthy GJ, McCaw WL, Marsden-Smedley JB, Pearce G (1998) Cooperative development of equations for heathland fire behaviour. In ‘Proceedings of 3rd International Conference of Forest Fire Research and 14th Fire and Forest Meteorology Conference’. 16–20 November, Luso, Portugal, pp. 631–645. (University of Coimbra: Coimbra)

Fensham RJ (1992) The management implications of fine fuel dynamics in bushlands surrounding Hobart, Tasmania. Journal of Environmental Management  36, 301–320.
Crossref | GoogleScholarGoogle Scholar | Garvey M (1996) The use of geographic information systems to analyse wildfire threat. In ‘Proceedings of Fire and Biodiversity: the Effects and Effectiveness of Fire Management’, 8–9 October 1994, Melbourne. pp. 219–226. (Department of Environment, Sport and Territories: Canberra, ACT)

Genton MG, Butry DT, Gumpertz ML , Prestemon JP (2006) Spatiotemporal analysis of wildfire ignitions in the St Johns River Water Management District, Florida. International Journal of Wildland Fire  15, 87–97.
Crossref | GoogleScholarGoogle Scholar | Luke RH, McArthur AG (1978) ‘Bushfires in Australia.’ (Australian Government Publishing Service: Canberra, ACT)

Malcolm I, Smith K, Oh T, Collins N (1995) Wildfire threat analysis. In ‘Bushfire ’95: Presented Papers. Australian Bushfire Conference, 27–30 September, Hobart’. (Forestry Tasmania, Parks & Wildlife Service and Tasmania Fire Service: Hobart, TAS)

Marsden-Smedley JB , Catchpole WR (1995) Fire behaviour modelling in Tasmanian buttongrass moorlands I. Fuel characteristics. International Journal of Wildland Fire  5, 203–214.
Crossref | GoogleScholarGoogle Scholar | McArthur AG (1967) Fire behaviour in eucalypt forest. Commonwealth of Australia Forestry and Timber Bureau, Leaflet 107, p. 25.

McRae RHD (1992) Prediction of areas prone to lightning ignition. International Journal of Wildland Fire  2, 123–130.
Crossref | GoogleScholarGoogle Scholar | Mercer GN, Gill AM, Weber RO (1995) A flexible, non-deterministic, litter accumulation model. In ‘Bushfire ’95: Presented Papers. Australian Bushfire Conference, 27–30 September, Hobart’. (Forestry Tasmania, Parks & Wildlife Service and Tasmania Fire Service: Hobart, TAS)

Noble IR, Bary GAV , Gill AM (1980) McArthur’s fire-danger meters expressed as equations. Australian Journal of Ecology  5, 201–203.
Crossref | GoogleScholarGoogle Scholar | NSW RFS (2006) ‘Planning for Bushfire Protection.’ (NSW Rural Fire Service: Sydney)

Nunez M , Colhoun EA (1986) A note on air temperature lapse rates on Mount Wellington, Tasmania. Papers and Proceedings of the Royal Society of Tasmania  120, 11–15.
NZ NRFA (2005) ‘New Zealand Wildfire Threat Analysis Workbook.’ (National Rural Fire Authority: Wellington)

Olson JS (1963) Energy storage and the balance of producers and decomposers in ecological systems. Ecology  44, 322–331.
Crossref | GoogleScholarGoogle Scholar | Shields BJ (2004) State of knowledge: bushfire risk management. Report to the Department of Urban Services, Canberra.

Shields BJ, Tolhurst KG (2003) A theoretical framework for wildfire risk assessment. In ‘Proceedings of 3rd International Wildland Fire Conference and 10th Annual AFAC Conference’, 3–6 October, Sydney, Australia.

Smith D (1998) Mapping the bushfire danger of Hobart. GradDip (Environmental Studies) (Hons) thesis, University of Tasmania, Australia.

TFS (2006) ‘Interim Guidelines for Burning Vegetation.’ (Tasmania Fire Service: Hobart, TAS)

Tolhurst KG, Cheney NP (1999) ‘Synopsis of the Knowledge Used in Prescribed Burning in Victoria.’ (Department of Natural Resources and Environment: Melbourne, VIC)

TVMP (2005) Tasmanian Vegetation Mapping Program metadata: TASVEG version 1.0. (Department of Primary Industries and Water: Hobart, TAS)

Wilson A (1998) Fire planning support tool. Report to the Department of Natural Resources and Environment, Victoria.