Science, technology, and human factors in fire danger rating: the Canadian experience.
Stephen W. Taylor A C and Martin E. Alexander B
+ Author Affiliations
- Author Affiliations
A Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, 506 W. Burnside Road, Victoria, BC, V8Z 1M5, Canada.
B Forest Engineering Research Institute of Canada, Wildland Fire Operations Research Group, 1176 Switzer Drive, Hinton, AB, T7V 1V3, Canada. Present address: Natural Resources Canada, Canadian Forest Service, Northern Forestry Centre, 5320-122 St, Edmonton, AB, T6H 3S5, Canada.
C Corresponding author. Email: staylor@nrcan.gc.ca
International Journal of Wildland Fire 15(1) 121-135 https://doi.org/10.1071/WF05021
Submitted: 9 March 2005 Accepted: 5 September 2005 Published: 6 March 2006
Abstract
The present paper reviews the development of the Canadian Forest Fire Danger Rating System (CFFDRS) and its implementation in Canada and elsewhere, and suggests how this experience can be applied in developing fire danger rating systems in other forest or wildland environments. Experience with the CFFDRS suggests that four key scientific, technological, and human elements need to be developed and integrated in a national forest fire danger rating system. First among these is a sustained program of scientific research to develop a system based on relationships between fire weather, fuels, and topography, and fire occurrence, behavior, and impact appropriate to the fire environment. Development of a reliable technical infrastructure to gather, process, and archive fire weather data and to disseminate fire weather forecasts, fire danger information, and fire behavior predictions within operational agencies is also important. Technology transfer and training in the use of fire danger information in fire operations are necessary, as are cooperation and communication between fire management agencies to share resources and set common standards for information, resources, and training. These elements must be appropriate to the needs and capabilities of fire managers, and must evolve as fire management objectives change. Fire danger systems are a form of media; system developers should be careful not to overemphasize scientific and technological elements at the expense of human and institutional factors. Effective fire danger systems are readily assimilated by and influence the organizational culture, which in turn influences the development of new technologies. Most importantly, common vision and a sense of common cause among fire scientists and fire managers are needed for successful implementation of a fire danger rating system.
Additional keywords: Canada; Canadian Forest Fire Danger Rating System; fire behavior; technology transfer; wildland fire research.
References
Alexander ME
(1989) Fiji adopts Canadian system of fire danger rating. International Forest Fire News II, 3.
Alexander ME (1994) ‘Proposed revision of fire danger class criteria for forest and rural areas in New Zealand.’ Circular 1994/2. (National Rural Fire Authority: Wellington)
Alexander ME (1995) ‘New Zealand fire danger classes.’ Poster with text. (National Rural Fire Authority: Wellington and New Zealand Forest Research Institute: Rotorura)
Alexander ME
(2003) Technology transfer and wildland fire management/research. Fire Management Today 63(2), 41–42.
Alexander ME, Bisgrove GF (Tech. coords) (1990) ‘The art and science of fire management.’ Proceedings of the first Interior West Fire Council annual meeting and workshop. Forestry Canada, Information Report NOR-X-309. (Northern Forestry Centre: Edmonton)
Alexander ME, Cole FV (1995) Predicting and interpreting fire intensities in Alaskan black spruce forests using the Canadian system of fire danger rating. In ‘Managing forests to meet peoples’ needs’. Proceedings of 1994 Society of American Foresters/Canadian Institute of Forestry Convention, pp. 185–192. SAF Publication 95-02. (Society of American Foresters: Bethesda, MD)
Alexander ME , Cole FV
(2001) Rating fire danger in Alaska ecosystems: CFFDRS provides an invaluable guide to systematically evaluating burning conditions. Fireline 12, 2–3.
Alexander ME, Fogarty LG (2002) A pocket card for predicting fire behaviour in grasslands under severe burning conditions. Fire Technology Transfer Note No. 25. (Natural Resources Canada, Canadian Forest Service: Ottawa, ON)
Alexander ME , Quintilio D
(1990) Perspectives on experimental fires in Canadian forestry research. Mathematical and Computer Modelling 13(12), 17–26.
| Crossref | GoogleScholarGoogle Scholar |
Alexander ME, Van Nest TA (1995) National fire behavior training. In ‘Canadian Interagency Forest Fire Centre/Canadian Committee on Forest Fire Management, 4th annual joint meeting’. 21–24 November 1995, Edmonton, AB, Canada.
Anderson K
(2002) A model to predict lightning-caused fire occurrences. International Journal of Wildland Fire 11, 163–172.
| Crossref | GoogleScholarGoogle Scholar |
Anderson KR, Lee BS (1991) Linear programming techniques for initial attack resource deployment. In ‘Proceedings of the 11th conference on fire and forest meteorology’. SAF Publication 91-04. (Eds PL Andrews, DF Potts) pp. 1–8. (Society of American Foresters: Bethesda, MD)
Andrews PL (1987) The National Fire Danger Rating System as an indicator of the fire business. In ‘Conference papers: Ninth Conference on fire and forest meteorology’. pp. 57–62. (American Meteorological Society: Boston, MA)
Barrows JS (1969) Intelligence systems for forest fire control. In ‘Proceedings of the sixth world forestry congress, Volume 2’. pp. 1934–1940. (Spanish Ministry of Agriculture: Madrid)
BCMF (1983) ‘Fire weather indices – decision aids for forest operations in British Columbia.’ Forest Protection Handbook 12. (British Columbia Ministry of Forests, Protection Branch: Victoria, BC)
BCMF (1994) ‘Safety review team report – a summary of the 1994 fire season.’ (British Columbia Ministry of Forests, Protection Branch: Victoria, BC)
Beall HW (1967) Research in the measurement of forest fire danger. Canada Department of Forestry and Rural Development, Forest Fire Research Institute, Ottawa, Ontario. Information Report FF-X-8. [First published 1947]
Beall HW (1990) Fire research in Canada’s federal forestry service – the formative years. In ‘The art and science of fire management’. Proceedings of the first Interior West Fire Council annual meeting and workshop. (Tech. coords ME Alexander, GF Bisgrove) pp. 14–19. Forestry Canada, Information Report NOR-X-309. (Northern Forestry Centre: Edmonton)
Beck J (2004) The effectiveness of Alberta’s presuppression preparedness planning system. Forest Engineering Research Institute of Canada Advantage Report Volume 5, No. 14.
Beck JA, Armitage OB (2004) Diurnal fine fuel moisture and FFMC characteristics at northern latitudes. In ‘Proceedings of the 22nd Tall Timbers Fire Ecology Conference: Fire in temperate, boreal, and montane ecosystems’. (Eds RT Engstrom, KEM Galley, WJ de Groot) pp. 211–221. (Tall Timbers Research Station: Tallahassee, FL)
Beck JA, Alexander ME, Harvey SD , Beaver AK
(2002) Forecasting diurnal variations in fire intensity to enhance wildland firefighter safety. International Journal of Wildland Fire 11, 173–182.
| Crossref | GoogleScholarGoogle Scholar |
Brenner JD, Herbster C, Lee BS, Brackett DP, Arvanitis LG (1998) GIS-based fire management in Florida. In ‘Proceedings of the first international conference on geospatial information in agriculture and forestry, Volume I’. pp. 140–147. (ERIM International: Ann Arbor, MI)
Brown AA, Davis KP (1973) ‘Forest fire: control and use.’ 2nd edn. (McGraw-Hill: New York)
Byram GM (1959) Combustion of forest fuels. In ‘Forest fire: control and use’. (Ed. KP Davis) pp. 61–89. (McGraw-Hill: New York)
Canadian Forestry Service (1984) ‘Tables for the Canadian Forest Fire Weather Index System.’ 4th edn. Environment Canada, Forestry Technical Report 25. (Canadian Forestry Service: Ottawa, ON)
Cheney P, Sullivan A (1997) ‘Grassfires: fuel, weather and fire behaviour.’ (CSIRO Publishing: Collingwood)
Cole FV, Alexander ME (1995) ‘Head fire intensity class graph for FBP System Fuel Type C-2 (Boreal Spruce).’ Poster with text. (Alaska Department of Natural Resources, Division of Forestry: Fairbanks, AK and Natural Resources Canada, Canadian Forest Service: Edmonton, AB)
Countryman CM
(1966) Rating fire danger by the multiple basic index system. Journal of Forestry 64, 531–536.
Dawson MP (1991) Fire bans and public perception of danger. In ‘Conference on bushfire modeling and fire danger rating systems: Proceedings’. pp. 32–42. (CSIRO: Canberra)
Deeming JE, Burgan RE, Cohen JD (1977) ‘The National Fire-Danger Rating System – 1978.’ USDA Forest Service, Intermountain Forest and Range Experiment Station General Technical Report INT-39. (Ogden, UT)
de Groot WJ (1989) Technology transfer in Saskatchewan: operational use of the Canadian Forest Fire Danger Rating System. In ‘Proceedings of the 10th conference on fire and forest meteorology’. (Eds DC MacIver, H Auld, R Whitewood) pp. 327–332. (Forestry Canada and Environment Canada: Ottawa, ON)
de Groot WJ, Wardati , Wang Y
(2005) Calibrating the Fine Fuel Moisture Code for grass ignition potential in Sumatra, Indonesia. International Journal of Wildland Fire 14, 161–168.
De Keyser V, Woods DD (1990) Fixation errors: failures to revise situation assessment in dynamic and risky systems. In ‘System reliability assessment’. (Eds AG Colombo, A Saiz de Bustamante) pp. 231–251. (Kluwer Academic: Amsterdam)
Field RD, Wang Y, Roswintiarti O , Guswanto
(2004) A drought-based predictor of recent haze events in western Indonesia. Atmospheric Environment 38, 1869–1878.
| Crossref | GoogleScholarGoogle Scholar |
Fogarty LG (1994) Fire problem, what fire problem? A review of ‘Fire danger ratings associated with New Zealand’s major pine plantation wildfires’ by HG Pearce and ME Alexander. Fire Technology Transfer Note No. 3. (New Zealand Forest Research Institute: Rotorura and National Rural Fire Authority: Wellington)
Fogarty LG (1996) A summary and status of the ‘Proposed revision of fire danger class criteria for forest and rural areas in New Zealand’ by Martin E. Alexander. Fire Technology Transfer Note No. 7. (New Zealand Forest Research Institute: Rotorua and National Rural Fire Authority: Wellington)
Fogarty LG, Pearce HG, Catchpole WR, Alexander ME (1998) Adoption vs. adaptation: lessons from applying the Canadian Forest Fire Danger Rating System in New Zealand. In ‘Proceedings III international conference on forest fire research/14th conference on fire and forest meteorology, Volume I’. (Ed. DX Viegas) pp. 1011–1028. (University of Coimbra: Coimbra)
Forestry Canada Fire Danger Group (1992) Development and structure of the Canadian Forest Fire Behavior Prediction System. Forestry Canada, Information Report ST-X-3. (Science and Sustainable Development Directorate: Ottawa, ON)
Granstrom A, Schimmel J (1998) ‘Utvardering av det kanadensiska brandrisksystemet—testbranningar och uttorkningsanalyser. [Assessment of the Canadian forest fire danger rating system: test fires and drying rate analyses.]’ Publication P21–244/98. (Swedish Rescue Services Agency: Karlstad)
Harrington JB, Flannigan MD, Van Wagner CE (1983) A study of the relation of components of the Fire Weather Index to monthly provincial area burned by wildfire in Canada, 1953–80. Environment Canada, Canadian Forestry Service, Information Report PI-X-25. (Petawawa National Forestry Institute: Chalk River, ON)
Harvey DA, Alexander ME , Janz B
(1986) A comparison of fire weather severity in northern Alberta during the 1980 and 1981 fire seasons. Forestry Chronicle 62, 507–513.
Innis HA (1972) ‘Empire and communications.’ (University of Toronto Press: Toronto)
Jandt R, Allen J, Horschel E (2005) Forest floor moisture content and fire danger indices in Alaska. BLM-Alaska Technical Report 54. (USDI Bureau of Land Management: Anchorage, AK)
Kiil AD, Quintilio D, Alexander ME (1986) Adaptation of a national system of fire danger rating in Alberta, Canada: a case study in technology transfer. In ‘Proceedings 18th IUFRO world congress, division 6: General subjects’. pp. 410–421. (International Union of Forest Research Organizations: Vienna)
Klein G (1998) ‘Sources of power: how people make decisions.’ (MIT Press: Cambridge, MA)
Kourtz P, Todd B (1992) Predicting the daily occurrence of lightning-caused forest fires. Forestry Canada, Information Report PI-X-112. (Petawawa National Forestry Institute: Chalk River, ON)
Lawson BD, Dalrymple GN (1996a) Probabilities of sustained ignition in lodgepole pine, interior Douglas-fir, and white spruce-subalpine fir forest types. Canadian Forest Service, FRDA Handbook 12 Supplement 1. (Pacific Forestry Centre and British Columbia Ministry of Forests, Research Branch: Victoria, BC)
Lawson BD, Dalrymple GN (1996b) Ground-truthing the Drought Code: field verification of overwinter recharge of forest floor moisture. Natural Resources Canada, Canadian Forest Service, FRDA Report 268. (Pacific Forestry Centre and British Columbia Ministry of Forests, Research Branch: Victoria, BC)
Lawson BD, Stocks BJ, Alexander ME, Van Wagner CE (1985) A system for predicting fire behavior in Canadian forests. In ‘Proceedings of the 8th conference on fire and forest meteorology’. SAF Publication 85-04. (Eds LR Donoghue, RE Martin) pp. 6–16. (Society of American Foresters: Bethesda, MD)
Lawson BD, Hawkes BC, Dalrymple GD (1989) ‘Fire management in a climate of change: Proceedings of the 1988 Northwest Fire Council annual meeting.’ (Northwest Fire Council)
Lawson BD, Armitage OB, Hoskins WD (1996) Diurnal variation in the Fine Fuel Moisture Code: tables and computer source code. Natural Resources Canada, Canadian Forest Service, FRDA Report 245. (Pacific Forestry Centre and British Columbia Ministry of Forests, Research Branch: Victoria, BC)
Lawson BD, Frandsen WH, Hawkes BC, Dalrymple GN (1997a) Probability of sustained smouldering ignition for some boreal forest duff types. Canadian Forest Service, Forest Management Note 63. (Northern Forestry Centre: Edmonton, AB)
Lawson BD, Dalrymple GN, Hawkes BC (1997b) Predicting forest floor moisture contents from Duff Moisture Code values. Natural Resources Canada, Canadian Forest Service, Technology Transfer Notes No. 6. (Pacific Forestry Centre: Victoria, BC)
Lee BS (1995) The Canadian Wildland Fire Information System. In ‘Proceedings of 9th annual conference on geographic information systems in forestry, environment and natural resources management’. pp. 639–646. (GIS World Inc.: Fort Collins, CO)
Lee BS, Alexander ME, Hawkes BC, Lynham TJ, Stocks BJ , Englefield P
(2002) Information systems in support of wildland fire management decision making in Canada. Computers and Electronics in Agriculture 37, 185–198.
| Crossref | GoogleScholarGoogle Scholar |
Luke RH, McArthur AG (1978) ‘Bushfires in Australia.’ (Australian Government Publishing Service: Canberra)
Lynham TJ, Stocks BJ (1990) Suitability of the Canadian Forest Fire Danger Rating System for use in the Daxinganiing Forestry Management Bureau, Heilongliang Province, China. In ‘Proceedings of the 10th conference on fire and forest meteorology’. (Eds DC MacIver, H Auld, R Whitewood) pp. 232–246. (Forestry Canada and Environment Canada: Ottawa, ON)
Martell DL, Bevilacqua E , Stocks BJ
(1989) Modelling seasonal variation in daily people-caused forest fire occurrence. Canadian Journal of Forest Research 19, 1555–1563.
McAlpine RS, Stocks BJ, Van Wagner CE, Lawson BD, Alexander ME, Lynham TJ (1990) Forest fire behavior research in Canada. In ‘Proceedings of international conference on forest fire research’. pp. A.02: 1–12. (University of Coimbra: Coimbra)
McArthur AG (1971) ‘Aspects of fire control in the P. caribaea & P. elliottii plantations of northwestern Viti Levu, Fiji Islands.’ (Commonwealth of Australia, Forestry and Timber Bureau, Forest Research Institute: Canberra)
McCaw WL , Alexander ME
(1994) Tripartite agreement on wildland fire science research signed. International Forest Fire News 11, 27–29.
McLuhan M (1994) ‘Understanding media: the extensions of man.’ (MIT Press: Cambridge, MA) [First published 1964]
McLuhan M, McLuhan E (1988) ‘Laws of media: the new science.’ (University of Toronto Press: Toronto)
Melton M
(1989) The Keetch/Byram Drought Index: a guide to fire conditions and suppression problems. Fire Management Notes 50(4), 30–34.
Merrill DF, Alexander ME (Eds) (1987) ‘Glossary of forest fire management terms.’ 4th edn. National Research Council of Canada, Publication NRCC No. 26516. (Canadian Committee on Forest Fire Management: Ottawa, ON)
Miller GA
(1956) The magical number seven, plus or minus two: some limits on our capacity for processing information. Psychological Review 63, 81–97.
Muraro SJ (1968) A modular approach to a revised national fire danger rating system. In ‘Contributions to the development of a national fire danger rating system’. Canada Department of Fisheries and Forestry, Forestry Branch, Information Report BC-X-37. (Forest Research Laboratory: Victoria, BC)
Muraro SJ (1975) ‘Prescribed fire predictor/planner.’ Environment Canada, Canadian Forestry Service, slide-rule with text. (Pacific Forest Research Centre: Victoria, BC)
Nelson RM (1955) The principles and uses of fire danger measurement. In ‘Modern forest fire management in the South. Proceedings of the fourth annual forestry symposium’. pp. 37–45. (Louisiana State University: Baton Rouge)
Otway SG (2005) Aspen forest duff moisture depletion and ground fire potential. MSc Thesis, University of Alberta.
Pearce HG, Alexander ME (1994) Fire danger ratings associated with New Zealand’s major pine plantation wildfires. In ‘Proceedings of the 12th conference on fire and forest meteorology’. SAF Publication 94-02. pp. 534–543. (Society of American Foresters: Bethesda, MD)
Pech G
(1989) A model to predict the moisture content of reindeer lichen. Forest Science 35, 1014–1028.
Peet GB (1980) Forest fire management planning, Kenya: fire danger rating for forest areas. Food and Agriculture Organization of the United Nations, FAO Document FO:DP.KEN/74/024 Technical Report 1. (FAO: Rome)
Rothermel RC (1987) Fire behavior research: where do we go from here? In ‘Conference papers: Ninth conference on fire and forest meteorology’. pp. 19–22. (American Meteorological Society: Boston, MA)
San-Miguel-Ayanz J, Carlson JD, Alexander M, Tolhurst K, Morgan G, Sneeuwjagt R, Dudfield M (2003). Current methods to assess fire danger potential. In ‘Wildland fire danger estimation and mapping – the role of remote sensing data’. Series in Remote Sensing Volume 4. (Ed. E Chuvieco) pp. 21–61. (World Scientific Publishing: Singapore)
St John P , Alexander ME
(2004) Canadian Forest Fire Weather Index System: training now available on CD-ROM. Fire Management Today 64((2)), 54–55.
Stocks BJ, Hartley GR (1995) ‘Fire behavior in three jack pine fuel complexes.’ Natural Resources Canada, Canadian Forest Service, Poster with text. (Great Lakes Forestry Centre: Sault Ste Marie, ON)
Stocks BJ, Lawson BD, Alexander ME, Van Wagner CE, McAlpine RS, Lynham TJ , Dube DE
(1989) The Canadian Forest Fire Danger Rating System: an overview. Forestry Chronicle 65, 450–457.
Stull R, Modzelewski H, Deng X, Zhou Y, Huang L, Cannon T, Hicks G II, Storey D, Holmes M, Charbonneau J (2004) Multimodel fine-resolution ensembles for short-range forecasts in mountainous terrain. In ‘Proceedings of the 16th conference on numerical weather prediction’. (American Meteorological Society: Boston, MA)
Tanskanen H, Venäläinen A, Puttonen P , Granström A
(2005) Impact of stand structure on surface fire ignition potential in Picea abies and Pinus sylvestris forests in southern Finland. Canadian Journal of Forest Research 35, 410–420.
| Crossref | GoogleScholarGoogle Scholar |
Taylor SW (2001) Considerations for applying the Canadian Forest Fire Danger Rating System in Argentina. Natural Resources Canada, Canadian Forest Service, Contract report. (Pacific Forestry Centre: Victoria, BC)
Taylor SW, Pike RG, Alexander ME (1997) Field guide to the Canadian Forest Fire Behavior Prediction (FBP) System. Natural Resources Canada, Canadian Forest Service, Special Report 11. (Northern Forestry Centre: Edmonton, AB)
Thomas B
(1990) The Jiagedqui Project: Forest fire control in China. Forestry Chronicle 66, 266–270.
Todd B, Kourtz PH (1991) Predicting the daily occurrence of people-caused forest fires. Canadian Forestry Service, Information Report PI-X-103. (Petawawa National Forestry Institute: Chalk River, ON)
Turner JA (1973) A fire load index for British Columbia. Environment Canada, Canadian Forestry Service, Information Report BC-X-80. (Pacific Forest Research Centre: Victoria, BC)
Turner JA, Lawson BD (1978) Weather in the Canadian Forest Fire Danger Rating System: a user guide to national standards and practices. Fisheries and Environment Canada, Canadian Forestry Service, Information Report BC-X-177. (Pacific Forest Research Centre: Victoria, BC)
Tymstra C
(2002) PROMETHEUS: the Canadian wildland fire growth model. Initial Attack 2002(Spring), 8–9.
Tzu S (1963) ‘The art of war.’ (Transl. SB Griffith) (Oxford University Press: London)
Valentine JM (1978) Fire danger rating in New Zealand: review and evaluation. New Zealand Forest Service, Forest Establishment Report No. 123. (Forest Research Institute: Rotorua)
Van Wagner CE (1970) New developments in forest fire danger rating. Environment Canada, Information Report PS-X-19. (Canadian Forestry Service, Petawawa Forest Experiment Station: Chalk River, ON)
Van Wagner CE (1971) Two solitudes in forest fire research. Environment Canada, Canadian Forest Service, Information Report PS-X-29. (Petawawa Forest Experiment Station: Chalk River, ON)
Van Wagner CE (1987a) Development and structure of the Canadian Forest Fire Weather Index System. Environment Canada, Forestry Technical Report 35. (Canadian Forestry Service: Ottawa, ON)
Van Wagner CE (1987b) A moisture content model for medium-sized logging slash. In ‘Proceedings of the 9th conference on fire and forest meteorology’. pp. 34–40. (American Meteorological Society: Boston, MA)
Van Wilgen BW , Burgan RE
(1984) Adaptation of the United States Fire Danger Rating System to fynbos conditions. Part II. Historic fire danger in the fynbos biome. South African Forestry Journal 129, 66–78.
Weick KE, Sutcliffe KM (2001) ‘Managing the unexpected: assuring high performance in an age of complexity.’ (Jossey-Bass, A Wiley Company: San Francisco)
White RA, Rush MF (1990) The Jiagedaqui fire management project (JIAPRO): an example of international assistance. In ‘The art and science of fire management’. Proceedings of the first Interior West Fire Council annual meeting and workshop. (Tech. coords ME Alexander, GF Bisgrove) pp. 287–296. Forestry Canada, Information Report NOR-X-309. (Northern Forestry Centre: Edmonton, AB)
Wilmore B (2001) Duff moisture dynamics in black spruce–feathermoss stands and their relation to the Canadian Forest Fire Danger Rating System. MSc Thesis, University of Alaska.
Williams DE (1964) ‘Forest fire danger manual.’ Publication No. 1027. (Canada Department of Forestry: Ottawa, ON)
Wilson K
(2000) Health care, federalism and the new Social Union. Canadian Medical Association Journal 162, 1171–1174.
Wright JG (1933) ‘Forest fire hazard tables for mixed red and white pine forests, eastern Ontario and western Quebec regions.’ (Canada Department of the Interior, Dominion Forest Service: Ottawa, ON)
1 Therefore I say: One who knows the enemy and knows himself will not be in danger in a hundred battles. One who does not know the enemy but knows himself will sometimes win, sometimes lose. One who does not know the enemy and does not know himself will be in danger in every battle’ (
Tzu 1963).
2 Forest Practices Act of British Columbia, Revised Statutes of British Columbia, 1996.
