Interpreting and using outputs from the Canadian Forest Fire Danger Rating System in research applications

Alexander ME, Lanoville RA (1989) Predicting fire behaviour in the black spruce-lichen woodland: the Porter Lake Project. Poster with text. Forestry Canada, Canadian Forest Service, Northern Forestry Centre, Edmonton, Alberta and Government of the Northwest Territories, Department of Renewable Resources, Fort Smith, NWT

Amiro BD, Stocks BJ, Alexander ME, Flannigan MD, Wotton BM (2001) Fire, climate change, carbon and fuel management in the Canadian boreal forest. Int J Wildland Fire 10(3/4): 405–413

Anderson KR (2002) A model to predict lightning-caused fire occurrences. Int J Wildland Fire 11: 163–172

Beverly JL, Wotton BM (2007) Modelling the probability of sustained flaming: predictive value of fire weather index components compared with observations of site weather and fuel moisture conditions. Int J Wildland Fire 16(2): 161–173

Byram GM (1959) Combustion of forest fuels. In: Davis KP(eds) Forest Fire: control and use. McGraw-Hill, New York, pp 61–89

Cunningham AA, Martell DL (1973) A stochastic model for the occurrence of man-caused forest fires. Can J Forest Res 3: 282–287

Deeming JE, Burgan RE, Cohen JD (1977) The national Fire-Danger Rating System–1978. USDA For. Serv. Gen. Tech. Rep. INT-39, 63 p. Intermountain Forest and Range Experiment Station, Ogden, Utah, 84401

De Groot B, Wardati , Wang Y (2005) Calibrating the fine fuel moisture code for grass ignition potential in Sumatra, Indonesia. Int J Wildland Fire 14(2): 161–168

Ecological Stratification Working Group (1996) A National Ecological Framework for Canada. Agriculture and Agri-Food Canada, Research Branch, Centre for Land and Biological Resources Research and Environment Canada, State of Environment Directorate, Ottawa/Hull. pp 125

Flannigan MD, Harrington JB (1988) A study of the relation of meteorological variables to monthly provincial area burned by wildfire in Canada (1953–1980). J Appl Meteorol 27: 441–452

Flannigan MD, Van Wagner CE (1991) Climate change and wildfire in Canada. Can J Forest Res 21: 66–72

Flannigan MD, Bergeron Y, Engelmark O, Wotton BM (1998) Future wildfire in circumboreal forests in relation to global warming. J Veg Sci 9: 469–476

Flannigan MD, Stocks BJ, Wotton BM (2000) Forest fires and climate change. Sci Total Environ 262(3): 221–229

Flannigan MD, Logan KA, Amiro BD, Skinner WR, Stocks BJ (2005) Future area burned in Canada. Climatic Change 72: 1–16

Forestry Canada Fire Danger Group (1992) Development and structure of the Canadian forest fire behaviour prediction system. Ottawa, Ontario, Forestry Canada, Science and Sustainable Development Directorate. Report ST-X-3

Girardin M-P, Tardif J, Flannigan MD, Wotton BM, Bergeron Y (2004) Trends and periodicities in the Canadian Drought Code and their relationships with atmospheric circulation for the southern Canadian boreal forest. Can J Forest Res 34(1): 103–119

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 1953–1980. Canadian Forestry Service. Petawawa National Forestry Institute, Information Teport PI-X-25, Chalk River, ON, Canada

Keetch JJ, Byram G (1968) A drought index for forest fire control. Res. Paper SE-38. Asheville, NC: U.S. Department of Agriculture, Forest Service, Southeastern Forest Experiment Station

Kourtz PH, Todd JB (1992) Predicting the daily occurrence of lightning-caused forest fires. Information Report. PI-X-112. Petawawa National Forestry Institute, Chalk River, ON

Lawson BD (1973) Fire behaviour in lodgepole pine stands related to the Canadian Fire Weather Index. Canadian Forest Service, Pacific Forestry Centre, Victoria, B.C. information Report BC-X-76

Lawson BD, Armitage OB, Hoskins WD (1996a) Diurnal variation in the Fine Fuel Moisture Code: tables and computer source code. Canada–British Columbia Partnership Agreement on Forest Resource Development: FRDA II. FRDA Report 245. Canadian Forest Service, Pacific Forestry Centre, Victoria, BC

Lawson BD, Dalrymple GN (1996b) Ground-truthing the Drought Code: field verification of over-winter recharge of forest floor moisture. Canada-British Columbia Partnership agreement on Forest Resource Development: FRDA II. Report 268. Canadian Forest Service, Victoria, B.C

Lawson BD, Dalrymple GN, Hawkes BC (1997) Predicting forest floor moisture from duff moisture code values. Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, Victoria, B.C. Forest Research Applications Technology Transfer Note #6

Martell DL, Otukol S, Stocks BJ (1987) A logistic model for predicting daily people-caused forest fire occurrence in Ontario. Can J Forest Res 17(5): 394–401

Martell DL, Bevilacqua E, Stocks BJ (1989) Modelling seasonal variation in daily people-caused forest fire occurrence. Can J Forest Res 19(12): 1555–1563

Martell DL (2001) Forest Fire Management. Chapter 15 In: Johnson E, Miyanishi K (eds) Forest Fires, Academic Press, San Diego, CA, USA

McCullagh P, Nelder J (1989) Generalized linear models. Chapman and Hall, London, UK, p 511

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. Canadian Forest Service, Facific Forestry Centre, Information Report BC-X-37

Palmer WC (1988) The Palmer Drought Index: When and how it was developed. Wkly Weather Crop Bull 75(28): 5

Paul PM (1969) Field Practices in forest fire danger rating. Canadian Forest Service, forest Fire research Institute, Information Report FF-X-20

Poulin-Costello M (1993) People-caused forest fire prediction using Poisson and logistic regression. Masters of Science thesis. Department of Mathematics and Statistics, University of Victoria, Victoria, B.C., Canada

Quintilio D, Fahnestock GR, Dube DE (1977) Fire behaviour un upland Jack Pine: The Darwin Lake Project. Canadian Forest Service, Northern Forestry Centre, Information Report NOR-X-174

SAS Institute (2002) SAS/STAT v 8.0 Procedures Guide. SAS Institue, Cary, N. Carolina

Simard AJ (1970) Reference manual and summary of test fire, fuel moisture and weather observations made by forest fire researchers between 1931 and 1961. Canadian Forest Service, Forest Fire Research Institute, Information Report FF-X-19

Stocks BJ (1987) Fire behaviour in immature jack pine. Can J Forest Res 17: 80–86

Stocks BJ (1989) Fire behaviour in mature jack pine. Can J Forest Res 19: 783–190

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 Chron 65: 450–457

Stocks BJ, Fosberg MA, Lynham TJ, Mearns L, Wotton BM, Yang Q et al (1998) Climate change and forest fire potential in Russian and Canadian boreal forests. Climatic Change 38(1): 1–13

Stocks BJ, Mason JA, Todd JB, Bosch EM, Amiro BD, Flannigan MD, Martell DL, Wotton BM, Logan KA, Hirsch KG (2002) Large forest fires in Canada, 1959–1997. J Geophys Res (D) 107:8149, doi: 10.1029/2001JD000484

Todd JB, Kourtz PH (1992) Predicting the daily occurrence of people-caused forest fires. Canadian Forest Service, Petawawa National Forestry Institute, Information Report PI-X-103. Chalk River, Ontario

Van Wagner CE (1973) Height of crown scorch in forest fires. Can J Forest Res 3: 373–378

Van Wagner CE (1974) The structure of the Canadian Forest Fire Weather Index System. Canadian Forest Service, Petawawa Forest Experiment Station. Chalk River, Ont. Publication 1333

Van Wagner CE (1977) A method of computing fine fuel moisture content throughout the diurnal cycle. Petawawa Forest Experiment Station, Chalk River, ON. Information Report PS-X-69

Van Wagner CE (1987) The development and structure of the Canadian Forest Fire Weather Index System. Canadian Forest Service, Petawawa National Forestry Institute. Chalk River, Ont. FTR-35

Vega-Garcia C, Woodard PM, Titus SJ, Adamowicz WL, Lee BS (1995) A logit model for predicting the daily occurrence of human caused forest fires. Int J Wildland Fire 5(2): 101–112

Ward PC, Tithecott AG, Wotton BM (2001) Reply–A re-examiniation of the effects of suppression in the boreal forest. Can J Forest Res 31: 1467–1480

Wilmore B (2001) Duff moisture dynamics in black spruce feather moss stands and their relation to the Canadian Forest Fire Danger Rating System. M. Sc. Thesis. University of Alaska Fairbanks. Fairbanks, Alaska

Wotton BM, Martell DM, Logan KA (2003) Climate change and people-caused forest fire occurrence in Ontario. Climatic Change 60: 275–295

Wotton BM, Beverly JL (2007) Stand specific litter moisture content calibrations for the Canadian Fine Fuel Moisture Code. Int J Wildland Fire 16(4): 463–472

Wotton BM, Martell DM (2005) A lightning fire occurrence model for Ontario. Can J Forest Res 35(6): 1389–1401

Wotton BM, Stocks BJ, Martell DM (2005) An index for tracking sheltered forest floor moisture within the Canadian Forest Fire Weather Index System. Int J Wildland Fire 13(2): 169–182