Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire
RESEARCH ARTICLE

Spatial and temporal variations of fire regimes in the Canadian Rocky Mountains and Foothills of southern Alberta

Marie-Pierre Rogeau A B F , Mike D. Flannigan B , Brad C. Hawkes C , Marc-André Parisien D and Rick Arthur E
+ Author Affiliations
- Author Affiliations

A Wildland Disturbance Consulting, PO Box 2421, Banff, AB, T1L 1C2, Canada.

B Department of Renewable Resources, University of Alberta, Edmonton, AB, T6G 2H1, Canada.

C Canadian Forest Service, Pacific Forestry Centre, Victoria, BC, V8Z 1M5, Canada.

D Canadian Forest Service, Northern Forestry Centre, 5320 – 122 Street, Edmonton, AB, T6H 3S5, Canada.

E Alberta Agriculture and Forestry, Southern Rockies Area, 8660 Bearspaw Dam Road NW, Calgary, AB, T3L 1S4, Canada.

F Corresponding author. Email: mprogeau@telusplanet.net

International Journal of Wildland Fire 25(11) 1117-1130 https://doi.org/10.1071/WF15120
Submitted: 30 June 2015  Accepted: 1 August 2016   Published: 28 September 2016

Abstract

Like many fire-adapted ecosystems, decades of fire exclusion policy in the Rocky Mountains and Foothills natural regions of southern Alberta, Canada are raising concern over the loss of ecological integrity. Departure from historical conditions is evaluated using median fire return intervals (MdFRI) based on fire history data from the Subalpine (SUB), Montane (MT) and Upper Foothills (UF) natural subregions. Fire severity, seasonality and cause are also documented. Pre-1948 MdFRI ranged between 65 and 85 years in SUB, between 26 and 35 years in MT and was 39 years in UF. The fire exclusion era resulted in a critical departure of 197–223% in MT (MdFRI = 84–104 years). The departure in UF was 170% (MdFRI = 104 years), while regions of continuous fuels in SUB were departed by 129% (MdFRI = 149 years). The most rugged region of SUB is within its historical range of variation with a departure of 42% (MdFRI = 121 years). More mixed-severity burning took place in MT and UF. SUB and MT are in a lightning shadow pointing to a predominance of anthropogenic burning. A summer fire season prevails in SUB, but occurs from spring to fall elsewhere. These findings will assist in developing fire and forest management policies and adaptive strategies in the future.

Additional keywords: fire history, Kaplan–Meier, montane, subalpine, survival analysis.


References

Alberta Agriculture and Forestry (2016a) FireSmart landscape. Available at http://wildfire.alberta.ca/fire-smart-landscapes/default.aspx [Verified 18 June 2016]

Alberta Agriculture and Forestry (2016b) Historical wildfire information. Available at http://wildfire.alberta.ca/wildfire-maps/historical-wildfire-information/default.aspx [Verified 18 June 2016]

Allen CD, Savage M, Falk DA, Suckling KF, Swetnam TW, Schulke T, Stacey PB, Morgan P, Hoffman M, Klingel JT (2002) Ecological restoration of southwestern ponderosa pine ecosystems: a broad perspective. Ecological Applications 12, 1418–1433.
Ecological restoration of southwestern ponderosa pine ecosystems: a broad perspective.Crossref | GoogleScholarGoogle Scholar |

Amoroso MM, Daniels LD, Bataineh M, Andison DW (2011) Evidence of mixed-severity fires in the foothills of the Rocky Mountains of west-central Alberta, Canada. Forest Ecology and Management 262, 2240–2249.
Evidence of mixed-severity fires in the foothills of the Rocky Mountains of west-central Alberta, Canada.Crossref | GoogleScholarGoogle Scholar |

Barrett SW, Arno SF (1982) Indian fires as an ecological influence in the northern Rockies. Journal of Forestry 80, 647–651.

Beierle B, Smith DG (1998) Severe drought in the early Holocene (10,000–6800 BP) interpreted from lake sediment cores, southwestern Alberta, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology 140, 75–83.
Severe drought in the early Holocene (10,000–6800 BP) interpreted from lake sediment cores, southwestern Alberta, Canada.Crossref | GoogleScholarGoogle Scholar |

Bergeron Y, Leduc A, Harvey BD, Gauthier S (2002) Natural fire regime: a guide for sustainable management of the Canadian boreal forest. Silva Fennica 36, 553
Natural fire regime: a guide for sustainable management of the Canadian boreal forest.Crossref | GoogleScholarGoogle Scholar |

Brown RT, Agee JK, Franklin JF (2004) Forest restoration and fire: principles in the context of place. Conservation Biology 18, 903–912.
Forest restoration and fire: principles in the context of place.Crossref | GoogleScholarGoogle Scholar |

Coues E (ed) (1897) ‘New light on the early history of the Greater Northwest. The Manuscript Journals of Alexander Henry and of David Thompson 1799 – 1814’. Vol. I, II, III. (Francis P. Harper, New York, USA)

Countryman CM (1972) The fire environment concept. USDA Forest Service, Pacific Southwest Range and Experiment Station. (Berkeley, CA)

Cousineau D (2009a) Fitting the three-parameter Weibull distribution: review and evaluation of existing and new methods. IEEE Transactions on Dielectrics and Electrical Insulation 16, 281–288.
Fitting the three-parameter Weibull distribution: review and evaluation of existing and new methods.Crossref | GoogleScholarGoogle Scholar |

Cousineau D (2009b) Nearly unbiased estimators for the three-parameter Weibull distribution with greater efficiency than the iterative likelihood method. British Journal of Mathematical & Statistical Psychology 62, 167–191.
Nearly unbiased estimators for the three-parameter Weibull distribution with greater efficiency than the iterative likelihood method.Crossref | GoogleScholarGoogle Scholar |

Covington W, Fule P, Moore M, Hart S, Kolb T, Mast J, Sackett S, Wagner M (1997) Restoring ecosystem health in ponderosa pine forests of the southwest. Journal of Forestry 95, 23–29.

Department of the Interior (1904–1942) Reports of the Superintendent of Forestry. Dominion of Canada. (Ottawa, ON)

Drobyshev I, Goebel PC, Hix DM, Corace RG, Semko-Duncan ME (2008) Pre- and post-European settlement fire history of red pine dominated forest ecosystems of Seney National Wildlife Refuge, Upper Michigan. Canadian Journal of Forest Research 38, 2497–2514.
Pre- and post-European settlement fire history of red pine dominated forest ecosystems of Seney National Wildlife Refuge, Upper Michigan.Crossref | GoogleScholarGoogle Scholar |

Environment Canada (2016a) Historical data Kananaskis weather station. Available at http://www.climate.weather.gc.ca/climate_normals/results_1981_2010_e.html?stnID=2402&autofwd=1 [Verified 18 June 2016]

Environment Canada (2016b) Historical data High River weather station. Available at http://www.climate.weather.gc.ca/climate_normals/results_1981_2010_e.html?stnID=2255&autofwd=1 [Verified 18 June 2016]

Francis PD, Langemann EJ (1993) Cultural resource management and archaeological research initiatives at the Christensen site, Banff National Park. Parks Canada research bulletin no. 303. Parks Canada, Western Service Centre. (Calgary, Alberta).

Fulé PZ, Covington WW, Moore MM (1997) Determining reference conditions for ecosystem management of southwestern ponderosa pine forests. Ecological Applications 7, 895–908.
Determining reference conditions for ecosystem management of southwestern ponderosa pine forests.Crossref | GoogleScholarGoogle Scholar |

Gallant AL, Hansen AJ, Councilman JS, Monte DK, Betz DW (2003) Vegetation dynamics under fire exclusion and logging in a Rocky Mountain watershed, 1856–1996. Ecological Applications 13, 385–403.
Vegetation dynamics under fire exclusion and logging in a Rocky Mountain watershed, 1856–1996.Crossref | GoogleScholarGoogle Scholar |

Grissino-Mayer HD (1999) Modeling fire interval data from the American southwest with the Weibull distribution. International Journal of Wildland Fire 9, 37–50.
Modeling fire interval data from the American southwest with the Weibull distribution.Crossref | GoogleScholarGoogle Scholar |

Hallett DJ, Mathewes RW, Walker RC (2003) A 1000-year record of forest fire, drought and lake-level change in southeastern British Columbia, Canada. The Holocene 13, 751–761.
A 1000-year record of forest fire, drought and lake-level change in southeastern British Columbia, Canada.Crossref | GoogleScholarGoogle Scholar |

Hann WJ (2004) Mapping fire regime condition class: a method for watershed and project scale analysis. In ‘Proceedings of the 22nd tall timbers fire ecology conference: fire in temperate, boreal, and montane ecosystems’. (Eds RT Engstrom, KEM Galley and WJ de Groot) pp. 70–87. Tall Timbers Research Station. (Tallahassee, FL)

Hardy CC, Schmidt KM, Menakis JP, Samson NR (2001) Spatial data for national fire planning and fuel management. International Journal of Wildland Fire 10, 353–372.
Spatial data for national fire planning and fuel management.Crossref | GoogleScholarGoogle Scholar |

Harvey BD, Leduc A, Gauthier S, Bergeron Y (2002) Stand-landscape integration in natural disturbance-based management of the southern boreal forest. Forest Ecology and Management 155, 369–385.
Stand-landscape integration in natural disturbance-based management of the southern boreal forest.Crossref | GoogleScholarGoogle Scholar |

Johnson EA, Gutsell SL (1994) Fire frequency models, methods and interpretations. Advances in Ecological Research 25, 239–287.
Fire frequency models, methods and interpretations.Crossref | GoogleScholarGoogle Scholar |

Johnson EA, Wowchuk DR (1993) Wildfires in the southern Canadian Rocky Mountains and their relationship to mid-tropospheric anomalies. Canadian Journal of Forest Research 23, 1213–1222.
Wildfires in the southern Canadian Rocky Mountains and their relationship to mid-tropospheric anomalies.Crossref | GoogleScholarGoogle Scholar |

Kaplan EL, Meier P (1958) Nonparametric estimation from incomplete observations. Journal of the American Statistical Association 53, 457–481.
Nonparametric estimation from incomplete observations.Crossref | GoogleScholarGoogle Scholar |

Kashian DM, Turner MG, Romme WH, Lorimer CJ (2005) Variability and convergence in stand structure with forest development on a fire dominated landscape. Ecology 86, 643–654.
Variability and convergence in stand structure with forest development on a fire dominated landscape.Crossref | GoogleScholarGoogle Scholar |

Keane RE, Ryan KC, Veblen TT, Allen CD, Logan J, Hawkes B (2002) Cascading effects of fire exclusion in Rocky Mountain ecosystems: a literature review. USDA Forest Service, Fort Collins Research Station, General Technical Report RMRS-GTR-91. (Fort Collins, CO)

Keeley JE, Aplet GH, Christensen NL, Conard SC, Johnson EA, Omi PN, Peterson DL, Swetnam TW (2009) Ecological foundations for fire management in North American forest and shrubland ecosystems. USDA Forest Service, Pacific Northwest Research Station, General Technical Report PNW-GTR-779. (Portland, OR) Available at http://www.fs.fed.us/pnw/pubs/pnw_gtr779.pdf [Verified 4 August 2016]

Kleinbaum DG, Klein M (2012) ‘Survival analysis: a self-learning text’, 3rd edn. (Springer, New York, NY)

Lewis HT (1977) Maskuta: the ecology of Indian fires in northern Alberta. The Western Canadian Journal of Anthropology 7, 15–52.

Lewis HT, Ferguson TA (1988) Yards, corridors, and mosaics: how to burn a boreal forest. Human Ecology 16, 57–77.
Yards, corridors, and mosaics: how to burn a boreal forest.Crossref | GoogleScholarGoogle Scholar |

Long JN (2009) Emulating natural disturbance regimes as a basis for forest management: a North American view. Forest Ecology and Management 257, 1868–1873.
Emulating natural disturbance regimes as a basis for forest management: a North American view.Crossref | GoogleScholarGoogle Scholar |

Lotan JE (1967) Cone serotiny of lodgepole pine near west Yellowstone, Montana. Forest Science 13, 55–59.

Lotan J, Brown J, Neuenschwander L (1985) Role of fire in lodgepole pine forests. In ‘Proceedings of the symposium: Lodgepole pine the species and its management’. (Eds D Baumgartner, RG Krebill, JT Arnott, GF Weetman) pp. 133–152. (Washington State University, Pullman)

Macdonald GM (1989) Postglacial palaeoecology of the subalpine forest grassland ecotone of southwestern Alberta: new insights on vegetation and climate change in the Canadian Rocky Mountains and adjacent Foothills. Palaeogeography, Palaeoclimatology, Palaeoecology 73, 155–173.
Postglacial palaeoecology of the subalpine forest grassland ecotone of southwestern Alberta: new insights on vegetation and climate change in the Canadian Rocky Mountains and adjacent Foothills.Crossref | GoogleScholarGoogle Scholar |

Marcoux HM, Daniels LD, Gergel SE, Da Silva E, Gedalof Z, Hessburg PF (2015) Differentiating mixed- and high-severity fire regimes in mixed-conifer forests of the Canadian Cordillera. Forest Ecology and Management 341, 45–58.
Differentiating mixed- and high-severity fire regimes in mixed-conifer forests of the Canadian Cordillera.Crossref | GoogleScholarGoogle Scholar |

Meier P, Karrison T, Chappell R, Xie H (2004) The price of Kaplan–Meier. Journal of the American Statistical Association 99, 890–896.
The price of Kaplan–Meier.Crossref | GoogleScholarGoogle Scholar |

Merrill DF, Alexander ME (Eds) (1987) Glossary of forest fire management terms’, 4th edn. Canadian Committee on Forest Fire Management, National Research Council of Canada, Pub. NRCC No. 26516. (Ottowa. ON)

Moore MM, Covington WW, Fulé PZ (1999) Reference conditions and ecological restoration: a southwestern ponderosa pine perspective. Ecological Applications 9, 1266–1277.
Reference conditions and ecological restoration: a southwestern ponderosa pine perspective.Crossref | GoogleScholarGoogle Scholar |

Morgan P, Aplet GH, Haufler JB, Humphries HC, Moore MM, Wilson WD (1994) Historical range of variability. Journal of Sustainable Forestry 2, 87–111.
Historical range of variability.Crossref | GoogleScholarGoogle Scholar |

Morgan P, Hardy CC, Swetnam TW, Rollins MG, Long DG (2001) Mapping fire regimes across time and space: understanding coarse and fine-scale fire patterns. International Journal of Wildland Fire 10, 329–342.
Mapping fire regimes across time and space: understanding coarse and fine-scale fire patterns.Crossref | GoogleScholarGoogle Scholar |

Moritz MA (2003) Spatiotemporal analysis of controls of shrubland fire regimes: age dependency and fire hazard. Ecology 84, 351–361.
Spatiotemporal analysis of controls of shrubland fire regimes: age dependency and fire hazard.Crossref | GoogleScholarGoogle Scholar |

Moritz MA, Batllori E, Bradstock RA, Gill AM, Handmer J, Hessburg PF, Leonard J, McCaffrey S, Odion DC, Schoennagel T, Syphard AD (2014) Learning to coexist with wildfire. Nature 515, 58–66.
Learning to coexist with wildfire.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC2cXitFanu77P&md5=e547e64791a8f052b9d5cf85bddc57b2CAS | 25373675PubMed |

Murphy PJ (1985) History of forest and prairie fire control policy in Alberta. ENR Report Number T/77. Forest Service, Alberta Energy and Natural Resources Development, Edmonton, AB.

Natural Regions Committee (2006) Natural regions and subregions of Alberta. Compiled by DJ Downing and WW Pettapiece. Government of Alberta, Pub. No. T/852. Available at http://www.albertaparks.ca/media/2942026/nrsrcomplete_may_06.pdf [Verified 4 August 2016]

Noss RF (2000) High-risk ecosystems as foci for considering biodiversity and ecological integrity in ecological risk assessments. Environmental Science & Policy 3, 321–332.
High-risk ecosystems as foci for considering biodiversity and ecological integrity in ecological risk assessments.Crossref | GoogleScholarGoogle Scholar |

Polakow DA, Dunne TT (1999) Modelling fire-return interval T: stochasticity and censoring in the two-parameter Weibull model. Ecological Modelling 121, 79–102.
Modelling fire-return interval T: stochasticity and censoring in the two-parameter Weibull model.Crossref | GoogleScholarGoogle Scholar |

Pyne SJ, Andrews PL, Laven RD (1996) ‘Introduction to wildland fire’, 2nd edn. (John Wiley and Sons: New York, NY)

R Core Team (2016) R: a language and environment for statistical computing – reference index version 3.0.2. (R Foundation for Statistical Computing: Vienna, Austria). Available at http://cran.rproject.org/doc/manuals/refman.pdf [Verified 18 June 2016]

Rhemtulla JM, Hall RJ, Higgs ES, Macdonald SE (2002) Eighty years of change: vegetation in the montane ecoregion of Jasper National Park, Alberta, Canada. Canadian Journal of Forest Research 32, 2010–2021.
Eighty years of change: vegetation in the montane ecoregion of Jasper National Park, Alberta, Canada.Crossref | GoogleScholarGoogle Scholar |

Rogeau M-P (2004) Fire regime study Kananaskis Country, Alberta. Technical report prepared for Spray Lake Sawmills Ltd, Cochrane, AB, and Alberta Community Development Parks and Protected Areas, Canmore, AB.

Rogeau M-P, Parisien M-A, Flannigan MD (2016) Fire history sampling strategy of fire intervals associated with mixed- to full-severity fires in southern Alberta, Canada. Forest Science
Fire history sampling strategy of fire intervals associated with mixed- to full-severity fires in southern Alberta, Canada.Crossref | GoogleScholarGoogle Scholar |

Rollins MG, Morgan P, Swetnam T (2002) Landscape-scale controls over 20th century fire occurrence in two large Rocky Mountain (USA) wilderness areas. Landscape Ecology 17, 539–557.
Landscape-scale controls over 20th century fire occurrence in two large Rocky Mountain (USA) wilderness areas.Crossref | GoogleScholarGoogle Scholar |

Romme W (1980) Fire history terminology: report of the ad hoc committee. In ‘Proceedings of the fire history workshop’. (Eds MA Stokes, JH Dieterich) USDA Forest Service, Rocky Mountain and Range Experiment Station, General Technical Report RM-GTR-81, pp. 135–137. (Fort Collins, CO).

Schmidt KM, Menakis JP, Hardy CC, Hann WJ, Bunnell DL (2002) Development of coarse-scale spatial data for wildland fire and fuel management. USDA Forest Service, Rocky Mountain Research Station, General Technical Report RMRS-GTR-87. ( (Fort Collins, CO).

Schoennagel T, Turner MG, Romme WH (2003) The influence of fire interval and serotiny on postfire lodgepole pine density in Yellowstone National Park. Ecology 84, 2967–2978.
The influence of fire interval and serotiny on postfire lodgepole pine density in Yellowstone National Park.Crossref | GoogleScholarGoogle Scholar |

Schweger CE, Hickman M (1989) Holocene paleohydrology of central Alberta: testing the general-circulation-model climate simulations. Canadian Journal of Earth Sciences 26, 1826–1833.
Holocene paleohydrology of central Alberta: testing the general-circulation-model climate simulations.Crossref | GoogleScholarGoogle Scholar |

Sherriff RL, Veblen TT, Sibold JS (2001) Fire history in high elevation subalpine forests in the Colorado Front Range. Ecoscience 8, 369–380.

Sibold JS, Veblen TT, Gonzalez ME (2006) Spatial and temporal variation in historic fire regimes in subalpine forests across the Colorado Front Range in Rocky Mountain National Park, Colorado, USA. Journal of Biogeography 33, 631–647.
Spatial and temporal variation in historic fire regimes in subalpine forests across the Colorado Front Range in Rocky Mountain National Park, Colorado, USA.Crossref | GoogleScholarGoogle Scholar |

Speer JH (2010) ‘Fundamentals of tree-ring research.’ (The University of Arizona Press: Tucson, AZ).

Spry IM (1995) ‘The Palliser expedition - the dramatic story of western Canadian exploration 1857–1860’. 2nd edn. (Fifth House Ltd Publishers: Calgary, AB, Canada).

Swetnam TW, Allen CD, Betancourt JL (1999) Applied historical ecology: using the past to manage for the future. Ecological Applications 9, 1189–1206.
Applied historical ecology: using the past to manage for the future.Crossref | GoogleScholarGoogle Scholar |

Therneau TM (2016) Survival analysis R package. Available at https://cran.r-project.org/web/packages/survival/index.html [Verified 18 June 2016]

Turner MG, Romme WH (1994) Landscape dynamics in crown fire ecosystems. Landscape Ecology 9, 59–77.
Landscape dynamics in crown fire ecosystems.Crossref | GoogleScholarGoogle Scholar |

Watt-Gremm G (2007) Taking a good long look: disturbance, succession, landscape change and repeat photography in the upper Blakiston Valley, Waterton Lakes National Park. MSc Thesis, University of Victoria, Canada.

Werth PA, Potter BE, Clements CB, Finney MA, Goodrick SL, Alexander ME, Cruz MG, Forthofer JA, McAllister SS (2011) Synthesis of knowledge of extreme fire behavior: volume I for fire managers. USDA Forest Service, Pacific Northwest Research Station, General Technical Report PNW-GTR-854. (Portland, OR)

Wierzchowski JL, Heathcott M, Flannigan MD (2002) Lightning and lightning fire, Central Cordillera, Canada. International Journal of Wildland Fire 11, 41–51.
Lightning and lightning fire, Central Cordillera, Canada.Crossref | GoogleScholarGoogle Scholar |