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

Factors influencing wildfire occurrence and distribution in eastern Kentucky, USA

John K. Maingi A B and Mary C. Henry A
+ Author Affiliations
- Author Affiliations

A Department of Geography, Miami University, Oxford, OH 45056, USA.

B Corresponding author. Email: maingijk@muohio.edu

International Journal of Wildland Fire 16(1) 23-33 https://doi.org/10.1071/WF06007
Published: 20 February 2007

Abstract

Most wildfires in Kentucky occur in the heavily forested Appalachian counties in the eastern portion of the state. In the present study, we reconstructed a brief fire history of eastern Kentucky using Landsat Thematic Mapper and Enhanced Thematic Mapper Plus images acquired between 1985 and 2002. We then examined relationships between fire occurrence and area burned, and abiotic and human factors. Abiotic factors included Palmer Drought Severity Index, slope, aspect, and elevation, and human factors included county unemployment rates, distance to roads, and distance to populated places. Approximately 83% of the total burned area burned only once, 14% twice, and 3% thrice. More fires burned in the winter compared with the fall, but the latter fires were larger on average and accounted for ~71% of the total area burned. Fire size was negatively correlated with Palmer Drought Severity Index for certain times of the year. There were significant relationships between elevation and slope and fire occurrence, but not between aspect and fire occurrence. We found links between fire location and proximity to roads and settlements, but we found no correlations between monthly unemployment rates and arson-caused fires.

Additional keywords: Appalachia, Landsat, mixed mesophytic forest, spatial patterns, surface fire.


References


Beers TW, Press PE , Wensel LC (1966) Aspect transformation in site productivity research. Journal of Forestry  64, 691–692.
Bolgiano C (1998) ‘The Appalachian Forest: A Search for Roots and Renewal.’ (Stackpole Books: Mechanicsburg, PA)

Bowman DMJS, Walsh A , Prior LD (2004) Landscape analysis of Aboriginal fire management in Central Arnhem Land, north Australia. Journal of Biogeography  31, 207–223.
Crossref | GoogleScholarGoogle Scholar | Braun EL (1950) ‘Deciduous Forest of Eastern North America.’ (Hafner Publishing: New York)

Cardille JA, Ventura SJ , Turner MG (2001) Environmental and social factors influencing wildfires in the upper Midwest, United States. Ecological Applications  11, 111–127.
Crossref | GoogleScholarGoogle Scholar | Christensen NL (1991) Variable fire regimes on complex landscapes: ecological consequences, policy implications, and management strategies. In ‘Fire and the Environment: Ecological and Cultural Perspectives’. (Eds SC Nodvin, TA Waldrop) pp. ix–xiii. USDA Forest Service, Southeastern Forest Experiment Station General Technical Report SE-69. (Asheville, NC)

Daniel Boone National Forest (2005) ‘Plant Species of the Daniel Boone National Forest.’ Available at http://www.fs.fed.us/r8/boone/resources/plants/index.shtm [Verified 13 August 2005]

Diaz-Delgado R , Pons X (2001) Spatial patterns of forest fires in Catalonia (NE of Spain) along the period 1975–1995: analysis of vegetation recovery after fire. Forest Ecology and Management  147, 67–74.
Crossref | GoogleScholarGoogle Scholar | Doolittle ML, Lightsey ML (1979) Southern Woods-Burners: A Descriptive Analysis. USDA Forest Service, Southern Forest Experiment Station Research Paper SO-151. (New Orleans, LA)

Fekedulegn D, Hicks RR , Colbert JJ (2003) Influence of topographic aspect, precipitation and drought on radial growth of four major tree species in an Appalachian watershed. Forest Ecology and Management  177, 409–425.
Crossref | GoogleScholarGoogle Scholar | Hayes M (2003) ‘Drought Indices.’ (National Drought Mitigation Center) Available at http://www.drought.unl.edu/whatis/Indices.pdf [Verified 18 October 2003]

Hudak AT , Brockett BH (2004) Mapping fire scars in a southern African savannah using Landsat imagery. International Journal of Remote Sensing  25, 3231–3243.
Crossref | GoogleScholarGoogle Scholar | Ingalsbee T (2000) ‘Money to Burn: the Economics of Fire and Fuels Management.’ (American Lands Alliance: Washington, DC)

Kirby JT (1995) ‘The Countercultural South.’ (University of Georgia Press: Athens, GA)

Kuhlken R (1999) Settin’ the woods on fire: rural incendiarism as protest. Geographical Review  89, 343–363.
Crossref | GoogleScholarGoogle Scholar | McGrain P, Currens J (1978) ‘Topography of Kentucky.’ Special Publication 25. (Kentucky Geological Survey: Lexington, KY)

Minnich RA (1983) Fire mosaics in southern California and northern Baja California. Science  219, 1287–1294.
Crossref | GoogleScholarGoogle Scholar | Mitchelson RL, Ulack R, Luo Y (1998) Mineral, energy, timber resources. In ‘Atlas of Kentucky’. (Eds R Ulack, K Raitz, G Pauer) pp. 131–152. (The University Press of Kentucky: Lexington, KY)

National Climate Data Center (2005) ‘CLIMVIS: Climate Visualisation System.’ Palmer Drought Severity Index Data. Available at http://lwf.ncdc.noaa.gov/oa/climate/onlineprod/drought/xmgrg3.html [Accessed 20 June 2005]

Pew KL , Larsen CPS (2001) GIS analysis of spatial and temporal patterns of human-caused wildfires in the temperate rainforest of Vancouver Island, Canada. Forest Ecology and Management  140, 1–18.
Crossref | GoogleScholarGoogle Scholar | Pyne SJ (1982) ‘Fire in America.’ (Princeton University Press: Princeton, NJ)

Pyne SJ, Andrews PL, Laven RD (1996) ‘Introduction to Wildland Fire.’ 2nd edn. (John Wiley & Sons: New York)

Rosenberg NJ, Blad BL, Verma SB (1983) ‘Microclimate – The Biological Environment.’ (John Wiley and Sons: New York)

Russell-Smith J, Ryan PG , Durieu R (1997) A LANDSAT MSS-derived fire history of Kakadu National Park, monsoonal northern Australia, 1980–94: seasonal extent, frequency and patchiness. Journal of Applied Ecology  34, 748–766.
Crossref | GoogleScholarGoogle Scholar | Smalley GW (1986) Classification and Evaluation of Forest Sites on the Northern Cumberland Plateau. USDA Forest Service, Southern Forest Experiement Station General Technical Report SO-060. (New Orleans, LA)

Stephens SL (2005) Forest fire causes and extent on United States Forest Service lands. International Journal of Wildland Fire  14, 213–222.
Crossref | GoogleScholarGoogle Scholar | Sullivan J (1995) Oak–hickory forest. In ‘Fire Effects Information System’. USDA Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available at http://www.fs.fed.us/database/feis/ [Verified 14 January 2006]

Teillet PM, Guindon B , Goodenough DG (1982) On the slope-aspect correction of multispectral scanner data. Canadian Journal of Remote Sensing  8, 84–106.
United States Bureau of Labor Statistics (2005) Monthly unemployment data by county for Kentucky, 1990 to present. Available at http://www.bls.gov/data/home.htm [Verified 10 October 2005]

US Census Bureau (2005) Three-year-average median household income by State: 2001–2003. Available at http://www.census.gov/hhes/www/income/income03/statemhi.html [Verified 10 October 2005]

Vazquez A , Moreno JM (2001) Spatial distribution of forest fires in Sierra de Gredos (Central Spain). Forest Ecology and Management  147, 55–65.
Crossref | GoogleScholarGoogle Scholar | Willis M (2004) ‘Bushfire Arson: A Review of the Literature.’ Research and Public Policy Series No. 61. (Australian Institute of Criminology: Canberra)

Xu M, Chen J , Brookshire BL (1997) Temperature and its variability in oak forests in the south-eastern Missouri Ozarks. Climate Research  8, 209–223.


Zhai Y, Munn IA , Evans DL (2003) Modeling forest fire probabilities in the south central United States using FIA data. Southern Journal of Applied Forestry  27, 11–17.