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Journal of the International Association of Wildland Fire
RESEARCH ARTICLE

Fuel loads, fire regimes, and post-fire fuel dynamics in Florida Keys pine forests

Jay P. Sah A E , Michael S. Ross A , James R. Snyder B , Suzanne Koptur C and Hillary C. Cooley D
+ Author Affiliations
- Author Affiliations

A Southeast Environmental Research Center, Florida International University, University Park, Miami, FL 33199, USA.

B US Geological Survey, Florida Integrated Science Center, Ochopee, FL 34141, USA.

C Department of Biological Sciences, Florida International University, Miami, FL 33199, USA.

D Everglades National Park, 40001 State Road 9336, Homestead, FL 33034, USA.

E Corresponding author. Email: sahj@fiu.edu

International Journal of Wildland Fire 15(4) 463-478 https://doi.org/10.1071/WF05100
Published: 7 December 2006

Abstract

In forests, the effects of different life forms on fire behavior may vary depending on their contributions to total fuel loads. We examined the distribution of fuel components before fire, their effects on fire behavior, and the effects of fire on subsequent fuel recovery in pine forests within the National Key Deer Refuge in the Florida Keys. We conducted a burning experiment in six blocks, within each of which we assigned 1-ha plots to three treatments: control, summer, and winter burn. Owing to logistical constraints, we burned only 11 plots, three in winter and eight in summer, over a 4-year period from 1998 to 2001. We used path analysis to model the effects of fuel type and char height, an indicator of fire intensity, on fuel consumption. Fire intensity increased with surface fuel loads, but was negatively related to the quantity of hardwood shrub fuels, probably because these fuels are associated with a moist microenvironment within hardwood patches, and therefore tend to resist fire. Winter fires were milder than summer fires, and were less effective at inhibiting shrub encroachment. A mixed seasonal approach is suggested for fire management, with burns applied opportunistically under a range of winter and summer conditions, but more frequently than that prevalent in the recent past.

Additional keywords: char height; fuel consumption; path analysis; pine rocklands; prescribed fire; slash pine.


References


Agee JK (1977) Fire and fuel dynamics of Sierra Nevada conifers. Forest Ecology and Management  1, 255–265.
Crossref | GoogleScholarGoogle Scholar | Albini FA (1976) ‘Estimating wildfire behavior and effects.’ USDA Forest Service, Intermountain Forest and Range Experimental Station General Technical Report INT-30. (Ogden, UT)

Alexander TR , Dickson JD (1972) Vegetational changes in the National Key Deer Refuge – II. Quarterly Journal of Florida Academy of Science  35, 85–96.
Bergh C, Wisby J (1996) ‘Fire history of Lower Keys pine rocklands.’ (The Nature Conservancy, Florida Keys Initiative: Key West, FL)

Bessie WC , Johnson EA (1995) The relative importance of fuels and weather on fire behavior in sub-alpine forests. Ecology  76, 747–762.
Crossref | GoogleScholarGoogle Scholar | Bond WJ, van Wilgen BW (1996) ‘Fire and plants.’ (Chapman and Hall: London)

Brown AA, Davis KP (1973) ‘Forest fire: control and use.’ 2nd edn. (McGraw Hill: New York)

Brown S , Lugo AE (1982) The storage and production of organic matter in tropical forests and their role in the global carbon cycle. Biotropica  14, 161–187.
Crossref | GoogleScholarGoogle Scholar | Byram GM (1959) Combustion of forest fuels. In ‘Forest fire: control and use’. (Ed. KP Davis) pp. 61–89. (McGraw-Hill: New York)

Cooley HC (2004) Palm fuel dynamics in fire-sustained pine forests in the Florida Keys. MSc Thesis, Florida International University, Miami, FL.

DeBano LF, Neary DG, Folliot PF (1998) ‘Fire’s effects on ecosystems.’ (John Wiley and Sons: New York)

De Castro EA , Kauffman JB (1998) Ecosystem structure in the Brazilian Cerrado: a vegetation gradient of aboveground biomass, root mass, and consumption by fire. Journal of Tropical Ecology  14, 263–283.
Crossref | GoogleScholarGoogle Scholar | Fowler JF, Sieg CH (2004) ‘Post-fire mortality of ponderosa pine and Douglas-fir: a review of methods to predict tree death.’ USDA Forest Service, Rocky Mountain Research Station General Technical Report RMRS-GTR-132. (Fort Collins, CO)

Frangi JL , Lugo AE (1985) Ecosystem dynamics of a subtropical floodplain forest. Ecological Monographs  55, 351–369.
Crossref | GoogleScholarGoogle Scholar | Hofstetter RH (1974) The effect of fire on the pineland and sawgrass communities of southern Florida. In ‘Environments of South Florida’. (Ed. PJ Gleason) pp. 201–212. (Miami Geological Society: Miami, FL)

Hough WA (1978) ‘Estimating fuel weight consumed by prescribed fire in the South.’ USDA Forest Service, Southeast Forest Experimental Station Research Paper SE-187. (Asheville, NC)

Isaaks EH, Srivastava RM (1989) ‘Applied geostatistics.’ (Oxford University Press: New York)

Ish-Shalom N, Sternberg LSL, Ross MS, O’Brien J , Flynn L (1992) Water utilization of tropical hardwood hammocks of the Lower Florida Keys. Oecologia  92, 108–112.
Crossref | GoogleScholarGoogle Scholar | Jain TB (2004) Tongue-tied. Wildfire 92. Available at http://wildfiremag.com/ar/tonguetied/index.htm [Verified 21 April 2006]

Janis MJ, Johnson MB , Forhun G (2002) Near-real time mapping of Keetch–Byram drought index in the south-eastern United States. International Journal of Wildland Fire  11, 281–289.
Crossref | GoogleScholarGoogle Scholar | Keetch JJ, Byram GM (1968) ‘A drought index for forest fire control.’ USDA Forest Service Research Paper SE-38. (Asheville, NC)

Koehler JT (1993) Prescribed burning: a wildfire prevention tool? Fire Management Notes  53–54, 9–13.
Langdon OG (1981) Some effects of prescribed fire on understory vegetation in loblolly pine stands. In ‘Prescribed fires and wildlife in Southern forests’. (Ed. GW Wood) pp. 143–153. (Belle W Baruch Forest Service Institute of Clemson University: Georgetown, SC)

Lewis CE , Harshbarger TJ (1976) Shrub and herbaceous vegetation after 20 years of prescribed burnings in the South Carolina coastal Plain. Journal of Range Management  29, 13–18.
Lotti T, Klawitter BA, LeGrande WP (1960) ‘Prescribed burning for understory control in loblolly pine stands of the coastal plain.’ USDA Forest Service, Southeastern Forest Experiment Station Paper 116. (Asheville, NC)

Maclean AL, Cleland DT (2003) Determining the spatial extent of historical fires with geostatistics in northern Lower Michigan. In ‘Fire, fuel treatments, and ecological restoration: conference proceedings, 16–18 April 2002, Fort Collins, CO’. (Eds PN Omi, LA Joyce) pp. 289–300. USDA Forest Service, Rocky Mountain Research Station Proceedings RMRS-P-29. (Fort Collins, CO)

McCaw WL, Neal JE , Smith RH (2002) Stand characteristics and fuel accumulation in a sequence of even-aged Karri (Eucalyptus diversicolor) stands in south-west Western Australia. Forest Ecology and Management  158, 263–271.
Crossref | GoogleScholarGoogle Scholar | Miller M (1977) ‘Response of blue huckleberry to prescribed fires in a western Montana larch-fir forest.’ USDA Forest Service, Intermountain Forest and Range Experiment Station, Research Note INT-188. (Ogden, UT)

Miller M (2000) Fire autecology. In ‘Wildland fire in ecosystems: effects of fire on flora’. (Eds JK Brown, JK Smith) pp. 9–34. USDA Forest Service, Rocky Mountain Research Station General Technical Report RMRS-GTR-42, Volume 2. (Ogden, UT)

Myers RL (2000) Fire in tropical and subtropical ecosystems. In ‘Wildland fire in ecosystems: effects of fire on flora’. (Eds JK Brown, JK Smith) pp. 161–174. USDA Forest Service, Rocky Mountain Research Station General Technical Report RMRS-GTR-42, Volume 2. (Ogden, UT)

Outcalt KW, Wade DD (2000) The value of fuel management in reducing wildfire damage. In ‘Crossing the Millennium: integrating spatial technologies and ecological principles for a new age in fire management’. Proceedings of the Joint Fire Science Conference. (Eds LF Newenschwander, KC Ryan) pp. 271–275. (University of Idaho/IAWF: Moscow, ID)

Outcalt KW, Foltz JL (2004) Impacts of growing-season prescribed burns in the Florida Pine Flatwoods type. In ‘Proceedings of the 12th biennial southern silvicultural research conference’. (Ed. KF Connor) pp. 30–34. USDA Forest Service, Southern Research Station General Technical Report SRS-71. (Asheville, NC)

Paatalo ML (1998) Factors influencing occurrence and impacts of fires in northern European forests. Silva Fennica  32, 185–202.
Pyne SJ, Andrews PL, Laven RD (1996) ‘An introduction to wildland fire.’ (John Wiley and Sons: New York)

Reggan PJ, Goode S, Jacks PM , Lockwood RN (1988) Interaction of fire and community development in chaparral of southern California. Ecological Monographs  58, 155–176.
Crossref | GoogleScholarGoogle Scholar | Robbins LE, Myers RL (1992) ‘Seasonal effects of prescribed burning in Florida: a review.’ Tall Timbers Research, Miscellaneous Publication No. 8. (Tallahassee, FL)

Robertson WBJr (1953) ‘A survey of the effects of fire in Everglades National Park.’ (Everglades National Park Service: Homestead, FL)

Ross MS, O’Brien J , Flynn L (1992) Ecological site classification of Florida Keys terrestrial habitats. Biotropica  24, 488–502.
Crossref | GoogleScholarGoogle Scholar | Rothermel RC (1972) ‘A mathematical model for predicting fire spread in wildland fuels.’ USDA Forest Service, Intermountain Forest and Range Experiment Station Research Paper INT-115. (Ogden, UT)

Rothermel RC , Philpot CW (1973) Predicting changes in chaparral flammability. Journal of Forestry  71, 640–643.
Scott JH, Burgan RE (2005) ‘Standard fire behavior fuel models: a comprehensive set for use with Rothermel’s surface fire spread model.’ USDA Forest Service, Rocky Mountain Research Station General Technical Report RMRS-GTR-153. (Fort Collins, CO)

Slocum MG, Platt WJ , Cooley HC (2003) Effects of differences in prescribed fire regimes on patchiness and intensity of fires in subtropical savannas of Everglades National Park, Florida. Restoration Ecology  11, 91–102.
Crossref | GoogleScholarGoogle Scholar | Snyder JR (1986) ‘The impact of wet season and dry season prescribed fires on Miami Rock Ridge pinelands, Everglades National Park.’ South Florida Resource Center Technical Report SFRC 86-06. (Homestead, FL)

Snyder JR (1991) Fire regimes in subtropical South Florida. In ‘Proceedings of the Tall Timbers Fire Ecology Conference No. 17 – High intensity fire in wildlands: management challenges and options. 18–21 May 1989’. pp. 303–319. (Tall Timbers Research Station: Tallahassee, FL)

Snyder JR, Herndon A, Robertson WB (1990) South Florida rocklands. In ‘Ecosystems of Florida’. (Eds RL Myers, JJ Ewel) pp. 230–277. (University of Central Florida Press: Orlando, FL)

Sokal RR, Rohlf FJ (1981) ‘Biometry: the principles and practice of statistics in biological research.’ 2nd edn. (WH Freeman and Co.: New York)

Sparks JC, Masters RE, Engle DM , Bukenhofer GA (2002) Season of burn influences fire behavior and fuel consumption in restored shortleaf pine–grassland communities. Restoration Ecology  10, 714–722.
Crossref | GoogleScholarGoogle Scholar | Statsoft (2001) ‘STATISTICA for windows, Version 6.0.’ (Statsoft: Tulsa, OK)

Taylor DL, Herndon A (1981) ‘Impact of 22 years of fire on understory hardwood shrubs in slash pine communities within Everglades National Park.’ National Park Service, South Florida Research Center Report T-640. (Homestead, FL)

Taylor SW, Wotton BM, Alexander ME , Dalrymple GN (2004) Variation in wind and crown fire behaviour in a northern jack pine–black spruce forest. Canadian Journal of Forest Research  34, 1561–1576.
Crossref | GoogleScholarGoogle Scholar | USDI-NPS (2001) ‘Fire monitoring handbook.’ National Interagency Fire Center. (US Department of Interior National Park Service: Boise, ID)

Van Wagner CE (1973) Height of crown scorch in forest fires. Canadian Journal of Forest Research  3, 373–378.
Wade D, Ewel J, Hofstetter R (1980) ‘Fire in south Florida ecosystems.’ USDA Forest Service, Southeastern Forest Experiment Station General Technical Report SE-17. (Asheville, NC)

Wade DD, Brock BL, Brose PH, Grace JB, Hoch GA, Patterson WAIII (2000) Fire in eastern ecosystems. In ‘Wildland fire in ecosystems: effects of fire on flora’. (Eds JK Brown, JK Smith) pp. 53–96. USDA Forest Service, Rocky Mountain Research Station General Technical Report RMRS-42. (Ogden, UT)

Waldrop TA , Brose PH (1999) A comparison of fire intensity levels for stand replacement of table mountain pine (Pinus pungens Lamb.). Forest Ecology and Management  113, 155–166.
Crossref | GoogleScholarGoogle Scholar |

Waldrop TA , Van Lear DH (1984) Effect of crown scorch on survival and growth of young loblolly pine. Southern Journal of Applied Forestry  8, 35–40.


Waldrop TA, White DL , Jones SM (1992) Fire regimes for pine–grassland communities in the south-eastern United States. Forest Ecology and Management  47, 195–210.
Crossref | GoogleScholarGoogle Scholar |

Wootton JT (1994) Predicting direct and indirect effects: an integrated approach using experiments and path analysis. Ecology  75, 151–165.
Crossref | GoogleScholarGoogle Scholar |