Abstract
The massive ENSO-induced fires of 1982–1983 and 1997–1998 that burned across much of Borneo forced a critical re-evaluation of the role of fire in tropical forests. In Southeast Asia the occurrence of fires is generally associated with increasing rainfall seasonality. In aseasonal lowland rainforests fire is rare, but potentially devastating when it occurs. In the strongly seasonal regions of continental Southeast Asia deciduous forests and savannas may burn at low intensity every few years, but have little impact on the majority of trees. Between these two extremes of rainfall seasonality lie landscapes dominated by mosaics of evergreen and deciduous forests for which the role of fire and its potential impacts are poorly understood. Ecologists and conservationists across the region have expressed concern that changing fire regimes due to increasing human pressures and potential climate change may lead to a substantial loss of the evergreen forest component within these mosaics. However, there are few empirical data to address these concerns and to use in the development of robust landscape-scale fire management plans. Here we describe results from a study on the fire ecology of forests at the Huai Kha Khaeng Wildlife Sanctuary in western Thailand that was conducted in the wake of the 1998 ENSO fires that occurred there. We compared fire behavior, tree mortality, and stand-scale impacts of the fires across the three dominant forest types of the region: seasonal evergreen forest, mixed deciduous forest, and deciduous dipterocarp forest. Our data demonstrate that the fires are mostly low-intensity surface fires that generate a low level of mortality across the landscape. Mortality was primarily a function of tree size with 50% mortality occurring in trees ∼2 cm DBH (diameter at breast height). We found no evidence of heightened sensitivity to fire in the seasonal evergreen forest and suggest that the high levels of mortality among evergreen tree species in Bornean forests are indicative of differences in long-term exposure to fire between the seasonal evergreen forests of the continent and the aseasonal evergreen forests of insular Southeast Asia. We discuss these findings in the context of the design and implementation of fire management practices in the seasonal tropical forests of continental Southeast Asia.
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References
Agee, J.K. (1993) Fire Ecology of Pacific Northwest Forests. Island Press, Washington, D.C. 493 pp.
Baker, P.J. (1997) Seedling establishment and growth across forest types in an evergreen/deciduous forest mosaic in western Thailand. Natural History Bulletin of the Siam Society, 45, 17–41.
Baker, P.J. and S. Bunyavejchewin (2006) Bark thickness and the influence of forest fire on tree population structure in a seasonal evergreen tropical forest. Natural History Bulletin of the Siam Society, 54, 215–225.
Baker, P.J., S. Bunyavejchewin, CD. Oliver, and P.S. Ashton (2005) Disturbance history and historical stand dynamics of a seasonal tropical forest in western Thailand. Ecological Monographs, 75, 317–343.
Baker, P.J., S. Bunyavejchewin, and A.P. Robinson (2008) The impacts of large-scale, low-intensity fires on the forests of continental Southeast Asia. International Journal of Wildland Fire, 17, 782–792.
Barlow, J., C. Peres, B. Lagan, and T. Haugaasen (2003) Large-tree mortality and the decline of forest biomass following Amazonian wildfires. Ecol. Lett., 6, 6–8.
Bilbao, B., A. Leal, C. Mendez, and M.D. Delgado-Cartay (this book) The role of fire in vegetation dynamic of upland savannas of the Venezuelan Guayana. In M.A. Cochrane (Ed.), Tropical Fire Ecology: Climate Change, Land Use and Ecosystem Dynamics. Springer/Praxis, Heidelberg, Germany/Chichester, U.K.
Brokaw, N.V.L. (1985) Gap-phase regeneration in a tropical forest. Ecology, 66, 682–687.
Brooks, M.L., CM. D’Antonio, D.M. Richardson, J.B. Grace, J.E. Keeley, J.M. DiTomaso, R.J. Hobbs, M. Pellant, and D. Pyke (2004) Effects of invasive alien plants on fire regimes. Bioscience, 54, 677–688.
Buckley, B.M., K. Palakit, K. Duangsathaporn, P. Sanguantham, and P. Prasomsin (2007) Decadal scale droughts over northwestern Thailand over the past 448 years: Links to the tropical Pacific and Indian Ocean sectors. Climate Dynamics, doi: 10.1007/s00382-007-0225-1.
Bullock, S.H., H.A. Mooney, and E. Medina (Eds.) (1995) Seasonally Dry Forests. Cambridge University Press. New York.
Champion, H.G. and S.K. Seth (1968) A Revised Survey of the Forest Types of India. Manager of Publications, Delhi.
Cochrane, M.A. (this book) Fire, land use, land cover dynamics and climate change in the Brazilian Amazon. In M.A. Cochrane (Ed.), Tropical Fire Ecology: Climate Change, Land Use and Ecosystem Dynamics. Springer/Praxis, Heidelberg, Germany/Chichester, U.K.
Cochrane, M.A. and K.C. Ryan (this book) Fire and fire ecology: Concepts and principles. In M.A. Cochrane (Ed.), Tropical Fire Ecology: Climate Change, Land Use and Ecosystem Dynamics. Springer/Praxis, Heidelberg, Germany/Chichester, U.K.
Goldammer, J.G. (Ed.) (1990) Fire in the tropical biota. Ecosystem Processes and Global Challenges, Ecological Studies 84. Springer-Verlag, Berlin, 497 pp.
Hoffmann, W.A., B. Orthen, P. Kielse, and V. Do Nascimento (2003) Comparative fire ecology of tropical savanna and forest trees. Functional Ecology, 17, 720–726.
IPCC (2007) Fourth Assessment Report. Intergovernmental Panel on Climate Change/Cambridge University Press, Cambridge, U.K.
Johnson, L.A. and P. Dearden (this book) Fire ecology and management of seasonal evergreen forests in mainland Southeast Asia. In M.A. Cochrane (Ed.), Tropical Fire Ecology: Climate Change, Land Use, and Ecosystem Dynamics. Springer/Praxis, Heidelberg, Germany/Chichester, U.K.
Johnson, L.A., E.G. Johnson, J. Iisaka, and G. Easson (2005) Use of Landsat TM to detect change in tropical forest types after fire: Huai Kha Khaeng Wildlife Sanctuary, Thailand. IEEE International Workshop on the Analysis of Multi-temporal Remote Sensing Images, May 16–18, 2005, pp. 30–34.
Kealhofer, L. and D. Penny (1998) A combined pollen and phytolith record for fourteen thousand years of vegetation change in northeastern Thailand. Review of Palaeobotany and Palynology, 103, 83–93.
Keeley, J.E. and W.J. Bond (2001) On incorporating fire into our thinking about natural ecosystems: A response to Saha and Howe. American Naturalist, 158, 664–670.
Kellmann, M. and J. Maeve (1997) Fire in the tropical gallery forests of Belize. Journal of Biogeography, 24, 23–34.
Kodandapani, N., M.A. Cochrane, and R. Sukumar (this book) Forest fire regimes and their ecological effects in seasonally dry tropical ecosystems in the Western Ghats, India. In M.A. Cochrane (Ed.), Tropical Fire Ecology: Climate Change, Land Use, and Ecosystem Dynamics. Springer/Praxis, Heidelberg, Germany/Chichester, U.K.
Laurance, W.F. (2004) Forest climate interactions in fragmented tropical landscapes. Philosophical Transactions of the Royal Society, London, Series B, 359, 345–352.
Leighton, M. and N. Wirawan (1986) Catastrophic drought and fire in Borneo tropical rain forest associated with the 1982–83 El Niño Southern Oscillation event. In G.T. Prance (Ed.), Tropical Rain Forests and the World Atmosphere, Symposium 10. American Association for the Advancement of Science, Washington, D.C.
Malhi, Y. and J. Wright (2004) Spatial patterns and recent trends in the climate of tropical rainforest regions. Philosophical Transactions of the Royal Society, London, Series B, 359, 311–329.
Malingreau, J.P., G. Stephens, and L. Fellows (1985) Remote sensing of forest fires: Kalimantan and North Borneo in 1982. Amhio, 14, 314–321.
Manton, M.J., P.M. Della-Marta, M.R. Haylock, K.J. Hennessy, N. Nicholls, L.E. Chambers, D.A. Collins, G. Daw, A. Finet, D. Gunawan et al. (2001) Trends in extreme daily rainfall and temperature in Southeast Asia and the South Pacific: 1961–1998. International Journal of Climatology, 21, 269–284.
Maxwell, A.L. (2004) Fire regimes in north-eastern Cambodian monsoonal forests, with a 9300-year sediment charcoal record. Journal of Biogeography, 31, 225–239.
Miranda, H.S., M.N. Sato, W.N. Neto, and F.S. Aires (this book) Fires in cerrado, the Brazilian savanna. In M.A. Cochrane (Ed.), Tropical Fire Ecology: Climate Change, Land Use, and Ecosystem Dynamics. Springer/Praxis, Heidelberg, Germany/Chichester, U.K.
Murphy, P.G. and A.E. Lugo (1986) Ecology of tropical dry forest. Annual Review of Ecology and Systematics, 17, 67–88.
Nowacki, G. and M. Abrams (1997) Radial-growth averaging criteria for reconstructing disturbance histories from presettlement-origin oaks. Ecological Monographs, 67, 225–249.
Penny, D. (2001) A 40,000 year palynological record from north-east Thailand: Implications for biogeography and palaeo-environmental reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology, 171, 97–128.
Pyne, S.J. (1994) Nataraja: India’s cycle of fire. Environmental History Review, 18, 1–20.
Rabinowitz, A. (1990) Fire, dry dipterocarp forest and the carnivore community in Huai Kha Khaeng Wildlife Sanctuary, Thailand. Natural History Bulletin of the Siam Society, 38, 99–115.
Rakyutitham, A. (2000) Forest fire: A history of repression and resistance. Watershed, 6, 35–42.
Santisuk, T. (1988) An account of the vegetation of northern Thailand. Geoecological Research, 5, 103.
Siegert, F., G. Ruecker, A. Hinrichs, and A.A. Hoffmann (2001) Increased damage from fires in logged forests during droughts caused by El Niño. Nature, 414, 437–440.
Singhrattna, N., B. Rajagopalan, M. Clark, and K. Krishna Kumar (2005) Seasonal forecasting of Thailand summer monsoon rainfall. International Journal of Climatology, 25, 649–664.
Slik, J.W.F and K.A.O Eichhorn (2003) Fire survival of lowland tropical rain fores trees in relation to stem diameter and topographic position. Oecologia, 137, 446–455.
Stibig, H.-J., F. Achard, and S. Fritz (2004) A new forest cover map of continental southeast Asia derived from SPOT-VEGETATION satellite imagery. Applied Vegetation Science, 7, 153–162.
Stolle, F., K.M Chomitz, E.F Lambin, and T.P. Tomich (2003) Land use and vegetation fires in Jambi Province, Sumatra, Indonesia. Forest Ecology and Management, 179, 277–292.
Stott, P. (1986) The spatial pattern of dry season fires in the savanna forests of Thailand. Journal of Biogeography, 13, 345–358.
Stott, P. (1988) The forest as phoenix: Towards a biogeography of fires in mainland Southeast Asia. The Geographical Journal, 154, 337–350.
Swaine, M.D. (1992) Chatacteristics of dry forest in West Africa and the influence of fire. Journal of Vegetation Science, 3, 365–374.
Troup, R.S. (1921) The Silviculture of Indian Trees, Vols. 1–3. Oxford University Press. London.
van Nieuwstadt, M.G.L. and D. Sheil (2005) Drought, fire and tree survival in a Borneo rain forest, East Kalimantan, Indonesia. Journal of Ecology, 93, 191–201.
van Wagner, C.E. (1973) Height of crown scorch in forest fires. Canadian Journal of Forest Research, 3, 373–378.
White, J.C, D. Penny, L. Kealhofer, and B. Maloney (2004) Vegetation changes from the late Pleistocene through the Holocene from three areas of archaeological significance in Thailand. Quaternary International, 113, 111–132.
Williams, L.J., S. Bunyavejchewin, and P.J. Baker (2008). Deciduousness in a seasonal tropical forest in western Thailand: Interannual and intraspecific variation in timing, duration and environmental cues. Oecologia, 155, 571–582.
Wolter, K. and M.S. Timlin (1998) Measuring the strength of ENSO events: How does 1997/98 rank? Weather, 53, 315–324.
Wyatt, D.K. (1984) Thailand: A Short History. Yale University Press, New Haven, CT, 351 pp.
Yoshida, S., T. Morimoto, T. Ushio, and Z. Kawasaki (2007) ENSO and convective activities in Southeast Asia and western Pacific. Geophysical Research Letters, 34, L21806, doi: 10.1029/2007GL030758.
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Baker, P.J., Bunyavejchewin, S. (2009). Fire behavior and fire effects across the forest landscape of continental Southeast Asia. In: Tropical Fire Ecology. Springer Praxis Books. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-77381-8_11
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