Abstract
Evidence for the occurrence of fire in montane cloud forests on both historical and modern time scales has mounted in recent years, yet understanding of fire regimes and the influence of fire on the dynamics of these ecosystems remains poor. This chapter discusses current knowledge of the frequency, severity, causes, and impacts of fire in montane cloud forests worldwide as reflected in paleoecological records, recent field studies, and satellite image analyses. Synthesis of the literature suggests that both human activities and climatic fluctuations have played important and often interlinked roles in determining historical fire regimes in montane cloud forests. In particular, increasing human populations and land use pressures surrounding cloud forest ecosystems, combined with more rapid climate warming this century due to anthropogenic forcing, is apparently leading to dramatic intensification of fire regimes in montane cloud forest regions. These changes may be accompanied by the transformation of cloud forests to more fire-dependent plant communities (comprising species from adjacent ecosystems with more frequent fire) that no longer have sufficient resilience to recover from fire and re-establish the original cloud forest vegetation. Management efforts need to focus on preventing fires ignited by people for land use purposes from spreading into adjacent cloud forest areas, as well as actively involving local people and communities in fire management and suppression efforts.
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References
Agee, J.K. (1998) Fire and pine ecosystems. In D.M. Richardson (Ed.), Ecology and Biogeography of Pinus. Cambridge University Press, New York.
Anta, S.F. and A.B. Plancarte (2001) Los inendios forestales. Chimalapas: La Última Oportunidad. World Wildlife Fund Programa México/SecretarÃa de Medio Ambiente, Recursos Naturales y Pesca, Taller El Castor, Oaxaca, México [in Spanish].
Aragão, L.E.O.C., Y. Mahli, R.M. Román-Cuesta, S. Saatchi, L.O. Anderson, and Y.E. Shimabukuro (2007) Spatial patterns and fire response of recent Amazonian droughts. Geophysical Research Letters, 34, doi: 10.1029/2006GL028946.
Arriaga, L. (2000a) Types and causes of tree mortality in a tropical montane cloud forest of Tamaulipas, México. Journal of Tropical Ecology, 16, 623–636.
Arriaga, L. (2000b) Gap-building-phase regeneration in a tropical montane cloud forest of north-eastern México. Journal of Tropical Ecology, 16, 535–562.
Asbjornsen, H. and Z. Garnica-Sánchez (in press). Fire and community management of fire in tropical montane cloud forests in southeastern México. In L.A. Bruijnzeel, F.N. Scatena, and J.O. Juvik (Eds.), Mountains in the Mist: Science for Conserving and Managing Tropical Montane Cloud Forests. University of Hawaii Press, Honolulu, HI.
Asbjornsen, H., C. Gallardo-Hernández, N. Velázquez-Rosas, and R. GarcÃa-Soriano (2005) Deep ground fires cause massive above-and below-ground biomass losses in tropical montane cloud forests in Oaxaca, México. Journal of Tropical Ecology, 21(4), 427–434.
Brokaw, N.V.L. and L.R. Walker (1991) Summary of the effects of Caribbean hurricanes on vegetation. Biotropica, 23, 442–447.
Bruijnzeel, L.A. (2004) Hydrological functions of tropical forests: Not seeing the soil for the trees? Agriculture, Ecosystems and Environment, 104, 185–228
Bruijnzeel, L.A. and L.S. Hamilton (2000) Decision Time for Cloud Forests, IHP Humid Tropics Programme Series No. 13, 44 pp. IHP-UNESCO, Paris/IUCN-NL, Amsterdam/WWF International, Gland, Switzerland.
Bruijnzeel, L.A. and E.J. Veneklaas (1998) Climatic conditions and tropical montane forest productivity: The fog has not lifted yet. Ecology, 79, 3–9.
Bubb, P. and S. Das. (in press) Mapping tropical montane cloud forests. In L.A. Bruijnzeel, F.N. Scatena, and J.O. Juvik (Eds.), Mountains in the Mist: Science for Conserving and Managing Tropical Montane cloud forests. University of Hawaii Press: Honolulu, HI.
Bubb, P., I. May, L. Miles, and J. Sayer (2004) Cloud Forest Agenda. UNEP-WCMC, Cambridge, U.K. Available at http://sea.unep-wcmc.org/forest/cloudforest/mdex.cfm
Bush, M.B. (2002) Distributional change and conservation on the Andean flank: A palaeoecological perspective. Global Ecology and Biogeography, 11, 463–473.
Bush, M.B., M.R. Silman, and D.H. Urrego (2004) 48,000 years of climate and forest change in a biodiversity hot spot. Science, 303, 827–829.
Bush, M.B., B.C.S. Hansen, D.T. Rodbell, G.O. Seltzer, K.R. Young, B. Leon, M.B. Abbott, M.R. Silman, and W.D. Gosling (2005) A 17000-year history of Andean climate and vegetation change from Laguna de Chochos, Peru. Journal of Quaternary Science, 20(7/8), 703–714.
Bush, M.B., M.R. Silman, C. McMichael, and S. Saatchi (2008) Fire, climate change and biodiversity in Amazonia: A Late-Holocene perspective. Philosophical Transactions of the Royal Society Series B, 363, 1795–1802.
Camill, P., C.E. Umbanhowar, R. Teed, C.E. Geiss, J. Aldinger, L. Dvorak, J. Kenning, J. Limmer, and K. Walkup (2003) Late-glacial and Holocene climatic effects on fire and vegetation dynamics at the prairie-forest ecotone in south-central Minnesota. Journal of Ecology, 91, 822–836.
Challenger, A. (1998) Utilización y Conservación de los Ecosistemas Terrestres de México. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad/Instituto de Biológica, Universidad Nacional Autónoma de México, Agrupación Sierra Madre, México [in Spanish].
Cochrane, M.A., A. Alencar, M.D. Schulze, CM. Souza, Jr., D.C. Nepstad, P. Lefebvre, and E.A. Davidson (1999) Positive feedbacks in the fire dynamics of closed canopy tropical forest. Science, 284, 1832–1835.
Conserva, M.E. and R. Byrne (2002) Late Holocene vegetation change in the Sierra Madre Oriental of central Mexico. Quaternary Research, 58, 122–129.
Csiszar, I., J. Morisette, and L. Giglio (2006) Validation of active fire detection from moderate resolution satellite sensors: The MODIS example in northern Eurasia. IEEE Transactions on Geoscience and Remote Sensing, 44, 1757–1764.
Curtis, S. and S. Hastenrath (1999) Trends of upper-air circulation and water vapour over equatorial South America and adjacent oceans. International Journal of Climatology, 19, 863–876.
Davis, M.B. and R.G. Shaw (2001) Range shifts and adaptive responses to Quaternary climate change. Science, 292, 673–679.
Dull, R.A. (2004) An 8000-year record of vegetation, climate, and human disturbance from the Sierra de Apaneca, El Salvador. Quaternary Research, 61, 159–167.
Ewel, J. (1980) Tropical succession manifold routes to maturity. Biotropica, 12(Suppl.), 2–7.
FAO (2005) Global Forest Resources Assessment, Final Report, Forestry Paper 147, 350 pp. Food and Agriculture Organization of the United Nations, Rome.
Galindo-Jaimes, L., M. González-Espinosa, P. Quintana-Ascencio, and L. GarcÃa-Barrios (2002) Tree composition and structure in disturbed stands with varying dominance by Pinus spp. in the highlands of Chiapas, México. Plant Ecology, 162, 259–272.
Gallardo-Hernández, C., N. Velázquez-Rosas, and H. Asbjornsen (2008) Floristic and structural changes following severe fires in tropical montane cloud forests in the Chimalapas mountains. In L.R. Sanchez and L.R. Velasquez (Eds.), Ecology, Management and Conservation of Mountain Ecosystems in Mexico. University of Veracruz, Xalapa, Mexico.
Goldammer, J.G. (1999) Forests on fire. Science, 284, 1782–1783.
Goldammer, J.G. and C. Price (1998) Potential impacts of climate change on fire regimes in the tropics based on MAGICC and GISS GCM derived lightning model. Climate Change, 39, 273–296.
Grau, H.R., T.M. Aide, J.K. Zimmerman, J.R. Thomlinson, E. Helmer, and X. Zou (2003) The ecological consequences of socioeconomic and land use changes in post agricultural Puerto Rico. Bioscience, 53, 1159–1168.
Grau, H.R., J. Carilla, R. Gil-Montero, R. Villalba, E. Zraoz, G. Masse, and M. de Membiela (in press) Environmental history and forest regeneration dynamics in a degraded valley of NW Argentina cloud forests. In L.A. Bruijnzeel, F.N. Scatena, and J.O. Juvik (Eds.), Mountains in the Mist: Science for Conserving and Managing Tropical Montane Cloud Forests. University of Hawaii Press, Honolulu, HI.
Grubb, P.J. (1977) Control of forest growth and distribution on wet tropical mountains: With special reference to mineral nutrition. Annual Review of Ecology and Systematics, 8, 83–107.
Haberle, S.G. and M.P. Ledru (2001) Correlations among charcoal records of fires from the past 16,000 years in Indonesia, Papua New Guinea, and Central and South America. Quaternary Research, 55, 97–104.
Hemp, A. (2005) Climate change driven forest fires marginalize the impact of ice cap wasting on Kilimanjaro. Global Change Biology, 11, 1013–1023.
Hope, G. (2001) Environmental change in the late Pleistocene and later Holocene at Wanda site, Soroako, South Sulawesi, Indonesia. Palaeogeography, Palaeoclimatology, Palaeoecology, 171, 129–145.
Islebe, G.A. and H. Hooghiemstra (1997) Vegetation and climate history of montane Costa Rica since the last glacial. Quaternary Science Reviews, 16, 589–604.
Jardel, E. (1991) Perturbaciones naturales y antropogénicas y su influencia en la dinámica sucesional de los bosques de Las Joyas, Sierra de Manantlán, Jalisco. Tiempos de Ciencia, 22, 9–26.
Jardel, E., R. RamÃrez, A. Saldaña, F. Castillo-Navarro, J.C. Chacón, C. Ortiz, A. Tania, G. Román, and S. Graf (2001) Manejo del fuego y restauración ecológica en la Reserva de la Biosfera Sierra de Manantlán. V. Congreso Mexicano sobre Recursos Forestales, noviembre 7–9, 2001, Guadalajara, Jalisco, México [in Spanish].
Jarvis, A. and M. Mulligan (in press) The climate of cloud forests. In L.A. Bruijnzeel, F.N. Scatena, and J.O. Juvik (Eds.), Mountains in the Mist: Science for Conserving and Managing Tropical Montane Cloud Forests. University of Hawaii Press: Honolulu, HI.
Kappelle, M., T. Geuze, M.E. Leal, and A.M. Cleef (1996) Successional age and forest structure in a Costa Rican upper montane Quercus forest. Journal of Tropical Ecology, 12, 681–698.
Kershaw, A.P., M.B. Bush, G.S. Hope, K.-F. Weiss, J.G. Goldammer, and R. Sanford (1997) The contribution of humans to past biomass burning in the tropics. In J.S. Clark, H. Cachier, J.G. Goldammer, and B. Stocks (Eds.), Sediment Records of Biomass Burning and Globed Change. Springer-Verlag, New York.
Kitzberger, T., T.W. Swetnam, and T.T. Veblen (2001) Inter-hemispheric synchrony of forest fires and the El Nino-Southern Oscillation. Global Ecology and Biogeography, 10, 315–326.
Lawton, R.O. and F.E. Putz (1988) Natural disturbance and gap-phase regeneration in a wind-exposed tropical cloud forest. Ecology, 69, 764–777.
Lawton, R.O., U.S. Nair, R.A. Pielke, and R.M. Welch (2001) Climatic impact of tropical lowland deforestation on nearby montane cloud forests. Science, 294, 584–587.
League, B.L. and S.P. Horn (2000) A 10,000 year record of Paramo fires in Costa Rica. Journal of Tropical Ecology, 16, 747–752.
Martin, P.H., R.E. Sherman, and T.J. Fahey (2007) Tropical montane forest ecotones: Climate gradients, natural disturbance, and vegetation zonation in the Cordillera Central, Dominican Republic. Journal of Biogeography, 34, 1792–1906.
May, T. (1997) Fases tempranas de sucesión en un bosque nublado de Magnolia pallescens después de un incendio (Loma de Casabito, Reserva CientÃfica Ebano Verde, Cordillera Central, República Dominicana). Moscosoa, 9, 117–144 [in Spanish].
Mulligan, M. (in press) Modelling the tropics-wide extent and distribution of cloud forest and cloud forest loss, with implications for conservation priority. In L.A. Bruijnzeel, F.N. Scatena, and J.O. Juvik (Eds.), Mountains in the Mist: Science for Conserving and Managing Tropical Montane Cloud Forests. University of Hawaii Press, Honolulu. HI.
Neilson, R.P. (1993) Transient ecotone response to climate-change: Some conceptual and modeling approaches. Ecological Applications, 3(3), 385–395.
Price, C. and D. Rind ( 1994) Possible implications of global climate change on global lightning distributions and frequencies. Journal of Geophysical Research, 99, 10823.
RamÃrez-Marcial, N., M. González-Espinosa, and G. Williams-Linera (2003) Anthropogenic disturbance and tree diversity in montane rain forests in Chiapas, Mexico. Forest Ecology and Management, 154, 311–326.
Ray, D.K., R.M. Welch, R.O. Lawton, and U.S. Nair (2006) Dry season clouds and rainfall in northern Central America: Implications for the Mesoamerican Biological Corridor. Global and Planetary Change, 54, 150–162.
Román-Cuesta, R.M., M. Gracia, and J. Retana (2003) Environmental and human factors influencing fire trends in ENSO and non-ENSO years in tropical Mexico. Ecological Applications, 13, 1177–1192.
Román-Cuesta, R.M., J. Retana, and M. Gracia (2004) Fire trends in tropical Mexico: A case study of Chiapas. Journal of Forestry, 102, 26–32.
Román-Cuesta, R.M., J. Retana, and M. Gracia (2007) Fire challenges to conserving tropical ecosystems. In A. Newton (Ed.), Biodiversity Loss and Conservation in Fragmented Forest Landscapes: The Forests of Montane Mexico and Temperate South America. CABI, Wallingford, U.K.
Rull, V. (2007) Holocene global warming and the origin of the Neotropical Gran Sabana in the Venezuelan Guayana. Journal of Biogeography, 34, 279–288.
Rzedowski, J. (1978) Vegetación de México. Editorial Sumisa, Arcos de Belén, Mexico [in Spanish].
Saldarraiga, J.G. and D.C. West (1986) Holocene fires in the northern Amazon basin. Quaternary Research, 26, 358–366.
Sanford, R.L., Jr., J. Saldarraiga, K. Clark, C. Uhl, and R. Herrera (1985) Amazon rainforest fires. Science, 227, 53–55.
Sarmiento F.O. and L.M. Frolich (2002) Andean cloud forest tree lines: Naturalness, agriculture and the human dimension. Mountain Research and Development, 22, 278–287.
Scatena, F.N. (1998) An assessment of climatic change in the Luquillo Mountains of Puerto Rico. Paper presented at the Third International Symposium on Water Resources, San Juan, Puerto Rico. American Water Resources Association, Washington, D.C.
Sherman, R.E., P.H. Martin, and T.J. Fahey (2005) Vegetation-environment relationships in forest ecosystems of the Cordillera Central, Dominican Republic. Journal of the Torrey Botanical Society, 132, 293–310.
Siegert, F., G. Ruecker, A. Hinrichs, and A.A. Hoffmann (2002) Increased damage from fires in logged forests during droughts caused by El Niño. Nature, 414, 437–440.
Titiz, B. and R.L. Sanford, Jr. (2007) Soil charcoal in old-growth rain forests from sea level to the continental divide. Biotropica, 39, 637–682.
Urrego, D.H., M.R. Silman, and M.B. Bush (2005) The Last Glacial Maximum: Stability and change in a western Amazonian cloud forest. Journal of Quaternary Science, 20, 693–701.
Walker, L.R., D.J. Zarin, N. Fetcher, R.W. Myster, and A.H. Johnson (1996) Ecosystem development and plant succession on landslides in the Caribbean. Biotropica, 28, 566–576.
Ward, Y., A. Malmer, and H. Asbjornsen (in press) Historical 14C evidence of fire in tropical montane cloud forests in the Chimalapas region of Oaxaca, Southern Mexico. In L.A. Bruijnzeel, F.N. Scatena, and J.O. Juvik (Eds.), Mountains in the Mist: Science for Conserving and Managing Tropical Montane Cloud Forests. University of Hawaii Press, Honolulu, HI.
Weng, C.Y., M.B. Bush, J.H. Curtis, A.L. Kolata, T.D. Dillehay, and M.W. Binford (2006) Deglaciation and Holocene climate change in the western Peruvian Andes. Quaternary Research, 66, 87–96.
Young, K. and B. León (2007) Tree-line changes along the Andes: Implications of spatial patterns and dynamics. Philosophical Transactions of the Royal Society Series B, 362, 263–272.
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Asbjornsen, H., Wickel, B. (2009). Changing fire regimes in tropical montane cloud forests: a global synthesis. In: Tropical Fire Ecology. Springer Praxis Books. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-77381-8_21
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DOI: https://doi.org/10.1007/978-3-540-77381-8_21
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