Abstract
In this chapter, various peat combustion properties, temporal and spatial peat fire occurrence in Kalimantan, and the peat fire index (PFI) for the early warning of peat fire were discussed. Firstly, tropical peat was sampled from Mega Rice Project (MRP) area in Central Kalimantan and analyzed in the laboratory. The flash point, ignition temperature and calorific value of tropical peat were measured by using a thermogravimetry and differential thermal analysis (TG-DTA) and a bomb calorimeter. The ignition probability of tropical peat was estimated by using literature values. In fields of the study area, peat ignition test, surface temperature measurement of actual burning peat and peat fire propagation measurement were carried out to identify actual peat fire conditions. Secondly, recent seasonal and special fire occurrence trends in Kalimantan were discussed using analysis results of MODIS hotspots data (fires) and precipitation data (the 10 years data, from 2002 to 2011). The two provinces of Central and West Kalimantan have the different severe fire periods. The fire season in West Kalimantan started in early August and lasted until early September. On the other hand, the fire season in Central Kalimantan started in middle August and continued until early November. Finally, peat fire index (PFI) derived from monthly and daily rainfall data was proposed to estimate peat fire conditions. The PFI has a linear relationship to the annual lowest groundwater level in peatland with the coefficient of determination R2 = 0.84, and to the total number of hotspots observed by MODIS during the dry season from June to November in Central Kalimantan with R2 = 0.74. The PFI was found to be useful for the early warning of peat fire in tropical peatlands. The depth of combustible peat layer increased linearly with lowering of groundwater level in tropical peatlands.
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References
Aldrian E, Susanto RD (2003) Identification of three dominant rainfall regions within Indonesia and their relationship to sea surface temperature. Int J Climatol 23(12):1435–1452
Babrauskas V (2003) Ignition handbook. Fire Science Publishers, Issaquah
Cristjakov VI, Kuprijanov AI, Gorshkov VV (1983) Measures for fire-prevention on peat deposit. In: Wein RW, Maclean DA (eds) The role of fire in northern circumpolar ecosystems. Wiley, New York
Fernandes PAM (2001) Fire spread prediction in shrub fuels in Portugal. For Ecol Manag 144:67–74
Frandsen WH (1997) Ignition probability of organic soils. Can J For Res 27:1471–1477
Jaya A, Takada M, Hirano T, Mishima Y, Inoue T, Takahashi H (2012) Moisture behavior of surface peat layer in areas of different surface cover and different ground condition during dry season in Central Kalimantan. In: Proceedings of 3rd international workshop on wild fire and carbon management in peat-forest in Indonesia. Palangka Raya, . 22–24 September 2011, pp 67–73
Kayama M, Takahashi H, Limin S (2000) Water balance of a peat swamp forest in the upper catchment of the Sebangau river, Central Kalimantan. In: Proceedings of the international symposium on tropical peatlands, Bogor, 22–23 November 1999, pp 299–306
Maltby E, Immirzi (1993) Carbon dynamics in peatlands and other wetland soils regional and global prespective. Chemosphere 27:999–1023
Miyanishi K (2000) Duff consumption. In: Johnson EA, Miyanishi K (eds) Forest fire; behavior and ecological effects. Academic, San Diego
Page SE, Siegert F, Rieley JO, Boehm HDV, Jaya A, Limin S (2002) The amount of carbon released from peat and forest fires in Indonesia during 1997. Nature 420:61–65
Page S, Hooijer A, Rieley J, Banks C, Agata H (2012) The tropical pat swamps of Southeast Asia: human impacts on biodiversity, hydrology and carbon dynamics. In: Gower DJ, Jhnson KG, Richardson JE, Rosen BR, Rueber L, Williams ST (eds) Biotic evolution and environmental change in Southeast Asia. Cambridge University Press, Cambridge, New York. pp 406–433
Potter L. (1997) Where there’s smoke there’s fire. Search 26:307–311
Putra EI, Hayasaka H (2011) The effect of the precipitation pattern of the dry season on peat fire occurrence in the Mega Rice Project Area, Central Kalimantan, Indonesia. Tropics 19(4):145–156
Putra EI, Hayasaka H, Takahashi H, Usup A (2008) Recent peat fire activity in the Mega Rice Project Area, Central Kalimantan, Indonesia. J Disaster Res 3(5):334–341
RePPProT (1990) A national overview from the regional physical planning program for transmigration. UK Overseas Development Administration and Directorate Bina Program. Ministry of Transmigration, Jakarta
Takahashi H (1999) Hydrological and meteorological environments of inland peat swamp forest in Central Kalimantan, Indonesia with special reference to the effects of forest fire. Tropics 9(1):17–25 (written in Japanese with English abstract)
Takahashi H, Yoneta Y (1997) Studies on microclimate and hydrology of peat swamp forest in Central Kalimantan Indonesia. In: Rieley JO, Page SE (eds) Biodiversity and sustainability of tropical Peatlands. Samara Publishing, Cardigan, pp 179–187
Takahashi H, Yonetani Y, Miyasaka H (1998) Micrometeorological aspects of tropical peat swamp forest and farmland in Central Kalimantan. Annual report and proceedings for international workshop on tropical peatlands. Palangka Raya, 6–8 August 1997, pp 41–46
Takahashi H, Shimada S, Ibie BF, Usup A, Yudha, Limin SH (2001) Annual change of water balance and drought index in a tropical peat swamp forest of Central Kalimantan, Indonesia. In: Proceedings of the international symposium on tropical peatland. Jakarta, August 2001, pp 63–67
Takahashi H, Usup A, Hayasaka H, Limin S (2003) Estimation of groundwater level in a peat swamp forest as an index of peat/forest fire. In: Proceedings of the international symposium on land management and biodiversity in Southeast Asia, Bali, 17–20 September 2002, pp 311–314
Tang Z, Kachi N, Furukawa A, Muhamad A (1996) Light reduction by regional haze and its effect on simulated leaf photosynthesis in a tropical forest of Malaysia. For Ecol Manag 89:205–211
Usup A, Hashimoto Y, Takahashi H, Hayasaka H (2004) Combustion and thermal characteristics of peat fire in tropical peatland in Central Kalimantan. Tropics 14(1):1–19
Wein RW (1983) Fire behavior and ecological effects in organic terrain. In: Wein RW, MacLean DA (eds) The role of fire in northern circumpolar ecosystem. Wiley, New York
Yulianti N, Hayasaka H, Usup A (2012) Recent forest and peat fire trends in Indonesia, the latest decade by MODIS hotspot data. Glob Environ Res 16(1):105–116
Acknowledgements
Results shown in this paper were mainly obtained from SATREPS (Science and Technology Research Partnership for Sustainable Development) project entitled as “Wild fire and carbon management in peat-forest in Indonesia” founded by JST (Japan Science and Technology Agency) and JICA (Japan International Cooperation Agency). The authors thank Minnie Wong of the University of Maryland, USA, for providing the MODIS hotspot data.
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Hayasaka, H., Takahashi, H., Limin, S.H., Yulianti, N., Usup, A. (2016). Peat Fire Occurrence. In: Osaki, M., Tsuji, N. (eds) Tropical Peatland Ecosystems. Springer, Tokyo. https://doi.org/10.1007/978-4-431-55681-7_25
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DOI: https://doi.org/10.1007/978-4-431-55681-7_25
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