Authors: Ubonwan Chaiyo, Savitri Garivait, Kobsak Wanthongchai

Abstract:

The study site was located in Ratchaburi Province, Thailand. Four experimental plots in dry dipterocarp forest (DDF) and four plots in mixed deciduous forest (MDF) were set up to estimate the above-ground biomass of tree, sapling and bamboo. The allometry equations were used to investigate above-ground biomass of these vegetation. Seedling and other understory were determined using direct harvesting method. Carbon storage in above-ground biomass was calculated based on IPCC 2006. The results showed that the above-ground biomass of DDF at 20-40% slope, <20% slope and MDF at <20% slope were 91.96, 30.95 and 59.44 ton/ha, respectively. Bamboo covers about half of total aboveground biomass in MDF, which is a specific characteristic of this area. The carbon sequestration potential in above-ground biomass of plot slope range 20-40% DDF, <20% DDF and <20% MDF are 43.22, 14.55 and 27.94 ton C/ha, respectively.

Keywords: Carbon storage, aboveground biomass, tropical deciduous forest, dry dipterocarp forest, mixed deciduous forest.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1058691

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References:

[1] B. Bolin, "The carbon cycle," Scientific American, 1970, 223, pp. 125- 132.
[2] The statistic of forest land in Thailand of department of forestry, Ministry of Natural Resources and Environment, Thailand
[3] J. Terakunpisut, N. Gajaseni, and N. Ruankawe. "Carbon sequestration potential in aboveground biomass of Thong Pha Phum National Forest Thailand." Ecology and Environmental Research, 2007, pp. 93-102.
[4] J. Terakulpisut, S. Naroechaikusol and C. Pitdamkham, Climate change and carbondioxide removal by forest in Huay Kha Khaeng Wildlife Sanctuary, Kasetsart University, Bangkok, Thailand, 2000, 60 pages (in Thai).
[5] Forest Fire Control Office, Forest fire control yearly report: 2005, National Park Wildlife and Plant Conservation Department, Bangkok, Thailand (in Thai).
[6] S. Samran, "Effect of forest fire on change above ground biomass in the Maeklong mixed deciduous forest, Kanchanaburi province, Thailand," Conference on Climate Change in Forest: The Potential of Forest in Support of the Kyoto Protocol, organized by the National Park Wildlife and Plant Conservation Department, Bangkok, Thailand, 2005, pp. 351- 362 (in Thai).
[7] S. Akaakara, K. Viriya and T. Tongtan, Fire behaviors in dry dipterocarp forest at Huay Kha Khaeng Wildlife Sanctuary, Research Report, Forest Fire Research Center, Uthai Thani, Forest Fire Control Office, National Park,Wildlife and Plant Conservation Department, Bangkok, Thailand, 2003, 43 pages (in Thai).
[8] S. Suthivanit, Effects of fire frequency on vegetation in dry dipterocarp forest at Sakarat, Changwat Nakorn Ratchasima, Master thesis, Forest Resource Administration, Kasetsart University, Bangkok, Thailand, 1989, 170 pages (in Thai).
[9] K. Wanthongchai, J. Bauhus and J. G. Goldammer, "Nutrient losses through prescribed burning of aboveground litter and understorey in dry dipterocarp forests of different fire history", Catena, 2008, 74, pp. 321- 332.
[10] S. M. Lason and G. R. Cass, "Characteristics of summer middy low visibility events in the Los Angeles area," Environ. Sci. Technol., vol. 23, 2005, pp. 397-407.
[11] T. Novokov and J. E. Penner, "Large contribution of organic aerosols to cloud-condensation nuclei concentrations," Nature, vol. 365, 1993, pp. 323-365.
[12] H. Ogawa, K. Yoda, K. Ogino and T. Kira, "Comparative ecological studies on three main types of forest vegetation in Thailand, II, Plant Biomass," Nature and Life in Southeast Asia, vol. 4, 1965, pp. 49-80.
[13] M. Issaree, 1982, The primary productivity of plant communities in abandoned farm at the environmental research station, Sakaerat, Pak Thong Chai district, Naknon Ratchasima, Master thesis, Graduated School, Kasetsart University, Bangkok, Thailand (in Thai).
[14] W. Suwannapinunt, "A study on the biomass of Thyrsostachys siamensis GAMBLE forest at Hin-Lap, Kanchanaburi," Journal of Bamboo Research, 1983, pp. 82-101.
[15] M. E. McGroddy, T. Daufresnne and L. O. Hedin, "Scaling of C:N:P stoichiometry in forests worldwide: Implications of terrestrial Redfieldtype ratios," Ecology, 85, pp. 2390-2401.
[16] N. Nuanurai, Comparison of leaf area index, above-ground biomass and carbon sequestration of forest ecosystems by forest inventory and remote sensing at Kaeng Krachan National Park, Thailand, Master Thesis, Graduated school, Chulalongkorn University, Bangkok, Thailand, 2005, 195 pages (in Thai).
[17] S. Jampanin and N. Gajaseni. "Assessment of carbon sequestration, litter production and litter decomposition in Kaen Krachan National Park, Thailand." The proceeding of Conference on Climate Change in Forest: Forest and Climate Change, organized by the National Park Wildlife and Plant Conservation Department, 2007, pp. 1-15 (in Thai).
[18] P. Kaeskrom, N. Kaewkla, S. Thummikkapong and S. Punsang, "Evaluation of carbon storage in soil and plant biomass of primary and secondary mixed deciduous forests in the lower northern part of Thailand", African Journal of Environmental Science and Technology, 2011, 5, pp. 8-14.