[Berg B. 2000. Litter decomposition and organic matter turn over in Northern forest soils. Forest Ecology and Management, 133, 13-22.]Search in Google Scholar
[Boonyanuphap J., Sakurai K., Tanaka S. 2007. Soil nutrient status under upland farming practice in the Lower Northern Thailand. Tropics, 16 (3), 215-231.]Search in Google Scholar
[Brown S., Lugo A.E. 1990.Tropical secondary forests. Journal of Tropical Ecology, 6, 1-32.]Search in Google Scholar
[Chazdon R.L. 2003.Tropical forest recovery: legacies of human impact and natural disturbances. Perspective in Plant Evolution and Systematic, 6, 51-71.]Search in Google Scholar
[Cuevas E., Brown S., Lugo A.E. 1991. Above-and below organic matter storage and production in a tropical pine plantation and a paired leaf productivity along a precipitation gradient in lowland Panama: patterns from leaf to ecosystem. Structure Function, 19 (3), 349-356.]Search in Google Scholar
[Evans K.D., Marney E.I., Quashie-Sam J. 2010. Litterfall and litter nutrient dynamics under cocoa ecosystems in lowland humid Ghana. Plant and Soil, 330, 55-64.]Search in Google Scholar
[Finegan B.1996. Pattern and process in neotropical secondary rain forests: the first 100 years of succession. Trends in Ecology and Evolution, 11, 119-124.]Search in Google Scholar
[Fugushima M., Kanzaki M., Hara M., Ohkubu T., Preechapanya P., Choochareon C. 2008. Secondary forest succession after the cessation of swidden cultivation in the montane forest area in Northern. Forest Ecology and Management, 255, 1994-2006.]Search in Google Scholar
[Glumphabutr P., Kaitpraneet S., Wachrinrat J. 2006. Structural Characteristic of Natural Evergreen Forests in Eastern Region of Thailand. Thai Journal of Forestry, 25, 92-111.]Search in Google Scholar
[Guariguata M.R., Ostertag R. 2001. Neotropical secondary forest succession: changes in structural and functional characteristics. Forest Ecology and Management, 148, 185-206.]Search in Google Scholar
[Kanjunt C., Oberhauser U. 1994. Successional forest development in abandoned swidden plots of Hmong, Karen, and Lisu ethnic groups. NAMSA Research Paper. Sam Muen-Highland Development Project, Thailand.]Search in Google Scholar
[Kanzaki M., Kawaguchi H., Sahunalu P., Dhanmanonda P., Tanpibal V., Puriyakorn B., Muangnil K., Preechapanya P., Yoda K. 1991. Climate, topography, and initial vegetation of experiment sites with reference to the dynamics of natural forest. In: Improvement of biological productivity of tropical wastelands in Thailand (eds.: K. Yoda, P. Sahunalu), Department of Biology, Osaka City University, Osaka, Japan, 23-47.]Search in Google Scholar
[Kartawinata K., Riswan S., Soedjito H. 1980. The Floristic change after disturbances in lowland dipterocarp forest in East Kalimantan, Indonesia. Tropical Ecology and Development. Proceeding of the 5th I nternational Symposium of Tropical E cology, 47-54.]Search in Google Scholar
[Kellman M.C. 1969. Some environmental components of shifting cultivation in upland Mindanao. Journal of Tropical Geography, 28, 40-56.]Search in Google Scholar
[Khopai A. 2006. The Study of Plant Community in Khao Kaset Forest Area and Tree Species Diversity in Kasetsart Si Racha Campus. Thai Journal of Forestry, 25, 1-18.]Search in Google Scholar
[Kochummen K.M., Ng F.S.P. 1977. Natural plant succession after farming in Kepong. Malayan Forester, 40, 61-78.]Search in Google Scholar
[Kyuma K., Pairintra C. 1983. Shifting cultivation: An Experiment at Nam Phrom, Northeast Thailand, and Its Implications for Upland Farming in the Monsoon Tropics. Kyoto University, Faculty of Agriculture, Kyoto.]Search in Google Scholar
[Liao J.H., Wang H.H., Tsai C.C., Hseu Z.Y. 2006. Litter production, decomposition and nutrient return of uplifted coral reef tropical forest. Forest Ecology and Management, 235, 174-185.]Search in Google Scholar
[Li Y., Xu M., Zou X., Shi P., Zhang Y. 2005. Comparing soil organic carbon dynamics in plantation and secondary forest in wet tropics in Puerto Rico. Global Change Biology, 11, 239-248.]Search in Google Scholar
[Lugo A.E. 1992. Comparison of tropical tree plantations and with secondary forests of similar age. Ecological Monographs, 62, 1-41.]Search in Google Scholar
[Martius C., Hubert H., Marcos V.B.G., Jörg M., Hanagarth W. 2004. Litterfall, litter stocks and decomposition rates in rainforest and agroforestry sites in central Amazonia. Nutrient Cycling in Agroecosystems, 68, 137-154.]Search in Google Scholar
[Moore T.R., Trofymow J.A., Prescott C.E., Fyles J., Titus B.D. 2006. Patterns of carbon, nitrogen and phosphorus dynamics in decomposing foliar litter in Canadian forests. Ecosystem, 9, 46-62.]Search in Google Scholar
[Nukool T. 2002. Structural Characteristics of Three Forest Types at Khun Korn Waterfall Forest Park, Changwat Chiang Rai. M.S. Thesis, Kasetsart University, Bangkok, Thailand.]Search in Google Scholar
[Ogawa H., Yoda K., Ogino K., Kira T. 1965. Comparative ecological studies on three main types of forest vegetation in Thailand II. Plant Biomass. Nature and Life in Southeast Asia, 4, 49-80.]Search in Google Scholar
[Olson J.S. 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology, 44, 322-331.]Search in Google Scholar
[Ostertag R., Marı´n-Spiotta E., Silver L.S., Schulten J. 2008. Litterfall and Decomposition in Relation to Soil Carbon Pools Along a Secondary Forest Chronosequence in Puerto Rico. Ecosystem, 11, 701-714.]Search in Google Scholar
[Pongumpai S. 1976. Dendrology. Forest Biology Department, Faculty of Forestry, Kasetsart University, Bangkok, Thailand Ranger J., Gerand F., Lindermann M., Gelhaye D., Gelhaye L. 2003. Dynamics of litterfall in a chonosequence of Douglas-fir (Pseudotsuga menziesii Franco) lands in the Beaujolais mounts (France). Annals of Forest Science, 60, 475-488. Royal Forest Department. 1962. Type of forest of Thailand. Ministry of Agriculture, Bangkok, Thailand.10.1051/forest:2003041]Search in Google Scholar
[Satiago L.S., Mulkey S.S. 2005. Leaf productivity along a precipitation gradient in lowland Panama: patterns from leaf to ecosystem. Structure Function, 19 (3), 349-356.]Search in Google Scholar
[Srikanha P., Gajaseni J. 2000. Structure, compositions and species diversity in deciduous forest ecosystem in Huai Kha Khaeng Wildlife Sanctuary, Thailand. In research reports on biodiversity in Thailand, Biodiversity Research and Training Program (BRT), 11-14th October 2000, 710-714.]Search in Google Scholar
[Suksomut P. 1987. Community dynamics of hill evergreen forest at Huay Nam Dang Watershed Station, Chiang Mai Province. M.S. Thesis, Kasetsart University. Bangkok, Thailand.]Search in Google Scholar
[Sundarapandian S.M., Swamy P.S. 1999. Litter production and leaf-litter decomposition of select tree species in tropical forest at Kodayar in the Western Ghats, India. Forest Ecology and Management, 123, 231-244. Symingyon C.F. 1993. The Study of secondary growth on rain forest sites in Malaya. Malayan Forester, 2, 107-117.]Search in Google Scholar
[Triadiati T., Tjitrosemito S., Guhardja E., Sudarsono I., Qayim I., Leuschner C. 2011. Litterfall Production and Leaf- Litter Decomposition at Natural Forest and Cacao Agroforestry in Sulawesi, Indonesia. Asian Journal of Biological Sciences, 4 (3), 221-234.]Search in Google Scholar
[Vitousek P.M. 1984. Litterfall, nutrient cycling, and nutrient limitation in tropical forest. Ecology, 65, 285-298.]Search in Google Scholar
[Wang Q., Wang S., Huang Y. 2008. Comparison of litterfall, Litter decomposition and nutrient return in monoculture Cunninghamia lanceolata and mixed stand in Southern China. Forest Ecology and Management, 255, 1210-1218.]Search in Google Scholar
[Wieder R.K., Wright S.J. 1995. Tropical forest litter dynamics and dry season irrigation on Barro Colorado Island, Panama. Ecology, 76 (6), 1971-1979.]Search in Google Scholar
[Wyatt-Smith J. 1955. Changes in Composition in Early Natural. Plant Succession, 18, 44-49.]Search in Google Scholar
[Yang Y.S., Guo J.F., Chen G.S., He Z.M., Xie J.S. 2003.Effect of slash burning on nutrient removal and soil fertility in Chinese farm and evergreen broadleaved forests of midsubtropical China. Pedosphere, 13, 87-96. ]Search in Google Scholar