ACKNOWLEDGMENT This research is part of project “Analysis of historical forest carbon changes in Myanmar and Thailand and the contribution of climate variability and extreme events”, which was under the auspices of the USAID and National Science Foundation (NSF) USA Partnerships for Enhanced Engagement in Research (PEER) program. We thank Natsuko Yoshifuji of Forestry and Forest Products Research Institute, who provided LAI data at Mae Mo teak plantation. We would also like to acknowledge the valuable contributions of Mr. Sukan Pungkul, Royal Thai Forest Department for generous support. REFERENCES 1 A. Kaosa-ard, “Teak, its natural distribution and related factors,” Nat His Bull Siam Soc, Vol.25, pp.55-74, 1981. 2 Ko Ko GYI, “An Investigation of Factors Relevant t o Development of Teak Plantations in South East Asia with Particular Reference to Burma.” A.N.U., Canberra, 1972. 3 M.D. Schwartz, Phenology: An Integrative Environmental Science. 2003, pp.137-153. 4 E.P. Agency, “Climate Change Impacts on Phenology: Implications for Terrestrial Ecosystems,” 2013. 5 Thai Meteorological Department, “The Climate of Thailand”, pp.1-7. 6 M.B. Masud, P. Soni, S. Shrestha, and N.K. Tripathi, “Changes in Climate Extremes over North Thailand, 1960- 2099,” J. Climatol., Vol.2016, pp.1-18, 2016. 7 Y. Hijioka, E. Lin, J.J. Pereira, R.T. Corlett, X. Cui, G.E. Insarov, R.D. Lasco, E. Lindgren, and and A. Surjan, “Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part B: Regional Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change,” Cambridge University Press, 2014, pp.1327-1370. 8 S. Jin and S.A. Sader, “MODIS time-series imagery for forest disturbance detection and quantification of patch size effects,” Remote Sens. Environ., Vol.99, pp.462- 470, 2005. 9 X. Yu, Q. Wang, H. Yan, Y. Wang, K. Wen, D. Zhuang, and Q. Wang, “Forest phenology dynamics and its responses to meteorological variations in northeast China,” Adv. Meteorol., Vol.2014, 2014. 10 N. Pettorelli, J.O. Vik, A. Mysterud, J.M. Gaillard, C.J. Tucker, and N.C. Stenseth, “Using the satellite-derived NDVI to assess ecological responses to environmental change,” Trends Ecol. Evol., Vol.20, no. 9, pp.503-510, 2005. 11 L. Zhong, Y. Ma, M.S. Salama, and Z. Su, “Assessment of vegetation dynamics and their response to variations in precipitation and temperature in the Tibetan Plateau,” Clim. Change, Vol.103, pp.519-535, 2010. 12 J. Verbesselt, R. Hyndman, G. Newnham, and D. Culvenor, “Detecting trend and seasonal changes in satellite image time series,” Remote Sens. Environ., Vol.114, pp.106-115, 2010. 13 Kariyeva, Jahan, V. Leeuwen, W.J.D, Woodhouse, and C.A., “Impacts of cli-mate g r a d i e n t s on t h e v e g e t a t i o n phenology of major land use types in Central Asia (1981-2008),” Front. Earth Sci., Vol.6, no. 2, pp.206-225, 2012. 14 V. Suangtho, L. Graudal, and E.D. Kjaer, “Genecological zonation as a tool in conservation of genetic resources of Teak (Tectona grandis) in Thailand,” pp.1-8. 15 N.T. Hoan and R. Tateishi, Global MODIS 250 m dataset for 10 years (2003-2012) User’s Manual, 2013. 16 N. Yoshifuji, T. Kumagai, K. Tanaka, N. Proceedings of the International Conference on Climate Change, Biodiversity and Ecosystem Services for the 281 Sustainable Development Goals (SDGs): Policy and Practice 27-29 June 2016, Cha-am, Phetchaburi, Thailand
Proceedings of International Conference on Climate Change, Biodiversity and Ecosystem Services for the Sustainable Development Goals : Policy and Practice 27-29 June 2016 at the Sirindhorn International Environmental Park, Cha-am, Phetchaburi, Thailand
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