Predicting distributional change of forest cover and volume in future climate of South Korea |
Kwak, Doo-Ahn
(GIS/RS Center for Environmental Resources, Korea University)
Lee, Woo-Kyun (Division of Environmental Science and Ecological Engineering, Korea University) Son, Yowhan (Division of Environmental Science and Ecological Engineering, Korea University) Choi, Sungho (Department of Geography and Environment, Boston University) Yoo, Seongjin (Division of Environmental Science and Ecological Engineering, Korea University) Chung, Dong Jun (National Forestry Cooperative Federation) Lee, Seung-Ho (Division of Forest Resources Information, Korea Forest Research Institute) Kim, Sung Ho (Division of Forest Resources Information, Korea Forest Research Institute) Choi, Jung Kee (Department of Forest Management, Kangwon National University) Lee, Young Jin (Department of Forest Resources, Kongju National University) Byun, Woo-Hyuk (Division of Environmental Science and Ecological Engineering, Korea University) |
1 | Box EO. 1996. Plant functional types and climate at the global scale. J Veg Sci. 7:309-320. DOI |
2 | Arris LL, Eagleson PS. 1989. Evidence of a physiological basis for the boreal-deciduous forest ecotone in North America. Vegetatio 82:55-58. |
3 | Bailey RL, Clutter JL. 1974. Base-age invariant polymorphic site curves. For Sci 20(2):155-159. |
4 | Bravo-Oviedo A, Tome M, Bravo F, Montero G, Rio DR. 2008. Dominant height growth equations including site attributes in the generalized algebraic difference approach. Can J For Res. 38:2348-2358. DOI |
5 | ChoHL,Jeong JC. 2006.Application of spatial interpolation to rainfall data. J GIS Assoc KR. 14(1):29-41 (in Korean). |
6 | Choi S, Lee WK, Kwak DA, Lee S, Son Y, Lim JH, Saborowski J. 2011. Predicting forest cover changes in future climate using hydrological and thermal indices in South Korea. Climate Res. 49:229-245. DOI ScienceOn |
7 | Choi S, Lee WK, Son Y, Yoo S, Lim JH. 2010. Changes in the distribution of South Korean forest vegetation simulated using thermal gradient indices. Sci China Ser C 53(7):784-797. DOI ScienceOn |
8 | Clements FE. 1916. Plant auccession: An analysis of the development of vegetation. Washington (DC): Carnegie Institution of Washington. |
9 | Clements FE. 1936. Nature and structure of the climax. J Ecol. 24:252-284. DOI ScienceOn |
10 | Daubenmire RF. 1966. Vegetation: Identification of typical communities. Science 151:291-298. DOI |
11 | Hamilton GJ. 1975. Forest mensuration handbook. Forestry Commission Booklet 39. London: HMSO. |
12 | Jordan L, Souter R, Parresol B, Daniels RF. 2006. Application of the algebraic difference approach for developing self-referencing specific gravity and biomass equations. For Sci. 52(1):81-92. |
13 | Kirilenko AP, Solomon AM. 1998. Modeling dynamic vegetation response to rapid climate change using bioclimatic classification. Clim Change 38:15-49. DOI ScienceOn |
14 | Kiviste A, Kiviste K. 2009. Algebraic difference equations for stand height, diameter, and volume depending on stand age and site factors for Estonian state forests. Int J Math Computat For Nat Res Sci. 1(2):67-77. |
15 | Kong WS. 2005. Selection of vulnerable indicator plants by global warming. Asia-Pa J Atmosph Sci. 41(2-1):263-273 (in Korean). |
16 | Jeong WS. 2008. Environmental forum: recommendations for improvement to establish the better map of actual vegetation. Korea Environ Inst. 12(4):1-8 (in Korean). |
17 | Korea Forest Service. 2011. Statistical yearbook of forestry 2011. Daejeon: Korea Forest Service (in Korean). |
18 | Korea Forest Service. 2000. Forest and forestry technique. Daejeon: Korea Forest Service (in Korean). |
19 | Korea Forest Service. 2006. 1st Report for National Forest Inventory. Daejeon: Korea Forest Service (in Korean). |
20 | Korea Forest Service. 2010. Statistical yearbook of forestry 2010. Daejeon: Korea Forest Service (in Korean). |
21 | KwakDA, LeeWK,ChoHK,LeeSH, Son Y, KafatosM,Kim SR. 2010. Estimating stem volume and biomass of Pinus koraiensis using LiDAR data. J Plant Res. 123:421-432. DOI ScienceOn |
22 | Laurent JM, Bar-Hen A, Francois L, Ghislain M, Cheddadi R. 2004. Refining vegetation simulation models: from plant functional types to bioclimatic affinity groups of plants. J Veg Sci. 15:739-746. DOI |
23 | Lee KJ, Han SS, Kim JH, Kim ES, editors. 2007. Forest ecology. Seoul: Hyangmoonsa (in Korean). |
24 | Lee MA, Lee WK, Song CC, Lee JH, Choi HA, Kim TM. 2007. Spatio-temporal change prediction and variability of temperature and precipitation. J GIS Assoc KR. 15(3):1-12 (in Korean). |
25 | Lee WK, Seo JH, Bae SW. 2000. Maximum stem number and mortality model for even-aged Pinus densiflora stand in Kangwon-Province, Korea. J Kor For Soc. 89(5):634- 644. |
26 | Lenihan JM, Bachelet D, Neilson RP, Drapek R. 2008. Response of vegetation distribution, ecosystem productivity, and fire to climate change scenarios for California. Clim Change 87(1):S215-S230. DOI |
27 | Lenihan JM, Drapek R, Bachelet D, Neilson R. 2003. Climate change effects of vegetation distribution, carbon, and fire in California. Ecol Appl. 13(6):1667-1681. DOI ScienceOn |
28 | Lull HW, Ellison L. 1950. Precipitation in relation to altitude in central Utah. Ecology 31(3):479-484. DOI ScienceOn |
29 | Malimbwi RE. 1994. Estimation of biomass at Kitulangalo Forest Reserve Tanzania. J Trop For Sci. 7(2):230-242. |
30 | Matsui T, Yagihashi T, Nakaya T, Tanaka N, Taoda H. 2004. Climate controls on distribution of Fagus crenata forests in Japan. J Veg Sci. 15:57-66. |
31 | Neilson RP. 1993. Transient ecotone response to climate change: some conceptual and modeling approaches. Ecol Appl. 3(3):385-395. DOI ScienceOn |
32 | Neilson RP, Marks D. 1994. A global perspective of regional vegetation and hydrological sensitivities from climate change. J Veg Sci. 5:175-730. |
33 | Olson JS. 1958. Rates of succession and soil changes on southern Lake Michigan sand dunes. Bot Gaz. 119:125-170. DOI ScienceOn |
34 | Park NW, Jang DH. 2008. Mapping of temperature and rainfall using DEM and multivariate kriging. J Kor Geogr Soc. 43(6):1002-1015 (in Korean). |
35 | SAS. 2006. SAS user guide. Cary (NC): SAS institute Inc. |
36 | Segura M, Kanninen M. 2005. Allometric models for tree volume and total aboveground biomass in a tropical humid forest in Costa Rica. Biotropica 37(1):2-8. DOI ScienceOn |
37 | Sit V, Poulin-Costello M. 1994. Catalogue of curves for curve fitting. Victoria (BC): Forest Science Research Branch, Ministry of Forest. |
38 | Smith CD. 2007. The relationship between monthly precipitation and elevation in the Alberta Foothills during the Foothills Orographic Precipitation Experiment. In: Woo MK, editor. Cold region atmospheric and hydrologic studies. New York: Springer. p. 167-185. |
39 | Son YM, Lee KH, Park YK, Kim RH, Kwon SD. 2008. Management plan for absorption and emission of green house gas in part of forest. Seoul: Korea Forest Research Institute. |
40 | Tansley AG. 1941. Note on the status of salt marsh vegetation and concept of ''formation''. J Ecol. 29:212-214. DOI ScienceOn |
41 | Yim YJ. 1977a. Distribution of forest vegetation and climate in the Korean peninsula III. Distribution of tree species along the thermal gradient. Jpn J Ecol 27:177-189. |
42 | Yim YJ. 1977b. Distribution of forest vegetation and climate in the Korean peninsula IV. Distribution of tree species along the thermal gradient. Jpn J Ecol 27:269-278. |
43 | Yun JI, Choi JY, Ahn JH. 2001. Seasonal trend of elevation effect on daily air temperature in Korea. Kor J Agr For Meteorol. 3(2):96-104 (in Korean). |