1 최광용, "한라산의 사계절 극한강수현상 발생 패턴" 기후연구소 8 (8): 267-280, 2013
2 송국만, "한라산 소나무림의 분포와 변화" 한국환경과학회 21 (21): 41-47, 2012
3 최광용, "한라산 사면 및 고도별 기온감률 변동성" 기후연구소 6 (6): 171-186, 2011
4 최광용, "우리나라 사계절 개시일과 지속기간" 대한지리학회 41 (41): 435-456, 2006
5 박창용, "남한 상세 기후변화 시나리오를 이용한 아열대 기후대 및극한기온사상의 변화에 대한 연구" 한국지역지리학회 19 (19): 600-614, 2013
6 김맹기, "남한 1km 해상도의 격자형 일 기상자료 생산과 검증" 기후연구소 8 (8): 13-25, 2013
7 Chen, D., "Using the Köppen classification to quantify climate variation and change: An example for 1901-2010" 6 : 69-79, 2013
8 Spinoni, J., "Towards identifying areas at climatological risk of desertification using the Köppen-Geiger classification and FAO aridity index" 35 (35): 2210-2222, 2015
9 Kong, W. S., "The vertical distribution of air temperature and thermal amplitude of alpine plants on Mt. Halla, Cheju Island, Korea" 34 (34): 385-393, 1999
10 De Castro, M., "The use of a climate-type classification for assessing climate change effects in Europe from an ensemble of nine regional climate models" 81 (81): 329-341, 2007
1 최광용, "한라산의 사계절 극한강수현상 발생 패턴" 기후연구소 8 (8): 267-280, 2013
2 송국만, "한라산 소나무림의 분포와 변화" 한국환경과학회 21 (21): 41-47, 2012
3 최광용, "한라산 사면 및 고도별 기온감률 변동성" 기후연구소 6 (6): 171-186, 2011
4 최광용, "우리나라 사계절 개시일과 지속기간" 대한지리학회 41 (41): 435-456, 2006
5 박창용, "남한 상세 기후변화 시나리오를 이용한 아열대 기후대 및극한기온사상의 변화에 대한 연구" 한국지역지리학회 19 (19): 600-614, 2013
6 김맹기, "남한 1km 해상도의 격자형 일 기상자료 생산과 검증" 기후연구소 8 (8): 13-25, 2013
7 Chen, D., "Using the Köppen classification to quantify climate variation and change: An example for 1901-2010" 6 : 69-79, 2013
8 Spinoni, J., "Towards identifying areas at climatological risk of desertification using the Köppen-Geiger classification and FAO aridity index" 35 (35): 2210-2222, 2015
9 Kong, W. S., "The vertical distribution of air temperature and thermal amplitude of alpine plants on Mt. Halla, Cheju Island, Korea" 34 (34): 385-393, 1999
10 De Castro, M., "The use of a climate-type classification for assessing climate change effects in Europe from an ensemble of nine regional climate models" 81 (81): 329-341, 2007
11 Zhang, X., "Temporal change of climate zones in China in the context of climate warming" 115 (115): 167-175, 2014
12 N. C. Pepin, "Temperature trends at high elevations: Patterns across the globe" Wiley-Blackwell 35 (35): 2008
13 김맹기, "Statistical Downscaling for Daily Precipitation in Korea Using Combined PRISM, RCM, and Quantile Mapping: Part 1, Methodology and Evaluation in Historical Simulation" 한국기상학회 52 (52): 79-89, 2016
14 Zhang, X., "Spatiotemporal change in geographical distribution of global climate types in the context of climate warming" 43 (43): 595-605, 2014
15 Kim, J. G., "Spatial changes of Korean fir(Abies koreana E.H. Wilson) in Mt. Hallasan during the last 10 years" 16 : 9-32, 2017
16 Hanf, F., "Shifts of climate zones in multi-model climate change experiments using the Köppen climate classification" 21 (21): 111-123, 2012
17 Research Institute of Mt. Halla, Jeju Special Self-Governing Province, "Report of Survey and Study of Hallasan Nature Reserve 2006" 2016
18 Shin, S. H., "Relationship between the expansion of drylands and the intensification of Hadley circulation during the late twentieth century" 118 (118): 117-128, 2012
19 Wang, Q., "Recent warming amplification over high elevation regions across the globe" 43 (43): 87-101, 2014
20 Chan, D., "Projected shifts in Köppen climate zones over China and their temporal evolution in CMIP5multi-model simulations" 33 (33): 283-293, 2016
21 Feng, S., "Projected climate regime shift under future global warming from multi-model, multi-scenario CMIP5 simulations" 112 : 41-52, 2014
22 Mahlstein, I., "Pace of shifts in climate regions increases with global temperature" 3 (3): 739-743, 2013
23 Jylhä, K., "Observed and projected future shifts of climatic zones in Europe and their use to visualize climate change information" 2 (2): 148-167, 2010
24 Rubel, F., "Observed and projected climate shifts 1901-2100 depicted by world maps of the Köppen-Geiger climate classification" 19 (19): 135-141, 2010
25 Rohli, R. V., "Globally extended Köppen-Geiger climate classification and temporal shifts in terrestrial climatic types" 36 (36): 142-157, 2015
26 Feng, S., "Expansion of global drylands under a warming climate" 13 (13): 10081-100094, 2013
27 Feng, S., "Evaluating observed and projected future climate changes for the Arctic using the Köppen-Trewartha climate classification" 38 (38): 1359-1373, 2012
28 Mountain Research Initiative EDW Working Group, "Elevation-dependent warming in mountain regions of the world" 5 (5): 424-430, 2015
29 Son, K. H., "Drought analysis according to shifting of climate zones to arid climate zone over Asia monsoon region" 529 : 1021-1029, 2015
30 Diaz, H. F., "Disappearing alpine tundra Köppen climatic type in the western United States" 34 (34): 2007
31 Wang, M., "Detecting arctic climate change using Köppen climate classification" 67 (67): 43-62, 2004
32 Koo, K. A., "Dentrochronological analysis of Abies koreana W., at Mt. Halla, Korea: Effects of climate change on the growths" 24 (24): 281-285, 2001
33 Fraedrich, K., "Climate shifts in the last century" 50 (50): 405-417, 2001
34 Beck, C., "Characterizing global climate change by means of Köppen climate classification" 51 : 139-149, 2005
35 Grundstein, A., "Assessing climate change in the contiguous United States using a modified Thornthwaite climate classification scheme" 60 (60): 398-412, 2008
36 권영아, "A1B 시나리오 자료를 이용한 우리나라 아열대 기후구 전망" 대한지리학회 42 (42): 355-367, 2007
37 Allen, C. D., "A global overview of drought and heatinduced tree mortality reveals emerging climate change risks for forests" 259 (259): 660-684, 2010
38 정일웅, "20세기에 일어난 기후구의 변화와 사막화" 기후연구소 6 (6): 23-44, 2011
39 김맹기, "1km 해상도의 관측 격자자료 생산 기술" 기후연구소 7 (7): 55-68, 2012