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http://dx.doi.org/10.5141/JEFB.2010.33.1.037

Statistical Interpretation of Climate Change in Seoul, Korea, over the Last 98 Years  

Kim, Eun-Shik (Department of Forest Resources, Kookmin University)
Publication Information
Journal of Ecology and Environment / v.33, no.1, 2010 , pp. 37-45 More about this Journal
Abstract
I conducted extensive analyses of daily weather data of precipitation and temperature monitored from the Surface Synoptic Meteorological Station in Seoul from 1 October 1907 to 31 December 2009 to understand how the climate is changing and the ecological implications for Seoul, Korea. Statistical analyses of the data, including the lengths of seasons and growing degree-days (GDD), showed a clear warming trend in the Seoul area over the study period. The mean daily temperature in Seoul increased by $2.40^{\circ}C$ over the period of one hundred years, which was about three times faster than the global trend and it was striking to notice that mean daily temperature in Seoul in recent 30 years was increasing with the rate of $5.50^{\circ}C$ per hundred years, which is an extremely fast rate of increase in temperature. In the last 100 years, an increase in the number of summer days was apparent, coupled with a reduction in the average number of winter days for about 27 to 28 days based on the analysis of mean daily temperature. Although the lengths of spring and autumn have not changed significantly over the century, early initiations of spring and late onsets of autumn were quite apparent. Total annual precipitation significantly increased at the rate of 2.67 mm/year over the last 100 years, a trend not apparent if the analysis is confined to periods of 30 to 40 years. The information has the potential to be used not only for better understanding of ecological processes and hydrology in the area, but also for the sustainable management of ecosystems and environment in the region.
Keywords
climate change; daily precipitation; daily temperature; global warming; growing degree-days (GDD); length of seasons; Seoul; statistical implication; Surface Synoptic Station; weather data;
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1 Choi KH. 2008. Review on impacts and possible adaptationstrategies for climate change. Jour Korean Soc EIA 17(3):201-211. (in Korean with an English abstract)
2 Choi Y. 2004. Trends on temperature and precipitation extreme events in Korea. J Korean Geograph Soc 39(5): 711-721.   과학기술학회마을
3 Choi Y, Jung HS, Nam KY, Kwon WT. 2003. Adjusting urban bias in the regional mean surface temperature series of South Korea, 1968-99. Int J Climatol 23: 577-591.   DOI
4 Ha KJ, Ha E. 2006. Climatic change and interannual fluctuationsin the long-term record of monthly precipitation forSeoul. Int J Climatol 26: 607-618.   DOI
5 Ho CH, Lee EJ, Lee I, Jeong SJ. 2006. Earlier spring in Seoul,Korea. Int J Climatol 26: 2117-2127.   DOI
6 Kim E. 1988. Radial growth patterns of tree species inrelation to environmental factors. Unpublished Ph.D.Dissertation. Yale University, New Haven, Connecticut.
7 Kim ES. 1993. Dynamics of climate and soil moisture contentin forests of Seoul Area. For. Humanity 5: 47-62. Instituteof Forest Science, Kookmin University, Seoul, Korea.
8 Kim SN, Lee WK, Son YW, Cho YS, Lee MS. 2009. Applicabilityof climate change impact assessment models toKorean forest. J Korean For Soc 98(1): 33-48.
9 Kim MK, Pang A. 2009. Climate change impact on rice yieldand production risk. J Rural Develop 32(2): 17-29.
10 Kim YH, Baik JJ. 2002. Maximum urban heat island intensityin Seoul. J Appl Meteor 41: 651-659.   DOI
11 Kimmins JP. 2004. Forest Ecology (Third ed.). Prentice Hall,Upper Saddle River, New Jersey.
12 Kong WS. 1999. Global warming and alpine vegetation. Korean J Ecol 22(6): 363-369.   과학기술학회마을
13 Lee BS. 1979. A study of natural seasons in Korea. J Korean Geograph Soc 20: 1-11.   과학기술학회마을
14 Kwon YA, Kwon WT, Boo KO. 2008. Future projections on the spatial distribution of onset date and duration of natural seasons using SRES A1B data in South Korea. J Korean Geograph Soc 43(1): 36-51.   과학기술학회마을
15 Korea Meteorological Administration. 1996. Typhoon White Book.
16 Korea Meteorological Administration. 2008. Annual Climatological Report.
17 Walter H. 1979. Vegetation of the Earth and EcologicalSystems of the Geo-biosphere. Springer-Verlag, NewYork, New York.
18 Kim ES, Kim YS. 2000. Possibility of climate change and simulation of soil moisture content on Mt. Hallasan National Park, Chejudo Island, Korea. Korean J Ecol 23(2): 117-123.   과학기술학회마을
19 Kim ES. 2010. Simulation of daily soil moisture content andreconstruction of drought events from the early 20thcentury in Seoul, Korea, using a hydrological simulationmodel, BROOK. J Ecol Field Biol 33(1): 47-57.   DOI
20 Kim JU, Kil BS. 1996. Estimation for changes of net primary productivity and potential natural vegetation in the Korean peninsula by the global warming. Korean J Ecol 19(1): 1-7.   과학기술학회마을
21 Random House Inc. 1987. The Random House Dictionary ofthe English Language. (2nd ed.). New York, New York.
22 McMaster GS, Wilhelm WW. 1997. Growing degree-days: oneequation, two interpretations. Agr For Meteorol 87: 291-300.   DOI
23 Min SK, Kwon WT, Park EH, Choi Y. 2003. Spatial andtemporal comparisons of droughts over Korea with EastAsia. Int J Climatol 23: 223-233.   DOI
24 Oh SN, Kim YH, Hyun MS. 2004. Impact of urbanization onclimate change in Korea, 1973-2002. J Korean MeteorolSoc 40(6): 725-740.
25 United Nations Intergovernmental Panel on Climate Change(UN IPCC). 2007. Climate Change 2007: the FourthAssessment Report (AR4) of the UN IPCC.