Development and Use of Digital Climate Models in Northern Gyunggi Province - I. Derivation of DCMs from Historical Climate Data and Local Land Surface Features |
김성기
(경기도 농업기술원 북부농업시험장)
박중수 (경기도 농업기술원 북부농업시험장) 이은섭 (경기도 농업기술원 북부농업시험장) 장정희 (경기도 농업기술원 북부농업시험장) 정유란 (경희대학교 생태시스템공학과/생명자원과학연구원) 윤진일 (경희대학교 생태시스템공학과/생명자원과학연구원) |
1 | Chung, U., and J. I. Yun, 2002: Spatial interpolation of hourly air temperature over sloping surfaces based on a solar irradiance correction. Korean Journal of Agricultural and Forest Meteorology, 4(2), 95-103 |
2 | Dodson, R. and D. Marks, 1997: Daily temperature interpolated at high spatial resolution over a large mountainous region. Climate Research 8(1), 1-20 |
3 | Dodson, R. and D. Marks, 1997: Daily temperature interpolated at high spatial resolution over a large mountainous region. Climate Research 8(1), 1-20 |
4 | Gates, D. M., 1980: Biophysical Ecology. Springer-Verlag, New York |
5 | Regniere, J., 1996: Generalized approach to landscapewide seasonal forecasting with temperature-driven simulation models. Environmental Entomology 25(5), 896-881 |
6 | Yun, J. I., and S. E. Taylor, 1998: Modelling soil temperature of sloped surfaces by using a GIS technology. Korean J. Crop Science 43(2), 113-119 |
7 | Chung, U., H. H. Seo, K. H. Hwang, B. S. Hwang, and J. I. Yun., 2002: Minimum temperature mapping in complex terrain considering cold air drainage. Korean Journal of Agricultural and Forest Meteorology, 4(3), 133-140 |
8 | Regniere, J., B. Cooke, and V. Bergeron, 1996: BioSIM: A Computer-Based Decision Support Tool for Seasonal Planning of Pest Management Activities. User's Manual. Canadian Forest Service Info. Rep. LAU-X-116. 50p |
9 | Choi, J., U. Chung, and J. I. Yun 2003: Urban effect correction to improve accuracy of spatially interpolated temperature estimates in Korea. Journal of Applied Meteorology 42: 1711-1719 |
10 | Phillips, D. L., J. Dolph, and D. Marks, 1992: A comparison of geostatistical procedures for spatial analysis of precipitation in mountainous terrain. Agricultural and Forest Meteorology 58, 119-141199 |
11 | un, J. I., 2000: Estimation of climatological precipitation of North Korea by using a spatial interpolation scheme. Korean Journal of Agricultural and Forest Meteorology 2(1),16-23 |
12 | Seino, H., 1993: An estimation of distribution of meteorological elements using GIS and AMeDAS data. Journal of Agricultural Meteorology (Japan) 48(4), 379- 383 |
13 | Nalder, I. A., and R. W. Wein, 1998: Spatial interpolation of climatic normals: test of a new method in the Canadian boreal forest. Agricultural and Forest Meteorology 92, 211-225 |
14 | Shin, M. Y., and J. I. Yun, 1992: Estimation of monthly temperature distribution in Cheju Island by topoclimatological relationships. Journal of Korean Forestry Society 81, 40-52 |
15 | Nakai, K., 1990. Japanese system of the meteorological information service to user communities including education and training. In A. Price-Budgen(ed.) Using Meteorological Information and Products. Ellis Horwood, UK. 257-274 |
16 | Holdaway, M. R., 1996: Spatial modeling and interpolation of monthly temperature using kriging. Climate Research 6, 215-225 |
17 | Daly, C., R. P. Neilson, and D. L. Phillips, 1994: A statistical - topographical model for mapping climatological precipitation over mountainous terrain. Journal of Applied Meteorology 33, 140-158 |
18 | Chung, U., H. C. Seo, J. I. Yun, and K. H. Lee, 2003: An optimum scale for topoclimatic interpolation of daily minimum temperature in complex terrain. Korean Journal of Agricultural and Forest Meteorology, 5(4), 261-265 |