참고문헌
- Abdellatef, E., M.M. Ahmed, H. Daffalla, and M. Khalafalla. 2010. Enhancement of adventitious shoot regeneration in sesame (sesamum indicum L.) cultivar promo KY using ethylene inhibitors. J. Phyto. 2(1):61-67.
- Agunbiade, O.J. and A.I. Ojoawo. 2015. Evaluation of effective soil depth and heterogeneous sub-surface mapping using electrical resistivity geophysical methods to aid oil palm plantation planning at lle-oluji, ondo state, Nigeria. Am. J. Sci. Ind. Res. 6(3):58-68.
- ASI. 1973. Soil Survey Manual. Agricultural Science Institute, Suwon, Korea (in Korean).
- ASI. 1992. Revised Korean Soil Survey Materials. No. 13. Agricultural Science Institute, Suwon, Korea (in Korean).
- Belford, R.K., R.Q. Cannell, and R.J. Thomson. 1985. Effect of single and multiple saterlogging on the growth and yield of winter wheat on a clay soil. J. Sci. Food Agric. 32(3):142-156.
- Boitt, M.K., C.N. Mundia, P.K.E. Pellikka, and J.K. Kapoi. 2015. Land suitability assessment for effective crop production, a case study of Taita Hills, Kenya. J. Agric. Inf. 6(2):23-31.
- Cho, H.J., B.K. Hyun, Y.K. Sonn, S.O. Hur, and K.S. Shin. 2014. A study on soil suitability criteria for adzuki bean. Korean J. Soil Sci. Fert. 47(6):412-417 (in Korean). https://doi.org/10.7745/KJSSF.2014.47.6.412
- Cho, K.H., J.W. Choi, B.W. Shin, S.J. Yoo, and J.D. So. 1992. The environment characteristics and suitability class criteria for citron cultivation. Ann. Conf. Korean Soc. Soil Sci. Fert. p.21 (in Korean).
- Chun, H.C., K.Y. Jung, Y.D. Choi, S.H. Lee, and H.W. Kang. 2016. The growth and yield changes of foxtail millet (Setaria italic L.), proso millet (Panicum miliaceum L.), sorghum (Sorghum bicolor L.), Adzuki bean (Vigna angularis L.), and sesame (Sesamum indicum L.) as affected by excessive soil-water. Korean J. Agric. Sci. 43(4):547-559 (in Korean). https://doi.org/10.7744/KJOAS.20160056
- Driessen, P.M., M.W. Ihle, and J.G.B. Leenaars. 1997. Land suitability assessment for selected land-use systems in the Sanmatenga-north area, Burkina Faso. Wageningen Agricultural University. Dept. Soil Science & Geology.
- Emmerling, C. and T. Udelhoven. 2002. Discriminating factors of the spatial variability of soil quality parameters at landscape-scale. J. Plant Nutr. Soil Sci. 165:706-712. https://doi.org/10.1002/jpln.200290007
- Evans, R.O. and R.W. Skaggs. 1984. Crop susceptibility factors for corn and soybeans to controlled flooding. ASAE Paper No. 84-2567, ASAE, St. Joseph, MI 49085.
- Fukuda, Y., T. Osawa, M. Namiki, and T. Ozaki. 1985. Studies on antioxidative substances in sesame seed. Agric. Biol. Chem. 49:301-306.
- Hiler, E.A. and R.N. Clark. 1971. Stress day index to characterize effects of water stress on crop yields. Trans. ASABE 14(4):757-761. https://doi.org/10.13031/2013.38384
- Hyeon, G.S., B.Y. Yeon, D.Y. Hyun, S.W. Kang, S.W. Cha, D.H. Choi, K.C. Song, and S.M. Kim. 2008. Suitability classes of soil properties for ginseng production in the upland soils. Annu. Spring Conf. KSSSF. p. 42 (in Korean).
- Hyeon, G.S., S.K. Rim, S.J. Jung, C.S. Park, and J.Y. Lee.1994. Establishment of suitability of peach. Annu. Rep. (Environ). 208-212 (in Korean).
- Hyun, B.K., S.J. Jung, Y.K. Sonn, C.W. Park, Y.S. Zhang, K.C. Song, L.H. Kim, E.Y. Choi, S.Y. Hong, S.I. Kwon, and B.C. Jang. 2010. Comparison between methods for suitability classification of wild edible greens. Korean J. Soil Sci. Fert. 43(5):696-704 (in Korean).
- Jung, S.J., C.S. Park, G.S. Hyen, S.K. Rim, G.H. Cho, and Y.T. Jung. 1996. Land suitability classification and it's distribution for paddy-upland rotations in Korea. RDA. J. Agric. Sci. 38(1):357-363 (in Korean).
- Jung, Y.T., E.S. Yun, I.S. Son, J.D. So, and Y.G. Cho. 1993. Suitability class criteria for sweet persimmon cultivation. Annu. Conf. KSSSF. p. 164 (in Korean).
- Kim, C.S., I.S. Son, E.S. Yun, K.Y. Jung, S.T. Park, D.C. Lee, and J.T. Kim. 1994. Suitability classification of paddy soils for soybean cultivation in Korea. Annu. Rep. (Yeongnam). 145-153 (in Korean).
- Kim, D.K., Y.I. Kuk, S.U. Chon, M.H. Kang, J.C. Lee, M.S. Kim, and G.C. Bak. 2002. Growth and seed quality as affected by growing condition in sesame. Korean J. Crop Sci. 47(6):443-447 (in Korean).
- Kim, J.K., Y.T. Jung, I.S. Son, and E.S. Yun. 1995. Physiography and soil characteristics of the apple orchards in chief producing localities in Yeongnam area. KSSSF 37:239-245 (in Korean).
- Kim, S.O., U. Chung, S. Kim, I. Choi, and J. Yun. 2009. The suitable region and site for 'Fuji' apple under the projected climate in south Korea. Korean J. Agric. For. Meteorol. 11(4):162-173 (in Korean). https://doi.org/10.5532/KJAFM.2009.11.4.162
- Korean Statistical Information Service. 2015. Agricultural area for sesame. Website: http://www.kosis.kr (in Korean).
- NAAS. 2010. NAAS homepage. Website: http://asis.rda.go.kr (in Korean).
- Osawa, T., M. Nagata, M. Namiki, and Y. Fukuta. 1995. Sesamolinol, a novel antioxidant isolated from sesame seeds. Agric. Biol. Chem. 49:3351-3352.
- Paruelo, J.M., M.R. Aguiar, and R.A. Golluscio. 1987. Soil water availability in the Patagonian arid steppe: Gravel content effect. Arid Soil Res. Rehab. 67-74.
- Rahardjo, H., T. Lee, E.C. Leong, and R.B. Rezaur. 2005. Response of a residual soil slope to rainfall. Can. Geotech. J. 42(2):340-351. https://doi.org/10.1139/t04-101
- Ryu, S.R., J.I. Lee, and H.S. Lee. 1993. Effect of temperature and day-length on antioxidants in sesame. Korean J. Crop Sci. 38(4):330-335 (in Korean).
- Seo, H.C., S.K. Kim, Y.S. Lee, and Y.C. Cho. 2006. Geographical shift of quality soybean production area in northern Gyeonggi province by year 2100. Korean J. Agric. For. Meteorol. 8(4):242-249 (in Korean).
- Shim, K.B., C.D. Hwang, S.B. Pae, M.H. Lee, T.J. Ha, C.H. Park, and K.Y. Park. 2010. Comparison of physiochemical characters of sesame seeds according to the different producing origin. Korea J. Int. Agric. 22(4):371-375 (in Korean).
- Wataru. 2003. The guide of analysis for multi- regression. Daehanmedia. p. 73-79.
- Yun, E.S., K.Y. Jung, K.D. Park, Y.K. Sonn, C.Y. Park, J.B. Hwang, and M.H. Nam. 2011. Compaction characteristics of multi-cropping paddy soils in south-eastern part of Korea. Korean J. Soil Sci. Fert. 44(5):688-695 (in Korean). https://doi.org/10.7745/KJSSF.2011.44.5.688