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http://dx.doi.org/10.7740/kjcs.2014.59.4.483

Growth and Yield Components Responses to Delayed Planting of Soybean in Southern Region of Korea  

Park, Hyeon-Jin (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Han, Won-Young (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Oh, Ki-Won (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Kim, Hyun-Tae (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Shin, Sang-Ouk (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Lee, Byong-Won (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Ko, Jong-Min (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Baek, In Youl (Div. of Legume and Oil Crop Research, Dept. of Functional Crop, NICS, RDA)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.59, no.4, 2014 , pp. 483-491 More about this Journal
Abstract
Double cropping system including paddy field soybean is widely adopted nationwide, due to rise in market price and its higher income than paddy field rice. Sowing date of soybean as a second crop is being delayed depending on first crop's growth period and harvesting time. Due to the increased temperature in October and delayed first frost date, soybean could be harvested without frost damage even in late-plating. Therefore, selection of soybean cultivar which is appropriate for this environment is very important. The effect of sowing date and genotype of soybean on growth and yield was investigated for three planting dates (June 20, July 5, and July 20) with ten cultivars developed for soy-pate production, to figure out plant development and yield pattern in delayed planting. As planting date is delayed, plant height and pod number was decreased and this pattern was more clearly detected in mid-late maturity cultivars. Hundred-seed weight did not show significant changes even in late planting, due to compensations between yield components. Yield reduction of July 20 in contrast to that of June 20 showed that Nampung (9.6%) showed the least yield decline. Maximum yield was achieved from Daepung, Taekwang, and Uram among other soybean cultivars in late planting. Shortening of growth period was strongly detected in reproductive stage while length of vegetative stage was regularly maintained in both early and mid-late maturity cultivars.
Keywords
soybean; southern region; cultivar; planting date; marginal date;
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1 Akhter, M., and C. H. Sneller. 1996. Yield and yield components of early maturing soybean genotypes in the mid-south. Crop Sci. 36 : 877-882.   DOI
2 Baek, I. Y., W. Y. Han, D. C. Shin, S. T. Kang, J. M. Ko, S. O. Shin, N. S. Kang, K. Y. Park, H. T. Kim, M. G. Choung, S. K. Oh, D. Y. Suh, H. Y. Kim, H. T. Yun, J. S. Park, K. S. Ha, J. H. Jeong, C. K. Son, D. S. Kang, and Y. D. Kim. 2005. A new tofu and soy-paste soybean cultivar, "Seonyu" with large seed and early maturity. Kor. J. Breed. 37(4) : 257-258.
3 Board, J. E., and B. G. Harville. 1998. Late-planted soybean yield response to reproductive source/sink stress. Crop Sci. 38 : 763-771.   DOI
4 Board, J. E., M. Kamal, and B. G. Harville. 1992. Temporal importance of greater light interception to increased yield in narrow-row soybean. Agron. J. 84 : 575-579.   DOI
5 Board, J. E. and Q. Tan. 1995. Assimilatory capacity effects on soybean yield components and number. Crop Sci. 39 : 846-851.
6 Boquet, D. J. 1990. Plant-Population Density and Row Spacing Effects on Soybean at Post-Optimal Planting Dates. Agron J. 82 : 59-64.   DOI
7 Calvino, P. A., V. O. Sadras, and F. H. Andrade. 2003. Development, growth and yield of late-sown soybean in the southern Pampas. Eur. J. Agron. 19(2) : 265-275.   DOI
8 Chen, G. H. and P. Wiatrak. 2010. Soybean development and yield are influenced by planting date and environmental conditions in the southeastern coastal plain, United States. Agron. J. 102 : 1731-1737.   DOI
9 Cho, J. W., S. Y. Lee, S. K. Kang, and C. S. Kim. 2006. Yield and Ecological Characteristics of Soybean in Drained-Paddy Field. Jour. Agri. Sci. 33(2) : 141-147.
10 Choi, K. J. 1994. Effects of excessive water stress on the growth and yield of soybean. Seoul Natl. Univ. Ph.D. Thesis pp. 74.
11 Coward, L., N. C. Barnes, K. D. Setchell, and S. Barnes. 1993. Genistein, daidzein, and their. beta-glycoside conjugates: antitumor isoflavones in soybean foods from American and Asian diets. J. Agric. Food Chem. 41(11) : 1961-1967.   DOI   ScienceOn
12 Cox, W., and J. H. Cherney. 2011. Growth and yield responses of soybean to row spacing and seeding rate. Agron J. 103 : 123-128.   DOI
13 Egli, D. B., 1998. Seed biology and the yield of grain crops. CAB International, Oxford, p. 178.
14 Egli, D. B., and W. P. Bruening. 2000. Potential of early-maturing soybean cultivars in late plantings. Agron J, 92(3) : 532-537.   DOI
15 Egli, D. B., and P. L. Cornelius. 2009. A regional analysis of the response of soybean yield to planting date. Agron J, 101(2) : 330-335.   DOI
16 Evans, L. T. 1996. Crop evolution, Adaptation and Yield. Cambridge University Press, Cambridge, 500.
17 Fakui, I., and R. Ito. 1951. Fertility of the soybean affected in short period by the excessive soil moisture content at different growing period. Jpn. J. Crop Sci. 20(3-4) : 271-273.
18 FAOSTAT. 2012. Agriculture organization of the United Nations. Statistical database.
19 Frederick, J. R., C. R. Camp, and P. J. Bauer. 2001. Droughtstress effects on branch and mainstem seed yield and yield components of determinate soybean. Crop Sci. 41 : 759-763.   DOI
20 Fukui, J. 1965. Physiology and ecological studies of soybean in relation to soil moisture condition. J. Central Agri. Exp. Sta. 9 : 1-68.
21 Kim, D. K., S. U. Chon, and B. G. Heo. 2006. Effect of no-tillage on soybean yield and weed emergence in drained paddy field condition in Jeonnam province. Korean J. Community Living Sci. 17(3) : 89-97.   과학기술학회마을
22 Hany A. El-Shemy. 2011. Soybean Physiology and Biochemistry. Rijeka: InTech. 488.
23 Imaizumi, T. and S. A. Kay. 2006. Photoperiodic control of flowering: not only by coincidence. Trends Plant Sci. 11(11) : 550-558.   DOI   ScienceOn
24 Jung, K. Y., E. S. Yun, C. Y. Park, J. B. Hwang, Y. D. Choi, and K. D. Park. 2011. Stress Day Index to Predict Soybean Yield response by subsurface drainage in poorly drained sloping paddy fields. Korean J. Soil Sci. Fert. 44(5) : 702-708   과학기술학회마을   DOI   ScienceOn
25 Kim, D. K., J. G. Choi, H. G. Park, H. R. Shin, S. T. Yoon, K. D. Lee, and Y. S. Rim. 2013. Ecological Characteristics and Yield of Major Soybean Cultivars at Different Sowing Times in Southern Korea. Korean J. Crop Sci. 58(1) : 57-66.   과학기술학회마을   DOI
26 Kim, H. T. 2013. A new tofu and soy-paste soybean cultivar "Cheonsang", starting to seed supply this year. 2013. Korea Advanced Farmers Association. 50(2) : 40.
27 Kim, H. T., I. Y. Baek, J. M. Ko, W. Y. Han, K. Y. Park, K. W. Oh, H. T. Yun, J. K. Moon, S. O. Shin, S. L. Kim, Y. J. Oh, J. H. Lee, J. K. Choi, C. H. Kim, S. S. Lee, Y. J. Jang, D. K. Kim, C. K. Son, D. S. Kang, and Y. D. Kim. 2010. A new soy-paste soybean cultivar, "Nampung" with disease resistance, good combining adaptability and high yielding. Kor. J. Breed. Sci. 42(6) : 721-726.
28 Kim, S. D., K. Y. Park, Y. H. Kim, H. T. Yun, Y. H. Lee, S. H. Lee, Y. K. Seung, E. H. Park, Y. H. Hwang, Y. H. Ryu, C. J. Hwang, and Y. S. Kim. 1998. A new soybean variety for soypaste with large seed and disease resistant "Daewonkong". RDA. J. Crop Sci. 40(2) : 107-111.
29 Kim, H. T., J. M. Ko, I. Y. Baek, M. G. Jeon, W. Y. Han, K. Y. Park, B. W. Lee, Y. H. Lee, C. S. Jeong, K. W. Oh, T. J. Ha, J. K. Moon, H. T. Yun, and J. K. Lee. 2011. Poster presentation : A new tofu soybean cultivar "Saedanbaek", with the highest protein content. Kor. J. Breed. Sci. 43 : 70.
30 Kim, S. D., E. H. Hong, Y. H. Lee, Y. H. Hwang, Y. H. Moon, H. S. Kim, E. H. Park, Y. G. Seong, Y. H. Kim, W. H. Kim, Y. H. Ryu, and R. K. Park. 1992. Resistant to disease, good in seed quality, high yielding and widely adapted new soybean variety "Taekwangkong". Res. Rept. RDA(U&I). 32(2) : 11-15.
31 Kim, Y. H., S. D. Kim, and E. H. Hong. 1994. characteristics of soy sprouts cultivated with soybean for sprout. RDA. J. Agri. Sci. 36(2) : 107-112.
32 Kumudini, S. V., P. K. Pallikonda, and C. Steele. 2007. Photoperiod and e-genes influence the duration of the reproductive phase in soybean. Crop Sci. 47 : 1510-1517.   DOI
33 Kwon, S. H., J. H. Oh, J. R. Kim, H. S. Song, and B. W. Kim. 1975. Articles : Diversity of Protein and Oil Contents of the Korean Native Soybean Seeds II. Korean J. Breed. Sci. 7(1) : 40-44.
34 Kwon, Y. W., and H. S. Lee. 1988a. The issue of physiological and cultivation environment on soybean. RDA Symp. 3 : 68-95.
35 Kwon, Y. W., and M. K. Lee. 1988b. Physiological responses of soybean plants to flooding at the vegetative growth and the flowering stage. Res. Rept. RDA 31 : 289-300.
36 Messina, M., and V. Messina. 2010. The role of soy in vegetarian diets. Nutrients 2 : 855-888.   DOI
37 Park, K. Y., J. K. Moon, H. T. Yun, Y. H. Lee, S. L. Kim, Y. H. Ryu, Y. H. Kim, J. H. Ku, J. H. Roh, E. S. Lee, K. S. Ha, I. J. Kim, C. K. Son, S. K. Kim, S. D. Kim, and H. P. Moon. 2005. A new soybean cultivar for fermented soyfood and tofu with high yield, "Daepung". Korean J. Breed. 37(2) : 111-112.
38 Ministry of Agriculture, Forestry and Fisheries of Japan. 1989. Basic technologies for paddy field crop cultivation.
39 Ministry of food and drug safety. 2003-2012. Production of food and food additives.
40 Mochizuki, T., and S. Matsumoto. 1991. Varietal differences of wet endurance in autumn soybean plants. Jpn J. Crop Sci. 60(3) : 380-384.   DOI
41 Pedersen, P. and J. G. Lauer. 2003. Soybean agronomic response to management systems in the upper Midwest. Agron. J. 95 : 1146-1151.   DOI
42 Pedersen, P., and J. G. Lauer. 2004. Soybean growth and development in various management systems and planting dates. Crop Sci. 44(2) : 508-515.   DOI
43 RDA. 2012a. Criteria for agricultural research and investigation. 414-430.
44 RDA. 2012b. Standard guide for soybean cultivation-116. 136-137.
45 Saliba, M. R., L. E. Schreder, S. S. Hirano, and C. D. Upper. 1982. Effect of freezing field-grown soybean plants at various stages of podfill on yield and seed quality. Crop Sci. 22 : 73-77.   DOI
46 SAS Institute Inc. 2009. SAS/STAT(R)9.2 User's Guide, Second Edition. Cary, NC : SAS Institute Inc.
47 Shimada, S. 2008. Enhancing Soybean Productivity in the Paddy Fields in Japan. International crop science congress & exhibition (ICSC) 3-4.
48 United States Department of Agriculture (USDA). 2014. Oilseeds: World markets and trade. 2013/14 forecast. Foreign agricultural service/USDA, office of global analysis.
49 Shin, D. C., H. S. Suh, and K. Y. Chang. 1992. Studies on limiting time of soybean sowing in southern region of Korea. The effect of different sowing times on the variability of characteristics in soybeans. Res. Rept. RDA (U&I) 34(1) : 40-46.
50 Statistics Korea. 2013. Agricultural Area Survey.
51 Wiebold, B. 2001. Soybean plants killed before maturity possess grain that remains green. Soy Facts. Missouri Univ. Agron. Ext. Publ. http://www.psu.missouri.edu/soyx Accessed May 12, 2006.
52 Zhang, Q. Y., Q. l. Gao, S. J. Herbert, Y. S. Li, and A. M. Hashemi. 2010. Influence of sowing date on phenological stages, seed growth and marketable yield of four vegetable soybean cultivars in North-eastern USA. Afr. J. Agric. Res. 5(18) : 2556-2562.