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http://dx.doi.org/10.7740/kjcs.2014.60.1.023

Adequate Standard Pot and Number of Plants Per Tree of Raising Seeding Pot on the Foxtail Millet Transplanting Culture in the Southern Province  

Kim, Yong-Soon (Jeollanamdo Agricultural Research and Extension Service)
Kim, Dong-Kwan (Jeollanamdo Agricultural Research and Extension Service)
Choi, Jin-Gyung (Jeollanamdo Agricultural Research and Extension Service)
Park, Heung-Gyu (Jeollanamdo Agricultural Research and Extension Service)
Kim, Myeong-Seok (Jeollanamdo Agricultural Research and Extension Service)
Shin, Hae-Ryoung (Jeollanamdo Agricultural Research and Extension Service)
Choi, Gyung-Ju (Jeollanamdo Agricultural Research and Extension Service)
Yun, Jong-Tag (National Institute of CropScience, RDA)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.60, no.1, 2015 , pp. 23-28 More about this Journal
Abstract
This study was performed to investigate the adequate standard pot and number of plants per tree of raising seeding pot on the foxtail millet transplanting culture in the southern province. Due to the various application of wellbeing-health food recently, for upbringing of the foxtail millet, millet and sorghum in minor cereals, R & D and policy support is being promoted actively. The foxtail millet growing season is so short from 90 to 130 days, and it is large variations for a growth temperature. The main results are as follows. When it comes to foxtail millet transplantation, seedling quality of 406 holes, 200 holes and 162 holes of raising seeding pot type were not all significant, and field rooting percentage is accounted for all 94 to 95%. Yield of a foxtail millet was exposed in 406holes 305 kg/10a>162holes 303 kg> 200holes 302 kg order, and it was no significance between test processing. When it's the raising seeding transplanting culture, in case of pot culture, 406holes pot culture were reduced the bed soil cost 63%, pot 50%, working hours 18% for 200holes pot. Transplanting seedling quality per a foxtail millet transplanting culture method, dry weight was high inclination as transplanting number of plant is less, and field rooting percentage displayed more than all 95%. Yield appeared to 2 plants seedling transplanting 315kg/10a> 3 plants seedling transplanting 304kg>1 plant seedling transplanting 256kg order. The projected cost per the pot-sort on the raising seeding transplanting culture of foxtail millet, the seedling transplanting culture of 406holes was reduced 40% percentages compared to 200holes as 76,230won/10a. As a result, 406holes pot and 2plants seedling transplanting culture, labor-saving culture was possible.
Keywords
foxtail millet; raising seeding transplanting; pot type;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Jeong, K. Y. 2012. Development of the inviromment-friendly cultivation techniques for enhancing productivity of cereal crops. R.D.A. Examination and research report. pp. 29-46.
2 Jung, E. S., D. H. Shin, S. W. Chae, Y. S. Kim, and Y. M. Park. 2010. Status of mixed gain diet by people with diabetes in Jeollabuk-do and sensory evaluation of different composition of mixed grains. J. Korean Soc. Food Sic. Nutr. 39 : 1049-1055.   DOI   ScienceOn
3 Kim, Y. S. and G. C. Lee. 2006. A survey on the consumption and satisfaction degree of the cooked rice mixed with multigrain in Sooul.Kyeonggi and Kangwon area. Korean J. Food Cult. 21 : 661-669.
4 Lee, H. K., I. G. Hwang, H. Y. Kim, K. S. Woo, S. H. Lee, S. H. Woo, J. Lee, and H. S. Jeong. 2010. Physicochemical characteristic and antioxidant activites of cereals and legumes in Korea. J. Korean Soc. Food Sci. Nutr. 39 : 1399-1404.   DOI
5 Son, S. H., H. J. Lee, K. Park, T. Y. Ha, and J. S. Seo. 2013. Nutritional evaluation to the risk of metabolic syndrome according to the consumption of cooked rice and cooked rice with multigrains in Korean adults: Based on 2007-2008 Korean national health and nutrition examination survey. Korean J. Community Nutr. 18 : 77-87.   DOI   ScienceOn
6 Son, S. M. 2001. Rice bases meal for prevention of obesity and chronic disease. Korean J. Community Nutr. 6 : 862-867.
7 Cho, M. S., Y. S. Choi, J. H. Kim, and N. K. Hea. 1999. Nutritional composition of Sorghum cultivars from Korea. Inst. Of Agr. Sci. Kangwon Nat. Univ. 10 : 1-9.
8 Choi, B. H. 1992. Traditional Pearl Millet Foods in Africa and Asia. Korean J. Brees. 24 : 376-385.
9 Ha, Y. D. and S. B. Lee, 2001. Protein characteristics of pearl millet, Sorguhm, and Common millet. Korean J. Food Preserv. 8 : 189-192.
10 Hulse, J. H., E. M. Laing, and O. E. Pearson. 1980. Sorghum and the millets: their composition and nutritive value. Academic press. pp. 152-155, 187-193.
11 National Institute of Crop Science., Department of Functional Crop. 2010. Symposium of activation minor cereals industry. Rural Development Administration, Suwon, Korea.
12 Sung, M. H. and D. H. Kwon. 2011. Survey on the distribution of minor cereals. Policy Research Report. Korea Rural Economic Institute. p. 145.