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http://dx.doi.org/10.7740/kjcs.2019.64.3.176

Selection of Suitable Varieties for Organic Rice Farming in the Central Plain Area of Korea  

Lee, Chae-Young (Chungbuk Agricultural and Extension Services)
Park, Jae-Seong (Chungbuk Agricultural and Extension Services)
Lee, Joung-Kwan (Chungbuk Agricultural and Extension Services)
Kim, Eun-Jeong (Chungbuk Agricultural and Extension Services)
Lee, Hee-Du (Chungbuk Agricultural and Extension Services)
Choi, Ye-Seul (Chungbuk Agricultural and Extension Services)
Kim, Ik-Jei (Chungbuk Agricultural and Extension Services)
Hong, Seong-Taek (Chungbuk Agricultural and Extension Services)
Kim, Chung-Kon (Chungbuk Agricultural and Extension Services)
Woo, Sun-Hee (Department of Crop Science, Chungbuk National University)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.64, no.3, 2019 , pp. 176-184 More about this Journal
Abstract
The rice variety Chucheongbyeo is mostly cultivated for organic farming in the central region of Korea. This variety is more delicate than the recently developed varieties in rice yield, quality, and pest resistance, and is therefore, not suitable for organic farming. This study was conducted to select suitable varieties for organic rice farming in the central plain area of Korea. We tested 15 different varieties in the organic paddy field of Cheongju city from 2011 to 2013. As the experimental field had good fertility because it had been organically managed for many years, culm length and number of panicles developed better than the varietal characteristics. Daebo, Chinnong and Hyeonpum had slightly lower ripened grain ratio than Chucheongbyeo. The milled rice yield of Samkwang, Sukwang, Haiami, Cheonghaejinmi and Daebo increased by 9-18% compared to that of Chucheongbyeo. The protein content was under 7% for Cheongnam, Sukwang, Daebo, Samkwang, Hyeonpum, Chinnong, Chilbo, Hopyung, Hwangkeumnuri, Suryeojinmi and Jinsumi and under 6% for Sukwang and Samkwang. The whiteness was over 40 in Sukwang, Daebo, Samkwang and Jinsumi. The palatability grade and head rice ratio were good in Daebo, Sukwang, Samkwang and Jinsumi. Therefore, this study recommended Samkwang, Daebo, and Jinsumi as the optimal varieties for organic rice farming in the central plain area of Korea. These varieties could replace Chucheongbyeo, which is inferior to the recently developed varieties in terms of disease and pest resistance and yielding performance.
Keywords
central plain area; organic farming; rice; suitable variety;
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1 Park, C. E., Y. S. Kim, D. J. Park, K. J. Park, and B. K. Kim. 2011. Pasting and sensory properties of commercial rice products. Korean J. Food Sci. Technol. 43(4) : 401-406.   DOI
2 Park, H. Y., D. S. Shin, K. S. Woo, E. Y. Sim, H. J. Kim, S. K. Lee, Y. J. Won, S. B. Lee, and S. K. Oh. 2016. Mechanical quality evaluation of rice cultivars that could potentially be used to produce processed cooked rice. Korean J. Crop Sci. 61(3) : 145-152.   DOI
3 Park, J. S., S. S. Lee, Y. H. Kim, and J. I. Choi. 2012. Analysis of economic effects for organic cultivation agriculture in rice. Korean J. Organic Agri. 20(4) : 519-533.   DOI
4 Park, J. S., W. W. Lee, Y. C. Ju, and Y. H. Kim. 2002. Field lodging degree of rice varieties according to nitrogen application rate. Korean J. Crop Sci. 47(3) : 226-235.
5 Sakagami, N., F. Shiotsu, N. Agustiani, M. Komatsuzaki. and Y. Nitta. 2016. Characteristics of elemental composition and organic component of Indonesian rice. Trop. Agr. Develop. 60(2) : 65-70.
6 Suzuki, K., M. Takemura, T. Miki, M. Nonaka, and N. Harada. 2019. Differences in soil bacterial community compositions in paddy fields under organic and conventional farming conditions. Microbes Environ. 34(1) : 108-111.   DOI
7 Xi, Y. G., P. Qin, G. H. Ding, W. M. Fan, and C. M. Han. 2009. The application and analysis of rice-growth model for organic rice fertilization management. Ecolog. Engineer. 35 : 602-608.   DOI
8 An, D. J., J. G. Won, S. J. Kim, C. D. Choi, and S. C. Lee. 2008. Selection of rice cultivars adaptable to top rice cultivation region in Southern part of Korea. Korean J. Crop Sci. 53(S) : 53-57.
9 Cha, K. H., H. J. Oh, R. D. Park, H. G. Park, K. N. An, and W. J. Jung. 2010. Comparison of growth, yield and quality between organic cultivation and conventional cultivation in rice(Oryza sativa L.) field. Korean J. Organic Agri. 18(2) : 199-208.
10 Choi, H. C. 2002. Current status and perspectives in varietal improvement of rice cultivars for high-quality and value-added products. Korean J. Crop Sci. 47(S) : 15-32.
11 Choi, H. C., H. C. Hong, and B. H. Nahm. 1997. Physicochemical and structural characteristics of grain associated with palatability in Japonica rice. Korean J. Breed. 29(1) : 15-27.
12 Chae, J. C. 2005. Rice production science. Hyangmunsa. Seoul, Korea. p. 346.
13 Chae, J. C. and D. K. Jun. 2002. Effect of harvest time on yield and quality of rice. Korean J. Crop Sci. 47(3) : 254-258.
14 Choi, Y. H., K. H. Kim, H. C. Choi, H. G. Hwang, Y. G. Kim, K. J. Kim, and Y. T. Lee. 2006. Analysis of grain quality properties in Korea-bred japonica rice cultivars. Korean J. Crop Sci. 51(7) : 624-631.
15 Kim, D. C. 2002. Post harvest technology for high quality rice. Proceedings of the Korean society of postharvest science and technology of agricultural products conference. pp. 54-63.
16 de Ponti, T., B. Rijk, and M. K. van Ittersum, 2012. The crop yield gap between organic and conventional agriculture. Agric. Syst. 108 : 1-9.   DOI
17 He, X., Y. Qiao, L. Liang, M. T. Knudsen, and F. Martin. 2018. Environmental life cycle assessment of long-term organic rice production in subtropical China. J. Cleaner Prod. 176 : 880-888.   DOI
18 Kajimura, T., K. Fujisaki, and F. Nakasuji. 1995. Effect of organic rice farming on leafhoppers and planthoppers: 2. Amino acid content in the rice phloem sap and survival rate of planthoppers. Appl. Entomol. Zool. 30(1) : 17-22.   DOI
19 Kang, S. W., D. C. Seo, J. H. Han, Y. J. Seo, S. G. Lee, I. W. Choi, W. T. Jeon, U. G. Kang, J. S. Heo, and J. S. Cho. 2011. Effect of mixed cultivation with green manure crops and liquid pig manure on rice growth. Korean J. Soil Sci. Fert. 44(6) : 1095-1102.   DOI
20 Kim, C. E., M. Y. Kang, and M. H. Kim. 2012. Comparison of properties affecting the palatability of 33 commercial brands of rice. Korean J. Crop Sci. 57(3) : 301-309.   DOI
21 Kim, H. I. 2004. Comparison of Korean and Japanese rice cultivars in terms of physicochemical properties(II) : The comparison of Korean and Japanese rice by amylose content and cooking characteristics. J. East Asian Soc. Dietary Life. 14(2) : 145-155.
22 Kiyoshika H. 2001. The growing rice plant; an anatomical monograph. pp. 249.
23 Kim, J. I., H. C. Choi, K. H. Kim, J. K. Ahn, N. B. Park, D. S. Park, C. S. Kim, J. Y. Lee, and J. K. Kim. 2009. Varietal response to grain quality and palatability of cooked rice influenced by different nitrogen applications. Korean J. Crop Sci. 54(1) : 13-23.
24 Kim, M. S., W. I. Kim, J. S. Lee, G. J. Lee, G. L. Jo, M. S. Ahn, S. C. Choi, H. J. Kim, Y. S. Kim, M. T. Choi, Y. H. Moon, B. K. Ahn, H. W. Kim, Y. J. Seo, Y. H. Lee, J. J. Hwang, Y. H. Kim, and S. K. Ha. 2010. Long-term monitoring study of soil chemical contents and quality in paddy fields. Korean J. Soil Sci. Fert. 43(6) : 930-936.
25 Kim, S. J., J. G. Won, D. J. Ahn, S. D. Park, and K. B. Choi. 2006. Effect of N-fertilization on rice growth and quality of milled rice. Korean J. Crop Sci. 51(S) : 67-72.
26 Lee, Y. J. 2017. A Study on the casual relationships among eco-friendly consumption value, dietary attitude, nutrient intake behavior, health behavior and quality of life. Culinary Sci. & Hospitality Res. 23(7) : 50-62.   DOI
27 Lee, D. J., J. H. Kim, and K. S. Kim. 2014. Spatiotemporal assessment of the late marginal heading date of rice using climate normal data in Korea. Korean J. Agri. Forest Meteo. 16(4) : 316-326.   DOI
28 Lee, J. H., Y. J. Kim, and G. H. Jeong. 2018. Analysis of agro-food consumption trend II. Rural Development Administration Bul. p. 6-7.
29 Lee, Y. H. 2010. Rice growth and grain quality in No-till and organic farming paddy field as affected by different rice cultivars. Korean J. Soil Sci. Fert. 43(2) : 209-216.
30 Lee, Y. H., M. J. Lee, H. W. Choi, S. T. Kim, J. W. Park, I. S. Myung, K. S. Park, and S. W. Lee. 2011. Development of In vitro seedling screening method for selection of resistant rice against bakanae disease. Res. Plant Dis. 17(3) : 288-294.   DOI
31 Ministry of Agriculture, Food and Rural Affairs (MAFRA). 2018. Agriculture, food, and rural affairs statistics yearbook. Sejong, Korea. p. 380.
32 Na, G. S., S. K. Lee, and S. Y. Kim. 2007. Antioxidative effects and quality characteristics of the rice cultivated by organic farming and ordinary farming. J. Korean Soc. Appl. Biol. Chem. 50(1) : 36-41.
33 Nakamura, S., D. Suzuki, R. Kitadume, and K. Ohtsubo. 2012. Quality evaluation of rice crackers based on physicochemical measurements. Biosci. Biotechnol. Biochem. 76(4) : 794-804.   DOI
34 Nishikawa, T., K. Kido, K. Li, H. Inoue, and T. Inamura. 2013. Temporal growth inhibition of rice plant and growth recovery observed under application of anaerobically-digested cattle manure. Plant Prod. Sci. 16(2) : 154-165.   DOI
35 Pagani, M., T. G. Johnson, and M. Vittuari. 2017. Energy input in conventional and organic paddy rice production in Missouri and Italy. J. Environ. Manage. 188 : 173-182.   DOI
36 Oh, T. S. and C. H. Kim. 2013. Effect of using fertilizer on the growth of rice and soil. Korean J. Crop Sci. 58(1) : 36-42.   DOI