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http://dx.doi.org/10.7740/kjcs.2017.62.3.166

Polyphenol Content and Yield Variation of Red-colored Cultivars Depends on Transplanting Date in Southern Plain Region of Korea  

Bae, Hyun Kyung (Department of Southern Area Crop Science, NICS, RDA)
Oh, Seong Hwan (Rural Development Administration)
Hwang, Jung Dong (Department of Southern Area Crop Science, NICS, RDA)
Seo, Jong Ho (Department of Southern Area Crop Science, NICS, RDA)
Kim, Sang Yeol (Department of Southern Area Crop Science, NICS, RDA)
Oh, Myung Kyu (Department of Southern Area Crop Science, NICS, RDA)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.62, no.3, 2017 , pp. 166-171 More about this Journal
Abstract
For high-quality colored rice production, the cultivation environment is a critical factor. The major environmental factor is temperature, which includes the accumulated and average temperature during vegetative and reproductive stages. Generally, during the cultivation period, the temperature can be controlled by shifting the transplanting date. This study was carried out to determine the optimum transplanting date for high-quality red-colored rice production. Four red-colored rice varieties (Jeokjinju, Jeokjinjuchal, Hongjinju, and Gunganghongmi) were used as test materials. The transplanting dates were May 20 and June 5, 20, and 30 in 2015~2016. The most variable factor controlled by the transplanting date was the grain filling rate. The varieties transplanted on June 30 showed low yields owing to the decrease in the grain filling rate. In contrast, the polyphenol content increased with increasing delay in the transplanting date. Collectively, these two results indicate that the optimum transplanting date was June 20. The average temperature for 30 days after the heading date (30DAH) highly affected the polyphenol content. A lower temperature during the 30DAH induced higher polyphenol contents but also caused low yield. The optimum 30DAH temperature for obtaining a higher yield and polyphenol content was $22{\sim}23^{\circ}C$. Using the average 30DAH and accumulated temperatures, the optimum transplanting date was calculated as June 18 to 24 in Miryang region. The optimum transplanting date of Kyeungsangnamdo region was approximately mid-June to early July, and that of Kyeungsangbukdo region was approximately early to mid-June.
Keywords
accumulated temperature; grain filling rate; polyphenol; red rice; transplanting date;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 Qiu, Y., Q. Liu, and T. Beta. 2010. Antioxidant properties of commercial wild rice and analysis of soluble and insoluble phenolic acids. Food Chem. 121 : 140-147.   DOI
2 Ryu, S. N., S. Z. Park, and C. T. Ho. 1998. High performance liquid chromatographic determination of anthocyanin pigments in some varieties of black rice. J. Food Drug Anal. 6 : 729-736.
3 Stephen, M. B., W. D. Kim, N. H. Chen, H. Cao, and L. H. Mark, 2016. Antidiabetic potential of purple and red rice (Oryza sativa L.) bran extracts. J. Agri. Food Chem. 64(26) : 5345-5353.   DOI
4 Tian, L., H. Wang, A. M. Abdallah, W. Prinyawiwatkul, and Z. Xu. 2011. Red and white wines inhibit cholesterol oxidation induced by free radicals. Journal of Agricultural and Food Chemistry. 59 : 66453-66458.
5 Yang, W. H., K. J. Choi, J. Y. Shon, S. G. Kang, S. H. Shin, K. B. Shim, J. H. Kim, H. Y. Jung, J. H. Jang, J. S. Jeong, C. Y. Lee, Y. T. Yun, S. J. Kwon, K. N. An, J. H. Shin, and S. M. Bae. 2015. Effects of temperature and sunshine hours during grain filling stage on the quality-related traits of high quality rice varieties in Korea. Korean J. Crop Sci. 60(3) : 273-281.   DOI
6 Yawadio, R., S. Tanimori, and N. Morita. 2007. Identification of phenolic compounds isolated from pigmented rice and their aldose reductase inhibitory activities. Food Chem. 101 : 1616-1625.   DOI
7 Oki, T., M. Masuda, M. Kobayashi, Y. Nishiba, S. Furuta, I. Suda, and T. Sato. 2002. Polymeric procyanidins as radicalscavenging components in red-hulled rice. J. Agric. Food Chem. 50 : 7524-7529.   DOI
8 Gunaratne, A., K. Wu, D. Li, A. Bentota, H. Corke, and Y. Z. Cai. 2013. Antioxidant activity and nutritional quality of traditional red-grained rice varieties containing proanthocyanidins. Food Chem. 138 : 1153-1161.   DOI
9 Finocchiaro, F., B. Ferrari, A. Gianinetti, C. Dall'asta, G. Galaverna, F. Scazzina, and N. Pellegrini. 2007. Characterization of antioxidant compounds of red and white rice and changes in total antioxidant capacity during processing. Mol. Nutr. Food Res. 51 : 1006-1019.   DOI
10 Goufo, P., J. Pereira, N. Figueiredo, M. B. P. P. Oliveira, C. Carranca, E. A. S. Rosa, and H. Trindade. 2014. Effect of elevated carbon dioxide ($CO_2$) on phenolic acids, flavonoids, tocopherols, tocotrienols, ${\gamma}$-oryzanol and antioxidant capacities of rice (Oryza sativa L.). Journal of Cereal Science 59(1) : 15-24.   DOI
11 Kim, S. K., J. H. Shin, D. K. Kang, S. Y. Kim, and S. Y. Park. 2013. Changes of anthocyanidin content and brown rice yield in three pigmented rice varieties among different transplanting and harvesting times. Korean J. Crop Sci. 58(1) : 28-35.   DOI
12 Lee, Y. S., J. K. Lee, S. Y. Lee, T. Yun, and S. H. Woo, 2008. Effects of different transplanting dates and agroclimatic zones on quality of brown rice and yield of a pigmented rice variety 'Josaengheukchal'. Korean J. Crop Sci. 53(S) : 9-14.
13 Chen, X. Q., N. Nagao, T. Itani, and K. Irifune. 2012. Antioxidative analysis, and identification and quantification of anthocyanin pigments in different coloured rice. Food Chem. 135 : 2783-2788.   DOI
14 Choi, K. J., T. S. Park, C. K. Lee, J. T. Kim, J. H. Kim, K. Y. Ha, Y. W. Yang, C. K. Lee, K. S. Kwak, H. K. Park, J. K. Nam, J. I. Kim, G. J. Han, Y. S. Cho, Y. H. Park, S. W. Han, J. R. Kim, S. Y. Lee, H. G. Choi, S. H. Cho, H. G. Park, D. J. Ahn, W. K. Joung, S. I. Han, S. Y. Kim, K. C. Jang, S. H. Oh, W. D. Seo, J. E. Ra, J. Y. Kim, and H. W. Kang. 2011. Effect of temperature during grain filling stage on grain quality and taste of cooked rice in mid-late maturing rice varieties. Korean J. Crop Sci. 56(4) : 404-412.   DOI
15 Min, B., L. Gu, A. M. McClung, and M. H. Chen. 2011. Phytochemicals and antioxidant capacities in rice brans of different color. J. Food Sci. 76 : 117-126.   DOI
16 Nam, S. H., S. P. Choi, M. Y. Kang, H. J. Koh, N. Kozukue, and M. Friedman. 2006. Antioxidative activities of bran extracts from twenty one pigmented rice cultivars. Food Chem. 94 : 613-620.   DOI