Browse > Article
http://dx.doi.org/10.7740/kjcs.2019.64.3.185

Heading and Ripening Characters of Major Early Maturing Breeding Rice Lines According to Transplanting Date and Temperature Condition  

Hwang, Woon-Ha (National Institute of Crop Science, RDA)
Lee, Chung-Kuen (National Institute of Crop Science, RDA)
Jung, Jae-Hyeok (National Institute of Crop Science, RDA)
Lee, Hyeon-Suk (National Institute of Crop Science, RDA)
Yang, Seo-Yeong (National Institute of Crop Science, RDA)
Im, Yeon-Hwa (National Institute of Crop Science, RDA)
Choi, Kyung-Jin (National Institute of Crop Science, RDA)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.64, no.3, 2019 , pp. 185-192 More about this Journal
Abstract
Early-maturing rice type is cultivated to produce rice before the Korean Thanksgiving Day. We investigated the flowering and ripening characteristics of major breeding lines in early maturing rice type. In Jeonju, field growth days (FGD) from transplanting to heading changed about 3.3 days by 10 days of transplanting days and about 2.5 days by the change of mean temperature during growth period. As the temperature during ripening stage, 1000 brown rice weight was changed 0.2 g, the rice quality of brown and milled rice was changed 5% and 6.5%, respectively. Baegilmi and Kittake showed early heading habit suitable for harvesting before Korean Thanksgiving. Joun and Pecos showed good ripening characteristics under high temperature during the ripening stage. We expect that these characteristics might be useful for breeding new rice cultivars for harvesting before Korean Thanksgiving.
Keywords
early maturing type; heading; rice; ripening; temperature;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Chen, G., Z. Wang, Q. Q. Liu, F. Xiong, Y. J. Gu, and G. J. Gu. 2006. Development and substance accumulation of caryopsis in transgenic rice with antisense Wx gene. Rice Science 13 : 106-12.
2 Dolferus, R., X. M. Ji, and R. A. Richards. 2011. Abiotic stress and control of grain number in cereals. e Plant Science 181 : 331-41.   DOI
3 Hwang, W. H., J. H. Jeong, H. S. Lee, I. B. Choi, and K. J. Choi. 2018. Ripening characters and antioxidant enzyme activity of Ilmi under heat stress condition. Korean. J. Crop Sci. 63(2) : 112-119.   DOI
4 Jeong, J. U., Y. S. Shin, I. S. Choi, J. K. Chang, M. K. Kim, J. H. Lee, H. M. Park, C. I. Yang, Y. H. Jeon, J. P. Suh, I. B. Choi, J. M. Jeong, N. S. Sung, J. H. Lee, M. R. Yoon, and C. K. Kim. 2016. Blast resistant early maturing rice 'Jungmo 1024' with high temperature tolerance during grain filling stage. Korean J. Breed. Sci. 48(1) : 72-84.   DOI
5 Kim, J., J. Shon, C. Lee, Y. Yong, W. Yang, Y. Kim, and B. Lee. 2011. Relationship between grain filling duration and leaf senescence of temperate rice under high temperature. Field Crops Research 122 : 207-213.   DOI
6 Kwak, J. U., J. S. Lee, Y. J. Won, H. M. Park, K. S. Kwak, M. J. Kim, C. K. Lee, S. L. Kim, and M. R. Yoon. 2018. Effects of ripening temperature on starc structure and storage protein characteristics of early maturing rice varieties during grain filling. Korean. J. Crop Sci. 63(2) : 77-85.   DOI
7 Lloret, F., A. Escudero, J. M. Iriondo, J. Martínez-Vilalta, and F. Valladares. 2012. Extreme climatic events and vegetation: the role of stabilizing processes. Global Change Biol. 18(3) : 797-805.   DOI
8 Meteorological office 2018, Abnormal climate report, p. 7-8.
9 Nakagawa, H., H. Tanaka, N. Tano, and H. Nagahata. 2006. Effects of leaf and panicle clipping on the occurrence of various types of chalky kernels in rice. Hokuriku Crop Science 41 : 32-44.
10 Porter, J. R. and M. Gawith. 1999. Temperatures and the growth and development of wheat. European Journal of Agronomy. 10 : 23-36.   DOI
11 Siebert, S., F. Ewert, E. E. Rezaei, H. Kage, and B. R. Gra. 2014. Impact of heat stress on crop yield-on the importance of considering canopy temperature. Environmental Research Letters 9 : 044012.   DOI
12 Morita, S., J. Yonemaru, and J. Takanashi. 2005. Grain growth and endosperm cell size under high night temperatures in rice (Oryza sativa L.). Annals of Botany 95 : 695-701.   DOI
13 Ugarte, C., D. F. Calderini, and G. A. Slafer. 2007. Grain weight and grain number responsiveness to pre-anthesis temperature in wheat, barley and triticale. Field Crop Research 100 : 240-248.   DOI
14 Yugandhar, P., K. B. Ramana, P. Madhusmita, P. V. Vishnu, R. D. Nageswara, R. V. Sitapathi, D. Subrahmanyam, and N. Sarla. 2013. Characterization of a Nagina22 rice mutant for heat tolerance and mapping of yield traits. Rice 6 : 36.   DOI
15 Zhang, H., L. Duan, J. S. Dai, C. Q. Zhang, J. Li, M. H. Gu, Q. Q. Liu., and Y. Zhu. 2014. Major QTLs reduce the deleterious effects of high temperature on rice amylose content by increasing slicing efficiency of Wx pre-mRNA. Theoretical and Applied Genetics 127(2) : 273-282.   DOI