Browse > Article

Relationships among Viviporous Germination, Dry-heat Tolerance and Seed Longevity in Milyang 23/Gihobyeo RILs  

Lee, Seung-Yeob (Division of Plant Resources Science, Wonkwang University)
Ahn, Jeong-Ho (Division of Plant Resources Science, Wonkwang University)
Kim, Hyo-Jin (Division of Plant Resources Science, Wonkwang University)
Bae, Jong-Hyang (Division of Plant Resources Science, Wonkwang University)
Eun, Moo-Young (Rice Functional Genomics Team, National Institute of Agricultural Biotechnology)
Publication Information
Journal of Bio-Environment Control / v.15, no.4, 2006 , pp. 421-427 More about this Journal
Abstract
To investigate the relationships among the traits related seed dormancy in rice, viviparous germination, dry-heat tolerance and seed longevity were tested using 164 M/G RILs ($F_{17}$) derived from the cross between Milyang 23 (Indica/Japonica) and Gihobyeo (Japonica). At 40 days after heading, the viviparous germination rates of Milyang 23 and Gihobyeo were 0.0 and 7.0%, respectively. The averaged viviparous germination rate of 164 MIG RILs was 3.2%, and their range was from 0.0 to 50.9%. In dry-heat treatment at $90^{\circ}C$ for 24 h followed by the pre-drying at $40^{\circ}C$ for 2 days, Milyang 23 showed higher germinability (98.6%,2.7 days to $T_{50}$) than Gihobyeo (37.6%, 12.9 days to $T_{50}$), and the mean germination rate of 164 M/G RILs was 72.4%. In 54 months after harvest, the germinability in Milyang 23 and Gihobyeo were 90% and 0%, and 71 lines among 164 M/G RILs showed the germinability over 90%. The relationship between seed longevity and dry-heat tolerance was linearly correlated with high positive correlation coefficient. The relationships between seed longevity and viviparous germination, and viviparous germination and dry-heat tolerance were linearly correlated with high negative correlation coefficient. Milyang 23 had higher tolerance against high dry-heat, viviparous germination and long-term storage than Gihobyeo, and 164 M/G RILs showed the medium values of parents.
Keywords
correlation; dry-heat tolerance; rice; seed longevity; viviparous germination;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Rao, S.P. 1994. Studies on seed dormancy in traditional rice varieties as affected by seasons. Indian J. Physiol. 37:113-115
2 Guo, L., L. Zhu, Y. Xu, D. Zeng, P. Wu, and Q. Qian. 2004. QTL analysis of seed dormancy in rice (Oryza sativa L.). Euphytica 140:155-162   DOI
3 Kim, Y.W. 1995. Chemical components related with seed dormancy and viviparous germination in rice. Kor. J. Crop Sci. 40:113-119   과학기술학회마을
4 Lin, S.Y., T. Sasaki, and M. Yano. 1998. Mapping quantitative trait loci controlling seed dormancy and heading date in rice, Oryza sativa L. using backcross inbred lines, Theor. Appl. Genet. 96:997-1003   DOI
5 Mikkelsen, D.S. 1967. Germination inhibitors as possible factor in rice dormancy. Int. Rice Comm. Newsl. Sp. Issue:132-145
6 Miura, K., S.Y. Lin, M. Yano, and T. Nagamine. 2002. Mapping quantitative trait loci controlling seed longevity in rice (Oryza sativa L.), Theor. Appl. Genet. 104:981-986   DOI
7 Suh, K.H. and Y.W. Kim. 1994. Varietal difference in viviparous germination at different days after heading and temperature conditions in rice. Kor. J. Crop Sci. 39:187-192   과학기술학회마을
8 Zhang, X.G. 1990. Physiochemical treatments to break dormancy in rice. Int. Rice Res. Newsl. 15(1):2
9 Tenente, R.C.V., V. Gonzaga, F.P. Pinheiro, P. Tarchetti, and V. Rodrigues. 1999. Techniques to eradicate plant parasitic nematodes from infested in maize, oat, and rice seeds. Nematropica 29:17-24
10 Dadlani, M. and D.V. Seshu. 1990. Effect of wet and dry heat treatment on rice seed germination and seedling vigor. Int. Rice Res. Newsl. 15(2):21-22
11 Das, R.C. 1985. Roll of hull in the inheritance of seed dormancy in rice. Exp. Genet. 1:119-125
12 Takahashi, N. 1963. Studies on the dormancy of wild rice seeds: Part 2. Roles of seed coat, embryo and endosperm in dormant seeds. Tohoku Univ. Inst. Agric. Res. 14:75-85
13 Wan, J.M., C.M. Wang, and H. Ikehashi. 2005. Quantitative trait loci associated with seed dormancy in rice. Crop Sci. 45:712-716   DOI   ScienceOn
14 Chang, T.T. and S.T. Yen. 1969. Inheritance of grain dormancy in four rice crosses. Bot. Bull. Acad. Sin. 10:1-9
15 Gubler, F., A.A. Millar, and J.V. Jacobsen. 2005. Dormancy release, ABA and pre-harvest sprouting. Cur. Opin. in Plant Biol. 8:183-187   DOI   ScienceOn
16 Lee S.Y., J.H. Lee, and T.O. Kwon. 2002. Varietal differences in seed germination and seedling vigor of Korean rice varieties following dry heat treatment. Seed Sci. & Technol. 30:311-321
17 Das, T. 1995. Genetic relation between dormancy and aroma in rice. Rice Genet. Newsl. 12:209-210
18 Dong Y., E. Tsuzuki, H. Kamiunten, H. Terao, D. Lin, M. Matsuo, and Y. Zheng. 2003. Identification of quantitative trait loci associated with pre-harvest sprouting resistance in rice (Oryza sativa L.). Field Crops Res. 81:133-139   DOI   ScienceOn
19 Kalita, U.C., D.K. Baruah, and L.P. Upadhaya. 1994. Seed dormancy on germplasm collection of rice (Oryza sativa L.) insensitive to photoperiod. Indian J. Agric. Sci. 63:160-164
20 Seshu, D.V. and M. Dadlani. 1991. Mechanism of seed dormancy in rice. Seed Sci. Res. 1:187-194
21 Goss, W.L. and E. Brown. 1939. Buried red rice. J. Amer. Soc. Agron. 31:633-637   DOI
22 Bailey, P.C., R.S. McKibbin, J.R. Lenton, M.J. Holdsworth, J.E. Flintham, and M.D. Gale. 1999. Genetic map locations for orthologous Vpl genes in wheat and rice. Theor. Appl. Genet. 98:281-284   DOI
23 Bewley, J.D. 1997. Seed germination and dormancy. Plant Cell 9:1055-1066   DOI   ScienceOn
24 Nakagawa, A. and T. Yamaguchi. 1989. Seed treatment for control of seed-borne Fusarium roseum on wheat. Jpn. Agric. Res. Q. 23:94-99
25 Tang, L.H. and H. Morishima. 1997. Genetic characterization of weedy rices and the inference on their origins. Breed. Sci. 47:153-160
26 Cai, H.W. and H. Morishima. 2000. Genomic regions affecting seed shattering and seed dormancy in rice, Theor. Appl. Genet. 100:840-846   DOI
27 Choi, K.G., Y.S. Lee, and K.H. Cha. 2006. Selection and technical development for seed pelleting material of Codonopsis lanceolata Trautv. Kor. J. Medicinal Crop Sci. 14(3):130-133   과학기술학회마을
28 Das, R.C. and P.N. Bhaduri. 1985. Inheritance of seed dormancy in rice. Exp. Genet. 1:45-51
29 Oh, S.H., C.Y. Kim, C.H. Kim, S.Y. Kim, and J.Y. Lee. 1987. Influence of viviparous germination on quality and yield potential of rice. Res. Rep. RDA (Crops). 29(1):68-73
30 Seshu, D.V. and M.E. Sorrells. 1986. Genetics studies on seed dormancy in rice. In: Rice Genetics. IRRI, Los Banos, Philippines, p. 369-382
31 Diarra, A.R.J., R.J. Smith, and R.E. Talbert. 1985. Growth and morphological characteristics of red rice (Oryza sativa) biotypes. Weed Sci. 33:310-314
32 Castor, L. and F. Frederiken. 1977. Seed moulding of grain sorghums caused by Fusarium and Curvularia. Proc. Annu. Phytopathol. Soc. 4:151
33 Nair, G.V., B.W.X. Ponnaiya, and V.S. Raman. 1965. Studies on seed dormancy in certain short-duration rice varieties. Indian J. Agric. Sci. 35:234-246
34 Suh, S.H., Y.I. Sato, and H. Morishima. 1997. Genetic characterization of weedy rice (Oryza sativa L.) based on morpho-physiology isozymes and RAPD markers. Thear. Appl. Genet. 94:316-321   DOI
35 Detry, J.F. 1993. Seed dry-heat treatment against transmission of Pseudomonas fuscovagivae, causal agent of bacterial sheath brown rot of rice (BSR). Int. Rice Res. Notes. 18(2):27-28