Research progress on the breeding of japonica super rice varieties in Jiangsu Province, China

doi:10.1016/S2095-3119(16)61580-0

Journal of Integrative Agriculture ›› 2017, Vol. 16 ›› Issue (05): 992-999.DOI: 10.1016/S2095-3119(16)61580-0

收稿日期:2016-09-30 出版日期:2017-05-20 发布日期:2017-05-08

Research progress on the breeding of japonica super rice varieties in Jiangsu Province, China

WANG Cai-lin, ZHANG Ya-dong, ZHU Zhen, CHEN Tao, ZHAO Qing-yong, ZHONG Wei-gong, YANG Jie, YAO Shu, ZHOU Li-hui, ZHAO Ling, LI Yu-sheng

Institute of Food Crops, Jiangsu Academy of Agricultural Sciences/Nanjing Branch of Chinese National Center for Rice Improvement/Jiangsu High Quality Rice Research and Development Center, Nanjing 210014, P.R.China

Received:2016-09-30 Online:2017-05-20 Published:2017-05-08
Contact: WANG Cai-lin, Tel: +86-25-84390307, Fax: +86-25-84390322, E-mail: clwang@jaas.ac.cn
Supported by:
This study was supported by the National Key Technologies R&D Program of China during the 12th Five-Year Plan period (2015BAD01B02), the Special Program for Rice Scientific Research, Ministry of Agriculture, China (201603002-5-1), and the Construction of Modern Agricultural and Industrial Technology System Project special fund, China (CARS-01-47).

摘要/Abstract

Abstract: In this study we report the results of a decade-long breeding program for japonica super rice made by Nanjing Branch of Chinese National Center for Rice Improvement in Jiangsu Academy of Agricultural Sciences. We concluded that selection of parents with good comprehensive traits and complementary advantages and disadvantages of both parents in the hybrid combination, and early selection of high heritability traits in earlier segregating generations could significantly improve the breeding efficiency. The use of closely-linked functional markers in pyramiding of multiple genes could greatly increase breeding efficiency, avoiding time-consuming and laborious steps that were used in traditional breeding program. It is also important to coordinate the yield components with variety characteristics such as yield stability, wide adaptability, lodging resistance, and an attractive grain appearance during late growth stage of rice.

Key words: japonica super rice, eating quality, disease resistance, breeding strategy

. [J]. Journal of Integrative Agriculture, 2017, 16(05): 992-999.

WANG Cai-lin, ZHANG Ya-dong, ZHU Zhen, CHEN Tao, ZHAO Qing-yong, ZHONG Wei-gong, YANG Jie, YAO Shu, ZHOU Li-hui, ZHAO Ling, LI Yu-sheng. Research progress on the breeding of japonica super rice varieties in Jiangsu Province, China[J]. Journal of Integrative Agriculture, 2017, 16(05): 992-999.

参考文献

Ashikawa I, Hayashi N, Yamane H, Kanamori H, Wu J Z, Matsumoto T, Ono K, Yano M. 2008. Two adjacent nucleotide-binding site-Leucine-rich repeat class genes are required to confer Pikm-specific rice blast resistance. Genetics, 180, 2267–2276.
Ballini E, Morel J B, Droc G, Price A, Courtois B, Notteghem J L, Tharreau D. 2008. A genome-wide meta-analysis of rice blast resistance genes and quantitative trait loci provides new insights into partial and complete resistance. Molecular Plant-Microbe Interactions, 21, 859–868.
Chen J M, Li G, Gu J Q, Chen X H, Wang F. 2009. Advances of practice of rice breeding for super high-yielding. Fujian Science and Technology of Rice and Wheat, 27, 48–53. (in Chinese)
Chen T, He C, Zhang Y D, Zhu Z, Zhao Q Y, Zhou L H, Yu X, Wang C L. 2015. Genotypic analysis of rice blast resistance genes Pi-ta and Pi-b in japonica rice varieties and lines in Jiangsu province. Agricultural Science & Technology, 16, 454–458.
Chen T, Zhang Y D, Zhao L, Zhu Z, Lin J, Zhang S B, Wang C L. 2009. A cleaved amplified polymorphic sequence marker to detect variation in Wx locus conditioning translucent endosperm in rice. Rice Science, 16, 106–110.
Chen W F, Xu Z J, Zhang L B, Zhang W Z, Ma D R. 2007. Theories and practices of breeding japonica rice for super high yield. Scientia Agricultura Sinica, 40, 869–874. (in Chinese)
Cheng S H, Liao X Y, Shao M K. 1998. China super rice research: background, objectives and related issues. China Rice, 1, 3–5. (in Chinese)
GB/T 17891-1999. 1999. High Quality Paddy Rice. National Standard of the People’s Republic of China. (in Chinese)
Hayano-Saito Y, Tsuji T, Fujii K, Saito K, Iwasaki M, Saito A. 1998. Localization of the rice stripe disease resistance gene, Stvbⁱ, by graphical genotyping and linkage analysis with molecular markers. Theoretical and Applied Genetics, 96, 1044–1049.
Hushibuchi K. 1992. Rice Breeding in Japan: The Challenge Posted by Super-rice. Association for Advancement of Agricultural Science, Tokyo. pp. 125–135. (in Japanese)
Jiang N, Liu X J, Dai L Y, Wang G L. 2010. Advances on the mapping and cloning of blast resistance gene in rice. Chinese Agricultural Science Bulletin, 26, 270–275. (in Chinese)
Li Y S, Chen T, Yu Q C, Huang B C, Wang C L. 2009. Identification and application of SSR markers linked to resistant gene Stv-bⁱfor rice strip virus. Jiangsu Journal of Agricultural Sciences, 25, 459–463. (in Chinese)
Lu F, Wang F M, Zheng X B, Shi A B, Chen Y L, Chen Z Y. 1999. Interrelationship between race evolution of Magnaporthe grisea and rice cultivars in Jiangsu Province. Journal of Nanjing Agricultural University, 22, 31–34. (in Chinese)
Matsuo T, Futsuhara Y, Kikuchi F, Yamaguchi H. 1990. Science of the Rice Plant. Vol. III Genetics. Rural Culture Association, Tokyo. pp. 351–354. (in Japanese)
Wang C L, Tao C, Zhang Y D, Zhu Z. Zhao L, Lin J. 2008a. Breeding of a new rice variety with good eating quality by marker assisted selection. Chinese Journal of Rice Science, 22, 583–588. (in Chinese)
Wang C L, Zhang Y D, Zhu Z, Chen T, Zhao Q Y, Zhao L, Zhou L H, Yao S. 2013. Breeding and utilization of japonica rice variety Nanjing 9108 with good eating quality. Jiangsu Agricultural Sciences, 41, 86–88. (in Chinese)
Wang C L, Zhang Y D, Zhu Z, Yao S, Zhao Q Y, Chen T, Zhou L H, Zhao L. 2012. Breeding and utilization of japonica rice variety Nanjing 5055 with good eating quality. Bulletin of Agricultural Science and Technology, 2, 84–87. (in Chinese)
Wang C L, Zhang Y D, Zhu Z, Zhao L, Chen T. 2008b. Rice breeding for resistance to stripe virus disease. Acta Agronomica Sinica, 34, 530–533. (in Chinese)
Wang C L, Zhang Y D, Zhu Z, Zhao L, Chen T, Lin J. 2008c. Breeding and application of new rice variety Nanjing 46. China Rice, 3, 38–40. (in Chinese)
Wang C L, Zhang Y D, Zhu Z, Zhao L, Chen T, Lin J. 2008d. Characteristics and cultivation techniques for the new rice variety ‘Nanjing 46’ with good eating quality, high yield and stripe virus resistance. Jiangsu Agricultural Sciences, 2, 91–92. (in Chinese)
Wang C L, Zhang Y D, Zhu Z, Zhao L, Zhong W G, Chen Z D, Yang J. 2007. Breeding and application of rice new variety Nanjing 44 with resistance to stripe disease. China Rice, 2, 33–34. (in Chinese)
Wang C L, Zhu Z, Zhang Y D, Zhao L. 2007. Breeding efficiency on appearance quality of rice grains. Jiangsu Journal of Agricultural Sciences, 23, 81–86. (in Chinese)
Washio O, Ezuka A, Toriyama K, Sakurai Y. 1968. Testing method for genetics and breeding for resistance to rice stripe disease. Bulletin of the Chugoku National Agricultural Experiment Station, 16, 39–197. (in Japanese)
Yao S, Chen T, Zhang Y D, Zhu Z, Zhao Q Y, Zhou L H, Zhao L, Wang C L. 2010. Pyramiding of translucent endosperm mutant gene Wx-mq and rice stripe disease resistance gene Stv-bⁱ by marker-assisted selection in rice (Oryza sativa). Chinese Journal of Rice Science, 18, 102–109. (in Chinese)
Yao S, Chen T, Zhang Y D, Zhu Z, Zhao Q Y, Zhou L H, Zhao L, Wang C L. 2009. Resistance evaluation and molecular detection of rice stripe disease for twenty-eight Japonica rice varieties in Jiangsu Province. Jiangsu Journal of Agricultural Sciences, 25, 1201–1206. (in Chinese)
Yao S, Liu Y Q, Zhang Y D, Zhu Z, Chen T, Zhao Q Y, Zhou L H, Zhao C F, Yu X, Wang C L. 2015. Establishment and application of multiplex PCR system for two blast resistant genes Pi-ta and Pi-b in rice. Agricultural Science & Technology, 16, 2189–2196.
Yuan L P. 1997. Hybrid rice breeding for super high yield. Hybrid Rice, 12, 1–3. (in Chinese)
Zhang Y D, Zheng J, Liang Z K, Liang Y L, Peng Z H, Wang C L. 2015. Verification and evaluation of grain QTLs using RILs from TD70×Kasalath in rice. Genetics and Molecular Research, 14, 14882–14892.
Zhu C L, Shen W B, Zhai H Q, Wan J M. 2004. Advances in researches of the application of low-amylose content rice gene for breeding. Scientia Agricultura Sinica, 37, 157–162. (in Chinese)

Research progress on the breeding of japonica super rice varieties in Jiangsu Province, China

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics