Author:
Zhang Xiaocong,Yong Hongjun,Zhou Zhiqiang,Zhang Chaoshu,Lu Ming,Sun Qi,Zhang Lin,Li Mingshun,Zhang Degui,Weng Jianfeng,Hao Zhuanfang,Zhang Shihuang,Wang Zhenhua,Li Xinhai
Funder
Modern Agro-Industry Technology Research System of Maize
National Hi-Tech Research and Development Program of China
National Plan for Science & Technology Support
Publisher
Springer Science and Business Media LLC
Subject
Horticulture,Plant Science,Genetics,Agronomy and Crop Science
Reference46 articles.
1. Andrés-Meza P, López-Collado CJ, Sierra-Macías M, López-Romero G, Leyva-Ovalle OR, Palafox-Caballero A, Rodríguez-Montalvo FA (2011) Combining ability in maize lines using a diallel cross. Trop Subtrop Agroecosyst 13:525–532
2. Beck DL, Vasal SK, Cross J (1991) Heterosis and combining ability among subtropical and temperate intermediate-maturity maize germplasm. Crop Sci 31:68–73
3. Dhliwayo T, Pixley K, Menkir A, Warburton M (2009) Combining ability, genetic distances, and heterosis among elite CIMMYT and IITA tropical maize inbred lines. Crop Sci 49:1201–1210
4. Fan X, Bi Y, Zhang Y, Jeffers DP, Yao W, Chen H, Zhao L, Kang M (2015) Use of the Suwan1 heterotic group in maize breeding programs in southwestern China. Agron J 107:2353–2362
5. Gao X, Luo S, Peng Z, Cao S, Shen J, Pan M, Zhu Y, Chen Z (2005) A primary analysis of the effect of the tropical (subtropical) germplasm such as Tuxpeno and Suwan on Chinese maize breeding and production. J Maize Sci 13:40–43 (Chinese)
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