2. Li Ghana. Genetic analysis of plant type traits in yellow-seeded Brassica napus. Journal of Southwest Agricultural University, 2003,25 (3): 248-250.
3. Li Ghana. Application of Dtopsis method in comprehensive evaluation of new rape varieties. Journal of Southwest Agricultural University, 2003,25 (4): 324-326.
4. Li Ghana. Stability and adaptability analysis of new high-quality rapeseed varieties (lines). Journal of Southwest Agricultural University, 2003,25 (1): 45-47
5. Li Ghana. Genetic correlation analysis of main characters in yellow-seeded Brassica napus. China Oil Crops Science, 2003,25 (3): 8-11.
6. Li Ghana. Genetic analysis of grain color in yellow-seeded rapeseed. China Oil Crops Science, 2003,25 (4):1-4.
7. Li Ghana. Genetic Identification of Recessive Dominant Male Sterility× Restorer Line in Brassica napus L. Journal of Southwest Agricultural University (Natural Science Edition), 2004,26 (1): 26-29.
8. Li Ghana. Method of completely maintaining male sterility of Brassica napus. Bulletin of Agricultural Sciences of China, 20, 2004 (1): 43-46.
9. Li Ghana. Canonical correlation analysis between characters of yellow-seeded rape. Bulletin of China Agricultural Science, 2004,20 (2) 99-101.
10, Li Ghana. Genetic relationship between cytoplasmic male sterility and dominant nuclear male sterility in Brassica napus. Journal of Southwest Agricultural University (Natural Science Edition), 2004,26 (4): 383-385.
1 1, Li Ghana. Genetic analysis of yield traits in yellow-seeded Brassica napus. Bulletin of China Agricultural Science, 2004,20 (5): 37-38.
12, Li Ghana. Genetic analysis of quality traits in yellow-seeded Brassica napus. Journal of Southwest Agricultural University (Natural Science Edition), 2004,26 (5): 532-534.
13, Li Ghana. Path analysis of main characters of yellow-seeded Brassica napus. China Agricultural Science Bulletin, 2004,20 (6): 325326.
14, Li Ghana. Allele analysis of male sterile mutant S 1A in Brassica napus L. Journal of Southwest Agricultural University (Natural Science Edition), 2005,27 (3): 353-355.
Wang Rui, Duan Youde, Li Ghana, et al. Multi-allele model hypothesis of color inheritance in Brassica napus L. Bulletin of China Agricultural Science, 2005,21(9): 37-38.
16, Li Ghana, Tang, Chen Li, Xu Xinfu. Breeding of dominant genic male sterile rapeseed by homozygous two-type line Gd 1AB. Bulletin of China Agricultural Science, February, 20051(11):18.
17, Xu Xinfu, Li Ghana, Tang, Chen Li. Genetic analysis of fatty acid characters of dominant nuclear three lines in Brassica napus. Journal of Southwest Agricultural University, 2006,28 (3): 361-365.
18, Li Ghana, Tang, Xu Xinfu, Chen Li. Breeding mode of dominant double sterile line in Brassica napus L. Journal of Southwest University (Natural Science Edition), 2007,29 (8): 60-63.
19, Xu xinfu, Li Ghana, Tang, Chen Li. Analysis of embryo, cytoplasm and maternal genetic effects of glucosinolates in Brassica napus. Acta Crops, 2007,33 (12): 2001-2006.
20. Li Ghana, Tang, Xu Xinfu, Chen Li,,. Construction and genetic model of double dominant nuclear plus cytoplasmic male sterile line DGCMS-3A in Brassica napus. China Agricultural Sciences, 2008,40 (1): 23-31.
2 1, Li Ghana, Tang, Xu Xinfu, Chen Li. Homologous strategy of dominant homozygous dual-purpose line and temporary maintainer line in Brassica napus L. Journal of Southwest University (Natural Science Edition), 2009,31(8): 52-56
22. Wei Zhongfen, Li Ghana, Wang Jun, Li Daxiong,. SSR genetic diversity analysis of recessive genic male sterile lines in Brassica napus. Southwest Agricultural News, 2013,26 (2): 415-422 (correspondent).