[1] Prakash S, Bhat S R, Quiros C F, et al. Brassica and its close allies: cytogenetics and evolution [J]. Plant Breeding Review, 2009, 31: 21-187.
[2] Chrungu B, Verma N, Mohanty A, et al. Production and characterization of interspecific hybrids between B. maurorum and crop Brassicas [J]. Theore Appl Genet, 1999, 98(3-4): 608-613.
[3] Garg H, Banga S, Bansal P, et al. Hybridizing Brassica rapa with wild crucifers Diplotaxis erucoides and Brassica maurorum [J]. Euphytica, 2007, 156(3): 417-424
[4] Yao X C, Du X Z, Ge X H, et al. Intra- and intergenomic chromosome pairings revealed by dual-color GISH in Brassica trigenomic hybrids of Brasscia juncea and B. carinata with B. maurorum [J]. Genome, 2010, 53(1): 14-22.
[5] Yao X C, Ge X H, Chen J P, et al. Intra- and intergenomic relationships in interspecific hybrids between Brassica (B. rapa, B. napus) and a wild species B. maurorum as revealed by genomic in situ hybridization (GISH) [J]. Euphytica, 2010, 173(1): 113–120.
[6] Lange W, Toxopeus H, Lubberts J H, et al. The development of raparadish (×Brassicoraphanus, 2n=38), a new crop in agriculture [J]. Euphytica, 1989, 40(1-2): 1-14.
[7] 李炳林，张伯静，马金虎，等. 亚比棉人工合成及研究现状[J]. 植物遗传资源科学，2000，1（3）：56-60.
[8] Laikova L I, Arbuzova V S, Efremova T T, et al. Resistance to fungal diseases in hybrid progeny from crosses between common wheat variety saratovskaya 29 and the amphidiploid Triticum timopheevii/Triticum tauschii (AAGGDD) [J]. Russian J Genetics, 2004, 40(9): 1 046-1 050.
[9] Wang Y P, Sonntag K, Rudloff E, et al. GISH analysis of disomic Brassica napus-Crambe abyssinica chromosome addition lines produced by microspore culture from monosomic addition lines [J]. Plant Cell Reports, 2006, 25(1): 35–40.
[10] Trojak-Goluch A, Berbec A. Meiosis and fertility in interspecific hybrids of Nicotiana tabacum L.×N. glauca Grah. and their derivatives [J]. Plant Breeding, 2007, 126(2): 201-206.
[11] 葛贤宏. 人工合成芸薹属异源六倍体与诸葛菜属间杂种的细胞学及分子生物学研究. [D]. 武汉：华中农业大学，2007.
[12] Choudhary B R, Joshi P, Singh K. Synthesis, morphology and cytogenetics of Raphanofortii (TTRR, 2n=38): a new amphidiploid of hybrid Brassica tournefortii (TT, 2n=20)×Raphanus caudatus (RR, 2n=18) [J]. Theor Appl Genet, 2000, 101(5-6): 990999.
[13] Banga S S, Bhashar P, Ahuja I. Synthesis of intergeneric hybrids and establishment of genomic affinity between Diplotaxis catholica and crop Brassica species [J]. Theor Appl Genet, 2003, 106(7): 1 244-1 247.
[14] Chandra A, Gupta M L, Ahuja I, et al. Intergeneric hybridization between Erucastrum cardaminoides and two diploid crop Brassica species [J]. Theor Appl Genet, 2004, 108(8): 1620-1626.
[15] Gaonkar R V, Torne S G. Induced autotetraploidy in Ageratum conyzoides L [J]. Cytologia, 1991, 56(3): 327-331.
[16] Costa J Y, Forni-Martins E R. A triploid cytotype of Echinodorus tennellus [J]. Aquat Botany, 2004, 79(4): 325-332.
[17] 徐爱遐，黄继英，金平安，等. 甘蓝型油菜和芥菜型油菜种间杂交研究[J]. 西北植物学报，1999，19（3）：402-407.
[18] Budahn H, Schrader O, Peterka H. Development of a complete set of disomic rape-radish chromosome-addition lines [J]. Euphytica, 2008, 162(1):117-128.
[19] 吕文欣,王彦华,赵建军,等.大白菜-结球甘蓝1号染色体二体附加系的获得与鉴定[J].园艺学报,2011,38(7):1 275-1 282.
[20] Plieske J, Struss D, Robbelen G. Inheritance of resistance derived from the B-genome of Brassica against Phoma lingam in rapeseed and the development of molecular markers [J]. Theor Appl Genet, 1998, 97(5-6): 929-936.