[1]Nagaharu U. Genome-analysis in Brassica with special reference to the experimental formation of B.napus and its peculiar mode of fertilization[J]. Japan J Bot,1935,7:389-452.
[2]Olsson G. Self-incompatibility and outcrossing in rape and white mustard[J]. Hereditas,1960,46:241-252.
[3]Olsson G. Unders okning av sjilvfertiliteten hos artificiell raps[J]. Lantbruksakad Tidskr,1953,92:394-402.
[4]周清元,殷家明,崔翠,等. 白菜型油菜×羽衣甘蓝种间杂种的性状表现[J]. 西南农业大学学报:自然科学版,2006,28(1):1-4.
[5]卢长明,肖玲,张斌,等. 人工合成甘蓝型油菜的繁育特性与试管繁殖[J]. 中国油料作物学报,2003,25(4):5-9.
[6]罗玉秀,杜德志. 青海大黄油菜主要农艺性状研究[J]. 西北农业学报,2007,16(1):136-139.
[7]杜德志,李秀萍,余青兰,等. 特早熟双低甘蓝型油菜杂交种的选育[J]. 西北农业学报,2003,12(1):1-4.
[8]魏琴,周黎军,陈东林. 十字花科10 属种与油菜萝卜胞质不育系杂交的花粉萌发情况观察[J]. 植物学通报,2000(17):260-265.
[9]Bateman A J. Self-incompatibility systems in Angiosperms. Ⅲ.Cruciferae[J]. Heredity,1955,9:52-68.
[10]Richards R A,Thurling N.The genetics of self-incompatibility in Brassica campestris L. ssp. oleifera Metzg. Ⅰ.Characteristics of S-locus. Control of self-incompatibility[J]. Genetica,1973,44:428-438.
[11]Thompson K F. Competitive interaction between two S-alleles in a sporophytically-controlled incompatibility system[J]. Heredity,1972,28:1-7.
[12]Sup Nou I,Watanabe M,Isuzugawa K,et al. Isolation of S-alleles from a wild population of Brassica campestris L. at Balcesme,Turkey and their characterization by S-glycoproteins[J]. Sex Plant Reprod,1993,6(1):71-78.
[13]Sup Nou I,Watanabe M,Isogai A,et al.Comparison of S-alleles and S-glycoproteins between two wild populations of Brassica campestris in Turkey and Japan[J]. Sex Plant Reprod,1993,6(2):79-86.
[14]Hinata K,Okazaki K,Nishio T. Gene analysis of self-compatibility in Brassica campestris var. Yellow Sarson(a case of recessive epistatic modifier)[C].Paris:Proc 6th Int Rapeseed Congr,1983:354-359.
[15]Nasrallah M E. The genetics of self-incompatibility reactions in Brassica and the effects of suppressor genes[M]//Lord E,Bemier G. Plant reproduction:From floral induction to pollination. The American Society of Plant Physiologists Symposium Series,1989:146-155.
[16]Beschorner M,Pltimper B,Odenbach W. Analysis of self incompatibility interactions in 30 resynthesized Brassica napus lines. Ⅰ. Fluorescence microscopic studies[J]. Theor Appl Genet,1995,90:665-670.
[17]于澄宇.甘蓝型油菜授粉控制系统研究现状与前景[J]. 西北农林科技大学学报:自然科学版,2011,39(9):93-99.
[1]徐静,张新友,汤丰收,等.花生种间杂交胚胎发育初探[J].江苏农业科学,2013,41(09):73.
Xu Jing,et al.Preliminary study on embryo development in interspecific hybrid of peanut[J].Jiangsu Agricultural Sciences,2013,41(08):73.
[2]牛妍,赵志刚,余青兰.芥菜型油菜与白菜型油菜种间杂交创建黄籽资源[J].江苏农业科学,2013,41(11):92.
Niu Yan,et al.Production of yellow-seeds germplasm through interspecific hybridization between Brassica juncea L. and Brassia campestris L.[J].Jiangsu Agricultural Sciences,2013,41(08):92.
[3]张朝阳,赵建峰,罗德旭,等.南瓜种间杂交及其杂交种枯萎病抗性研究[J].江苏农业科学,2014,42(06):195.
Zhang Chaoyang,et al.Study on interspecific hybridization of pumpkin and the Fusarium wilt resistance of hybrids[J].Jiangsu Agricultural Sciences,2014,42(08):195.
[4]李润根.不同授粉方式对食用百合种间杂交结实的影响[J].江苏农业科学,2017,45(21):140.
Li Ruigen.Effects of different pollinating methods on setting seeds of interspecific crosses of edible lily[J].Jiangsu Agricultural Sciences,2017,45(08):140.
[5]郭娟,魏莱,杨燕萍,等.黑麦种间杂交F1代杂种优势及表型变异分析[J].江苏农业科学,2022,50(1):86.
Guo Juan,et al.Analysis of heterosis and phenotypic variation for F1 progeny of interspecific hybridization of rye[J].Jiangsu Agricultural Sciences,2022,50(08):86.