百合组织培养与多倍体研究
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摘要
本研究论文主要是通过对百合进行系统的组织培养试验,建立起良好的百合二倍体体细胞无性系,并结合辐射诱变和秋水仙素溶液处理方法进行多倍体的诱导试验,为今后的百合组织培养与多倍体研究提供重要的参考依据,试验结果表明:
1、不同基因型材料的诱导分化能力不同,兰州百合的诱导分化率为51.65%,平均生成的小鳞茎数为5.87;龙牙百合的诱导分化率为22.22%,平均生成的小鳞茎数为2.15。
2、同一材料不同位置的鳞片其诱导能力也有所差异,分别表现为,兰州百合:内层>中层>外层;龙牙百合:外层>中层>内层。
3、不同激素种类与浓度配比对叶片的诱导分化结果不同,当2,4-D浓度为1.5-2.5mg.L~(-1)时,有利于愈伤组织的诱导;当激素为0.5 mg.L~(-1)6-BA和0.5 mg.L~(-1)NAA的组合时,有利于芽的分化。
4、激素组合KT_(0.5mg.L~(-1))+BA_(0.5mg.L~(-1))对台湾新铁炮百合原球茎的增殖效果较好。
5、使用单因子的生长素NAA或IAA不利于百合的继代增殖。
6、低浓度的KT有利于兰州百合的继代增殖;而较高浓度的6-BA对台湾新铁炮百合增殖效果较好。
7、较低浓度范围(0.3-0.6mg.L~(-1))的多效唑对百合的增殖有一定的促进作用。
8、不同的激素组合对百合芽的继代增殖效果不同,以6-BA_(0.5mg.L~(-1))+NAA_(0.1mg.L~(-1))+MET_(0.5mg.L~(-1))+KT_(0.5mg.L~(-1))的激素配比对百合的继代效果最
广西大学硕士学位论文
百合组织培养与多倍体研究
好。
9、两种生长素的配合使用比使用单一生长素更有利于百合的生根壮
刁闷卜
田。
10、较低浓度范围(0 .6一0.smg.L一’)的多效哩对百合的生根壮苗有一定
的促进作用。
11、浓度为2.omg.L一’ABTI号生根粉对兰州百合的生根壮苗效果最
好。
12、不同基因型材料对辐射的敏感性不同,兰州百合的辐射敏感性
要大于台湾新铁炮百合。
13、秋水仙素溶液的诱变效果因基因型而异,当秋水仙素浓度为
0.7%,处理天数为5天时,诱变效果最好.其中兰州百合的变异率为40%,
台湾新铁炮百合的变异率为30%。
14、不同基因型材料的诱变效果因秋水仙素溶液处理的方法不同而
存在差异,兰州百合适合使用浸泡法,台湾新铁炮百合适宜用棉球覆盖
法。
15、百合四倍体与二倍体的气孔保卫细胞数目及大小之间的差异显
著。
16、细胞学鉴定二倍体兰州百合和台湾新铁炮百合的染色体数为
24(Zn=ZX=24,x=12),而其四倍体的染色体数为45(4n二4X=48,x=24)。
In this paper we studied tissue culture of Lily systematically , established a good diploid system, used radiation mutagenesis and colchicines liquid treatments to induce tetraploid plants, in order to offer significant referenced datum for the future. The results showed:
1, There were different frequencies of buds induced and differentiation with different genotype varieties, the frequency of buds differentiation with Lilium davidii var. unicalar Cotton was 51.65%, the average of induced bulblets was 5.87; that of Lilium brownii E E. Brown var. viridulum Baker was 22.22% and 2.15.
2, Different part of a bud scale gave different responses to the effect of induction with the same varieties. The inducting frequencies of inner scales with Lilium davidii var. unicalar Cotton was the highest, middle scales was the second ,and outer scales was the lowest; But the result of Lilium brownii F. E. Brown var. viridulum Baker was quite the contrary.
3, There were different hormone categories and concentration combinations in leaves' ability of induction and differentiation, when the concentration range of 2, 4-D was 1.5-2.5mg.L ' ,it's good for callus induction; when the medium combine with 0.5 mg.L-16-BA and 0.5 mg.L-1NAA were more profit for bud induction.
4 , The optimal hormone combination for embryoids multiplication of Lilium longiflorum was 0.5mg.L-1KT and 0.5 mg.L-16-BA.
5, Choosing one-factor auxin was adverse to buds subculture multiplication of Lily, for example NAA or IAA.
6, Low concentration of KT was of advantage to buds subculture multiplication of Lilium davidii var. unicalar Cotton; and higher concentration of 6-BA was better to Lilium longiflorum's multiplication.
7, Lower concentration range of MET (0.3-0.6mg.L-1) can accelerate buds
subculture multiplication of lily.
8, Different hormone combinations gave different responses to the effect of buds subculture multiplication. The treatment with BA0.5mg.L-1+NAA0.1mg.L-1+MET o.5mg.L-1+KTo.5 mg.L"1 showed better effect than others.
9, The medium combine with two auxins were more propitious to root inducing and sound seedling of Lily than that of one-factor auxin.
10 , Lower concentration range of MET(0.6-0.8mg.L-1) can accelerate root inducing and sound seedling of Lily.
11, The best effect concentration of ABT1 on root inducing and sound seedling with Lilium davidii var. unicalar Cotton was 2.0 mg.L-1.
12, There were different radiation sensitivity with different genotype varieties. The sensitivity of Lilium davidii var. unicalar Cotton was better than Lilium longiflorum.
13 , The effects of different concentrations and time of colchicines liquid treatment with different genotype varieties. Best treatment for inducing frequency was obtained when the concentration of colchicines was 0.7% for 5 days, the inducting frequency of Lilium davidii var. unicalar Cotton being 40%, and Lilium longiflorum being 30%.
14, The effects of mutagenesis on different genotype varieties combined with different colchicines liquid treatment. Lilium davidii var. unicalar Cotton was suit of soaking with colchicines, and Lilium longiflorum was suit of embedding with absorbent cotton.
15, Comparative observations on leaf stoma's numbers of guard cell and size between tetraploid and diploid of Lily showed significant difference.
16 , Morphological observation showed that the chromosome numbers of diploid Lilium davidii var. unicalar Cotton and Lilium longiflorum was 24(2n=2X=24,X=12), while that of tetraploid plants was 48(4n=4X=48,X=24).
1、不同基因型材料的诱导分化能力不同,兰州百合的诱导分化率为51.65%,平均生成的小鳞茎数为5.87;龙牙百合的诱导分化率为22.22%,平均生成的小鳞茎数为2.15。
2、同一材料不同位置的鳞片其诱导能力也有所差异,分别表现为,兰州百合:内层>中层>外层;龙牙百合:外层>中层>内层。
3、不同激素种类与浓度配比对叶片的诱导分化结果不同,当2,4-D浓度为1.5-2.5mg.L~(-1)时,有利于愈伤组织的诱导;当激素为0.5 mg.L~(-1)6-BA和0.5 mg.L~(-1)NAA的组合时,有利于芽的分化。
4、激素组合KT_(0.5mg.L~(-1))+BA_(0.5mg.L~(-1))对台湾新铁炮百合原球茎的增殖效果较好。
5、使用单因子的生长素NAA或IAA不利于百合的继代增殖。
6、低浓度的KT有利于兰州百合的继代增殖;而较高浓度的6-BA对台湾新铁炮百合增殖效果较好。
7、较低浓度范围(0.3-0.6mg.L~(-1))的多效唑对百合的增殖有一定的促进作用。
8、不同的激素组合对百合芽的继代增殖效果不同,以6-BA_(0.5mg.L~(-1))+NAA_(0.1mg.L~(-1))+MET_(0.5mg.L~(-1))+KT_(0.5mg.L~(-1))的激素配比对百合的继代效果最
广西大学硕士学位论文
百合组织培养与多倍体研究
好。
9、两种生长素的配合使用比使用单一生长素更有利于百合的生根壮
刁闷卜
田。
10、较低浓度范围(0 .6一0.smg.L一’)的多效哩对百合的生根壮苗有一定
的促进作用。
11、浓度为2.omg.L一’ABTI号生根粉对兰州百合的生根壮苗效果最
好。
12、不同基因型材料对辐射的敏感性不同,兰州百合的辐射敏感性
要大于台湾新铁炮百合。
13、秋水仙素溶液的诱变效果因基因型而异,当秋水仙素浓度为
0.7%,处理天数为5天时,诱变效果最好.其中兰州百合的变异率为40%,
台湾新铁炮百合的变异率为30%。
14、不同基因型材料的诱变效果因秋水仙素溶液处理的方法不同而
存在差异,兰州百合适合使用浸泡法,台湾新铁炮百合适宜用棉球覆盖
法。
15、百合四倍体与二倍体的气孔保卫细胞数目及大小之间的差异显
著。
16、细胞学鉴定二倍体兰州百合和台湾新铁炮百合的染色体数为
24(Zn=ZX=24,x=12),而其四倍体的染色体数为45(4n二4X=48,x=24)。
In this paper we studied tissue culture of Lily systematically , established a good diploid system, used radiation mutagenesis and colchicines liquid treatments to induce tetraploid plants, in order to offer significant referenced datum for the future. The results showed:
1, There were different frequencies of buds induced and differentiation with different genotype varieties, the frequency of buds differentiation with Lilium davidii var. unicalar Cotton was 51.65%, the average of induced bulblets was 5.87; that of Lilium brownii E E. Brown var. viridulum Baker was 22.22% and 2.15.
2, Different part of a bud scale gave different responses to the effect of induction with the same varieties. The inducting frequencies of inner scales with Lilium davidii var. unicalar Cotton was the highest, middle scales was the second ,and outer scales was the lowest; But the result of Lilium brownii F. E. Brown var. viridulum Baker was quite the contrary.
3, There were different hormone categories and concentration combinations in leaves' ability of induction and differentiation, when the concentration range of 2, 4-D was 1.5-2.5mg.L ' ,it's good for callus induction; when the medium combine with 0.5 mg.L-16-BA and 0.5 mg.L-1NAA were more profit for bud induction.
4 , The optimal hormone combination for embryoids multiplication of Lilium longiflorum was 0.5mg.L-1KT and 0.5 mg.L-16-BA.
5, Choosing one-factor auxin was adverse to buds subculture multiplication of Lily, for example NAA or IAA.
6, Low concentration of KT was of advantage to buds subculture multiplication of Lilium davidii var. unicalar Cotton; and higher concentration of 6-BA was better to Lilium longiflorum's multiplication.
7, Lower concentration range of MET (0.3-0.6mg.L-1) can accelerate buds
subculture multiplication of lily.
8, Different hormone combinations gave different responses to the effect of buds subculture multiplication. The treatment with BA0.5mg.L-1+NAA0.1mg.L-1+MET o.5mg.L-1+KTo.5 mg.L"1 showed better effect than others.
9, The medium combine with two auxins were more propitious to root inducing and sound seedling of Lily than that of one-factor auxin.
10 , Lower concentration range of MET(0.6-0.8mg.L-1) can accelerate root inducing and sound seedling of Lily.
11, The best effect concentration of ABT1 on root inducing and sound seedling with Lilium davidii var. unicalar Cotton was 2.0 mg.L-1.
12, There were different radiation sensitivity with different genotype varieties. The sensitivity of Lilium davidii var. unicalar Cotton was better than Lilium longiflorum.
13 , The effects of different concentrations and time of colchicines liquid treatment with different genotype varieties. Best treatment for inducing frequency was obtained when the concentration of colchicines was 0.7% for 5 days, the inducting frequency of Lilium davidii var. unicalar Cotton being 40%, and Lilium longiflorum being 30%.
14, The effects of mutagenesis on different genotype varieties combined with different colchicines liquid treatment. Lilium davidii var. unicalar Cotton was suit of soaking with colchicines, and Lilium longiflorum was suit of embedding with absorbent cotton.
15, Comparative observations on leaf stoma's numbers of guard cell and size between tetraploid and diploid of Lily showed significant difference.
16 , Morphological observation showed that the chromosome numbers of diploid Lilium davidii var. unicalar Cotton and Lilium longiflorum was 24(2n=2X=24,X=12), while that of tetraploid plants was 48(4n=4X=48,X=24).
引文
[1] 谭文澄,戴策刚.观赏植物组织培养[M].北京:中国植物出版社,1991.
[2] 赵祥云,王树栋,陈新露,等.百合[M].北京:中国农业出版社,1999.
[3] 曹孜义,刘国民.实用植物组织培养技术教程[M].甘肃:甘肃科学出版社,1996.
[4] 杨云光,邓成忠.食用百合品种介绍[J].中国果菜,2002,5:13.
[5] 李广勋.百合的药理作用的研究[J].中药材,1990,3(3):31.
[6] 裘文达.园艺植物组织培养[M].上海,上海科学技术出版社,1986.
[7] GRASSOTTI A, MERCURI A, LEE JONGSUK. Lilium elegans:selection of pollenless clones[J]. Acta Hort, 1996, 414: 125~128.
[8] 黄济明,赵晓艺,张国民,等.玫红百合为亲本育成百合种间杂种[J].园艺学报,1990,17(2):153~157.
[9] VAN DER MEULEN M J J M, VAN OEVEREN J C. Genetic variation in longevity of cut Lily and tulip flowers. In: Creating genetic variation in ornamentals[M]. Sanremo,Italy, 1993: 191~198.
[10] MYNETT K, LILIEN KINPNIS H, Borochov A. Breeding for late flowering in Asiatic Lilies[J]. Acta Hort, 1997, 430: 531~537.
[11] STRAATHOF T P, LOFFLER H J M, LINFIELD C A. Breeding for resistance to Fusanum oxysporum in flower bulbs[J]. Acta Hort, 1997, 430: 477~486.
[12] 张成合,宋长志,王淑芳.多倍体育种综述[J].河北农业大学学报,1988,2:136~139.
[13] 陈为民.百合离体培养再生植株[J].植物生理学通讯,1983,3:46.
[14] 张丕方,倪德祥,王富民,等.百合鳞片离体培养诱导小鳞茎发生的研究[J].武汉植物学研究,1985,3(2):177~180.
[15] Niimi Y. In vitro propagation and post-in vitro establishment of Lilium japonicum Thunb[J]. J Japan Soc Hort Sci, 1995, 63(4), 843~852.
[16] Han B H, Yae B W, Goo D H, et al. Effects of growth regulators and light on the formation and proliferation of bulblets with swollen basal plate from in vitro culture of bulbscales in Lilium oriental hybrid 'Casa Blanca' [J]. J Korean Soc Hort Sci Hort, 1999, 40(4): 463~466.
[17] Hussey G. Totipotency in tissue explants of some members of the Liliaceae,Iridaceae, and Amaryllidaceae[J]. J. Exp. Bot. 1975, 26: 253.
[18] Ueuser C W. Tissue culture propagetion of Hemerocallis[J]. Hort Science, 1976, 11: 321.
[19] Arzate F A M, Nakazaki T, Okumto Y, et al. Efficient callus induction and plant regeneration from filaments with another in Lily (lilium longiflorum Thunb.)[J]. Plant Cell Rep, 1997, 16(12): 836~840.
[20] 于晓英,吴铁明,倪沛,等.百合幼胚的离体培养和植株再生[J].湖南农业大学学报,2000,26(4):286~288.
[21] Okazaki K, Koizumi M, Nisthio T, et al. Callus formation and regeneration of some species of Lilium[J]. Acta Hort, 1995, 392: 97~106.
[22] Tribulato A, Remotti P C, Loffler H J M, et al. Occurrence of embryo like structures and plant regeneration from a cell suspension of Lilium longiflorum[J]. Acta Hort,1997, 447: 205~208.
[23] 陈小兰,胡琼华,王红霞.百合的离体快速繁殖[J].植物生理学通讯,2000,36(4):334.
[24] 王俐,李枝林,赵燕.百合的组织培养及快繁技术[J].云南农业大学学报.2001,16(4):
304~307.
[25] 赵祥云,程谦,邢尤美,等.百合珠芽组培及脱毒研究[J].北方园艺,1993,20(3):284~288.
[26] Novak F J. Tissue culture propagation of Lilium hybrids[J]. Scientia Hort, 1981, 14(2): 191~199.
[27] Breatt and Carly V. Development of an automated plant culture system[J]. Plant Cell Tissue and Organ Culture, 1985, 5(2): 107.
[28] Xu P S, Niimi Y. Evaluation of virus-free bulblet production by antiviral and/or heat treatment in vitro scale cultures of Lilium longiflorum 'Geogia' and L. X 'Casablanca' [J]. J Japen Soc Hort Sci, 1999, 68(3): 640~647.
[29] 高敏.香水百合的组培快繁[J].广西农业科学,2002,(3):120~121.
[30] 罗凤霞,徐桂华,金丽丽,等.新铁炮百合微繁的研究[J].沈阳农业大学学报,2000,31(3):254~257.
[31] Nhut D T. Shoot induction and plant regenernation from receptacle tissues of Lilium longiflorum[J]. Sci Hort, 2001, 87: 131~138.
[32] 王家福,陈振光.百合快速繁殖条件的优化[J].福建农业大学学报,1999,28(2):152~156.
[33] 赵兴兵,袁正仿,张苏锋,等.兰州百合的离体快速繁殖研究[J].信阳师范学院学报(自然科学版),2001,14(3):319~321.
[34] 王刚,杜捷,李桂英,等.兰州百合和野百合组织培养及快速繁殖研究.西北师范大学学报,2002,38(1):69~71.
[35] 王季林,金国良.百合鳞片不同部位繁殖系数的观察[J].江苏农业科学,1987,(1):30.
[36] 汪有良.南京百合快速繁殖[J].江苏林业科技,1995,(1):35~43.
[37] 杨增海.植物生长调节剂对百合组织培养繁殖的效应[J].西北学业大学学报,1987,(3):72~78.
[38] 丁兰,刘国安,田卫东,等.新铁炮百合组织培养和快繁研究{J}.西北师范大学学报(自然科学版),200137(1):80~82.
[39] 阮少宁,杨华,梁一池,等.香水百合组织培养的试验研究[J].福建林学学报,2001,21(2):142
[40] Lee J S, Sue J K, Han E J. In vitro bulblet formation from various explant sources and sizes of bulbscale segment in Lilium eiegans hybrid[J]. J Korean Soc Hort Sci, 1994, 35(5): 507~513.
[41] 卢其能.龙牙百合的组织培养和快速繁殖研究[J].江西农业学报,2002,14(4):43~46.
[42] 王爱勤,周歧伟,何龙飞,等.百合试管结球茎的研究[J].广西农业大学学报,1998,17(1):71~75.
[43] 张文种.不同激素配比对麝香百合鳞茎芽诱导的影响[J].亚热带植物科学,2002,31(1):21~24.
[44] 齐孟文.我国花卉辐射育种的进展与剖析[J].核农业通报,1997,(6):288~290.
[45] 张克中,赵祥云,黄善武,等.辐射百合鳞片扦插诱生的不定芽植株变异研究[J].核农学报,2003,17(3):215~216.
[46] 王彭伟,李鸿渐,张效平.切花菊单细胞突变育种研究[J].园艺学报,1996,23(3):285~288.
[47] 梁凤山,罗耀武.多倍体及其在农业生产中的应用[J].杂粮作物,1999,19(2):20~23.
[48] 郭启高,宋明,梁国鲁,植物多倍体诱导育种研究进展[J].生物学通报,2000,35(2):
8~10.
[49] 周朴华,何立珍,刘选明.组织培养中用秋水仙素诱发黄花菜同源四倍体的研究[J].中国农业科学,1995,28(1):49~55.
[50] 郑思乡,李利良,甘红霞.芦笋多倍体诱导及其离体培养的研究[J].湖南农业科学,1996,1:22~23.
[51] 陈素萍,王莉,宋秀清.党参多倍体的研究[J].中草药,1991,22(5):224.
[52] 陈柏君,高山林,卞云云.黄芩组织培养同源四倍体的诱导[J].植物资源与环境学报,2000,9(1):9.
[53] 王鸿鹤,葛欣,徐启江,等.秋水仙碱诱导重瓣大岩桐(Sinnigia speciosa)多倍体的研究[J],热带亚热带植物学报.1999,7(3):237~242.
[54] 王锦秀,李健,王立英,等.枸杞同源四倍体诱导新方法初报[J].宁夏农林科技.1998,6:1~4.
[55] 龙雅宜,张金政,张兰年,等.百合—球根花卉之王[M].北京:金盾出版社,1999.
[56] 陈俊愉,程绪珂.中国花经[M].上海:上海文化出版社,1989.
[57] 杨利平,刘雪梅,张敩方.巻丹的细胞学研究[J].植物研究,1997,17(1):85~88.
[58] 黄济明.百合的组织培养和试管内诱发多倍体试验[J].园艺学报,1983,10(2):125~127.
[59] 刘选明,周朴华,何立珍,等.应用细胞工程技术选育四倍体龙牙百合的研究[J].生物工程学报12(增刊),1996,193~303.
[60] 连雪斌.兰州百合多倍体诱导试验报告[J].甘肃农业科技,1995,6:14~15.
[61] 张兴翠,周昌华,殷家明.药用百合的多倍体诱导及快速繁殖[J].西南农业大学学报,2003,25(1):15~17.
[62] Jaa M, Van Tuyl. The use of oryzaline as alternative for colchicines in in-vitro chromosome doubling of Lilium and nerine[J]. Horticulture Acta, 1992, 325: 625~630.
[63] 张建军,殷丽青,张伟萍,等.莳菜四倍体的特征及田间耐热性[J].上海农业学报,1998,14(2):35~40.
[64] 郭平仲,金清波,周希澄,等.作物育种学[M].北京:高等教育出版社,1987,9:212.
[65] 吕玉虎,李彬青,吴淑平.百合离体培养和快速繁殖[J].信阳农业高等专科学校学报,2002,12(2):19~20.
[66] 杭玲,苏宾,陈丽新,等.龙牙百合组培快繁技术研究[J].广西农业科学,2001,(4):183~184.
[67] 孙君社,方晓华.植物激素对百合鳞片愈伤组织生长的影响[J].中国农业大学学报,2001,6(2):58~61.
[68] 刘芬,王发林.兰州百合花丝组培诱导完整植株的研究[J].甘肃农业科技,2001(6):29~30.
[69] 李宝平.百合鳞片和小鳞茎发生及人工种皮包埋效果的研究[J].山西大学学报,1992,15(10):66~71.
[70] 王莲辉.新铁炮百合及东方百合的离体快速繁殖[J].贵州林业科技,1998,26(3):9~13.
[71] 范家霖,杨保安,张建伟.组织培养在菊花辐射育种中的应用研究[J].河南科学,1996,14(4):455~457.
[72] 郭启高,张钟灵,周虹,等.秋水仙碱诱导生姜多倍体的研究[J].西南农业大学学报,2000,22(5):400~402.
[73] 乔永刚,宋芸.我国园艺植物多倍体育种研究进展[J].北方园艺,2002,(6):7~8.
[74] 郭清泉,郑思乡,杨瑞芳,等.莲(N.ymphaea L.)多倍体研究[J].湖南农业大学学报,
1997,23(1):26~29.
[75] 李诚.百合鳞茎带菌及种球消毒试验[J].植物保护,1994,20(4):24~25.
[76] 洪波.百合花卉的研究综述[J].东北林业大学学报,2000,28(2):68~70.
[77] 刘成运,李广彦,彭隆金.百合组织中细胞内生菌的分布与传播[J].武汉植物学研究,1989,7(2):101~106.
[78] 冷肖荀,王青华.百合的组织培养[J].北方园艺,1999,(6):59.
[79] 李保军,杨耀文,张廷襄,等.卷丹的组织培养初步研究[J].云南中医学院学报,2001,24(4):9~21.
[80] 徐冠仁.植物诱变育种学[M].中国农业出版社,1992.
[81] More john L C. Resistance of rose microtubule polymerization to colchicines results from a low-affinity interaction of colchine and tubulin. Planta, 1987a, 170: 230~241.
[82] Magrgulis L. Colchicine sensitive microtubules[J]. Int Rev Cytol, 1973, 34: 333~361.
[83] 丛斌,赵建华,张丕方.秋水仙素对小麦根尖细胞亚显微结构的影响[J].武汉植物学研究,1997,15(4):299~303.
[84] 郑思乡,罗慧敏,董延瑜,等.组织培养在苎麻多倍体研究中的应用初报[J].湖南农业大学学报,1995,21(4):361~365.
[85] 王长泉,张文胜,李雅志,等.苹果叶片离体培养中秋水仙素加倍效应的研究[J].果树科学,1999,16(2):104~109.
[86] 张承妹,陆家安.黄瓜(Cucumis sativus L.)组织培养与诱导四倍体再生植株[J].上海农业学报,1995,11(3):31~36.
[87] 乔传卓,崔熙.药用植物多倍体的作用[J].中药科技,1981,(4):40~41.
[2] 赵祥云,王树栋,陈新露,等.百合[M].北京:中国农业出版社,1999.
[3] 曹孜义,刘国民.实用植物组织培养技术教程[M].甘肃:甘肃科学出版社,1996.
[4] 杨云光,邓成忠.食用百合品种介绍[J].中国果菜,2002,5:13.
[5] 李广勋.百合的药理作用的研究[J].中药材,1990,3(3):31.
[6] 裘文达.园艺植物组织培养[M].上海,上海科学技术出版社,1986.
[7] GRASSOTTI A, MERCURI A, LEE JONGSUK. Lilium elegans:selection of pollenless clones[J]. Acta Hort, 1996, 414: 125~128.
[8] 黄济明,赵晓艺,张国民,等.玫红百合为亲本育成百合种间杂种[J].园艺学报,1990,17(2):153~157.
[9] VAN DER MEULEN M J J M, VAN OEVEREN J C. Genetic variation in longevity of cut Lily and tulip flowers. In: Creating genetic variation in ornamentals[M]. Sanremo,Italy, 1993: 191~198.
[10] MYNETT K, LILIEN KINPNIS H, Borochov A. Breeding for late flowering in Asiatic Lilies[J]. Acta Hort, 1997, 430: 531~537.
[11] STRAATHOF T P, LOFFLER H J M, LINFIELD C A. Breeding for resistance to Fusanum oxysporum in flower bulbs[J]. Acta Hort, 1997, 430: 477~486.
[12] 张成合,宋长志,王淑芳.多倍体育种综述[J].河北农业大学学报,1988,2:136~139.
[13] 陈为民.百合离体培养再生植株[J].植物生理学通讯,1983,3:46.
[14] 张丕方,倪德祥,王富民,等.百合鳞片离体培养诱导小鳞茎发生的研究[J].武汉植物学研究,1985,3(2):177~180.
[15] Niimi Y. In vitro propagation and post-in vitro establishment of Lilium japonicum Thunb[J]. J Japan Soc Hort Sci, 1995, 63(4), 843~852.
[16] Han B H, Yae B W, Goo D H, et al. Effects of growth regulators and light on the formation and proliferation of bulblets with swollen basal plate from in vitro culture of bulbscales in Lilium oriental hybrid 'Casa Blanca' [J]. J Korean Soc Hort Sci Hort, 1999, 40(4): 463~466.
[17] Hussey G. Totipotency in tissue explants of some members of the Liliaceae,Iridaceae, and Amaryllidaceae[J]. J. Exp. Bot. 1975, 26: 253.
[18] Ueuser C W. Tissue culture propagetion of Hemerocallis[J]. Hort Science, 1976, 11: 321.
[19] Arzate F A M, Nakazaki T, Okumto Y, et al. Efficient callus induction and plant regeneration from filaments with another in Lily (lilium longiflorum Thunb.)[J]. Plant Cell Rep, 1997, 16(12): 836~840.
[20] 于晓英,吴铁明,倪沛,等.百合幼胚的离体培养和植株再生[J].湖南农业大学学报,2000,26(4):286~288.
[21] Okazaki K, Koizumi M, Nisthio T, et al. Callus formation and regeneration of some species of Lilium[J]. Acta Hort, 1995, 392: 97~106.
[22] Tribulato A, Remotti P C, Loffler H J M, et al. Occurrence of embryo like structures and plant regeneration from a cell suspension of Lilium longiflorum[J]. Acta Hort,1997, 447: 205~208.
[23] 陈小兰,胡琼华,王红霞.百合的离体快速繁殖[J].植物生理学通讯,2000,36(4):334.
[24] 王俐,李枝林,赵燕.百合的组织培养及快繁技术[J].云南农业大学学报.2001,16(4):
304~307.
[25] 赵祥云,程谦,邢尤美,等.百合珠芽组培及脱毒研究[J].北方园艺,1993,20(3):284~288.
[26] Novak F J. Tissue culture propagation of Lilium hybrids[J]. Scientia Hort, 1981, 14(2): 191~199.
[27] Breatt and Carly V. Development of an automated plant culture system[J]. Plant Cell Tissue and Organ Culture, 1985, 5(2): 107.
[28] Xu P S, Niimi Y. Evaluation of virus-free bulblet production by antiviral and/or heat treatment in vitro scale cultures of Lilium longiflorum 'Geogia' and L. X 'Casablanca' [J]. J Japen Soc Hort Sci, 1999, 68(3): 640~647.
[29] 高敏.香水百合的组培快繁[J].广西农业科学,2002,(3):120~121.
[30] 罗凤霞,徐桂华,金丽丽,等.新铁炮百合微繁的研究[J].沈阳农业大学学报,2000,31(3):254~257.
[31] Nhut D T. Shoot induction and plant regenernation from receptacle tissues of Lilium longiflorum[J]. Sci Hort, 2001, 87: 131~138.
[32] 王家福,陈振光.百合快速繁殖条件的优化[J].福建农业大学学报,1999,28(2):152~156.
[33] 赵兴兵,袁正仿,张苏锋,等.兰州百合的离体快速繁殖研究[J].信阳师范学院学报(自然科学版),2001,14(3):319~321.
[34] 王刚,杜捷,李桂英,等.兰州百合和野百合组织培养及快速繁殖研究.西北师范大学学报,2002,38(1):69~71.
[35] 王季林,金国良.百合鳞片不同部位繁殖系数的观察[J].江苏农业科学,1987,(1):30.
[36] 汪有良.南京百合快速繁殖[J].江苏林业科技,1995,(1):35~43.
[37] 杨增海.植物生长调节剂对百合组织培养繁殖的效应[J].西北学业大学学报,1987,(3):72~78.
[38] 丁兰,刘国安,田卫东,等.新铁炮百合组织培养和快繁研究{J}.西北师范大学学报(自然科学版),200137(1):80~82.
[39] 阮少宁,杨华,梁一池,等.香水百合组织培养的试验研究[J].福建林学学报,2001,21(2):142
[40] Lee J S, Sue J K, Han E J. In vitro bulblet formation from various explant sources and sizes of bulbscale segment in Lilium eiegans hybrid[J]. J Korean Soc Hort Sci, 1994, 35(5): 507~513.
[41] 卢其能.龙牙百合的组织培养和快速繁殖研究[J].江西农业学报,2002,14(4):43~46.
[42] 王爱勤,周歧伟,何龙飞,等.百合试管结球茎的研究[J].广西农业大学学报,1998,17(1):71~75.
[43] 张文种.不同激素配比对麝香百合鳞茎芽诱导的影响[J].亚热带植物科学,2002,31(1):21~24.
[44] 齐孟文.我国花卉辐射育种的进展与剖析[J].核农业通报,1997,(6):288~290.
[45] 张克中,赵祥云,黄善武,等.辐射百合鳞片扦插诱生的不定芽植株变异研究[J].核农学报,2003,17(3):215~216.
[46] 王彭伟,李鸿渐,张效平.切花菊单细胞突变育种研究[J].园艺学报,1996,23(3):285~288.
[47] 梁凤山,罗耀武.多倍体及其在农业生产中的应用[J].杂粮作物,1999,19(2):20~23.
[48] 郭启高,宋明,梁国鲁,植物多倍体诱导育种研究进展[J].生物学通报,2000,35(2):
8~10.
[49] 周朴华,何立珍,刘选明.组织培养中用秋水仙素诱发黄花菜同源四倍体的研究[J].中国农业科学,1995,28(1):49~55.
[50] 郑思乡,李利良,甘红霞.芦笋多倍体诱导及其离体培养的研究[J].湖南农业科学,1996,1:22~23.
[51] 陈素萍,王莉,宋秀清.党参多倍体的研究[J].中草药,1991,22(5):224.
[52] 陈柏君,高山林,卞云云.黄芩组织培养同源四倍体的诱导[J].植物资源与环境学报,2000,9(1):9.
[53] 王鸿鹤,葛欣,徐启江,等.秋水仙碱诱导重瓣大岩桐(Sinnigia speciosa)多倍体的研究[J],热带亚热带植物学报.1999,7(3):237~242.
[54] 王锦秀,李健,王立英,等.枸杞同源四倍体诱导新方法初报[J].宁夏农林科技.1998,6:1~4.
[55] 龙雅宜,张金政,张兰年,等.百合—球根花卉之王[M].北京:金盾出版社,1999.
[56] 陈俊愉,程绪珂.中国花经[M].上海:上海文化出版社,1989.
[57] 杨利平,刘雪梅,张敩方.巻丹的细胞学研究[J].植物研究,1997,17(1):85~88.
[58] 黄济明.百合的组织培养和试管内诱发多倍体试验[J].园艺学报,1983,10(2):125~127.
[59] 刘选明,周朴华,何立珍,等.应用细胞工程技术选育四倍体龙牙百合的研究[J].生物工程学报12(增刊),1996,193~303.
[60] 连雪斌.兰州百合多倍体诱导试验报告[J].甘肃农业科技,1995,6:14~15.
[61] 张兴翠,周昌华,殷家明.药用百合的多倍体诱导及快速繁殖[J].西南农业大学学报,2003,25(1):15~17.
[62] Jaa M, Van Tuyl. The use of oryzaline as alternative for colchicines in in-vitro chromosome doubling of Lilium and nerine[J]. Horticulture Acta, 1992, 325: 625~630.
[63] 张建军,殷丽青,张伟萍,等.莳菜四倍体的特征及田间耐热性[J].上海农业学报,1998,14(2):35~40.
[64] 郭平仲,金清波,周希澄,等.作物育种学[M].北京:高等教育出版社,1987,9:212.
[65] 吕玉虎,李彬青,吴淑平.百合离体培养和快速繁殖[J].信阳农业高等专科学校学报,2002,12(2):19~20.
[66] 杭玲,苏宾,陈丽新,等.龙牙百合组培快繁技术研究[J].广西农业科学,2001,(4):183~184.
[67] 孙君社,方晓华.植物激素对百合鳞片愈伤组织生长的影响[J].中国农业大学学报,2001,6(2):58~61.
[68] 刘芬,王发林.兰州百合花丝组培诱导完整植株的研究[J].甘肃农业科技,2001(6):29~30.
[69] 李宝平.百合鳞片和小鳞茎发生及人工种皮包埋效果的研究[J].山西大学学报,1992,15(10):66~71.
[70] 王莲辉.新铁炮百合及东方百合的离体快速繁殖[J].贵州林业科技,1998,26(3):9~13.
[71] 范家霖,杨保安,张建伟.组织培养在菊花辐射育种中的应用研究[J].河南科学,1996,14(4):455~457.
[72] 郭启高,张钟灵,周虹,等.秋水仙碱诱导生姜多倍体的研究[J].西南农业大学学报,2000,22(5):400~402.
[73] 乔永刚,宋芸.我国园艺植物多倍体育种研究进展[J].北方园艺,2002,(6):7~8.
[74] 郭清泉,郑思乡,杨瑞芳,等.莲(N.ymphaea L.)多倍体研究[J].湖南农业大学学报,
1997,23(1):26~29.
[75] 李诚.百合鳞茎带菌及种球消毒试验[J].植物保护,1994,20(4):24~25.
[76] 洪波.百合花卉的研究综述[J].东北林业大学学报,2000,28(2):68~70.
[77] 刘成运,李广彦,彭隆金.百合组织中细胞内生菌的分布与传播[J].武汉植物学研究,1989,7(2):101~106.
[78] 冷肖荀,王青华.百合的组织培养[J].北方园艺,1999,(6):59.
[79] 李保军,杨耀文,张廷襄,等.卷丹的组织培养初步研究[J].云南中医学院学报,2001,24(4):9~21.
[80] 徐冠仁.植物诱变育种学[M].中国农业出版社,1992.
[81] More john L C. Resistance of rose microtubule polymerization to colchicines results from a low-affinity interaction of colchine and tubulin. Planta, 1987a, 170: 230~241.
[82] Magrgulis L. Colchicine sensitive microtubules[J]. Int Rev Cytol, 1973, 34: 333~361.
[83] 丛斌,赵建华,张丕方.秋水仙素对小麦根尖细胞亚显微结构的影响[J].武汉植物学研究,1997,15(4):299~303.
[84] 郑思乡,罗慧敏,董延瑜,等.组织培养在苎麻多倍体研究中的应用初报[J].湖南农业大学学报,1995,21(4):361~365.
[85] 王长泉,张文胜,李雅志,等.苹果叶片离体培养中秋水仙素加倍效应的研究[J].果树科学,1999,16(2):104~109.
[86] 张承妹,陆家安.黄瓜(Cucumis sativus L.)组织培养与诱导四倍体再生植株[J].上海农业学报,1995,11(3):31~36.
[87] 乔传卓,崔熙.药用植物多倍体的作用[J].中药科技,1981,(4):40~41.