露地菊的开花生物学及花期调控
|
摘要
露地菊是一菊花新品种群,为进一步提高其观赏性及其在城市绿化中的应用,进行
了如下几方面的研究工作:1.露地菊的开花生物学,主要是花芽分化的时期、分化的过
程及其与环境条件的关系;2.露地菊在自然条件下的生长开花动态,及其与花芽分化的
关系;3.光照、栽培措施、助长剂对露地菊生长和开花的影响。
研究结果表明:1.露地菊的花芽分化分为花序分化和小花分化两个阶段,共九个时
期,花芽分化是在长日照、高温环境中进行的。2.露地菊花蕾的发育呈Logistic曲线,
发育过程中日照渐短。3.露地菊的生长亦呈Logistic曲线,并且露地菊的花芽分化阶段
正是植株旺盛生长的时期。4.随着扦插期的推迟,露地菊的花期有短期延后。5.补充
光照对金凤凰无影响,也可使东林瑞雪和矮红在春季反季节开花。6.遮光与摘心的组合
实验不能改变花期。7.助长剂对东林瑞雪的生长有显著影响,而对露地菊的花期则无作
用。8.适时摘心可短期延缓露地菊的生长和开花。
本文通过对露地菊的开花生物学及花期调控的一些栽培技术措施的研究,对进一步
深入研究露地菊的周年生产提供了依据。
Abstract
Ground-grow Chrysanthemum is a new variety group. For studying and popularizing it, this paper studies several aspects: l.The blossom biology of Ground-grow Chrysanthemum; 2.The trends of growth and flowering; 3.The effect of illumination ~. cultivation methods and chemical reagents to Ground-grow Chrysanthemum.
The results show as follows: l.The process of flower bud differentiation of Ground-grow Chrysanthemum is finished under the long days and higher temperature, which includes two stages of inflorescence differentiation and floret differentiation. 2. The flower bud development of Ground-grow Chrysanthemum conforms to the Logistic Curve while the sunshine gradually shortening. 3. The growth of Ground-grow Chrysanthemum also conforms to the Logistic Curve. When the flower bud differentiates, the plants grow luxuriantly. 4. With the postponement of cutting time, flowering time are delayed for a short time. 5. Replenishing illumination has no influence on some varieties but it enables some other varieties to flower in spring. 6.The combination treatment of shortening illumination and pinching can?t change the florescence. 7. The chemical reagent that can promote plant growth has significant effect on some varieties growth and no effect on anthesis. 8. Pinching in right time can postpone the growth and flowering of Ground-grow Chrysanthemum for a short time.
The blossom biology and some cultivation methods of regulating flowering are studied in this paper. This paper can provide basis for making a thorough investigation and studying the year-round production of Ground-grow Chrysanthemum.
了如下几方面的研究工作:1.露地菊的开花生物学,主要是花芽分化的时期、分化的过
程及其与环境条件的关系;2.露地菊在自然条件下的生长开花动态,及其与花芽分化的
关系;3.光照、栽培措施、助长剂对露地菊生长和开花的影响。
研究结果表明:1.露地菊的花芽分化分为花序分化和小花分化两个阶段,共九个时
期,花芽分化是在长日照、高温环境中进行的。2.露地菊花蕾的发育呈Logistic曲线,
发育过程中日照渐短。3.露地菊的生长亦呈Logistic曲线,并且露地菊的花芽分化阶段
正是植株旺盛生长的时期。4.随着扦插期的推迟,露地菊的花期有短期延后。5.补充
光照对金凤凰无影响,也可使东林瑞雪和矮红在春季反季节开花。6.遮光与摘心的组合
实验不能改变花期。7.助长剂对东林瑞雪的生长有显著影响,而对露地菊的花期则无作
用。8.适时摘心可短期延缓露地菊的生长和开花。
本文通过对露地菊的开花生物学及花期调控的一些栽培技术措施的研究,对进一步
深入研究露地菊的周年生产提供了依据。
Abstract
Ground-grow Chrysanthemum is a new variety group. For studying and popularizing it, this paper studies several aspects: l.The blossom biology of Ground-grow Chrysanthemum; 2.The trends of growth and flowering; 3.The effect of illumination ~. cultivation methods and chemical reagents to Ground-grow Chrysanthemum.
The results show as follows: l.The process of flower bud differentiation of Ground-grow Chrysanthemum is finished under the long days and higher temperature, which includes two stages of inflorescence differentiation and floret differentiation. 2. The flower bud development of Ground-grow Chrysanthemum conforms to the Logistic Curve while the sunshine gradually shortening. 3. The growth of Ground-grow Chrysanthemum also conforms to the Logistic Curve. When the flower bud differentiates, the plants grow luxuriantly. 4. With the postponement of cutting time, flowering time are delayed for a short time. 5. Replenishing illumination has no influence on some varieties but it enables some other varieties to flower in spring. 6.The combination treatment of shortening illumination and pinching can?t change the florescence. 7. The chemical reagent that can promote plant growth has significant effect on some varieties growth and no effect on anthesis. 8. Pinching in right time can postpone the growth and flowering of Ground-grow Chrysanthemum for a short time.
The blossom biology and some cultivation methods of regulating flowering are studied in this paper. This paper can provide basis for making a thorough investigation and studying the year-round production of Ground-grow Chrysanthemum.
引文
1.马焕普.果树花芽分化与激素的关系.植物生理学通讯,1987(1):1-6
2.中国农业百科全书(生物学卷).北京:农业出版社,1991:142
3.王彭伟 陈俊愉.地被菊新品种选育研究.园艺学报,1990;7(3):223-228
4.王忠敏.牡丹周年开花的基本原理与技术措施.中国园林,1991:7(2):48-52
5.王鸿伟 夏文举 李连俊.生物助长剂对红皮云杉播种苗生长的影响.东北林业大学学报,2000;28(1):29-31
6.石万里 姚毓璆.菊花花芽分化的初步研究.园艺学报,1990:17(4):309-312
7.石万里 夏宜平等.核酸、蛋白质代谢与菊花花芽分化的关系.园艺学报,1993:20(1):99-100
8.北京园林局、中国菊花研究会编.中国菊花研究论文集(1993——1996)
9.叶向斌.NAA和IBA对菊花生长发育和花期的影响.北京农学院学报,1998:13(4):24-29
10.孙文全 褚孟嫄.梅树花芽生理分化期木质部液中赤霉素和细胞分裂素的变化.园艺学报,1988;15(2):73-76
11.孙文全 褚孟嫄.梅树花芽形成期氨基酸变化的研究.园艺学报,1988;15(4):280-283
12.刘宏伟.地被菊的快速繁殖.东北林业大学学报,1994:22(1):31-34
13.孙兆法.切花菊周年供应技术途径.北方园艺,1997(6):57-58
14.孙兆法等.影响夏菊开花的环境因子初步研究.园艺学报,1998;25(3):310-312
15.孙兆法 李梅 陈莉等.切花夏菊促成栽培的研究.园艺学报,1999;26(6):391-396
16.许智宏.植物发育与生殖的研究.植物学报,1999;41(9):909-920
17.李鸿渐等.夏菊花的引种栽培技术.江苏农业科学,1986(9):31-36
18.李讔生 黄郊等.杏花芽分化的观察.园艺学报,1986;13(1)
19.过元炯 夏宜平.菊花露地促成栽培——秋菊夏开试验.江苏农业科学,1990(3):51-53
20.李景奇.日本菊花育种研究现状与发展动态.中国花卉盆景,1994(10):19
21.李秀娟等.唐菖蒲周年供花研究初报.广西植物,1997:17(2):181-183
22.张燕.日本切花菊生产.北京园林,1995(1):37-38
23.张燕.非光周期夏切花菊开花的限制因子.北京园林,1995(2):21-22
24.张(学攴)方.露地栽培菊的研究现状与展望.黑龙江园林,1999(3):1-2,16
25.陈封怀 王秋圃.菊花探源.自然杂志,1979,2(10)::652-653
26.陈俊愉 程绪珂主编.中国花经.上海:上海文化出版社,1990:122
27.陈俊愉.地被菊的过去与未来.绿化与生活,1990(4):2,34
28.陈俊愉.改革名花走新路——关于地被菊育种的反思与展望(上篇).北京园林,1990(4):2-5
29.陈俊愉.改革名花走新路——关于地被菊育种的反思与展望(下篇).北京园林,1991(1):8-12
30.周军 李鸿渐.影响夏菊花品种成花诱导因素的研究.南京农业大学学报,1991;14(1):27-31
31.周军 李鸿渐.气温、光照条件对夏菊花品种花芽发育的影响.园艺学报,1993;20(4):379-383
32.陈永宁.当前开花研究中的一些前沿性工作介绍.植物生理学通讯,1994;30(1):52-54
33.房伟民等.华东地区切花菊周年供应栽培摸式.江苏农业科学,1997(1):26-27
34.陈俊愉.菊花应用新天地——北京“地被菊”上街的联想.中国花卉盆景,1998(10):6
35.周玉梅.促进白桦提前开花的技术.1999 硕士论文
36.赵保平.牡丹促成栽培技术的研究.河南农业科学,1990(10):27-29
37.宫本馥 罗珍珍.地被菊的快速繁殖.植物杂志,1995(6):21-22
38.胡新芒.南京地区切花百合的促成栽培.江苏绿化,1998(1):32-33
39.唐锡华 李文安.水稻光照发育阶段的研究Ⅲ:几种内外条件对水稻阶段发育的影响.作物学报,1964;3(3):283
40.倪月荷等.元旦、春节切花菊栽培试验.上海园林科技,1986(3):1-9
41.倪月荷 汪觉先编著.菊花.上海:上海科学技术出版社,1989:9
42.唐小敏.杜鹃催花过程中子房胚珠的发育及温度、激素对催花的影响.浙江农业科学,1996(5):248-250
43.高永伟等.地被菊的组织培养.植物生理学通讯,1997;33(6):437-438
44.黄章智编译.花卉的花期调节.北京:中国林业出版社,1990
45.谌愉美等.唐菖蒲鲜切花周年栽培技术研究.北方园艺,1994(1):24-26
46.郭志刚 张伟.切花生产技术丛书——菊花.北京:清华大学出版社,1997:2
47.傅永福 孟凡静.植物的成花决定.植物学生理学通讯,1997;33(2):81-87
48.童哲等.植物的光受体和光控发育研究.植物学报,2000,42(2):111-115
49.裘文达 刘克斌.PP_(333)对菊花茎伸长和开花期的影响.植物生理学通讯,1989(6):31-33
50.虞佩珍 白绿江.观赏植物催延花期技术的研究.北京园林,1991(1):17-22
51.熊济华编著.菊花.上海:上海科学技术出版社,1998:42-43
52.潘瑞炽 董愚得编著.植物生理学.第三版,北京:高等教育出版社,1995:284
53.魏胜林 王家保等.蓝光和红光对菊花生长和开花的影响.园艺学报,1998;25(2):203-204
54. Cathey, H. M. 1955. A study of the effects of light and temperature upon the flowering of Chrysanthemum morifolium and Tulipa gesneriana. Phd Diss, Cornell Vniv Ithca, n. y.
55. Cathey, H. M. and H. A. Borthwick. 1961 Cyclic lighting for controlling flowering of Chrysanthemum. Porc. Amer. Soc. Hort. Sci. (78): 545-552
56. Chan, A. P. 1955. Some factors affecting flower bud development of Chrysanthemum Rpt. 14~(th) Intl. Hort. Congr. 2: 1023-1039
57. Cockshull K. E. 1976. Flowering and leaf initation by Chrysanthemum morifolium Ramat. in long day. J. Hort. Sci. 51: 441-450
58. De Lint. P. G. A. L. and G. Heig. Effects of day and night temperature on growthand flowering of Chrysanthemum. Acta. Hort. 197: 53-56
59. Eril S. Runkle 等. 1998. Flowering of herbaceous perennials under various night interruption and cyclic lighting threatment HortSci: 33(4): 672-677
60. G. L. Roberts, M. J. Tsujita, and B. Danserau. 1993 Supplemental light quality affects budbreak, yield and vase life ofcutrose HortSci. 28(6): 621-622
61. Kafranck A. M. 1950 Hardy Chrysanthemum pot plants for Mother Day Floristy Rev. 105(2724): 27
62. Kawata, J. And T.Toyoda. 1982. The response to photoperiod and temperature of Japanese July to September Flowering Chrysanthemums Acta Hort.125: 93-99
63. Kawata J.1987. The phasic development of Chrysanthemum as a basis for regulation of vegetactive growth and flowering in Japan Acta. Hort. 197: 115-123
64. Kenneth E.Cockshull and Aroton M.Koranek. 1972. Response of garden Chrysanthemum to daylength HortSci.27 (2) : 113-115
65. Langton, F.A.1977. The responses of early-flowering to Chrysanthemum to daylength. Scientia Hort. 7: 271-289
66. Langton,F.A.1978. Photoperiod responses of some Japanese Chrysanthemum J.Jpn.Soc.Hort.Sci.47: 237-242
67. Michael R.Evans and Robert E.Lyons .1998. Photoperiodic and gibberellin-induced growth and flowering responses of Gaillardia x grandifiora HortSci.23 (3) : 584-586
68. Poething R.S. 1997. Leafmorphogenesis in flowering plants. Plant Cell 9: 1077-1087
69. Post.K. 1939. The relationship of temperature to flower bud formation Chrysanthemum. Proc.Amer.Soc.Hort.Sci.37: 1003
70. R.Z.wilkinson and D.Richards. Influence of paclobutrazol on growth and flowering of Rhododendrons'Sir Robert Peel' HortSci. 26 (3) : 282-284
71. Schwabe,W.W. 1950. Factors controlling flowering of the Chrysanthemum Ⅰ .the effects of photoperiod and temporary chilling J.Exp.Bot. 1 (3) : 329-343
72. Seeley J.G. and A.H.weise 1965. Photoperiodic response of garden and greenhouse Chrysanthemum Proc.Amer.Soc.Hort.Sci.87: 464-471
73. Vince-Prue,D. Photoperiodism in Plants McGrew-Hill,London 1975
2.中国农业百科全书(生物学卷).北京:农业出版社,1991:142
3.王彭伟 陈俊愉.地被菊新品种选育研究.园艺学报,1990;7(3):223-228
4.王忠敏.牡丹周年开花的基本原理与技术措施.中国园林,1991:7(2):48-52
5.王鸿伟 夏文举 李连俊.生物助长剂对红皮云杉播种苗生长的影响.东北林业大学学报,2000;28(1):29-31
6.石万里 姚毓璆.菊花花芽分化的初步研究.园艺学报,1990:17(4):309-312
7.石万里 夏宜平等.核酸、蛋白质代谢与菊花花芽分化的关系.园艺学报,1993:20(1):99-100
8.北京园林局、中国菊花研究会编.中国菊花研究论文集(1993——1996)
9.叶向斌.NAA和IBA对菊花生长发育和花期的影响.北京农学院学报,1998:13(4):24-29
10.孙文全 褚孟嫄.梅树花芽生理分化期木质部液中赤霉素和细胞分裂素的变化.园艺学报,1988;15(2):73-76
11.孙文全 褚孟嫄.梅树花芽形成期氨基酸变化的研究.园艺学报,1988;15(4):280-283
12.刘宏伟.地被菊的快速繁殖.东北林业大学学报,1994:22(1):31-34
13.孙兆法.切花菊周年供应技术途径.北方园艺,1997(6):57-58
14.孙兆法等.影响夏菊开花的环境因子初步研究.园艺学报,1998;25(3):310-312
15.孙兆法 李梅 陈莉等.切花夏菊促成栽培的研究.园艺学报,1999;26(6):391-396
16.许智宏.植物发育与生殖的研究.植物学报,1999;41(9):909-920
17.李鸿渐等.夏菊花的引种栽培技术.江苏农业科学,1986(9):31-36
18.李讔生 黄郊等.杏花芽分化的观察.园艺学报,1986;13(1)
19.过元炯 夏宜平.菊花露地促成栽培——秋菊夏开试验.江苏农业科学,1990(3):51-53
20.李景奇.日本菊花育种研究现状与发展动态.中国花卉盆景,1994(10):19
21.李秀娟等.唐菖蒲周年供花研究初报.广西植物,1997:17(2):181-183
22.张燕.日本切花菊生产.北京园林,1995(1):37-38
23.张燕.非光周期夏切花菊开花的限制因子.北京园林,1995(2):21-22
24.张(学攴)方.露地栽培菊的研究现状与展望.黑龙江园林,1999(3):1-2,16
25.陈封怀 王秋圃.菊花探源.自然杂志,1979,2(10)::652-653
26.陈俊愉 程绪珂主编.中国花经.上海:上海文化出版社,1990:122
27.陈俊愉.地被菊的过去与未来.绿化与生活,1990(4):2,34
28.陈俊愉.改革名花走新路——关于地被菊育种的反思与展望(上篇).北京园林,1990(4):2-5
29.陈俊愉.改革名花走新路——关于地被菊育种的反思与展望(下篇).北京园林,1991(1):8-12
30.周军 李鸿渐.影响夏菊花品种成花诱导因素的研究.南京农业大学学报,1991;14(1):27-31
31.周军 李鸿渐.气温、光照条件对夏菊花品种花芽发育的影响.园艺学报,1993;20(4):379-383
32.陈永宁.当前开花研究中的一些前沿性工作介绍.植物生理学通讯,1994;30(1):52-54
33.房伟民等.华东地区切花菊周年供应栽培摸式.江苏农业科学,1997(1):26-27
34.陈俊愉.菊花应用新天地——北京“地被菊”上街的联想.中国花卉盆景,1998(10):6
35.周玉梅.促进白桦提前开花的技术.1999 硕士论文
36.赵保平.牡丹促成栽培技术的研究.河南农业科学,1990(10):27-29
37.宫本馥 罗珍珍.地被菊的快速繁殖.植物杂志,1995(6):21-22
38.胡新芒.南京地区切花百合的促成栽培.江苏绿化,1998(1):32-33
39.唐锡华 李文安.水稻光照发育阶段的研究Ⅲ:几种内外条件对水稻阶段发育的影响.作物学报,1964;3(3):283
40.倪月荷等.元旦、春节切花菊栽培试验.上海园林科技,1986(3):1-9
41.倪月荷 汪觉先编著.菊花.上海:上海科学技术出版社,1989:9
42.唐小敏.杜鹃催花过程中子房胚珠的发育及温度、激素对催花的影响.浙江农业科学,1996(5):248-250
43.高永伟等.地被菊的组织培养.植物生理学通讯,1997;33(6):437-438
44.黄章智编译.花卉的花期调节.北京:中国林业出版社,1990
45.谌愉美等.唐菖蒲鲜切花周年栽培技术研究.北方园艺,1994(1):24-26
46.郭志刚 张伟.切花生产技术丛书——菊花.北京:清华大学出版社,1997:2
47.傅永福 孟凡静.植物的成花决定.植物学生理学通讯,1997;33(2):81-87
48.童哲等.植物的光受体和光控发育研究.植物学报,2000,42(2):111-115
49.裘文达 刘克斌.PP_(333)对菊花茎伸长和开花期的影响.植物生理学通讯,1989(6):31-33
50.虞佩珍 白绿江.观赏植物催延花期技术的研究.北京园林,1991(1):17-22
51.熊济华编著.菊花.上海:上海科学技术出版社,1998:42-43
52.潘瑞炽 董愚得编著.植物生理学.第三版,北京:高等教育出版社,1995:284
53.魏胜林 王家保等.蓝光和红光对菊花生长和开花的影响.园艺学报,1998;25(2):203-204
54. Cathey, H. M. 1955. A study of the effects of light and temperature upon the flowering of Chrysanthemum morifolium and Tulipa gesneriana. Phd Diss, Cornell Vniv Ithca, n. y.
55. Cathey, H. M. and H. A. Borthwick. 1961 Cyclic lighting for controlling flowering of Chrysanthemum. Porc. Amer. Soc. Hort. Sci. (78): 545-552
56. Chan, A. P. 1955. Some factors affecting flower bud development of Chrysanthemum Rpt. 14~(th) Intl. Hort. Congr. 2: 1023-1039
57. Cockshull K. E. 1976. Flowering and leaf initation by Chrysanthemum morifolium Ramat. in long day. J. Hort. Sci. 51: 441-450
58. De Lint. P. G. A. L. and G. Heig. Effects of day and night temperature on growthand flowering of Chrysanthemum. Acta. Hort. 197: 53-56
59. Eril S. Runkle 等. 1998. Flowering of herbaceous perennials under various night interruption and cyclic lighting threatment HortSci: 33(4): 672-677
60. G. L. Roberts, M. J. Tsujita, and B. Danserau. 1993 Supplemental light quality affects budbreak, yield and vase life ofcutrose HortSci. 28(6): 621-622
61. Kafranck A. M. 1950 Hardy Chrysanthemum pot plants for Mother Day Floristy Rev. 105(2724): 27
62. Kawata, J. And T.Toyoda. 1982. The response to photoperiod and temperature of Japanese July to September Flowering Chrysanthemums Acta Hort.125: 93-99
63. Kawata J.1987. The phasic development of Chrysanthemum as a basis for regulation of vegetactive growth and flowering in Japan Acta. Hort. 197: 115-123
64. Kenneth E.Cockshull and Aroton M.Koranek. 1972. Response of garden Chrysanthemum to daylength HortSci.27 (2) : 113-115
65. Langton, F.A.1977. The responses of early-flowering to Chrysanthemum to daylength. Scientia Hort. 7: 271-289
66. Langton,F.A.1978. Photoperiod responses of some Japanese Chrysanthemum J.Jpn.Soc.Hort.Sci.47: 237-242
67. Michael R.Evans and Robert E.Lyons .1998. Photoperiodic and gibberellin-induced growth and flowering responses of Gaillardia x grandifiora HortSci.23 (3) : 584-586
68. Poething R.S. 1997. Leafmorphogenesis in flowering plants. Plant Cell 9: 1077-1087
69. Post.K. 1939. The relationship of temperature to flower bud formation Chrysanthemum. Proc.Amer.Soc.Hort.Sci.37: 1003
70. R.Z.wilkinson and D.Richards. Influence of paclobutrazol on growth and flowering of Rhododendrons'Sir Robert Peel' HortSci. 26 (3) : 282-284
71. Schwabe,W.W. 1950. Factors controlling flowering of the Chrysanthemum Ⅰ .the effects of photoperiod and temporary chilling J.Exp.Bot. 1 (3) : 329-343
72. Seeley J.G. and A.H.weise 1965. Photoperiodic response of garden and greenhouse Chrysanthemum Proc.Amer.Soc.Hort.Sci.87: 464-471
73. Vince-Prue,D. Photoperiodism in Plants McGrew-Hill,London 1975
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |