氯酸钾对龙眼成花调控机理的初步研究
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摘要
分别于2002年11月和12月对龙眼品种大乌圆进行了不同用量(0kg,0.25kg,0.5kg,0.75kg.1kg/每棵树)的土施氯酸钾处理,研究了氯酸钾对龙眼树体若干生理指标及成花状况、果实品质的影响,结果表明:在使用氯酸钾后一到两个月内
1.叶片含氮量有所提高,而K、P的含量降低。
2.氯酸钾的施用,降低了叶片钙含量,对镁的含量无规律性影响。
3.氯酸钾降低了叶片可溶性糖含量。
4.施用氯酸钾提高了龙眼顶芽IPA、ABA、ZTR的含量,降低了GA_3的含量,从而降低了IPA/ABA,GA/ZTR,GA_3/ABA的比值,促进了成花。
在本次试验中,氯酸钾的使用,提前了龙眼的花期,提高了植株成花率和花穗质量,但降低了果实的单果重与可溶性固型物含量,对可食率无明显影响。
Treated Longan(cv. Dawuyuan) with potassium chlorate by soil application in different amount (Okg,0.25kg,0.5kg,0.75kg, 1kg per tree)and different time(November , December ). The effects of potassium chlorate on Longan's certain physiological items , flowering and the quality of fruit were studied. One month or longer after treated the result shows that:
1. The N content of leaves was highter than that of untreated trees, while contents of P,K were lower compared with untreated trees.
2. Soil application with kclos reduced the Ca content in leaves, but have no effect on the content of Mg.
3. Soluble -Carohydrate was lower in the leaves of treated trees than those of untreated.
4. Stem-apexes of treated trees have higher content of ABA, IPA, ZTR than untreated trees , while the content of GA3 was lower compared with untreated trees, furthermore ,the ratio of IPA/ABA, GA/ZTR, GA3/ABA were decreased and resulted in promoting Longan flower bud differentiation .
The blossom time of treated tree was earlier than untreated trees. The percentage of blossom trees and the quality of panicles were improved by using potassium chlorate . However, both of the soluble solid substance and fruit mean weigh were decreased .No negative effect was observed on the percentage of eatable part of fruit.
1.叶片含氮量有所提高,而K、P的含量降低。
2.氯酸钾的施用,降低了叶片钙含量,对镁的含量无规律性影响。
3.氯酸钾降低了叶片可溶性糖含量。
4.施用氯酸钾提高了龙眼顶芽IPA、ABA、ZTR的含量,降低了GA_3的含量,从而降低了IPA/ABA,GA/ZTR,GA_3/ABA的比值,促进了成花。
在本次试验中,氯酸钾的使用,提前了龙眼的花期,提高了植株成花率和花穗质量,但降低了果实的单果重与可溶性固型物含量,对可食率无明显影响。
Treated Longan(cv. Dawuyuan) with potassium chlorate by soil application in different amount (Okg,0.25kg,0.5kg,0.75kg, 1kg per tree)and different time(November , December ). The effects of potassium chlorate on Longan's certain physiological items , flowering and the quality of fruit were studied. One month or longer after treated the result shows that:
1. The N content of leaves was highter than that of untreated trees, while contents of P,K were lower compared with untreated trees.
2. Soil application with kclos reduced the Ca content in leaves, but have no effect on the content of Mg.
3. Soluble -Carohydrate was lower in the leaves of treated trees than those of untreated.
4. Stem-apexes of treated trees have higher content of ABA, IPA, ZTR than untreated trees , while the content of GA3 was lower compared with untreated trees, furthermore ,the ratio of IPA/ABA, GA/ZTR, GA3/ABA were decreased and resulted in promoting Longan flower bud differentiation .
The blossom time of treated tree was earlier than untreated trees. The percentage of blossom trees and the quality of panicles were improved by using potassium chlorate . However, both of the soluble solid substance and fruit mean weigh were decreased .No negative effect was observed on the percentage of eatable part of fruit.
引文
[1] 刘星辉,吴少华.龙眼栽培新技术[M].福建科学技术出版社,1997,1.
[2] 戴良昭.荔枝、龙眼施肥新技术[M].中国农业出版,1999,1.
[3] 陈开明,何光泽,潘仰星.龙眼叶片营养与开花结果关系的研究[J].福建果树,1985,(3):1~5.
[4] 何明忠,藏良昭.龙眼(福眼)结果母枝的矿质营养状况[J].福建果树,1999,109(3):5~7.
[5] Buban T, Faust M. Flower bud induction in apple trees, Internal control and differentiation[J]. Hort Rev, 1982, 4: 174.
[6] Faust M. Physiology of Temperate Zone Fruit Trees[J]. New York: John Wiley and Sons, 1989.
[7] 乔进春,朱梅玲,刘会元.环剥对红富士成花的影响[J].河北林业科技,1996,6(2):45.
[8] 吴定尧.,周贤军,黄辉白等.不同环剥形式对荔枝成花、果实品质及产量的影响[J].广东农业科学,1996,2,17~19.
[9] 周瑞通.螺旋环剥促进龙眼成花试验[J].广西园艺,2003,47(2):10~11.
[10] 吴定尧,邱金淡,等.环剥促进龙眼成花的研究[J].中国农业科学,2000,33(6):4~43.
[11] Greene DM, Lord WJ. Evaluation of scoring, limb spreading and growth regulators for increasing flower bud initiation and seton young 'delicious' apple trees[J]. J. Amer. Sor. Hort. sci. 1978, 103: 208.
[12] Luckwill LC. Control of growth and fruitfulness of apple trees. Pp 237-254 in LC. Luckwill and CV Cutting(eds.)[J]. Physiology of Tree Crops, Aoademic,London, 1970.
[13] Luckwill LC. A new look at the process of fruit bud formation in apple[J]. Proc. Xix. Int. Hort Congr, 1974, 3: 327.
[14] Irene Garcia-Pallas, J. Val, A. Blanco. The inhibition of flower bud differentiation in 'Crimson Gold' nectarine with GA_3 as an alternative to hand thinning[J]. Scientia Horticulturae 90(2001)265~278.
[15] 周碧燕等.低温胁迫和喷施A B A对荔枝内源激素和成花的影响[J].园艺学报,2002,29(6):577~578.
[16] 曹尚银,张俊昌,魏立华.苹果梨花芽孕育过程中内源激素的变化[J].果树科学,2000,17(4):244~248.
[17] 李沛文,季作梁,梁立峰等.荔枝大小年营养及花芽分化与细胞分裂素的关系[J].华南农业大学学报,1985,6(3):145~151
[18] Hoad GV. Hormonal regulation of fruit-bud formation in fruit tree. Act Horticulture, 1980, 149: 13~23.
[19] 张育森,郑正勇.植物生长调节剂对百香果生长及其花芽形成之影响[J].中国园艺(台湾省),1995,41(4):251~260.
[20] Grochowaka M J, Karaszewska A, Jankowska Bet al. The pattern of hormones
of intact apple shoots and its changes after spraying with growth regulators[J].Acta. Hort, 1984, 149: 25~38.
[21] 周学明,马焕普,王凤珍等.苹果受精着果机理研究初报[J].核农学报,1995,9(2):70~76.
[22] 黄羌维.龙眼内源激素变化和花芽及大小年结果的关系[J].热带亚热带植物学报,1996,4(2):58~62.
[23] 苏明华,刘志成,庄伊美.水涨龙眼结果母枝内源激素含量变化对花芽分化的影响[J].热带作物学报,1997,18(2):66~70.
[24] Yue D, Imanishi H. 1990. Influence of storage temperature and its duration before or after ethylene exposure on the formation of flower buds in Dutch iris cultivar 'Blue Magic'[J]. Scientia Hort. 43: 331~337.
[25] Jackson DI, Sweet GB. Flower initiation in temperate woody plant[J]. Hort.Abst. 1972, 421: 9~24.
[26] 黄业球,何文登等.龙眼花期调控技术探索[J].广西农业科学,2002,(1):14
[27] 华敏,苗平生.国内外反季节龙眼催花结果研究进展[J].世界热带农业信息,2002(1).
[28] 蒋雪林等.龙眼药物催花试验初报[J].广西热带农业,2002,1:6.
[29] 许桂春,罗远林.化学诱导龙眼四季开花结果试验处初报[J],广西农业科学,6:285~286.
[30] Subhadrabandhu S, Yapwattanap hun C . Regulation of flowering time for off-season production of longan Thailand[J]. Acta Horticulturae.
[31] 唐德强.氯酸钾对不同生长状态下的龙眼促花效果的比较研究[J].中国果菜 2004,2:1.
[32] 陈林强.龙眼应用氯酸钾控梢促花试验[J].广西林业科学,2003,32:4.
[33] 钟思强,梁华山等.氯酸钾在龙眼正造催花上的应用研究[J].中国方果树,2004,33:1.
[34] 南京农业大学主编.土壤农化分析(土壤农化专业用)[M].北京:科学出版社,1982.
[35] 林炎坤.常用的几种蒽酮比色定糖法的比较与改进[J].植物生理学通讯,1989,(4):53~55.
[36] 丁静等.植物内源激素的提取分离和生物鉴定[J].植物生理学通讯,1979,2:27~39
[37] [英]J.R希尔曼.编.王文宏等译.植物生长物质分离法[M].北京,科学出版社,1983,1~12,115~136.
[38] 袁朝兴等.PVP、C18-柱和Sephadex Lh-20在激素纯化中的应用[J].植物生理学通讯,1988,6:55~58.
[39] 吴耕西,毕桂红.高效液相色谱法测定苹果叶片中的吲哚乙酸和脱落酸[J].山东农业大学学报,1994,25(1):51~55.
[40] 钱利生等.茶树新梢内源激素的HPLC分析及日变化[J].茶叶科学,1996,16(2):135~139.
[41] 方能虎等.植物激素的反相高效液相色谱法分离和测定[J].色谱,1998,16(5):417~420.
[42] 杜黎明,许庆琴.气相色谱法分离和测定3种植物内源激素[J].色谱,2000,18(1):67~69.
[43] 杨彤,丁兴萃.植物组织中赤霉素高效液相色谱测定法的可靠性探讨[J].竹子研究汇刊,1999,18(4).
[44] 吴耕西等.高效液相色谱法分析苹果新根中的细胞分裂素[J].山东农业大学学报,1996,27(3).
[45] 王若仲等.亚种间杂交稻内源激素的高效液相色谱测定法[J].色谱,2002,20(3).
[46] 向旭,张展蔚,邱燕平.适合荔枝样品几种内源激素的分析方法[J].果树科学,1993,10(2):119~121.
[47] 王世平,阮小凤.四种植物激素的分离和纯化[J].植物生理学通讯,1987(5):48~51.
[48] 卢美英,周歧伟,朱建华等.氯酸钾对龙眼花芽分化期若干生理指标影响的研究[J].中国农学通报,2004,4.
[49] Sritontip, C. Khaosumain, Y., Changjaraja, S. and Poruksa, R., Effect of Potassium chlorate(Kclo3), Potassium Nitrate(KNO3), Sodium Hypochlorite(NaOCl) and Thiourea on off-season flowering and photosynthesis of longan[M]. Second International Symposium On Lychee,Longan, Rambutan and other sapindaceae plants, 2003: 98.
[50] Wangsin, N, Pankasemsuk, T. Effect of Potassium chlorate on flowering, total nitrogen, total nonstructural carbohydrate, C/N ratio cytokinin-like and gibbellin-like substances in stem apex of longan cv. DAW[M]. Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants, 2003: 33.
[51] Salama, A. M. S. El-D; Wareing, P. F., 1979,J.Exp.Bot.30,971-981.
[52] 杨肖娥,孙羲,1991,作物学报 17:283-91.
[53] Goring, H.; Mardanov, A. A., 1976, Bioch. Physiol. Pfl, 170, 261-64.
[54] Jako, N., 1974, Hort. Abstr. 44, 9470.
[55] Buban, T. et al., 1978, Z Pflanzenphysiol. 89, 289-295.
[56] Darrall, N. M.; Wareing, P. E., 1981, J. Exp. Bot. 32, 369.
[57] 陈有志,庞新华.龙眼叶片矿质营养研究[J].中国南方果树,2002,31,37-39.
[58] 李莲英,施用氯酸钾对龙眼成花影响初探[J].广西农学报,2002,4,23-25.
[59] 洪家胜,刘素青,关雄泰.储良广眼成花与其叶片营养元素含量的关系[J].广东微量元素科学,1998,5(12):48~52.
[60] 唐文忠.“龙眼反季节促花灵”对龙眼反季节开花调节的生理效应.广西大学硕士学位论文,2002,5:20~23.
[61] 郭金丽,张玉兰.苹果梨花芽分化其蛋白质、淀粉代谢的研究[J].内蒙古农牧学院学报,1999,20(2):80~82.
[62] 孟繁静.植物花发育的分子生物学[M].中国农业出版社,2000,9:88.
[63] Pryke J A, Hackett W P. 1978.Acid invertase activity in the apex of Sinapis alba during transition to flowering[M]. Ann. Bot. 42: 747~749.
[64] Day J S, Loveys B R, Aspinall D. 1995. Cytokinin and carbolydrate changes
during flowering of Boronia Megstigma[J]. Aust J. Plant Physiol. 22: 57~65.
[65] Bernier G. 1988. The control of floral evcation, morphogenesis[J]. Ann. Rev. Plant Physiol and Plant Mol. Biol. 39: 175~119.
[66] Pharis R.P, Kuo C G. Physiology of gibberellins in conifers[J]. Can J For Res, 1977, 7(2): 299~325.
[67] 王沙生.促进油松球花形成的措施和机理的研究[M].见:沈熙环主编.种子圆技术.北京:北京科学技术出版社,1992.152~168.
[68] 雷新涛,夏仁学,李国怀.GA_3、CEPA对板栗内源碳水化合物及蛋白质含量的影响[J].果树学报 2001.18(3):152~154.
[69] Sritomip, C. Khaosumain, Y., Changjaraja, S. and Poruksa, R., Effects of potassium chlorate(kclo3), sodium hyochlorite(Naocl)and calcium hypochlorite(ca(clo)2) on flowering and some physiological changes in longan[M]. Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants, 2003: 35.
[70] 张发宝,陈建生,陈秀道.钾对龙眼产量和品质的影响[J].热带亚热带土壤科学.1997,6(4):247~250.
[71] 欧良喜,李志强,邱燕萍等.氯酸根离子在龙眼园土壤中的变化分析初报[J].中国南方果树,2003,32(4):33~34.
[72] 颜昌瑞,赵政男,张哲玮.化学药剂对龙眼催花之影响[J].中国园艺,2001,47(2):195~200.
[73] 李建光,潘学文,李荣等.氯酸钾对龙眼催花技术的研究进展[J].果树学报,2003,20(5):410~414.
[74] 吕庆芳,唐德强,洪家胜,等.“花必来”龙眼促花技术[J],中国南方果树,2002,31(3):28~30.
[75] 朱建华,彭洪祥.龙眼药物催花技术探讨[J].广西热带农业,2002,3(84):12~15.
[76] 曾广友.龙眼促花灵试验初探[J].广东园艺,2001,2(3):46
[77] 温永盟.龙眼产期调控技术探讨[J].广东园艺,2001,2(1):36~37
[78] 柯冠武.台湾龙眼催花技术引进示范的实践及启示[J].广东园艺,2001,2(1):37~38
[79] 张爱加,方金强,吴德宜,等.龙眼催花技术要点[J].柑桔与亚热带树果信息,2001,17(6):29~30
[80] Kanaree, W. and Pankasemsuk, T., Effect of potassium chlorate on longan cv. DAW fruit quality[M]. econd International Symposium On Lychee, Longan,Rambutan and other sapindaceae plants, 2003: 91.
[81] 黄凤信,钟天权,李少鸿.龙眼反季节栽培技术浅谈[J].广东园艺,2001,2(2):37~39.
[82] 卢文川,洪振德,尤传德,等.龙眼花期调控技术试验初探[J].福建果树,2001,3:5~7.
[83] Ongprasert, S., Sutkoolabud, P. and Aumtong, S. The impact of application of
chlorates in longan plantations on the environment and the remedy [M].Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants,2003:31.
[84] Kanaree, W. and Pankasemsuk, T. , Effect of potassium chlorate on its residuals in longan fruit cv. DAW[M].Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants,2003:32.
[85] Bernier G., Havelange A, Houssa C et al . 1993. Physiological signals that induce flowering[M]. Plant Cell. 5:1147~1155.
[2] 戴良昭.荔枝、龙眼施肥新技术[M].中国农业出版,1999,1.
[3] 陈开明,何光泽,潘仰星.龙眼叶片营养与开花结果关系的研究[J].福建果树,1985,(3):1~5.
[4] 何明忠,藏良昭.龙眼(福眼)结果母枝的矿质营养状况[J].福建果树,1999,109(3):5~7.
[5] Buban T, Faust M. Flower bud induction in apple trees, Internal control and differentiation[J]. Hort Rev, 1982, 4: 174.
[6] Faust M. Physiology of Temperate Zone Fruit Trees[J]. New York: John Wiley and Sons, 1989.
[7] 乔进春,朱梅玲,刘会元.环剥对红富士成花的影响[J].河北林业科技,1996,6(2):45.
[8] 吴定尧.,周贤军,黄辉白等.不同环剥形式对荔枝成花、果实品质及产量的影响[J].广东农业科学,1996,2,17~19.
[9] 周瑞通.螺旋环剥促进龙眼成花试验[J].广西园艺,2003,47(2):10~11.
[10] 吴定尧,邱金淡,等.环剥促进龙眼成花的研究[J].中国农业科学,2000,33(6):4~43.
[11] Greene DM, Lord WJ. Evaluation of scoring, limb spreading and growth regulators for increasing flower bud initiation and seton young 'delicious' apple trees[J]. J. Amer. Sor. Hort. sci. 1978, 103: 208.
[12] Luckwill LC. Control of growth and fruitfulness of apple trees. Pp 237-254 in LC. Luckwill and CV Cutting(eds.)[J]. Physiology of Tree Crops, Aoademic,London, 1970.
[13] Luckwill LC. A new look at the process of fruit bud formation in apple[J]. Proc. Xix. Int. Hort Congr, 1974, 3: 327.
[14] Irene Garcia-Pallas, J. Val, A. Blanco. The inhibition of flower bud differentiation in 'Crimson Gold' nectarine with GA_3 as an alternative to hand thinning[J]. Scientia Horticulturae 90(2001)265~278.
[15] 周碧燕等.低温胁迫和喷施A B A对荔枝内源激素和成花的影响[J].园艺学报,2002,29(6):577~578.
[16] 曹尚银,张俊昌,魏立华.苹果梨花芽孕育过程中内源激素的变化[J].果树科学,2000,17(4):244~248.
[17] 李沛文,季作梁,梁立峰等.荔枝大小年营养及花芽分化与细胞分裂素的关系[J].华南农业大学学报,1985,6(3):145~151
[18] Hoad GV. Hormonal regulation of fruit-bud formation in fruit tree. Act Horticulture, 1980, 149: 13~23.
[19] 张育森,郑正勇.植物生长调节剂对百香果生长及其花芽形成之影响[J].中国园艺(台湾省),1995,41(4):251~260.
[20] Grochowaka M J, Karaszewska A, Jankowska Bet al. The pattern of hormones
of intact apple shoots and its changes after spraying with growth regulators[J].Acta. Hort, 1984, 149: 25~38.
[21] 周学明,马焕普,王凤珍等.苹果受精着果机理研究初报[J].核农学报,1995,9(2):70~76.
[22] 黄羌维.龙眼内源激素变化和花芽及大小年结果的关系[J].热带亚热带植物学报,1996,4(2):58~62.
[23] 苏明华,刘志成,庄伊美.水涨龙眼结果母枝内源激素含量变化对花芽分化的影响[J].热带作物学报,1997,18(2):66~70.
[24] Yue D, Imanishi H. 1990. Influence of storage temperature and its duration before or after ethylene exposure on the formation of flower buds in Dutch iris cultivar 'Blue Magic'[J]. Scientia Hort. 43: 331~337.
[25] Jackson DI, Sweet GB. Flower initiation in temperate woody plant[J]. Hort.Abst. 1972, 421: 9~24.
[26] 黄业球,何文登等.龙眼花期调控技术探索[J].广西农业科学,2002,(1):14
[27] 华敏,苗平生.国内外反季节龙眼催花结果研究进展[J].世界热带农业信息,2002(1).
[28] 蒋雪林等.龙眼药物催花试验初报[J].广西热带农业,2002,1:6.
[29] 许桂春,罗远林.化学诱导龙眼四季开花结果试验处初报[J],广西农业科学,6:285~286.
[30] Subhadrabandhu S, Yapwattanap hun C . Regulation of flowering time for off-season production of longan Thailand[J]. Acta Horticulturae.
[31] 唐德强.氯酸钾对不同生长状态下的龙眼促花效果的比较研究[J].中国果菜 2004,2:1.
[32] 陈林强.龙眼应用氯酸钾控梢促花试验[J].广西林业科学,2003,32:4.
[33] 钟思强,梁华山等.氯酸钾在龙眼正造催花上的应用研究[J].中国方果树,2004,33:1.
[34] 南京农业大学主编.土壤农化分析(土壤农化专业用)[M].北京:科学出版社,1982.
[35] 林炎坤.常用的几种蒽酮比色定糖法的比较与改进[J].植物生理学通讯,1989,(4):53~55.
[36] 丁静等.植物内源激素的提取分离和生物鉴定[J].植物生理学通讯,1979,2:27~39
[37] [英]J.R希尔曼.编.王文宏等译.植物生长物质分离法[M].北京,科学出版社,1983,1~12,115~136.
[38] 袁朝兴等.PVP、C18-柱和Sephadex Lh-20在激素纯化中的应用[J].植物生理学通讯,1988,6:55~58.
[39] 吴耕西,毕桂红.高效液相色谱法测定苹果叶片中的吲哚乙酸和脱落酸[J].山东农业大学学报,1994,25(1):51~55.
[40] 钱利生等.茶树新梢内源激素的HPLC分析及日变化[J].茶叶科学,1996,16(2):135~139.
[41] 方能虎等.植物激素的反相高效液相色谱法分离和测定[J].色谱,1998,16(5):417~420.
[42] 杜黎明,许庆琴.气相色谱法分离和测定3种植物内源激素[J].色谱,2000,18(1):67~69.
[43] 杨彤,丁兴萃.植物组织中赤霉素高效液相色谱测定法的可靠性探讨[J].竹子研究汇刊,1999,18(4).
[44] 吴耕西等.高效液相色谱法分析苹果新根中的细胞分裂素[J].山东农业大学学报,1996,27(3).
[45] 王若仲等.亚种间杂交稻内源激素的高效液相色谱测定法[J].色谱,2002,20(3).
[46] 向旭,张展蔚,邱燕平.适合荔枝样品几种内源激素的分析方法[J].果树科学,1993,10(2):119~121.
[47] 王世平,阮小凤.四种植物激素的分离和纯化[J].植物生理学通讯,1987(5):48~51.
[48] 卢美英,周歧伟,朱建华等.氯酸钾对龙眼花芽分化期若干生理指标影响的研究[J].中国农学通报,2004,4.
[49] Sritontip, C. Khaosumain, Y., Changjaraja, S. and Poruksa, R., Effect of Potassium chlorate(Kclo3), Potassium Nitrate(KNO3), Sodium Hypochlorite(NaOCl) and Thiourea on off-season flowering and photosynthesis of longan[M]. Second International Symposium On Lychee,Longan, Rambutan and other sapindaceae plants, 2003: 98.
[50] Wangsin, N, Pankasemsuk, T. Effect of Potassium chlorate on flowering, total nitrogen, total nonstructural carbohydrate, C/N ratio cytokinin-like and gibbellin-like substances in stem apex of longan cv. DAW[M]. Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants, 2003: 33.
[51] Salama, A. M. S. El-D; Wareing, P. F., 1979,J.Exp.Bot.30,971-981.
[52] 杨肖娥,孙羲,1991,作物学报 17:283-91.
[53] Goring, H.; Mardanov, A. A., 1976, Bioch. Physiol. Pfl, 170, 261-64.
[54] Jako, N., 1974, Hort. Abstr. 44, 9470.
[55] Buban, T. et al., 1978, Z Pflanzenphysiol. 89, 289-295.
[56] Darrall, N. M.; Wareing, P. E., 1981, J. Exp. Bot. 32, 369.
[57] 陈有志,庞新华.龙眼叶片矿质营养研究[J].中国南方果树,2002,31,37-39.
[58] 李莲英,施用氯酸钾对龙眼成花影响初探[J].广西农学报,2002,4,23-25.
[59] 洪家胜,刘素青,关雄泰.储良广眼成花与其叶片营养元素含量的关系[J].广东微量元素科学,1998,5(12):48~52.
[60] 唐文忠.“龙眼反季节促花灵”对龙眼反季节开花调节的生理效应.广西大学硕士学位论文,2002,5:20~23.
[61] 郭金丽,张玉兰.苹果梨花芽分化其蛋白质、淀粉代谢的研究[J].内蒙古农牧学院学报,1999,20(2):80~82.
[62] 孟繁静.植物花发育的分子生物学[M].中国农业出版社,2000,9:88.
[63] Pryke J A, Hackett W P. 1978.Acid invertase activity in the apex of Sinapis alba during transition to flowering[M]. Ann. Bot. 42: 747~749.
[64] Day J S, Loveys B R, Aspinall D. 1995. Cytokinin and carbolydrate changes
during flowering of Boronia Megstigma[J]. Aust J. Plant Physiol. 22: 57~65.
[65] Bernier G. 1988. The control of floral evcation, morphogenesis[J]. Ann. Rev. Plant Physiol and Plant Mol. Biol. 39: 175~119.
[66] Pharis R.P, Kuo C G. Physiology of gibberellins in conifers[J]. Can J For Res, 1977, 7(2): 299~325.
[67] 王沙生.促进油松球花形成的措施和机理的研究[M].见:沈熙环主编.种子圆技术.北京:北京科学技术出版社,1992.152~168.
[68] 雷新涛,夏仁学,李国怀.GA_3、CEPA对板栗内源碳水化合物及蛋白质含量的影响[J].果树学报 2001.18(3):152~154.
[69] Sritomip, C. Khaosumain, Y., Changjaraja, S. and Poruksa, R., Effects of potassium chlorate(kclo3), sodium hyochlorite(Naocl)and calcium hypochlorite(ca(clo)2) on flowering and some physiological changes in longan[M]. Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants, 2003: 35.
[70] 张发宝,陈建生,陈秀道.钾对龙眼产量和品质的影响[J].热带亚热带土壤科学.1997,6(4):247~250.
[71] 欧良喜,李志强,邱燕萍等.氯酸根离子在龙眼园土壤中的变化分析初报[J].中国南方果树,2003,32(4):33~34.
[72] 颜昌瑞,赵政男,张哲玮.化学药剂对龙眼催花之影响[J].中国园艺,2001,47(2):195~200.
[73] 李建光,潘学文,李荣等.氯酸钾对龙眼催花技术的研究进展[J].果树学报,2003,20(5):410~414.
[74] 吕庆芳,唐德强,洪家胜,等.“花必来”龙眼促花技术[J],中国南方果树,2002,31(3):28~30.
[75] 朱建华,彭洪祥.龙眼药物催花技术探讨[J].广西热带农业,2002,3(84):12~15.
[76] 曾广友.龙眼促花灵试验初探[J].广东园艺,2001,2(3):46
[77] 温永盟.龙眼产期调控技术探讨[J].广东园艺,2001,2(1):36~37
[78] 柯冠武.台湾龙眼催花技术引进示范的实践及启示[J].广东园艺,2001,2(1):37~38
[79] 张爱加,方金强,吴德宜,等.龙眼催花技术要点[J].柑桔与亚热带树果信息,2001,17(6):29~30
[80] Kanaree, W. and Pankasemsuk, T., Effect of potassium chlorate on longan cv. DAW fruit quality[M]. econd International Symposium On Lychee, Longan,Rambutan and other sapindaceae plants, 2003: 91.
[81] 黄凤信,钟天权,李少鸿.龙眼反季节栽培技术浅谈[J].广东园艺,2001,2(2):37~39.
[82] 卢文川,洪振德,尤传德,等.龙眼花期调控技术试验初探[J].福建果树,2001,3:5~7.
[83] Ongprasert, S., Sutkoolabud, P. and Aumtong, S. The impact of application of
chlorates in longan plantations on the environment and the remedy [M].Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants,2003:31.
[84] Kanaree, W. and Pankasemsuk, T. , Effect of potassium chlorate on its residuals in longan fruit cv. DAW[M].Second International Symposium On Lychee, Longan, Rambutan and other sapindaceae plants,2003:32.
[85] Bernier G., Havelange A, Houssa C et al . 1993. Physiological signals that induce flowering[M]. Plant Cell. 5:1147~1155.