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菠萝开花诱导及其生理与分子基础 被引量:21

Induction of Pineapple Flowering and Underlying Physiological and Molecular Bases
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摘要 菠萝开花分为自然开花和诱导开花两大类。由于菠萝自然开花的时间和开花率受环境因素影响较大,具有较大的不确定性,在实践中常常通过施用乙烯利或CaC2诱导菠萝开花达到调节菠萝上市时间的目的。通过合理安排种植时间与使用开花诱导技术,目前已经实现反季节生产和周年生产菠萝的目标。笔者对近年来菠萝自然开花、诱导开花及其生理、分子基础方面的研究进展进行了综述,并展望了该领域今后的研究方向。 Pineapple flowering includes "natural flowering" and "induction flowering". In nature, the flowering rate is much influenced by environmental factors with great uncertainty. In practice, the induction of flowering by application of ethylene or CaC2 is widely used in commercial production of pineapple to regulate the time of pineapple to market. And now, annual commercial production of pineapple has been achieved by combining with reasonable arrangement of planting time and use of flowering induction technology. The research progress of pineapple blossom was reviewed in this paper, including natural flowering, induction flowering and their physiological and molecular bases, and the prospects for future research.
作者 张治礼 范鸿雁 华敏 何凡
机构地区 海南省农业科学院热带果树研究所 农业部海口热带果树科学观测试验站
出处 《热带作物学报》 CSCD 北大核心 2012年第5期950-955,共6页 Chinese Journal of Tropical Crops
基金 海南省工程技术研究中心专项项目(琼科函[2010]418号) 海南省科学事业费项目(琼财预[2010]139号)
关键词 菠萝 自然开花 诱导开花 研究进展 Pineapple Natural flowering Induction flowering Research progress
分类号 S668.3 [农业科学—果树学]
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参考文献43

  • 1Das S C, Prakash J, Suresh C P, et ol. Pineapple cultivation in hilly Tripura with year around production: improving livelihood opportunities in rural areas of Tripura [J]. Acta Horticulturae, 2011, 902: 291-298.
  • 2Maruthasalam S, Shiu L Y, Loganathan M, et al. Forced flowering of pineapple(Ananas comosus cv. Tainon 17)in response to cold stress, ethephon and calcium carbide with or without activated charcoal[J]. Plant Growth Regulation, 2010, 60(2): 83-90.
  • 3Min X J, Bartholomew D P. Temperature affects ethylene metabolism and fruit initiation and size of pineapple[J]. Acta Horticuhurae, 1997, 425: 329-338. 1987(3): 16-17.
  • 4林朝宗.人工控制菠萝开花结果技术初探[J].福建热作科技,1987(3):16-17.
  • 5黄隆军.提高菠萝催花抽薹率研究[J].中国南方果树,2004,33(4):41-42. 被引量:10
  • 6Turnbull C G N, Sinclair E R, Anderson K L, et ol. Routes of ethephon uptake in pineapple(Ananas comosus)and reasons for failure of flower induction[J]. Journal of plant growth regulation, 1999, 18(4): 145-152.
  • 7Chang C C. Fruit characteristic of 'Tainung No.4' pineapple influenced by flower inducing chemicals[J]. Journal of the Chinese Society for Horticultural Science, 1999, 45(3): 217-222.
  • 8华敏,王祥和,张治礼,何凡,范鸿雁.台农16号等优质菠萝品种在海南引种比较试验[J].中国南方果树,2011,40(1):44-46. 被引量:30
  • 9Lebeau F, Imele J P, Teisson C, et al. Efficiency of the Ananas comosus(L.)Merr, flower induction treatment based on ethylene enriched activated carbon(TIFBio)[J]. Biotechnologie,Agronomie, Societe et Environnement, 2009, 13(3): 395-400.
  • 10Lin C H, Maruthasalam S, Shiu L Y, et ol. Physical and chemical manipulation of flowering in pineapple. Acta Horticuhurae, 2009, 822: 117-123.

二级参考文献103

  • 1刘岩,钟云,孟祥春,徐舜全,刘佩珍.菠萝新品种‘粤脆’[J].园艺学报,2006,33(1):214-214. 被引量:6
  • 2曾群,赵仲华,赵淑清.植物开花时间调控的信号途径[J].遗传,2006,28(8):1031-1036. 被引量:37
  • 3侯学瑛 梁立峰 等.荔枝花芽分化期内源脱落酸的变化动态[J].园艺学报,1987,14(1):13-16.
  • 4Alexandrov N N, Brover V V, Freidin S, Troukhan M E, Tatarinova T V, Zhang H, Swaller T J, Lu Y P, Bouck J, Flavell R B, Feldmann K A. 2009. Insights into corn genes derived from large-scale cDNA sequencing. Plant Molecular Biology, 69:179 - 194.
  • 5Avallone S, Guiraud J P, Brillouet J M, Teisson C. 2003. Enzymatic browning and biochemical alterations in black spots of pineapple [ Ananas co mosus (L.) Merr]. Current Microbiology, 47 (2): 113 -118.
  • 6Barinaga M. 1999. A new finger on the protein destruction button. Science, 286 (5438) : 309 -312.
  • 7Borden K L, Freemont P S. 1996. The RING finger domain: A recent example of a sequence-structure family. Current Opinion Structure Biology, 6:395-401.
  • 8Gerisman H A, Pabo C. 1997. A general strategy for selecting high-affinity zinc finger portein for diverse DNA target sites. Science, 275:657 - 661.
  • 9Huang F, Chi Y, Meng Q, Gai J, Yu D. 2006. GmZFPI encoding a single zinc finger protein is expressed with enhancement in reproductive organs and late seed development in soybean (Glycine max). Molecular Biology Reports, 33 (4) : 279 -285.
  • 10Kim S, Choi K, Park C, Hwang H J, Lee I. 2006. SUPPRESSOR OF FRIGIDA4, encoding a C2H2-Type zinc finger protein, represses flowering by transcriptional activation of Arabidopsis FLOWERING LOCUS C. Plant Cell, 18 (11 ) : 2985 -2998.

共引文献124

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热带作物学报
2012年 第5期

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