[1]吴婷,葛红,杨树华,等.秋水仙素诱导象鼻兰种子产生多倍体[J].北方园艺,2022,(02):71-78.[doi:10.11937/bfyy.20213229]
　WU Ting,GE Hong,YANG Shuhua,et al.Colchicine Induces Polyploidy in the Seeds of Phalaenopsis zhejiangensis[J].Northern Horticulture,2022,(02):71-78.[doi:10.11937/bfyy.20213229]

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秋水仙素诱导象鼻兰种子产生多倍体

《北方园艺》[ISSN:1001-0009/CN:23-1247/S] 卷: 期数: 2022年02 页码: 71-78 栏目: 出版日期: 2022-01-30

Title:: Colchicine Induces Polyploidy in the Seeds of Phalaenopsis zhejiangensis

作者:: 吴婷; 葛红; 杨树华; 赵鑫; 寇亚萍; 贾瑞冬; （中国农业科学院蔬菜花卉研究所，国家花卉改良中心，北京 100081）

Author(s):: WU Ting; GE Hong; YANG Shuhua; ZHAO Xin; KOU Yaping; JIA Ruidong; (Institute of Vegetables and Flowers，Chinese Academy of Agricultural Sciences/National Flowers Improvement Center of China，Beijing 100081)

关键词:: 象鼻兰; 种子; 秋水仙素; 多倍体

Keywords:: Phalaenopsis zhejiangensis; seeds; colchicine; polyploid

DOI:: 10.11937/bfyy.20213229

文献标志码:: A

摘要:: 以象鼻兰种子为试验材料，采用浸泡法，研究了秋水仙素处理对蝴蝶兰种子染色体加倍的影响，以期获得诱导多倍体的适宜条件。结果表明：秋水仙素浸泡法诱导种子染色体加倍时，种子在液体培养基中培养5 d，再采用0.20%秋水仙素处理1 d的处理效果最好，萌发率达到6.41%，高于1.96%的自然萌发率，四倍体、嵌合体诱导率分别达到了27.75%、34.84%；四倍体植株与二倍体植株相比，形态与气孔特征均发生了明显变化，形态特征表现为，植株粗壮、根系发达且粗壮、植株生长较快等；气孔特征表现为单位面积气孔数减少，气孔增大，长宽分别增长25.19%和26.19%。该研究得到了秋水仙素浸泡象鼻兰种子诱导染色体加倍的适宜条件且提高了象鼻兰种子的萌发率，获得了四倍体植株和嵌合体植株，为把象鼻兰优异基因高效导入栽培品种奠定了基础，为蝴蝶兰体细胞无性系变异新品种的培育提供了参考依据。

Abstract:: Phalaenopsis zhejiangensis seeds were used as materials to explore the effect of colchicine treatment on the chromosome doubling,and was studied by immersion method to explore the suitable conditions for obtaining polyploidy,in order to obtain suitable conditions for inducing polyploidy.The results showed that the survival rate reached 6.41%,and tetraploid,and chimera rates induction were 27.75% and 34.84%,respectively,when the seeds were cultured in liquid medium for 5 days,and then 0.20% colchicine treatment for 1 day.Compared with diploid plants,the morphological and stomatal characteristics of tetraploid plants changed significantly.The plant was stronger,the root system was developed and robust,and the plant grew faster.The number of stomata per unit area decreased,but the length and width of stomata increased by 25.19% and 26.19%,respectively.In this study,suitable conditions for colchicine to induce chromosome doubling were obtained by soaking Phalaenopsis zhejiangensis seeds.Tetraploid plants and chimera plants were obtained,which laid the foundation for the efficient introduction of excellent genes from Phalaenopsis zhejiangensis into cultivated varieties.

参考文献/References:

[1]古月,张建基.皖南惊艳:极小种群珍稀兰科植物—象鼻兰[J].绿色视野,2016(12):43-46.[2]SHINDO K,KAMEMOTO H.Karyotype analysis of some species of Phalaenopsis[J].Cytologia,2009,28(4):390-398.[3]KAO Y Y,CHANG S B,LIN T Y,et al.Differential accumulation of heterochromatin as a cause for karyotype variation in Phalaenopsis orchids[J].Annals of Botany,2001,87(3):387-395.[4]张迪,朱根发,叶庆生,等.50份蝴蝶兰种质的染色体数目与倍性分析[J].热带作物学报,2013,34(10):1871-1876.[5]陈和明,关龙辉,朱根发,等.蝴蝶兰19个品种染色体数目分析[J].亚热带植物科学,2013,42(3):223-226.[6]庄东红,曲莹,许大熊,等.蝴蝶兰若干品种(系)的染色体数和形态分析[J].园艺学报,2007(5):1257-1262.[7]CHEN W H,KAO Y L,TANG C Y,et al.Endopolyploidy in Phalaenopsis orchids and its application in polyploid breeding[M].Orchid Biotechnology Ⅱ.Singapore:World Scientific,2015.[8]CHEN W H,TANG C Y.A protocol for the induction of polyploids in Phalaenopsis orchids by in vitro method without using anti-microtubule agents[M].New York:Humana Press.Orchid Propagation:From Laboratories to Greenhouses-methods and Protocols,2018.[9]NAKASONE H Y.Artificial induction of polyploidy in orchids by the use of colchicine[D].Hawaii:University of Hawaii,1960.[10]张静静.铁皮石斛多倍体的诱导及其鉴定[D].杭州:浙江农林大学,2013.[11]王爱华.秋水仙素诱导黑喉石斛多倍体研究[J].西南大学学报(自然科学版),2017,39(1):55-60.[12]张青华,李枝林,唐敏,等.秋水仙碱诱导铁皮石斛多倍体研究初报[J].云南农业大学学报(自然科学版),2011,26(5):678-682.[13]GRIESBACH R J.Colchicine-induced polyploidy in phalaenopsis orchids[J].Plant Cell Tissue and Organ Culture,1981,1(1):103-107.[14]GRIESBACH R J.Polypioidy in Phalaenopsis orchid improvement[J].Journal of Heredity,1985,76(1):74-75.[15]PUTRI A A,SUKMA D,AZIZ S A,et al.Komposisi media pertumbuhan protokorm sebelum perlakuan kolkisin untuk meningkatkan poliploidi pada Phalaenopsis amabilis (L.) Blume[J].Jurnal Agronomi Indonesia,2019,46(3):306-313.[16]HUY N P,TAM D T T,LUAN V Q,et al.In vitro polyploid induction of Paphiopedilum villosum using colchicine[J].Scientia Horticulturae,2019,252:283-290.[17]杨丽娟.大花蕙兰离体快繁关键技术及多倍体诱变研究[D].成都:四川农业大学,2009.[18]刘译阳.蝴蝶兰远缘杂交不亲和性及异源多倍体的创建[D].广州:华南农业大学,2012.[19]CHOO S.Effect of colchicine on survival rate and ploidy level of hydrid between Dendrobium santana×D.friedericksianum orchid[J].International Journal of Agricultural Technology,2019,15(2):249-260.[20]程强强.蝴蝶兰栽培品种叶片培养及八倍体诱导的研究[D].汕头:汕头大学,2011.[21]刘亮.蝴蝶兰离体培养再生体系的建立与多倍体诱导的研究[D].长沙:湖南农业大学,2008.[22]崔广荣,张子学,胡能兵,等.蝴蝶兰类原球茎液体培养中用秋水仙素诱导多倍体[J].浙江大学学报(农业与生命科学版),2010,36(1):49-55.[23]崔广荣,张子学,张从宇,等.秋水仙素对蝴蝶兰试管苗叶切片胚状体发生期的化学诱变[J].中国农业科学,2009,42(9):3368-3373.[24]ZAKER F,KOLAHI H.Induction of in vitro polyploidy in ornamental flowers of orchid species (Phalaenopsis amabilis)[J].Iranian Journal of Rangelands and Forests Plant Breeding and Genetic Research,2017,25(2):269-270.[25]MIGUEL T P,LEONHARDT K W.In vitro polyploid induction of orchids using oryzalin[J].Scientia Horticulturae,2011,130:314-319.[26]CHUNG M Y,KIM C Y,MIN J S,et al.In vitro induction of tetraploids in an interspecific hybrid of Calanthe (Calanthe discolor×Calanthe sieboldii) through colchicine and oryzalin treatments[J].Plant Biotechnology Reports,2014（8）:251-257.[27]de MEDEIROS VICHIATO M R,VICHIATO M,PASQUAL M,et al.Tetraploidy induction and identification in Dendrobium mobile Lindl (Orchidaceae)[J].Revista Ciencia Agronomica,2007,38(4):385-390.[28]PETCHANG R.The effects of colchicine concentration and treatment duration on growth and chromosome number in Dendrobium draconis Rchb.f[J].Journal of Science and Technology Mahasarakham University,2010,29(4):413-419.[29]CHEN W H,TANG C Y,YU L K.Ploidy doubling by in vitro culture of excised protocorms or protocorm-like bodies in Phalaenopsis species[J].Plant Cell Tissue and Organ Culture,2009,98:229-238.[30]GROSSO V,FARINA A,GIORGI D,et al.A high-throughput flow cytometry system for early screening of in vitro made polyploids in Dendrobium hybrids[J].Plant Cell Tissue and Organ Culture,2018,132:57-70.[31]叶绍明.兰花属间杂种后代快繁及多倍体资源的创建[D].广州:华南农业大学,2008[32]陈显双,韦丽君,田益农,等.木薯多倍体植株的诱导研究[J].热带农业科学,2008,28(1):17-20.[33]ROY A,LEGGETT G,KOUTOULIS A.In vitro tetraploid induction and generation of tetraploids from mixoploids in hop (Humulus lupulus L.)[J].Plant Cell Reports,2001,20(6):489-495.[34]党江波,宋琴,李彩,等.园艺植物中三倍体的应用现状及育种前景分析[J].园艺学报,2018,45(9):184-201.[35]BALAL R M,SHAHID M A,VINCENT C,et al.Kinnow mandarin plants grafted on tetraploid rootstocks are more tolerant to crtoxicity than those grafted on its diploids one[J].Environmental and Experimental Botany,2017,140:8-18.

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备注/Memo

第一作者简介：吴婷（1997-），女，硕士研究生，研究方向为植物遗传资源育种。E-mail：18811023178@163.com.责任作者：贾瑞冬（1980-），女，博士，副研究员，现主要从事花卉种植资源与育种等研究工作。E-mail：jiaruidong@caas.cn.基金项目：国家重点研发计划资助项目（2019YFD1001003）；农业部园艺作物生物学与种质创制重点实验室资助项目。收稿日期：2021-08-06

更新日期/Last Update: 2022-04-08