XU Xiao-yuan,ZHOU Ling-ling.Primary Study on Floral Syndrome and Breeding System of Limonium chrysocomum[J].Northern Horticulture,2014,38(21):105-110.
簇枝补血草花部综合特征及繁育系统的初步研究
- Title:
- Primary Study on Floral Syndrome and Breeding System of Limonium chrysocomum
- 文章编号:
- 1001-0009(2014)21-0105-06
- Keywords:
- Limonium chrysocomum; floral syndrome; breeding system
- 分类号:
- Q 945.4
- 文献标志码:
- A
- 摘要:
- 以野外居群中的簇枝补血草为试材,采用花粉/胚珠比、杂交指数、套袋和萌发试验等方法,初步研究特定地理条件对簇枝补血草开花动态、繁育系统和种子特性的影响。结果表明:簇枝补血草开花期5—6月,单花持续期约3 d,单株花持续期约30 d,种群花持续期约40 d;将单花发育过程分为4个阶段,在第2阶段雌雄蕊同时成熟,并存在空间异位现象;一天中花粉活力和柱头可授性在15:00—17:00,二者出现重叠的高峰期;P/O值、OCI值以及授粉试验表明,簇枝补血草的繁育系统为兼性异交,自交亲和,有时需要传粉者;自然状态下,种子附属物对其萌发有抑制作用,其中花萼对其影响最大,且种子经过储存后萌发率更高;簇枝补血草为适应干旱多变的荒漠环境,采用这种特殊方式来保证有一定数量的后代而不致于导致该种群个体数量的衰退。
- Abstract:
- Taking wild Limonium chrysocomum as materials,Pollen/Ovule ratio(P/O),Outcrossing Index(OCI),emasculation and germination experiment were observed to address its flowering phenologies,breeding system and seed feature primarily.The results showed that the flower of this plant blooms from May to June and could last different time at different levels;the development of single flower could be divided into 4 stages and both of the pistil and stamen became mature at the second stage,existing the phenomenon of herkogamy;the overlap peak period of pollen viability and stigma receptivity was occurred at 15:00—17:00;the value of P/O,OCI and pollination experiments display that the breeding system of L.chrysocomum was facultative xenogamy,and self-compatible,however sometimes need pollinators;seed appendages inhibit the process of germinating,especially corolla,and it had a higher germinating rate after being storaged.L.chrysocomum was born in barren land,which was drought and changeable.It had evolved a special mode to product a certain number offsprings to avoid the declining of individuals in populations.
参考文献/References:
[1]Harper J L.Population biology of plant[M].London:Academic Press,1997:216-230.
[2]张大勇.植物生活史进化与繁殖生态学[M].北京:科学出版社,2004.
[3]白伟宁,张大勇.雌雄同体植物的性别干扰及其进化意义[J].植物生态学报,2005(29):672-679.
[4]Wyatt R.Pollinator-plant interactions and the evolution of breeding systems.Read,L.ed.Pollination Biology[M].Orlando:Academic Press,1983:51-95.
[5]田福平,时永杰,陈子萱.我国补血草属野生植物资源的分布[J].草业与畜牧,2010(3):49-51.
[6]潘晓玲,买买提?伊明,高淑兰,等.新疆野生花卉资源植物调查及引种栽培的初步研究[J].干旱区资源与环境,1997,11(3):90-93.
[7]邓旺华,王雁.补血草属植物在城市绿化中的应用[J].资源利用,2006,4(2):58-60.
[8]魏友霞,王军宪,姚鸿萍.补血草属植物化学成分和药理作用研究进展[J].西北药学杂志,2007,22(4):222-224. [9]李盼盼,倪士峰,巩江,等.补血草属植物药学研究概况[J].安徽农业科学,2010,38(13):6714-6715.
[10]刘克彪.优良盐生牧草-大叶补血草的引种[J].草业科学,1993,10(2):31-33.
[11]李秀华.野生花卉二色补血草引种利用研究[J].中国园林,2003,19(10):78-80.
[12]刘小利.野生花卉星毛补血草的引种栽培试验研究[J].北方园艺,2007(2):113-114.
[13]徐美隆,李永华,吴建华.四种补血草组织培养的比较研究[J].北方园艺,2010(2):157-160.
[14]倪细炉,麻力,岳延峰,等.黄花补血草营养器官结构解剖学研究[J].中国农学通报,2012,28(22):71-75.
[15]师东,张爱勤.耳叶补血草花粉萌发及花粉管生长状况的荧光显微观察[J].新疆农业科学,2011,48(8):1549-1553.
[16]周玲玲,刘萍,陈芳.温度、盐分和干旱胁迫对簇枝补血草种子萌发的影响[J].种子,2006,25(10):48-50.
[17]黄云兰,安秀峰,师东,等.新疆荒漠植物耳叶补血草的爆发式开花式样与传粉模式[J].生物多样性,2012,20(3):368-375.
[18]Dafni A.Pollination ecology[M].New York:Oxfod University Press,1992:59-89.
[19]Williamson G B,Richardson D.Bioassays for allelopathy:measuring treatment responses with independent controls[J].Cheml Ecol,1988,14(1):181-187.
[20]Cruden R W.Pollen-ovule ratios:a conservative indicator of breeding systems in flowering plants[J].Evolution,1997,31:32-46.
[21]刘彤,祝建波,陈芳,等.新疆花卉的资源优势与开发前景(综述)[J].石河子大学学报,2000,4(1):82-85.
[22]Harder L D,Barrett S C H.Mating cost of large floral displays in hermaphrodite plants[J].Nature,1995,373:512-515.
[23]Morgan E R,Burge G K,Seelye J F.Limonium breeding:New options for a well know genus[J].Acta Hort,2001,552:39-42.
[24]黄双全,郭友好.传粉生物学的研究进展[J].科学通报,2000,45(3):223-237.
[25]Huang S Q.Studies on plant-pollinator interaction and its significances[J].Biodiversity Science,2007(15):569-575.
备注/Memo
第一作者简介:徐小圆(1990-),女,硕士研究生,研究方向为资源植物研究。E-mail:1195347658@qq.com.
责任作者:周玲玲(1966-),女,博士,副教授,研究方向为植物解剖和抗性生理。E-mail:msyzl@163.com.
收稿日期:2014-05-19