盾叶秋海棠叶表皮气孔簇的发育及分布格局

气孔是植物控制气体交换和调节水分散失的门户。大部分高等植物气孔的分布格局是相邻气孔之间被一至多个表皮细胞所间隔。而在有限分布的几个科属的植物种中发现气孔成簇分布的现象 ,即由 2至多个紧密相邻的气孔器组成相对独立的单元 ,称为气孔簇 (stomatalcluster)。以中国原产的盾叶秋海棠 (BegoniapeltatifoliaLi)为研究对象 ,探讨了叶表皮气孔簇的发育机制及其分布格局。结果表明 :气孔发育初期 ,气孔拟分生组织的成簇 (相邻紧密 )排列可能是气孔簇形成的主要机制 ;气孔副卫细胞恢复分裂形成的卫星拟分生组织也对气孔簇的形成起一定的作用。把气孔簇和单个气孔视为一个气孔单元发现 ,盾叶秋海棠气孔单元密度 (单位面积中气孔单元数 )和气孔单元大小 (气孔单元所包含气孔数 )在叶片上呈有规律的分布 :前者由叶片中部向叶尖、叶缘逐圈增多 ,而后者逐圈减少。对这种分布格局的成因进行了讨论     

盾叶秋海棠叶表皮气孔簇的发育及分布格局

气孔是植物控制气体交换和调节水分散失的门户.大部分高等植物气孔的分布格局是相邻气孔之间被一至多个表皮细胞所间隔.而在有限分布的几个科属的植物种中发现气孔成簇分布的现象,即由2至多个紧密相邻的气孔器组成相对独立的单元,称为气孔簇(stoma tal cluster).以中国原产的盾叶秋海棠(Begonia peltatifolia Li)为研究对象,探讨了叶表皮气孔簇的发育机制及其分布格局.结果表明:气孔发育初期,气孔拟分生组织的成簇(相邻紧密)排列可能是气孔簇形成的主要机制;气孔副卫细胞恢复分裂形成的卫星拟分生组织也对气孔簇的形成起一定的作用.把气孔簇和单个气孔视为一个气孔单元发现,盾叶秋海棠气孔单元密度(单位面积中气孔单元数)和气孔单元大小(气孔单元所包含气孔数)在叶片上呈有规律的分布:前者由叶片中部向叶尖、叶缘逐圈增多,而后者逐圈减少.对这种分布格局的成因进行了讨论.     

长翅秋海棠的叶片培养和快速繁殖

1　植物名称　长翅秋海棠 (Ｂｅｇｏｎｉａｌｏｎ ｇｉａｌａｔａ)。2　材料类别　初展幼叶。3　培养条件　不定芽诱导培养基和增殖培养基分别采用 :( 1 )ＭＳ ＮＡＡ 0 .5ｍｇ·Ｌ-1(单位下同 ) 6 ＢＡ 1 ;( 2 )ＭＳ ＩＡＡ 0 .5 6 ＢＡ 1 ;( 3)ＭＳ ＮＡＡ 1 6 ＢＡ 0 .5 ;( 4 )ＭＳ ＮＡＡ 1 6 ＢＡ 1 .5。根的诱导采用 :( 5 ) 1 /2ＭＳ ＩＢＡ 1 ;( 6 ) 1 /2ＭＳ ＮＡＡ 1。以上培养基均加入 0 .6 %琼脂粉 ,ｐＨ 5 .8。( 1 )、( 2 )、( 3)、( 4 )分别加入 3%蔗糖 ,( 5 )、( 6 )分别加入 1 .5 %蔗糖。培养温度 ( 2 5±3)℃…     

4种营养液对四季秋海棠‘超奥’生长及开花指标的影响

四季秋海棠(Begonia cucullata Willd.)为秋海棠科(Begoniaceae)秋海棠属(Begonia Linn.)草本植物,又名秋海棠、玻璃海棠.该种的‘超级奥林匹亚系列’(简称‘超奥’,‘Super Olympia Series’)品种因花色丰富、花姿美丽、观赏价值高而常用于花坛布置和盆花栽培.与土壤栽培相比,无土栽培具有生长速度快、营养配方佳、基质轻、栽培洁净等优点[1].目前有关四季秋海棠的穴盘育苗、组织培养和扦插育苗等方面的研究报道较多[2-11],对四季秋海棠无土栽培技术的系统研究报道尚不多见.为研究四季秋海棠无土栽培的技术体系,作者曾对四季秋海棠‘鸡尾酒系列’(B.cucullata‘ Cocktail Series’)品种的最适营养液配方和基质配方进行了筛选[1,12].     

长春花叶片发育过程中气孔密度和气孔指数的动态变化

对长春花叶片近轴面和远轴面上的气孔密度和气孔指数在不同发育阶段的动态变化进行了研究.结果表明:在各个发育阶段,近轴面上的气孔以叶脉两侧居多,远轴面上的气孔则在整个叶片上均匀分布.将一个枝条上的10对真叶按发育顺序界定为10个发育阶段,即从枝条的顶端到基部,分别将第10、第9、第8……第1节位的叶片定义为第1、第2、第3...     

兰州北山不同坡向刺槐叶脉密度与气孔性状的关联性分析

植物叶脉和气孔性状的关系反映了叶片的水力特性, 对认识它们与植物水分利用有关的生理功能间的关系及其调控作用具有重要意义。该文利用GIS (geographic information system)与实验生态学相结合的方法, 采用标准化主轴估计方法, 研究了兰州市北山不同坡向人工林刺槐(Robinia pseudoacacia)叶脉密度与气孔密度、气孔大小的关系。结果表明: 随着坡向由南坡向东坡、西坡和北坡转变, 植被群落的郁闭度、高度和土壤含水量呈逐渐增加的趋势, 刺槐的净光合速率(P_n)、蒸腾速率(T_r)、光合有效辐射(PAR)、叶脉密度和气孔密度呈逐渐减小的趋势, 气孔与叶面积呈逐渐增大的趋势; 各个坡向的刺槐叶脉密度与气孔密度呈显著正相关关系, 与气孔大小呈显著负相关关系, 且在南坡达到极显著相关关系。生长在南坡的刺槐具有高的叶脉密度和密而小的气孔, 生长在北坡的刺槐具有低的叶脉密度和疏而大的气孔。不同坡向刺槐叶脉密度与气孔特征间的资源分配模式, 反映了植物在异质性生境中根据其功能需求在自身性状之间进行投资权衡机制的优化。     

大花美人蕉花发育过程中气孔密度和气孔指数的动态变化

对大花美人蕉(Canna generalis Bailey)不同发育时期花瓣、苞片和花萼上气孔的分布情况、气孔密度和气孔指数的变化进行了研究。结果表明,花瓣、苞片和花萼上、下表皮均有气孔分布。花瓣、苞片和花萼上表皮的气孔密度和气孔指数均小于下表皮的。随着花的发育,花瓣、苞片和花萼上的气孔密度和气孔指数一般呈现先上升后下降的变化趋势。     

13种栎属植物叶片的气孔特征及其相关性分析和分类学意义

以13种栎属(Quercus Linn.)植物〔包括产自辽宁省的槲栎组(Sect. Quercus)8种和麻栎组(Sect. Aegilops)2种以及引自北美洲的沼生栎组(Sect. Erythobalanus)2种和引自波兰的白栎组(Sect. Lepidabalanus)1种〕为试材,观察了这些种类叶片的气孔形态,并分析了气孔器和气孔的形态参数,还对各形态参数间的相关性进行了分析;在此基础上,对13种栎属植物进行了聚类分析。结果表明：栎属植物叶片的气孔仅分布于下表皮;气孔器排列属无规则型;气孔保卫细胞呈肾形,内壁加厚;气孔下陷,呈椭圆形或狭长椭圆形。供试种类的气孔和气孔器的形态参数差异明显,变异系数差异较大;气孔器的长轴长度、短轴长度和面积分别为18.24~27.46μm、14.63~23.18μm和221.56~501.70μm2,变异系数分别为7.73%~15.90%、7.10%~17.44%和14.13%~32.73%,气孔器指数为0.73~0.85;气孔的长轴长度、短轴长度、面积和密度分别为8.69~15.41μm、1.94~8.49μm、15.15~104.93μm2和462.32~984.44 mm-2,变异系数分别为12.03%~22.17%、13.65%~34.10%、27.95%~54.13%和8.10%~16.99%,气孔指数为0.22~0.57;总体上,按照多数气孔器和气孔参数从大至小的变化趋势依次排序为沼生栎组、白栎组、麻栎组、槲栎组。相关性分析结果表明：供试种类的气孔密度与气孔器和气孔的长轴及短轴长度均呈极显著(P<0.01)负相关;气孔器面积与气孔器指数和气孔指数分别呈极显著和显著(P<0.05)正相关;气孔面积与气孔器和气孔的长轴和短轴长度、气孔器指数和气孔指数呈极显著正相关,但与气孔密度呈显著负相关。聚类分析结果表明：在欧氏距离10处可将13种栎属植物分为3类,第Ⅰ类包含槲栎组的8种,第Ⅱ类包含麻栎组和白栎组的3种,第Ⅲ类包含沼生栎组的2种。研究结果显示：栎属植物叶片的气孔特征具有一定的稳定性,可作为栎属植物组间分类及亲缘关系分析的依据之一。     

干旱和CO_2浓度升高对干旱区春小麦气孔密度及分布的影响

通过对不同土壤水分状况、不同 CO2 浓度条件下春小麦叶片气孔的观测结果表明 :干旱和 CO2 浓度升高不仅影响叶片气孔密度 ,而且也影响其分布。随干旱程度的加剧 ,气孔密度有明显的上升趋势 ,气孔在叶片上的分布趋向均匀 ;随 CO2 浓度的升高 ,气孔密度有明显的下降趋势 ,其分布也趋向均匀。水分状况和 CO2 浓度相同时 ,气孔密度及分布受不同温度的影响     

大气中CO2、O3浓度升高对银杏成年叶片气孔数量特征的影响

利用开放式气室(OTC)持续观测了2个生长季(2005-2006年).在每年9月30日停止供气后,采样1次.观测高浓度CO2和O3处理的银杏(Ginkgo biloba)成年叶片气孔数量的变化规律.结果表明:在700 μmol·mol-1CO2处理条件下,叶片气孔的长度、宽度、周长和面积均明显高于对照(P<0.05);在80 μmol·mol-1O3处理条件下,气孔的长度、宽度、周长和面积却显著低于对照(P<0.01);成年叶片气孔在高浓度CO2影响下,气孔密度略有升高(P>0.05),而气孔指数显著减少(P<0.05);大气O3浓度升高对气孔密度影响不大(P>0.05),气孔指数显著减少(P<0.05);银杏成年叶片气孔的长度、宽度与气孔比密度存在一定的负相关关系,可用一元二次曲线方程较好地描述.     

The Development of Stomata in Vegetative and Reproductive Organs ofBupleurum tenue Buch.-Ham. ex D. Don

InBupleurum tenue stomata have been observed on leaf, stem,stalk of compound umbel and umbellet, bract of involucre andinvolucel, pedicel of flower, both surfaces of petal, outerepidermis of pericarp, and the stylopodium. Their developmentis of the syndetocheilic type in vegetative as well as the reproductiveorgans. In the stylopodium the stomata are anomocytic whilein the rest of the organs they are anisocytic.     

Epidermal Structure and Ontogeny of Stomata in Vegetative and Reproductive Organs of Ephedra and Gnetum

The epidermal structure and development of stomata in vegetativeand reproductive organs of Ephedra foliata and Gnetum ula isdescribed. The epidermal cells are polygonal, isodiametric,or elongated with thick or thin straight, arched, or slightlysinuous anticlinal walls. The cuticle is thin or thick. Papilla-likeunicellular outgrowths are present in Ephedra foliata. The maturestomata are orientated parallel to the longitudinal axes orirregularly. The mature stomata are anomocytic, paracytic, witha single subsidiary cell, cyclocytic, and actinocytic. Arresteddevelopment, contiguous stomata, and stomata with aborted guardcells have been observed. The ontogeny of stomata on differentorgans of these two plants is typically haplocheilic or perigenousbut the stomatal apparatus varies from organ to organ.     

Structure and Development of Stomata on the Vegetative and Floral Organs of Some Amaryllidaceae

The structure and development of stomata in 10 Amaryllidaceousmembers are described. The study is made on the leaves and floralorgans of Amaryllis belladona, Crinum asiaticum, C. bulbispermum,C. latifolium, C. pratense, Pancratium sp., Polianthes tuberosa,and Zephyranthes atamsco, and on leaves of Agave sp. and Curculigoorchioides. In most of the organs of the different plants studiedmore than one type of stoma occur, even on the same surface.However, the stomata are largely anomocytic in Amaryllis, Crinum,Pancratium, Polianthes, and Zephyranthes, but they are tetracyticin Agave and Curculigo. An increase in the number of subsidiarycells in teracytic, tricytic, paracytic, and stomata with onesubsidiary cell has been noted. It may be due to wall formationin the subsidiary cells or by the neighbouring perigenes assumingtheir form. The range of variation in different types of stomatain each organ has been studied. Abnormal features such as juxtaposedor superimposed contiguous stomata, connections between guardcells of nearby stomata, transformation of meristemoids intoepidermal cells are observed. The development of different typesof stomata in different organs of the same plant is perigenous.The systematic position of different genera is discussed inlight of the present findings. A method of preparing epidermalimprints by the use of Depex, a mounting medium, and white ofan egg is also described.     

苦豆子营养器官的发育解剖学及组织化学研究

采用石蜡切片法对苦豆子(Sophora alopecuroides L.)根、茎、横走茎及叶的发育过程进行了研究,并利用组织化学的方法对生物碱在苦豆子各营养器官中的分布规律进行了测定.苦豆子根、茎及横走茎的初生生长与一般双子叶植物的发育规律一致,但在次生生长时,部分维管形成层细胞平周分裂只形成薄壁组织,从而将次生维管组织也分离成束.茎与横走茎的功能及生活环境不同,所以在结构上也存在一定的差异.叶是等面叶,上下表皮内都有栅栏组织的分布,其组织分化和发育过程与双子叶植物叶的发育规律一致.在茎、横走茎及叶主脉中,韧皮部的外侧都包围有纤维束,其来源都是原生韧皮部.应用硅钨酸、碘化铋钾及I-KI溶液进行沉淀反应,测定出生物总碱在苦豆子根、茎、横走茎及叶的薄壁组织细胞中均存在.     

Structure and Development of Stomata on the Vegetative and Floral Organs in Some Members of Caesalpiniaceae

The structure and development of stomata in 19 species of thefamily Caesalpiniaceae are described. The study is mostly confinedto the leaves, but observations have also been made on othervegetative and floral organs of some species Stomata may beparacytic, anisocytic, anomocytic, and with one subsidiary cell.Occasionally a stoma is diacytic, cyclocytic, or actinocytic.Different types occur individually or may be found side by sideeven on the same surface of an organ. The most prevalent typein all the genera is paracytic except in Caesalpima where itis anomocytic. The development of an anomocytic stoma is perigenous,but those with subsidiary cells are largely mesogenous; rarelyparacytic stomata are mesoperigenous. In spite of diversityof stomata, different types of stomata have similar patternsof development in different organs of the same plant. The presentinvestigation also indicates that the inconstancy of stomatain the family is due to (a) their diversity and (b) an increasein the number of subsidiary cells either by their division orby the neighbouring perigenes becoming subsidiary cell-like.     

Structure and Development of Stomata in Vegetative and Floral Organs of Three Species of Kalanchoe

The structure and ontogeny of stomata in vegetative and floralorgans of three species of Kalanchoe is described. The matureanisocytic stomata are mono-cyclic or completely or incompletelyamphicyclic, rarely paracytic, transitional between paracyticand anisocytic and with a single subsidiary cell. The developmentof all the types is syndetocheilic or mesogenous from organto organ but the mature stomatal apparatus varies from organto organ as regards the number and arrangement of subsidiarycells. Abnormal stoma with a single guard cell and arresteddevelopment were observed on all organs. An abnormal stoma witha single guard cell develops directly from the meristemoid.     

顶空固相微萃取-气相色谱-质谱联用法分析香花秋海棠及其变种花香气成分

利用顶空固相微萃取结合气相色谱-质谱联用技术对盛花期的香花秋海棠(Begonia handelii)雄花及其变种铺地秋海棠(B. handelii var. prostrata)雌花和红毛香花秋海棠(B. handelii var. rubropilosa)雄花的挥发性香气成分进行分析。结果表明,从铺地秋海棠花中鉴定出香气成分32 种,其中醇类物质含量最高,占总成分50.10,其次分别为碳氢类、醛类和酸类物质,分别占总成分25.39、13.87、4.34;从香花秋海棠花中鉴定出香气成分为21种,醛类物质含量最高,占总成分57.12,其次是醇类、碳氢类、杂环类物质,分别占总成分17.37、15.31、4.88;从红毛香花秋海棠花中鉴定出香气成分44 种,醇类物质含量最高,占总成分38.22,其次是碳氢类、醛类和醚类物质,分别占总成分34.36、16.83、6.91。铺地秋海棠和红毛香花秋海棠香气成分较接近,富含具有清香、甘甜气息的芳樟醇氧化物等物质;香花秋海棠花中醛类物质含量最高,具有淡焦甜香气。     

贵州省野生秋海棠属植物观赏特性及应用研究

经过2年的野外调查及查阅相关资料,列出产于贵州省的秋海棠共32种(包括1个变种)主要分布地与叶花特征.认为它们具有奇特的叶形和多彩的叶色,花色素雅而且花形美观,是有待开发的极好花卉.根据形态特征和生态习性进行园林配置分析,对园林开发应用提出建议.