玻璃化与正常苹果试管苗的叶片和茎的显微结构比较

以苹果品种‘鲁加5号’试管苗为试材,其用石蜡切片和电镜扫描观察方法,比较玻璃化与正常试管苗叶片和茎的显微结构的结果表明：苹果玻璃化试管苗的叶片和茎的显微结构与正常试管苗有显著差异,前者的叶片厚度变大,表皮细胞密度极低;表皮细胞体积膨大,液泡化,栅栏组织厚度减小,海绵组织厚度增加;气孔器的长轴变化不明显,短轴变宽,气孔密度极高;茎的维管组织中有空洞和塌陷,导管管壁多皱褶,筛管中无淀粉粒积累。     

陆地棉组织培养中再生植株的形态解剖学研究

在显微和超微水平不同层次上对陆地棉(Gossypium hisutum L.)再生植株中正常苗和玻璃苗叶及根端的形态结构进行了观察比较。结果表明:试管玻璃苗叶表面凹凸不平,气孔下陷,萎缩变形,表皮细胞形态不规则,排列不整齐,叶表面蜡质分布不均匀,其数量也较少;叶肉无明显的栅栏组织分化,细胞中叶绿体含量少、形态小,结构异常。超微结构显示,大部分叶肉细胞中叶绿体基粒片层分布少而含较多的基质片层,其它细胞器如线粒体、高尔基体、内质网等含量少或缺。叶脉维管组织发育不良,导管分子数目少,木质化程度低,根尖短而细,生长点仅由少数具分生能力的细胞组成,根冠细胞大,但数量少。正常苗形态结构基本类似于实生苗。     

槐树试管正常苗与超度含水态苗茎叶的比较形态学研究

槐树(Sophora japonica L.)子叶经培养获得了大量的试管苗,依其形态正常与否可将其分为正常苗、超度含水态苗和介于二者之间的过度含水态苗。其自由水含量明显不同,正常苗低于50％,超度含水态苗高于79％,而过度含水态苗约为70％。以扫描电镜对其茎、叶的形态学结构进行了比较研究,结果表明:正常苗茎、叶表皮结构基本类似于实生苗,而过度及超度含水态苗的茎、叶表皮层结构变异较大。主要表现在其表面凹凸不平,表皮层外稀有或无蜡质存在,表皮细胞形状及排列不规则,叶片近、远轴两面气孔器密度、大小及开度均较正常苗显著增大;保卫细胞形态、结构异常。上述特征,均显示出槐树试管过度及超度含水态苗易失水干化,这可能是其在移栽过程中难以成活的主要原因之一。     

叶子花表皮特征的研究及意义

对叶子花（Bougainvillea spectabilis）正常叶和变态叶上气孔密度、气孔指数和保卫细胞大小进行了研究。结果表明：正常叶上表皮的表皮细胞为多边形,垂周壁平直;下表皮的表皮细胞为不规则型,垂周壁浅波状;气孔类型为不规则型。变态叶上表皮没有发现气孔,变态叶下表皮的表皮细胞垂周壁则由浅波形逐渐变为深波形,气孔类型为不规则型和轮列型。随着变态叶的发育,变态叶下表皮的气孔密度降低,气孔指数升高;变态叶保卫细胞的长增大,宽减小。变态叶的平均气孔密度和平均气孔指数明显低于正常叶。正常叶和变态叶的保卫细胞均呈肾形。     

蓝莓玻璃化试管苗的显微结构及生理生化特性变化

研究了蓝莓试管苗玻璃化的显微结构、超微结构以及生理生化特性的影响。与正常试管苗相比,蓝莓玻璃化苗的茎、叶显微结构发生了明显的改变：叶片表皮细胞松散、不连续;气孔结构难以辨认;叶片增厚;缺少栅栏组织,海绵组织细胞间隙变大,部分细胞解体;茎的维管组织发育不良;亚显微结构观察发现,玻璃化苗叶肉细胞体积增大,细胞壁变薄;部分细胞缺少细胞核及线粒体;叶绿体数目减少,类囊体解体,缺乏淀粉体。玻璃化试管苗的生理生化特性也发生了显著的改变：玻璃化苗组织含水量显著增加;叶绿素、可溶性糖及可溶性蛋白含量显著降低;O2- 产生速率、H2O2积累量、MDA含量及相对电导率显著升高;活性氧清除酶系中POD活性显著升高,SOD和CAT活性显著降低;PAL活性下降。蓝莓玻璃化苗的形态结构异常,水分及物质代谢紊乱,活性氧清除能力降低,表明玻璃化与氧化胁迫相关。     

蒙古黄芪营养器官的解剖结构研究

通过对蒙古黄芪营养器官解剖结构研究表明,根为典型的双子叶植物根的结构,初生结构由表皮、皮层和维管柱组成,初生木质部和初生韧皮部在分化过程中呈外始式,初生木质部四原型,皮层内具凯氏带;茎由表皮、皮层和维管柱组成,维管束为外韧无限维管束;叶为异面叶,由表皮、叶内和叶脉组成,栅栏组织排列紧密且整齐,细胞呈长柱形,海绵组织排列疏松且不整齐,细胞呈海绵状,有大量气隙,叶脉维管束发达,为外韧无限维管束,叶上下表皮均具有气孔.     

新疆四种补血草属植物叶片的解剖学研究

利用叶片离析法和石蜡切片法研究了补血草属4种植物叶片的形态结构。结果表明:(1)4种植物的叶片有许多共同的结构适应特征,表皮细胞排列紧密,表面有厚的角质层;气孔类型均为不等型,气孔位置为平置或略微下陷;上下表皮还具有多细胞构成的盐腺;栅栏组织发达,多为等面叶;存在粘液细胞和单宁细胞;机械组织和维管组织都不发达等。(2)不同种间有不同的结构适应特征,如表皮细胞的形状、大小、垂周壁饰样,气孔密度,盐腺密度,叶片厚度和栅栏组织厚度等。通过叶的结构特征反映出盐生植物与旱生植物的不同。     

暗罗属植物叶的比较解剖学研究

利用扫描电镜技术、叶片叶片离析方法和石蜡切片法对暗罗属12种植物叶和形态结构进行了比较研究。结果表明,叶表皮细胞形状、气孔器形态、表皮毛类型、表皮细胞中晶体类型、叶肉中油细胞分布位置、栅栏组织和海绵组织厚度的比值,以及主脉维管组织的结构特征等具有明显的种间差异。可以利用这些叶的解剖特征将暗罗属植物相互区别开来。     

七子花的解剖学研究

研究了七子花根、茎、叶和芽的解剖学结构,并与忍冬科荚蒾属的珊瑚树进行比较。结果表明,两种植物具有一些共同特点:茎中髓部发达;异面叶,栅栏组织细胞都有两层,气孔大多集中于下表皮,叶表面有腺毛。两者也存在一些明显差异:七子花根毛明显少于珊瑚树,甚至未见;幼茎形状、茎中维管柱形状也明显不同;七子花栅栏组织细胞排列较珊瑚树整齐。     

濒危植物海南风吹楠营养器官解剖结构特征

该研究采用石蜡切片和光学显微技术,对海南风吹楠营养器官的解剖结构及其对环境的适应性进行了探讨。结果表明:海南风吹楠为典型异面叶,叶片中脉发达,中部分化出髓,上表皮外侧具角质层,内侧具1层内皮层,下表皮外侧无角质层,有气孔器分布,气孔器为双环型,略下陷;栅栏组织3~4层细胞,海绵组织4~6层细胞。茎的初生结构中表皮轻微角质化,维管束为外韧型,8~10个初生维管束围绕髓排列为1轮;茎的次生结构中,表皮外部角质层加厚,维管柱紧密排列连成环状,次生韧皮部和次生木质部发达,形成层细胞3~5层。根的初生结构中表皮细胞外壁加厚,外皮层细胞体积大,形状不规则,内侧具1层形成层,内皮层具凯氏带,初生木质部为多原型,呈辐射状排列。根的次生结构中木栓层细胞5~6层,木栓层内侧具1层木栓形成层,栓内层细胞3层。海南风吹楠营养器官具有一定耐阴和耐旱结构特征,同时与其生活的热带雨林沟谷中高温荫湿的环境相适应。     

A scanning electron microscope study of normal and vitrified leaves from Datura insignis plantlets cultured in vitro

The surface anatomy of normal and vitreous leaves of plantlets obtained from Datura insignis Barb Rodr nodal segment cultures was compared using scanning electron microscopy. Normal and vitrified leaves are similar in several ways. They are both amphistomatic, and have similar distributions of glandular and non-glandular trichomes. Stomata have similar length, diameter and distribution in normal and vitreous plants. Immature stomata, which have closed pores, and plugged stomata, which contain an amorphous material between their guard cells, occur in both normal and vitrified leaves. Normal and vitreous leaves differ in the frequency of normal and abnormal stomata. Normal stomata have kidney-shaped guard cells and resemble closely those found in field-grown plants, whereas abnormal stomata have deformed guard cells. Normal stomata represent approximately 80% of the total number of stomata in normal leaves, but only 7% of the total number of stomata in vitreous leaves. Abnormal stomata represent 90% of the total number in vitreous leaves. The deformation of guard cells could possibly be a mechanical impediment to stomatal function.     

波温苏铁(Bowenia spectabilis)营养器官的解剖结构研究

报道了波温苏铁Bowenia spectabilis Hook.ex Hook. f）根、茎、叶的解剖结构.根的初生结构由表皮、皮层和中柱三部分组成,为二原型木质部.茎具大量薄壁组织,薄壁细胞富含淀粉粒,维管束为外韧并生.叶柄中含有5-8束维管束,呈弧形排列.羽片叶角质层厚,有小叶脉产生,气孔主要分布在下表皮.根、茎、叶木质部中的管胞主要是螺纹和孔纹管胞,有少量纤维分化;茎中管胞的侧壁呈现凹凸不平,部分管胞具有分枝或分叉现象.     

A Study on Comparative Morphology of Normal and Hyperhydric Stems and leaves from Sophora japonica Plantlets Cultured in Vitro

A large numar of plantlets were obtained from cotyledon explants of Sophom japonica L. cultured in vitro. They could be classified into 3 kinds according to their morphological characteristics, viz. the normal plantlets, the hyperhydric planfiets,and the intermediate state between the two or the sub-hyperhydric type. The free water content was more than 79% in the hyperhydric shoots,and 70% in the sub-hyperhydric shoots,while less than 50% in the normal shoots. The surface anatomy of normal, sub-hyperhydric and hyperhydric stems and leaves of the plantlets were compared by scanning electron microscopy. The surface structure of the normal plantlets was similar to those found in field-grown plants,but great change occurred in that of hyperhydric and the sub-hyperhydric plantlets. The stems and leaves surface of the hyperhydric and sub-hyperhydric plantlets appeared to be uneven, wrinkled, brittle and translucent and besides the leaves were thick, curled with a reduced surface area. There was little or no epicuticular wax on the surface of epidermal cells which had irregular shapes and patterns. All leaves were amphistomatic and the stomatal density, size and degree of opening were obviously bigger in the sub-hyperhydric and hyperhydric leaves than in the normal ones. Normal stomata had kidney-shaped guard cells and resembled closely those found in the feild-grown plants, whereas abnormal stomata had deformed guard cells. All of the morphological characteristics mentioned above indicated that the sub-hyperhydric and hyperhydric shoots bended to lose their water easily and resulted in desiccation, which might be one of the major causes of failure to transfer sub-hyperhydric and hyperhydric plantlets to soil.     

铁筷子(毛茛科)营养器官的结构及其系统学意义

应用解剖学方法,对铁筷子(Helleborus thibetanusFranch.)(毛茛科)营养器官的结构进行了研究。结果表明,铁筷子根的初生结构观察到三原型、四原型和六原型。营养器官中的维管束在横切面上木质部中的导管分子不呈“V”字形排列;根状茎的次生结构由外向内为表皮、皮层和维管柱,髓射线发达。茎的初生结构中多个维管束排列成环状,维管束鞘分化不明显,节部为单隙三迹,叶迹分别来自于3条维管束或同一条维管束。叶为两面叶,表皮细胞不规则;气孔器只分布于下表皮,为毛茛科典型的无规则型气孔。从铁筷子营养器官的解剖学特点来看,与毛茛科其它植物基本相同,但在营养器官中维管束木质部不呈“V”字形、维管束鞘分化不明显、节部具单叶隙等特征上与其它毛茛科植物不同。     

Environmental scanning electron microscopy of the surface of normal and vitrified leaves of Gypsophila paniculata (Babies Breath) cultured in vitro

Leaf surfaces of non-tissue-cultured, vitrified and non-vitrified plantlets of Gypsophila paniculata (Babies Breath) were examined using an environmental scanning electron microscope. Non-tissue-cultured plants had a complete epidermal surface, recessed stomata and wax present on the leaf surface. The surface of tissue-cultured plantlets appeared similar to non-tissue-cultured plants excepting stomata were slightly protruding and less wax appeared to be present. In both non-tissue-cultured and tissue-cultured plants stomata were found both opened and closed and were observed closing. In contrast vitrified plantlets had abnormal, malformed stomata which appeared non-functional. The ventral surfaces of leaves seemed more normal than the dorsal, this may be due to the former receiving more light. Additionally, discontinuities were found in the epidermis. Often epidermal holes were found in association with stomatal apertures. It is suggested that the main cause of desiccation of vitrified G. paniculata plantlets ex vitro is due to loss of water from the discontinuity in epidermis and not because of non-functional stomata. Liquid water could be seen through the epidermal holes indicating that at least some of the extra water in vitrified plantlets is contained in the intercellular spaces.Abbreviations ESEM Environmental scanning election microscope - IAA Indole acetic acid - NTC Non-tissue-cultured - TC Tissue-cultured - V vitrified     

Cellular sequestration of cadmium in the hyperaccumulator plant species Sedum alfredii

Spatial imaging of cadmium (Cd) in the hyperaccumulator Sedum alfredii was investigated in vivo by laser ablation inductively coupled plasma mass spectrometry and x-ray microfluorescence imaging. Preferential Cd accumulation in the pith and cortex was observed in stems of the Cd hyperaccumulating ecotype (HE), whereas Cd was restricted to the vascular bundles in its contrasting nonhyperaccumulating ecotype. Cd concentrations of up to 15,000 μg g(-1) were measured in the pith cells, which was many fold higher than the concentrations in the stem epidermis and vascular bundles in the HE plants. In the leaves of the HE, Cd was mainly localized to the mesophyll and vascular cells rather than the epidermis. The distribution pattern of Cd in both stems and leaves of the HE was very similar to calcium but not zinc, irrespective of Cd exposure levels. Extended x-ray absorption fine structure spectroscopy analysis showed that Cd in the stems and leaves of the HE was mainly associated with oxygen ligands, and a larger proportion (about 70% in leaves and 47% in stems) of Cd was bound with malic acid, which was the major organic acid in the shoots of the plants. These results indicate that a majority of Cd in HE accumulates in the parenchyma cells, especially in stems, and is likely associated with calcium pathways and bound with organic acid (malate), which is indicative of a critical role of vacuolar sequestration of Cd in the HE S. alfredii.     

罗汉果营养器官的结构

1.罗汉果根、茎、叶的结构与葫芦科其它植物大致相似。不同之处有三方面:(1)叶子主脉中维管束为5个;(2)叶子中有硅质细胞成群分布;(3)块根具异常次生生长。在次生木质部中围绕导管形成形成层,由之分化出多个具韧皮部与木质部的小维管束。2.叶中的硅质细胞分布于表皮、栅栏组织、海绵组织中,多个细胞集合在一起。其细胞壁加厚并硅质化,细胞内容物消失。推测与增加叶子的支持力量有关。3.罗汉果雌株叶子上、下表皮气孔数之比为0.04,雄株为0.03,比值均很低,同时根据叶的解剖结构推测罗汉果为C_3植物。4.雌株叶子下表皮单位面积气孔数比雄株的多26％,差异很显著,值得进一步研究简化观察统计方法,以用于鉴别幼苗的性别。     

霍山石斛组培苗移栽后微观结构与微区元素的变化研究

采用扫描电镜及X射线能谱仪技术,研究霍山石斛组培苗移栽后各器官组织的微观结构和所含元素的变化,以了解霍山石斛组培苗生长发育以及药效成分的状况。结果表明:(1)霍山石斛组培苗移栽2个月后,根增粗近1倍,具有根被,且根被细胞壁的网络状增厚更加明显,表皮、皮层、中柱发育分化更加完善,Mg、Si、Cl、S、K、Ca元素含量提高,其中Ca增长了2.76倍。(2)茎表面纵向凹陷增多,内部结构致密,维管束发育较为完善,细胞内充满物质,Mg、Si、Cl、S、K、Ca、Fe、Cu、Zn元素含量增多,尤其是K和Fe分别增长了3.25倍和4.61倍。(3)叶增厚,具有了角质层,气孔形状更加饱满,叶肉细胞内含物丰富,Mg、Si、Cl、S、K、Ca、Fe、Mn、Zn的含量显著上升,其中K升高了17倍。(4)与根、叶相比,茎中所富集的元素种类最多。研究认为,霍山石斛试管苗移栽后,生长发育趋向完善,各项功能增强,细胞内含物质增多,元素成分丰富并且含量提高,体现出对移栽环境的良好适应性。     

海南龙血树的形态组织学研究

采用植物解剖学、显微切片技术等,分别对海南龙血树含有树脂的茎、不含树脂的茎、幼根和叶片等进行了系统的组织学研究。结果表明：老茎主要由栓化层、皮层、形成层和基本组织4部分组成,树脂主要分布在基本组织内维管束的导管和纤维中。叶片为等面叶,气孔主要分布在下表皮上、具有明显的孔下室,上下表皮内侧分布着大量的纤维束。幼根由根被细胞、皮层和维管柱组成。根、茎、叶的部分薄壁细胞中均含有晶束。海南龙血树营养器官的结构特征与干旱、高温和贫瘠的生态环境相适应。这些结果可为海南龙血树的开发和利用提供基本的解剖学证据。