小花山桃草营养器官解剖结构及其生态适应性研究

通过石蜡切片法对外来入侵植物小花山桃草进行解剖学方面的研究,旨在揭示其入侵和蔓延的结构基础。结果表明：小花山桃草根的次生结构中次生木质部所占比例较大,约占整个横切面的2/3,导管数量多,平均达138.25个,管腔大,管径为85.37 μm;根和茎的木栓层均较发达,由6～7层扁平细胞组成;根和茎的次生韧皮部中存在大量含针晶细胞;小花山桃草的叶具典型的旱生植物叶片的结构特征：表皮为复表皮,上下表皮均有气孔分布,上表皮气孔密度为180 mm^-2,下表皮气孔密度为266 mm^-2;栅栏组织为双栅型,近轴面栅栏组织细胞2～3层,排列紧密而整齐,含叶绿体较多;叶片主脉木质部发达,由多列导管组成。上述特征说明小花山桃草的解剖结构对干旱生境有较强的适应性。     

中间锦鸡儿叶表皮微形态的经度格局及其影响因素

环境因子是影响植物种内变异的主要因素,而叶片是植物体最易受环境影响的器官。为了探究中间锦鸡儿植物叶表皮微形态是否具有经度变异及其影响因素,该研究在内蒙古高原调查了8个中间锦鸡儿种群叶片的气孔密度、气孔指数、表皮毛密度、气孔器长、气孔器宽,并利用回归分析探究其变异程度以及影响因子。结果表明：(1)锦鸡儿上下表皮均被有单细胞非腺毛,角质层粗糙,气孔下陷,为抗旱特征;中间锦鸡儿上表皮气孔密度、气孔指数、表皮毛密度、气孔器长和气孔器宽的均值分别为302.81个/mm²、9.94、204.81个/mm²、11.78 μm和5.95 μm,而叶片下表皮分别为272.83个/mm²、10.43、187.45 个/mm²、12.49 μm和6.18 μm。(2)中间锦鸡儿叶片的气孔密度与气孔指数随经度的增加而增加,而表皮毛密度随经度的增加却减小。(3)叶片上下表皮的可塑性指数排序均为：表皮毛密度>气孔密度>气孔指数>气孔器宽>气孔器长;中间锦鸡儿的叶表皮主要通过调节表皮毛密度及气孔密度来响应环境的变化,环境因子中日照时数、有效积温、相对湿度、土壤全碳、全磷、全氮含量显著影响叶片表皮的微形态特征。     

委陵菜属锥状花柱组植物叶表皮微形态特征的研究

利用光学显微镜和扫描电子显微镜,观察了新疆委陵菜属（Potentilla L.）锥状花柱组（Sect.Conostylae(Wolf)Yü et Li）15种委陵菜植物叶表皮的微形态特征。对其叶表皮毛的类型、表皮细胞的形状及大小、气孔器的分布、气孔器类型、气孔形状、气孔大小、气孔密度、气孔指数、气孔外拱盖形态及其纹饰等指标进行分析：有几种植物叶的上表皮无气孔,而下表皮均有气孔器的分布,形状为长椭圆形、椭圆形、宽椭圆形和近圆形;气孔器的类型多为短平列四细胞型、无规则四细胞型、无规则型、围绕型和辐射型;表皮毛的类型为针状毛、带状柔毛和腺毛;表皮细胞分为不规则形和多边形;表皮毛特征、叶片表皮细胞的形状、垂周壁式样、气孔器的形状类型、气孔密度指数及蜡质纹饰等存在差异,可作为亚属间及种间分类的依据。     

盾叶薯蓣四倍体与二倍体叶表皮及气孔器显微结构的比较

对盾叶薯蓣四倍体和二倍体阴叶和阳叶表皮及气孔器的显微形态结构进行了比较。结果显示:叶片表皮细胞及气孔器的形态结构因染色体倍性及光照的不同而存在明显差异。表皮细胞有规则多边形与不规则细胞壁内褶2种类型;气孔器为典型的双子叶植物无规则型气孔器,仅分布在下表皮。四倍体表皮细胞密度、气孔器密度及气孔指数平均值分别为476.28±6.87个.mm-2、78.22±3.1个.mm-2、14.11,较二倍体的分别小4.60%、17.95%和11.98%。前者气孔器长、宽及保卫细胞宽度平均值分别为32.78±2.09μm、26.07±1.55μm、9.63±1.14μm,较后者的分别大10.73%、3.90%和18.01%,差异极显著。前者阴叶的较其阳叶的分别大5.77%、6.00%、8.72%;后者的则分别大1.72%、1.74%、2.41%。前者叶片保卫细胞中的叶绿体数目为23.93±3.19个,较后者的多74.00%。表皮细胞及气孔器密度、气孔指数,气孔器大小,保卫细胞叶绿体数目、尤其是保卫细胞宽度,可作为倍性鉴定的参考依据。四倍体高产有其良好的叶片结构基础。     

遮光处理对西葫芦幼苗形态特征及光合生理特性的影响

研究了不同遮光处理对西葫芦幼苗形态及光合生理特性的影响.结果表明,在60%透光率条件下,西葫芦幼苗具有较高的相对生长率、净光合速率、气孔导度、蒸腾速率、单叶水分利用效率、饱和蒸汽压、表观量子效率和叶绿素含量,而胞间CO₂浓度较低;西葫芦幼苗具有较高的光饱和点(1 125 μmol·m^-2·s^-1)、较低的光补偿点(15.2 μmol·m^-2·s^-1).弱光下西葫芦幼苗较耐低浓度CO₂,而强光下的幼苗较耐高浓度CO₂.60%透光率下西葫芦幼苗叶片丙二醛和脯氨酸含量最低,而过氧化物酶和过氧化氢酶活性则最高.     

鸢尾属（Iris）植物叶片表皮微形态特征的研究

对12种鸢尾叶片的表皮特征进行了观察和研究,结果表明野鸢尾、单花鸢尾、北陵鸢尾3种鸢尾各自的上下表皮细胞的形状及气孔密度等有明显区别,而其余9种鸢尾叶片各自上下表皮形态均无明显差异。12种鸢尾的气孔类型均属于横列型,且气孔均是随机分布,气孔保卫细胞的长轴与叶脉平行,叶脉处无气孔分布。不同种鸢尾之间叶片表皮特征具有显著差异,可为鸢尾属植物的分类提供依据。     

中国兜被兰属植物叶表皮微形态特征的研究

利用光学显微镜和扫描电子显微镜观察了中国兜被兰属１２种植物叶表皮的微形态特征,结果表明：该属植物成熟叶片的上下表皮均具角质层,其表面纹饰有直线形、浅波形、深波形和网状４种类型;有的种表皮细胞垂周壁明显凸起;气孔不具副卫细胞,仅分布在叶片下表面,气孔的外拱盖单层,表面光滑。这些特征在属级水平上较为一致,但也表现出种间差异,可以作为种间分类的辅助特征     

不同地区青檀叶片的解剖及表皮特征的比较研究

采用石蜡切片技术和叶表皮离析法,对我国8个省共15个居群的青檀(Pteroceltis tatarinowii Maxim.)叶片特征进行了比较和分析.研究发现:各居群的栅栏组织细胞层数多数为2层,显示出一定的稳定性,但不同居群的叶片横切面解剖特征存在显著性差异.叶片上表皮细胞有多边形和不规则形两种类型,而下表皮细胞均为不规则形.上表皮细胞垂周壁为平直形、圆形、浅波形或深波形,差异较明显,下表皮细胞垂周壁则仅有深波形和浅波形两种.叶表皮毛的分布位置在各居群间不同,而表皮毛的类型在居群间稳定,且在多数居群中表皮毛与周围细胞形成花环结构.各居群的气孔器类型均为不规则型且均仅在下表皮随机分布,但气孔器的密度、大小等特征在不同居群间存在显著性差异.生境地的气候因子对青檀叶的特征产生一定的影响.结果表明:青檀叶的解剖特征在不同居群间差异性较大,青檀叶表皮的气孔密度等特征在居群间有一定差异,而气孔器类型和表皮细胞形状等特征较稳定,有一定的分类学价值.     

新疆12种黄芩属植物叶表皮微形态结构的研究

应用光学显微镜和扫描电镜技术对新疆12种黄芩属植物叶片上的微形态特征进行观察。结果表明:该属植物叶的上表皮细胞形状及垂周壁式样有多种形式;而下表皮细胞形状均为不规则形,垂周壁式样均为深波形,不具分类学意义,但叶片两面分布的气孔器,在不同种间气孔大小、气孔密度、气孔指数、气孔外拱盖内缘等方面都存在着显著差异;其表皮角质层纹饰和表皮毛的微形态也各有不同;大多数植物叶片表面具腺点,其大小、分布及疏密程度也有不同。植物叶表皮上的这些微形态特征,可为探讨本属种间的分类学及亲缘关系提供一定的佐证。     

黄独(Dioscorea bulbifera L.)不同居群叶表皮微形态特征的比较观察

应用扫描电子显微镜(SEM)对15个黄独(Dioscorea bulbifera L.)居群(11个野生居群及4个栽培居群)植株的叶表皮微形态特征(包括气孔器、表皮毛和气孔周围表皮细胞的特征)进行了观察和测量,并据此编制了15个黄独居群的检索表.观察结果表明:15个黄独居群植株叶片在气孔器外拱盖内缘类型,气孔器旋转方向,气孔长轴长度及密度和深度,叶片表皮毛的有无及类型,叶肉腺毛的长、短轴长度及密度,气孔周围表皮细胞垂周壁和平周壁的形态以及平周壁表面颗粒形状等特征上均有明显差异.气孔器外拱盖内缘有光滑和浅波状2种类型;气孔器的旋转方向分为不定向旋转、左旋和右旋3种方式;气孔长轴长度和密度的变化幅度分别为18.59～31.93 μm和86～356 mm-2.叶片表皮毛均仅存在于下表皮,可分为乳突和多细胞头单细胞柄腺毛2种类型,乳突主要分布于主脉,腺毛主要分布于二级脉和叶肉;叶肉腺毛的长、短轴长度的变化幅度分别为25.00～55.00和24.86～44.29μm,大部分居群腺毛密度的变化幅度为6～29 mm-2.叶片气孔周围表皮细胞垂周壁的形状有平直、平直隆起、平直脊状隆起、弯曲、弯曲脊状隆起和弯曲拱状隆起6种类型;表皮细胞平周壁的表面纹饰有具瘤条纹和光滑条纹2种形态,其扩散方式也有2种形式:一种为不环绕气孔且四方扩散,另一种为环绕气孔2～3周后扩散但扩散方向不定;平周壁上的颗粒形状有簇晶状、屑状、密集粉状、粉状、粒状和片状6种类型.比较分析结果显示:黄独不同居群叶表皮微形态特征的多态性较为丰富,地理分布相近的居群微形态特征的相似性较高,这些特征与黄独的各种下分类群相对应.     

15种铁角蕨科植物叶表皮形态特征的研究

利用光学显微镜对铁角蕨科15种植物的叶表皮形态特征进行观察。研究结果表明：（1）15种铁角蕨科植物的叶上、下表皮细胞形状为不规则型,垂周壁为深波状、波状或浅波状;上表皮细胞长宽比1.3~2.6,下表皮细胞长宽比1.3~4.1;（2）在15种铁角蕨科植物中共观察到7种气孔器类型,分别为腋下细胞型、不等细胞型、无规则四细胞型、无规则型、极细胞型、聚合极细胞型和聚腋下细胞型,每种植物具有2~5种气孔器类型,气孔均为下生型,多为椭圆形;气孔的长宽比1.12~2.81,气孔密度16.4~105.1个·mm^-2,气孔指数为5.7%~21.1%;（3）铁角蕨科植物叶表皮形态特征中的上表皮细胞形状、垂周壁形状、上表皮细胞长宽比、主要气孔器类型及衍生类型等具有一定的属内稳定性,可作为铁角蕨科属间分类的依据之一;（4）该研究在一定程度上支持秦仁昌和吴兆洪对铁角蕨科的划分以及铁角蕨属内分组和组内分系,并为铁角蕨科植物的分类鉴定及系统演化研究提供基础资料。     

15种蹄盖蕨科植物叶表皮形态特征的研究

利用光学显微镜对蹄盖蕨科15种植物的叶表皮形态特征进行观察和研究。结果表明:蹄盖蕨科15种植物的上、下表皮细胞均为无规则型,垂周壁为凹凸状或深波状;上表皮细胞长宽比在1.0~3.2之间,下表皮细胞长宽比在1.0~2.6之间;在这15种植物中共观察到6种气孔器类型,即极细胞型、腋下细胞型、聚合极细胞型、聚腋下细胞型、无规则四细胞型和无规则型,每种植物具有3~4种气孔器类型,气孔均为下生型,多呈椭圆形。气孔的长宽比在1.3~2.1之间;气孔密度在32~90个/mm2之间;气孔指数为17.7%~40.9%。依据上述叶表皮形态特征将15种蹄盖蕨科植物分为3类,即双盖蕨类、蹄盖蕨类和对囊蕨类。该研究在一定程度上支持Christenhusz分类系统对蹄盖蕨科的划分,为蹄盖蕨科植物的系统分类及演化研究提供基础资料。     

叉蕨科30种植物叶表皮形态特征研究

利用光镜对叉蕨科7属30种植物叶表皮形态特征进行详细观察研究。结果显示：（1）叉蕨科30种植物的叶上表皮和下表皮细胞形状均为不规则型,垂周壁式样为深波状或浅波状,具单晶或针晶;上表皮细胞的长宽比为1.62~4.0,下表皮细胞的长宽比为1.63~3.06。（2）在30种植物中共观察到7种气孔器类型,分别为：极细胞型、腋下细胞型、聚合极细胞型、聚腋下细胞型、不等细胞型、无规则四细胞型和不规则型,每种植物分别具有4~7种气孔器类型,均为下生型气孔;气孔长宽比为1.22~1.91,气孔密度为8~76个/mm²,气孔指数为3.9%~25.7%。（3）基于气孔器类型组成进行聚类分析,可将30种植物分成3个类群。（4）对叶表皮形态特征分析认为,轴脉蕨属应介于叉蕨属和肋毛蕨属之间,且与叉蕨属关系更近;叉蕨属的范畴还有待进一步研究;支持将肋毛蕨属从叉蕨科中分离出来置于鳞毛蕨科,但不支持黄腺羽蕨属归入鳞毛蕨科。     

中国蔷薇属植物叶表皮微形态特征及其系统学意义

应用光学显微镜和电子显微镜,对30种中国蔷薇属植物叶表皮的微形态特征进行了观察。结果表明:叶表皮细胞一般为多边形或不规则形,垂周壁平直、平直弓状、波状、浅波状和深波状式样;该属植物的叶表皮细胞大小种间差异较大,总体来看上表皮几乎全为多边形细胞,且上表皮细胞比下表皮细胞略大;在扫描电镜下观察,大部分细胞的平周壁下陷,仅部分细胞的平周壁突起;叶表皮角质层纹饰多样、即使同一个种的上下表皮细胞角质层纹饰微形态特征也有差异;大多植物叶片表面具柔毛,均为单毛,有长柔毛和短柔毛,大部分种类的柔毛基部无特化,其基部由普通的表皮细胞围绕着,少部分种类的柔毛基部由几个特化的辐射状细胞围绕着,少数植物无毛;有些植物叶表面或叶脉上还分布有腺毛;除了单叶蔷薇亚属的小蘗叶蔷薇1个种的上下表皮均分布有气孔器外,其余蔷薇亚属的29种植物的气孔器均分布在下表皮,形状为椭圆形、宽椭圆形和长椭圆形三种,气孔器类型有无规则型、不规则四细胞型、对位四细胞型、环列型和辐射型;气孔器外拱盖内缘近平滑或呈深浅不同的波状、气孔器外拱盖纹饰光滑或粗糙,大多植物气孔器的保卫细胞两级T型加厚;另外,只有小蘗叶蔷薇的气孔器具双层外拱盖且仅上表皮被毛等特征也说明了其在演化上的特殊地位,蔷薇属植物叶表皮的这些微形态特征,在属内各组间无明确的规律性,但可为探讨该属种间的分类学及亲缘关系提供依据。     

Extracellular matrix proteins of human epidermal keratinocytes and feeder 3T3 cells

Cultures of human epidermal keratinocytes obtained from adult epidermis were initiated using irradiated BALB/3T3 cells as feeder layers. At different stages of confluence of the epidermal islands, feeder cells were removed and the extracellular matrix proteins of both pure component cells and cocultures were analyzed biochemically and by immunochemical methods and compared to those of skin fibroblasts of the same donors. The keratinocytes synthesized and secreted fibronectin and small amounts of laminin and type IV collagen. In addition, a nondisulfide-linked collagenous polypeptide (Mr = 120,000) was synthesized by the keratinocytes and was confined to the cell layers. Collagenous polypeptides with Mr = 120,000 were also synthesized by organ cultures of epidermal tissue and were detected in its acid or detergent extracts but again no secretion to culture medium was found. The Mr = 120,000 collagen had biochemical and immunological properties distinct from those of types I-V collagens. In immunofluorescence of keratinocyte cultures, fibronectin staining was prominent in the lining marginal cells of the expanding periphery of the epidermal cell islands but was not detected in the terminally differentiating cells in the upper layers of stratified colonies. Very little type IV collagen was found deposited in pericellular matrix form by the keratinocytes. In contrast, the mouse 3T3 feeder cells were found to produce both type IV collagen and laminin in addition to the previously identified connective tissue glycoproteins of fibroblasts, interstitial procollagens, and fibronectin. Basement membrane collagen of the 3T3 cells was found deposited as apparently unprocessed procollagen alpha 1(IV) and alpha 2(IV) chains. The production in culture conditions of basal lamina glycoproteins by the fibroblastic feeder cells may promote the attachment and growth of the cocultured keratinocytes.     

中国大蒜芥属(十字花科)叶表皮微形态学研究

利用光学显微镜观察了中国十字花科大蒜芥属9种1变种植物的叶表皮形态。结果表明：中国大蒜芥属植物叶上表皮细胞通常为多边形,垂周壁平直或弓形,少有稍浅波状,叶下表皮细胞为不规则形,垂周壁波状或深波状;气孔器类型均以不等细胞型为主,少有无规则型,偶有平列型。依据叶表皮特征,可将中国大蒜芥属划分为三种类型： （1）叶上表皮无气孔分布或偶见; （2）叶上表皮气孔常明显几个聚成一簇或排成短列,气孔密度小于叶下表皮; （3）叶上表皮气孔比较均匀分布,气孔密度与叶下表皮近相似。     

Complex epidermal organs of Phascolion (Sipuncula): insights into the evolution of bimodal secretory cells in annelids

The epidermal organs of an undescribed Phascolion species from the Balearic Islands were investigated using SEM, TEM, LM, CLSM and μCT methods. We found axial receptor cells confirming the previously assumed sensory function of epidermal organs. Our analyses also revealed six types of secretory cells. Some secretory cells types are capable of secreting filamentous and amorphous secretion in two different ways simultaneously (bimodal secretion). The high diversity of cell types, the complex pattern of acinar units, and the absence of a common gland pore make epidermal organs of Phascolion unique amongst sipunculans (Phascolion type). Our reconstruction of the evolution of the epidermal organs of Sipuncula revealed that Phascolion‐type epidermal organs may have derived from either Golfingia‐, Sipunculus‐ or Phascolosoma‐type epidermal organs. The oldest known sipunculans were Golfingia‐like and had epidermal organs, which might resemble the architecture of the Golfingia‐type epidermal organs in extant taxa. Thus, it can be hypothesized that bimodal secretory cells (e.g. basophilic secretory cells) were part of the sipunculan ground pattern. Moreover, bimodal secretory cells of Phascolion look strikingly similar to those found in various annelid glands and thus might even be part of the ground pattern of stem species of Sipuncula + Pleistoannelida.     

Cell contact induces multiple types of electrical excitability from ascidian two-cell embryos that are cleavage arrested and contain all cell fate determinants

Ascidian early embryonic cells undergo cell differentiation without cell cleavage, thus enabling mixture of cell fate determinants in single cells, which will not be possible in mammalian systems. Either cell in a two-cell embryo (2C cell) has multiple fates and develops into any cell types in a tadpole. To find the condition for controlled induction of a specific cell type, cleavage-arrested cell triplets were prepared in various combinations. They were 2C cells in contact with a pair of anterior neuroectoderm cells from eight-cell embryos (2C-aa triplet), with a pair of presumptive notochordal neural cells (2C-AA triplet), with a pair of presumptive posterior epidermal cells (2C-bb triplet), and with a pair of presumptive muscle cells (2C-BB triplet). The fate of the 2C cell was electrophysiologically identified. When two-cell embryos had been fertilized 3 h later than eight-cell embryos and triplets were formed, the 2C cells became either anterior-neuronal, posterior-neuronal or muscle cells, depending on the cell type of the contacting cell pair. When two-cell embryos had been fertilized earlier than eight-cell embryos, most 2C cells became epidermal. When two- and eight-cell embryos had been simultaneously fertilized, the 2C cells became any one of three cell types described above or the epidermal cell type. Differentiation of the ascidian 2C cell into major cell types was reproducibly induced by selecting the type of contacting cell pair and the developmental time difference between the contacting cell pair and 2C cell. We discuss similarities between cleavage-arrested 2C cells and vertebrate embryonic stem cells and propose the ascidian 2C cell as a simple model for toti-potent stem cells.     

MORPHOGENESIS OF CAPITATE GLANDULAR HAIRS OF CANNABIS SATIVA (CANNABACEAE)

The glandular secretory system in Cannabis sativa L. (marihuana) consists of three types of capitate glandular hairs (termed bulbous, capitate-sessile, and capitate-stalked) distinguishable by their morphology, development, and physiology. These gland types occur together in greatest abundance and developmental complexity on the abaxial surface of bracts which ensheath the developing ovary. Bulbous and capitate-sessile glands are initiated on very young bract primordia and attain maturity during early stages of bract growth. Capitate-stalked glands are initiated later in bract growth and undergo development and maturation on medium, to full sized bracts. Glands are epidermal in origin and derived, with one exception, from a single epidermal initial. The capitate-stalked gland is the exception and is of special interest because it possesses a multicellular stalk secondarily derived from surrounding epidermal and subepidermal cells. Glands differentiate early in development into an upper secretory portion and a subtending auxiliary portion. The secretory portion, depending on gland type, may range from a few cells to a large, flattened multicellular disc of secretory cells. The secretory portion produces a membrane-bound resinous product which caps the secretory cells. Capitate-stalked glands are considered to be of particular evolutionary significance because they may represent a gland type secondarily derived from existing capitate-sessile glands.