黄连体内黄连素的组织器官定位和根尖屏障结构特征研究

黄连(Coptis chinensis)是毛茛科著名药材,该文研究了黄连体内黄连素在组织器官中的分布规律和根尖屏障结构特征。在白光和荧光显微镜下,组织器官中黄连素在蓝色激发光下自发黄色荧光,黄连素-苯胺兰对染研究细胞壁凯氏带和木质化,苏丹7B染色栓质层,间苯三酚-盐酸染色木质化。结果表明:黄连不定根初生结构为维管柱、内皮层、皮层、外皮层和表皮组成;次生结构以次生木质部为主、次生韧皮部和木栓层组成。黄连根茎初生结构由角质层,皮层和维管柱组成;次生结构由木栓层、皮层和维管柱组成,以皮层和维管柱为主。叶柄结构为髓、含维管束的厚壁组织层、皮层和角质层。黄连不定根的屏障结构初生结构时期由栓质化和木质化的内皮层、外皮层;次生结构时期为木栓层组成;根状茎的为角质层和木栓层。黄连素主要沉积分布在不定根和茎的木质部,叶柄的厚壁组织层,木质部和厚壁组织是鉴别黄连品质的重要部位。黄连根尖外皮层及早发育,同时初生木质部有黄连素沉积结合,可能造成水和矿质吸收和运输的阻碍,也是黄连适应阴生环境的重要原因。     

菰适应湿地环境的解剖和屏障结构特征研究

菰(Zizania latifolia)是一种多年生挺水植物,为了探讨该植物根、茎和叶的解剖结构、组织化学及其质外体屏障的通透性生理。该文利用光学显微镜和荧光显微镜,对菰的根、茎、叶进行了解剖学和组织化学研究。结果表明:(1)菰不定根解剖结构由外而内分别为表皮、外皮层、单层细胞的厚壁机械组织层、皮层、内皮层和维管柱;茎结构由外而内分别为角质层、表皮、周缘厚壁机械组织层、皮层、具维管束的厚壁组织层和髓腔。叶鞘具有表皮和具维管束皮层,叶片具有表皮,叶肉和维管束。(2)不定根具有位于内侧的内皮层及其邻近栓质化细胞和外侧的外皮层组成的屏障结构;茎具内侧厚壁机械组织层,外侧的角质层和周缘厚壁机械组织层组成的屏障结构,屏障结构的细胞壁具凯氏带、木栓质和木质素沉积的组织化学特点,叶表面具有角质层。(3)菰通气组织包括根中通气组织,茎、叶皮层的通气组织和髓腔。(4)菰的屏障结构和解剖结构是其适应湿地环境的重要特征,但其茎周缘厚壁层和厚壁组织层较薄。由此推测,菰适应湿地环境,但在旱生环境中分布有一定的局限性。     

入侵植物水花生解剖学和组织化学染色研究

水花生(Alternanthera philoxeroides)因其表型可塑性、高生长速率和快速无性繁殖能适应水、陆生境。该文利用光学显微镜和荧光显微镜对水、陆生境的水花生不定根、茎解剖结构、组织化学特征及质外体通透性进行了研究。结果表明:(1)水生境下,其不定根皮层中具较大裂生型通气组织,无次生生长,内皮层具凯氏带且栓质化,皮层和皮下层明显木质化。(2)在陆生环境下,其不定根有次生生长,胞间具通气组织,内皮层具凯氏带且栓质化,皮层和皮下层略木质化;此外,不定根还具额外形成层,产生次生维管束、薄壁组织和不定芽;多年生不定根中具直接分裂的薄壁组织,周皮具凯氏带,且栓质化和木质化。(3)水、陆生境下,其匍匐茎具髓和中空髓腔,发生次生生长,具裂-溶生型通气组织、单层内皮层、厚角组织和木质化且栓质化的角质层,陆生匍匐茎周皮栓质化且木质化。(4)水花生质外体屏障结构组成复杂,黄连素无法穿透质外体屏障结构。水花生的上述解剖学特征,是水花生适应水、陆生境的有力证据。     

中国蜘蛛抱蛋属植物营养器官的解剖学研究

首次对中国蜘蛛抱蛋属 9种植物的营养器官进行了解剖学研究。结果表明 :该属 9种植物的解剖结构基本相同。根和根状茎都由表皮、皮层和维管柱组成。根表皮下有单层薄壁细胞 ;内、外皮层均为一层五面加厚的厚壁细胞 ,内皮层外切向壁薄 ,呈马蹄形 ,外皮层内切向壁薄而外切向壁特别加厚 ,并栓质化 ,在横切面上形成一明显的厚壁组织环带 ;根为多原形。根状茎有明显的内皮层 ,周木维管束散生于维管柱的基本组织中 ;具有次生结构 ,次生保护组织为周皮。叶为等面叶 ,具有C4植物结构特征 ;气孔在上、下表皮均有分布 ,保卫细胞肾形 ,属四轮列型。该属植物的解剖结构与其生态环境相适应 ,体现了结构与功能的统一。     

双穗雀稗(Paspalum distichum)通透性生理和茎解剖结构补充研究

双穗雀稗根外皮层,茎角质层和茎节中的质外体屏障结构阻挡黄连素示踪液透过植物体。茎中机械组织包括周缘厚壁机械组织层,厚壁组织层和维管系统,髓部和皮层的蜂窝状厚角组织。茎中通气组织包括茎节间髓部和皮层的蜂窝状通气组织,茎节内的通气组织。双穗雀稗茎节间具有外侧、内侧和维管系统的质外体屏障,以及茎节周围质外体屏障的封闭结构。因此,该植物体完善的机械组织、通气组织、质外体屏障结构及其离子不通透性是其适应湿地环境的重要结构。     

菖蒲营养器官的解剖结构特征及其生态适应性

采用石蜡切片法和组织离析法观察湿地植物菖蒲Acorus calamus营养器官的解剖结构特征,并探讨与菖蒲生态适应性的关系。结果表明,菖蒲根状茎具有不定根,不定根的表皮由一层细胞组成,排列紧密;皮层由多层薄壁细胞组成,薄壁细胞破裂形成多数的通气道;内皮层存在细胞壁马蹄形加厚的凯氏带,维管柱具5原型初生木质部,具4~10个大型导管,形成发达的通气组织。根状茎外层表皮细胞类方形,外壁增厚;基本组织近表皮有厚壁细胞团,皮层薄壁细胞呈链状排列,中间有较大的通气组织,内皮层形成凯氏带,有大量导管附着在凯氏带周围;维管束散生于基本组织,中柱维管束为周木型。根状茎部分区域存在与内生菌共生形成的结瘤。叶是等面叶,叶肉组织薄壁细胞破裂形成大的通气组织,叶脉具有限外韧维管束,中间有一较大的导管。菖蒲的解剖结构特点与其湿地生长环境相适应,根状茎存在结瘤状内共生菌,具有净化污水作用,不定根发达适于分株繁殖。     

七叶一枝花根的显微结构及其内生真菌分布研究

本文采用石蜡永久制片和光学显微摄像的方法对七叶一枝花Parispolyphylla根的显微结构及其内生真菌的分布进行了研究。结果表明,七叶一枝花的根茎由栓皮层、薄壁组织及维管组织组成,其中栓皮层由4层细胞组成;薄壁组织的细胞含有丰富的营养物质,其内有时分布有针状结晶束。不定根由表皮层、皮层、内皮层及维管束构成,表皮上有根毛,皮层所占根径的比例达80%以上;木质部为三原型。在七叶一枝花的根茎和不定根的皮层细胞中均有内生真菌的分布。真菌由表皮、外皮层侵入到皮层薄壁组织,在皮层薄壁细胞中形成菌丝结,并扩展成一定的侵染区域,部分皮层细胞中菌丝结已被消化吸收。内生真菌只侵染皮层薄壁细胞,不侵染维管柱。七叶一枝花可以通过消化细胞内的菌丝作为营养的来源之一。     

大花蕙兰营养器官及原球茎的解剖学研究

对大花蕙兰试管苗营养器官及原球茎的解剖学研究结果表明：根由复表皮、皮层和维管柱组成,根毛丰富,皮层发达,内皮层明显,初生木质部月多元型,中央具髓,根茎由表皮,基本组织和维管束构成,维管束散生,属周木型;叶为等面叶,在上下表皮处分布有成束的厚壁组织,叶肉无栅栏组织和海绵组织之分,细胞排列紧密,维管束鞘由机械组织构成。原球茎原生分生组织的原套仅一层细胞,在顶端分生组织后面的薄壁细胞中,存在胚性细胞,由胚性细胞经球状胚可发育成幼原球茎。     

木贼类营养器官凯氏带类型的新观察

该研究用石蜡切片法比较观察了5种木贼科植物营养器官的内皮层及凯氏带,首次报道了2层内皮层及其凯氏带的形态特征及分布规律,并讨论各种类型的凯氏带及其与厚壁组织的协作防御机制。结果表明:(1)5种木贼的地下茎和根都只有1条凯氏带,其中4种木贼的地上茎有2条凯氏带。(2)木贼类营养器官具有3种凯氏带类型,即2层公共内皮层上各具有1条凯氏带、1层散生内皮层上的1条凯氏带、1层公共内皮层上的1条凯氏带。(3)木贼类地下茎和根都有发达的厚壁组织或致密的表皮。(4)问荆地上茎外侧内皮层具有复合内皮细胞。研究认为,木贼类植物凯氏带数量不能作为分类的依据;地下茎和根虽然只有1条凯氏带,但地下部分都有发达的厚壁组织或(和)与其紧密相连的表皮,推测厚壁组织或(和)表皮可能具有与凯氏带相同的功能;3种类型凯氏带的防御能力由强到弱依次是:2层公共内皮层上的凯氏带 1层散生内皮层上的凯氏带 1层公共内皮层上的凯氏带。     

野葛地下器官的解剖学研究

野葛（Ｐｕｅｒａｒｉ９ａ ｌｏｂａｔａ（ｗｉｌｌｄ．）Ｏｈｗｉ．）的地下器官包括初生根、块根、不定根和根状茎４部分。初生根为四原型,内皮层明显,可见到凯氏带。块根的次生木质部发达,民管周转存在额外形成层。成熟块根中积累丰富的淀粉。不定根为三原型,具次生结构。根状茎作为营养繁殖器官,产生不定根,其中不定根可发展成蓼根。无论初生根、收缩不定根或根状茎的细胞中均示发现淀粉积累,这可能与贮藏器官块根的发达     

荷叶铁线蕨孢子体解剖结构和组织化学特征研究

荷叶铁线蕨为岩生珍稀蕨类植物,分布在中国重庆市万州、涪陵等极少地区.为揭示荷叶铁线蕨生长特性,采集栽培在种质资源圃中的荷叶铁线蕨根样、根状茎、在阳光下生长和在阴暗环境下生长的叶片,固定于甲醛-酒精-乙酸溶液中,用双面刀片进行徒手切片,分别用三种0.1％苏丹红、0.1％硫酸氢黄连素-苯胺兰、0.05％甲苯胺蓝染色剂染色,...     

贺兰山10种不同植物的旱生结构研究

对贺兰山10种不同生活型植物的形态解剖研究表明,长期生长在干旱贫瘠环境中植物,均形成适应生境的一些特殊形态结构．叶器官主要表现在：（1）叶表面积与体积之比缩小,表面覆有厚的角质膜,并被有表皮毛,气孔下陷,具孔下室;（2）栅栏薄壁组织细胞明显增多,海绵薄壁组织细胞减少．有叶肉不分化叶、等而叶和异而叶3种结构形式;（3）叶内贮水组织和机械组织增强。轴器官主要表现在：（1）根普遍形成周皮,且木栓层细胞层数增多;（2）机械组织非常发达,在周皮、皮层和韧皮部中有许多厚壁细胞分布。维管组织中的木薄壁细胞的细胞壁也明显木质化加厚;（3）有些植物的根具有异常维管组织。另外,这些植物根、茎、叶中均有粘液细胞和含晶细胞分布。这些结构具有重要的适应干旱生境的意义。     

Seed treatment with growth regulators and crop productivity. I. 2,4-D as an inducer of salinity-tolerance in wheat (Triticum aestivum L.)

The paper investigates how the apoplastic route of ion transfer is affected by the outermost cortex cell layers of a primary root. Staining of hand-made cross sections with aniline blue in combination with berberine sulfate demonstrated the presence of casparian bands in the endo- and exodermis, potentially being responsible for hindering apoplastic ion movement. The use of the apoplastic dye Evan's Blue allowed viewing under a light microscope of potential sites of uncontrolled solute entry into the apoplast of the root cortex which mainly consisted of injured rhizodermis and/or exodermis cells. The distribution of the dye after staining was highly comparable to EDX analyses on freeze-dried cryosectioned roots. Here, we used Rb+ as a tracer for K+ in a short-time application on selected regions of intact roots from intact plants. After subsequent quench-freezing with liquid propane the distribution of K+ and Rb+ in cell walls was detected on freeze-dried cryosections by their specific X-rays resulting from the incident electrons in a SEM. All such attempts led to a single conclusion, namely, that the walls of the two outermost living cell sheaths of the cortex largely restrict passive solute movements into the apoplast. The ring of turgescent living rhizodermis cells in the root tip region forms the first barrier. With increasing distance to the root tip, in the course of their maturation resp. degradation, this particular function of the rhizodermis cells is replaced by the hypodermis resp. exodermis. Furthermore, the restriction of apoplastic ion flow by the outermost cortex cell layers is rather effective but not complete. Thus, the solute transfer into the stele is mainly restricted by the casparian bands of the endodermis. The overall conclusion is that the resistances of the rhizodermis and exodermis are additive to the endodermis in their role of regulating the apoplastic solute movement across roots. This revised version was published online in August 2006 with corrections to the Cover Date.     

Structural and Histochemical Features of the Slow-Growing Perennial <i>Coptis chinensis</i> Franch. (Ranunculaceae)

Huanglian (Coptis chinensis Franch.) is a slow-growing perennial medicinal herb with considerable economic value. This study aimed to determine the structural characteristics and the levels of berberine deposits in the organs and tissues of Huanglian using light and epifluorescence microscopy. The adventitious roots are composed of primary and secondary structures with endodermis, exodermis, and phellem. The rhizome structures are composed of primary and secondary structures with cuticle and phellem. The leaves are composed of sclerenchymatous rings, isolateral mesophyll, and thin cuticles. We detected berberine in the xylem walls of the roots and rhizomes as well as in the sclerenchymatous rings of the petioles. We postulate that as the exodermis is developed, the deposition of berberine in the xylem closest to the root tips may affect water and nutrient absorption and transfer. Leaf blades had a thin cuticle and isolateral mesophyll, suggesting shade tolerance. These structural and histochemical features suggest that Huanglian is adapted to the slow growing nature of a shady environment.     

Root and stem anatomy and histochemistry of four grasses from the Jianghan Floodplain along the Yangtze River, China

The present study examined anatomical and histochemical features of belowground axes of four grass species (Cynodon dactylon, Eremochloa ophiuroides, Hemerthria altissima, and Paspalum distichum) which occur in wetlands and can survive flooding. They may help to restore the degraded ecological environment of the floodplain in the Jianghan Plain and the Three Gorges Dam riparian zone of the Yangtze River, China. Brightfield and epifluorescence microscopy gave evidence that the roots of the four species share similar structures with each having endodermis and exodermis, with mostly Y-shaped Casparian walls, suberin lamellae, and lignified secondary cell walls. But the timing of wall deposit apposition and the degree of secondary thickening vary among the species. The root cortical aerenchyma is basically lysigenous. Rhizomes and stolons have an epidermis with thick cuticle, a peripheral, mechanically stiff ring with or without small embedded vascular bundles and a chlorenchyma. The cortex is of varying thickness, with or without collenchymas. A central core of vascular bundles is usually surrounded by a sclerenchyma ring of varying thickness, depending upon the species. Pith cavities and small cortical cavities are normal except for unusual honeycomb or expansigenous aerenchyma in one species. The peripheral mechanical ring and the sclerenchyma ring contain suberin and lignin, but no detectable Casparian bands. Even in non-flooded conditions, anatomical traits of these species provide adaptive features allowing them to occupy riparian zones as they occur at the Yangtze River.     

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。     

Changes of Leaf Morphological, Anatomical Structure and Carbon Isotope Ratio with the Height of the Wangtian Tree （Parashorea chinensis） in Xishuangbanna, China

Leaf morphological and anatomical structure and carbon isotope ratio （δ^13C） change with increasing tree height. To determine how tree height affects leaf characteristics, we measured the leaf area, specific leaf mass （ratio of leaf mass to leaf area [LMA]）, thickness of the total leaf, cuticle, epidermis, palisade and sponge mesophyll, stomata traits and δ^13C at different heights of Parashorea chinensis with methods of light and scanning electron microscopy （SEM） and isotope-ratio mass spectrometry. The correlation and stepwise regression between tree height and leaf structure traits were carried out with SPSS software. The results showed that leaf structures and δ^13C differed significantly along the tree height gradient. The leaf area, thickness of sponge mesophyll and size of stomata decreased with increasing height, whereas the thickness of lamina, palisade mesophyll, epidermis, and cuticle, ratios of palisade to spongy thickness, density of stomata and vascular bundles, LMA and δ^13C increased with tree height. Tree height showed a significant relationship with all leaf indices and the most significant relationship was with epidermis thickness, leaf area, cuticle thickness, δ^13C. The δ^13C value showed a significantly positive relationship with LMA （R = 0.934）. Our results supported the hypothesis that the leaf structures exhibited more xeromorphic characteristics with the increasing gradient of tree height.