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1.
A anatomical characters of secondary phloem in Glyptostrobus pensilis (Staunt.)Koch were observed by means of both light and scanning electron microscopy(SEM). The secondary phloem is composed of axial and radial systems. In the axial systems, the phloem consists of sieve cells, phloem parenchyma cells, albuminous cell and phloem fibers. In the radial systems, it consists of phloem rays. The alternate arrangement of different cells in cross section results in tangential bands. The sequence of radial arrangement follows the pattern of sieve cells, phloem parenchyma cells, sieve cells and phloem fibers, sieve cells. Many crystals of calbium oxalate are embedded in the radial walls of seive cells. The phloem fibers are of only one type. The phloem rays are homogeneous, uniseriate. According to the anatomical characters of secondary phloem of Glyptostrobus pensilis (Staunt.)Koch and comparison with the other genera of Taxodiaceae, Glyptostrobus, Metasequoia and Taxodium have close relationships.  相似文献   

2.
The family Cephalotaxaceae contains only one genus, Cephalotaxus, with 9 species and some varieties, mostly endemic to China. The present paper deals with the comparative anatomy of secondary phloem of stems in 4 species and I cultivar, of this genus under light microscope and scanning electron microscope. The main results are as follows: (1) The structure of secondary phloem is rather uniform in the various species of this genus. In cross section, sieve cells, phloem parenchyma cells form continuous tangential rows of one cell in width respectively, which occur alternately. Sclerenchyma cells also form continuous tangential rows, each with a radial width of 1-4 cells. The interval between the rows is rather wide. (2) The type of phloem fiber and the quantity of sclereids can be served as the characters for identification of species and the evidence for the separation of two sections of Cephalotaxus, namely: Cephalotaxus and Pectinatae. (3) The secondary phloem of this genus contains more or less crystalliferous parenchyma cells, in the inner tangential walls of which calcium oxalate crystals are embedded. So far this character has not been reported in the other families and the genera of conifers. Our conclusion, therefore, agrees with the opinion that Cephalotaxaceae is a natural taxon and includes only one genus, Cephalotaxus.  相似文献   

3.
水松的次生韧皮部解剖及其系统位置的讨论   总被引:3,自引:0,他引:3  
在光学显微镜和扫描电子显微镜下观察,水松茎次生韧皮部的主要特征为:韧皮部由轴向系统和径向系统组成。轴向系统由筛胞、韧皮薄壁组织细胞、蛋白细胞和韧皮纤维组成,径向系统由韧皮射线组成。在横切面上,轴向系统的各组成分子以单层切向带交替有规律的排列,其排列顺序为:筛胞-韧皮薄壁组织细胞-韧皮纤维-筛胞。筛胞的径向壁上嵌埋有草酸钙结晶,韧皮纤维仅一种类型,韧皮射线同型、单列。根据水松茎次生韧皮部的解剖研究,并与杉科其它各属的有关资料进行比较,我们认为:水松属与水杉属和落羽杉属有较近的亲缘关系。  相似文献   

4.
The anatomical structures, especially the type, distribution and arrangement of the constituent elements in the secondary phloem of Euonymus bungeanus Maxim. have been studied. The results showed that the secondary phloem was thicker, consisted of sieve-tube elements, companion ceils ,phloem parenchyma cells ,secretory ceils and rays. Sieve-tube elements, phloem parenchyma cells and secretory cells were alternately arranged in tangential bands, forming a conspicuous zone-like constitution. There was no obvious boundary between the functional phloem and the non-functional phloem. Sieve-tube elements were long, slender cells with very oblique end walls and compound sieve plates. Sieve areas on lateral wall were highly differentiated. Companion cells were triangular in transection and slender in radial section. Mostly,two or three companion cells stayed along with one sieve-tube element. In the functional phloem, phloem parenchyma cells were also slender, containing a few starch grains;but in the nonfunctional phloem they enlarged and contained abundant starch grains. Secretory cells were longer than sieve-tube elements, consisting of rubber-like material. Rays were uniseriate. Finally, the authors also discussed the phylogenetic position of E. bungeanus, which may provide some references for further study of the classification of different genera of Celastraceae.  相似文献   

5.
 以辽东栎(Quercus liaotungensis)的13年生幼树为材料,分别培养在大气CO2浓度加倍(700μl·L-1)与对照(350μl·L-1)的开顶式熏气室中,研究CO2浓度升高对其茎次生木质部和次生韧皮部结构的影响。结果表明:经CO2浓度加倍处理的两个生长季内,辽东栎的年轮宽度明显增加,为对照的300%~370%,其中晚材宽度的增加更为显著,为对照的750%~830%。另外,晚材中导管的密度和径向直径分别比对照增加50%和20%;木纤维细胞的比例约为对照的170%。但早材的导管分子和木纤维细胞与对照相比均无显著变化。在CO2浓度加倍条件下,辽东栎的次生韧皮部中含晶韧皮薄壁细胞的数目,每条韧皮纤维切向带中韧皮纤维细胞的数目,以及韧皮纤维长度均有显著增加(p≤0.05)。相反地,韧皮纤维细胞的直径和筛管分子长度却无明显变化。值得提出的是,在CO2浓度加倍的条件下,次生韧皮部的宽度、筛管分子的直径、以及每年形成的韧皮部细胞总数分别为对照的82%、87%和80%。综上所述,大气CO2浓度加倍对辽东栎次生木质部的生长发育具明显的正效应,而对次生韧皮部的细胞总数与筛管分子的影响则呈负效应。  相似文献   

6.
A comparative anatomical study on the secondary phloem of 5-genera, 10 species in Celastraceae was carried out. Based on the phloem structure characters, 3 phloem types were observed. In type Ⅰ , as seen in 5 species of Euonymus, the sieve-tube elements have more inclined end walls and numerous sieve areas (compound sieve plates), phloem rays are almost uniseriate. Type Ⅱ is seen in Celastrus and Tripterygium. It has relatively short sievetube elements, slight inclined end wall and sparse number of sieve areas: the phloem fiber is not lignified and ray is multiseriate. Type Ⅲ is observed in Dipentodon and Perrottetia, the sieve-tube elements are with simple sieve plate, the end wall is almost transverse, there are sclereid and fiber groups in the nonfounctional phloem, and phloem rays are uniseriate or biseriate.  相似文献   

7.
红豆杉科次生韧皮部的比较解剖   总被引:3,自引:0,他引:3  
在光学显微镜及扫描电镜下,比较观察了红豆杉科Taxaceae5属即红豆杉属Taxus,白豆杉属Pseudotaxus、穗花杉属Amentotaxus,榧树属Torreya和澳洲红豆杉属8种植物茎次生韧皮部的结构。其主要结果为:红豆杉科植物茎次生皮部由轴向系统和径向系统两部分构成。轴向系统由筛胞,韧皮薄壁组织细胞,蛋白细胞及韧皮纤维组成;径向系统由韧皮射线构成,但是,在横切面上,各个组成分子的层次有  相似文献   

8.
Among oxidases, cytochrome oxidase has been localized in mitochondria of all phloem cells, catalase has been visualized in parenchyma peroxisomes and peroxidase has been localized in cell walls and in several cell organelles. In angiosperms, peroxidase is present in all phloem cell walls; it is sensitive to cyanide inhibition excepted in sieve areas and around plasmodesmata between sieve tubes and companion cells. In some species, this cyanide resistant oxidasic activity can be localized without exogenous H2O2. Peroxidase is localized on ribosomes, inside vacuoles, on the tonoplast and often on the plasmalemma in companion cells and differentiating sieve elements. In young sieve cells some dictyosomes can exhibit a strong peroxidasic activity. In mature parenchyma cells peroxidase can be associated with ER cisternae but not with vacuoles.  相似文献   

9.
This paper emphatically deals with the ultrastructure of albuminous cells in different stages of development in the secondary phloem of Pinus bungeana. The secondary phloem of Pinus bungeana is composed of sieve cells, axial parenchyma cells, radial plates and rays. Among the constituents, most of upright ray cells and radial plate parenchyma cells are albuminous cells. Although the shape and distribution of this kind of albuminous cells may be different, they possess the following common cytological characteristics. These cells have dense cytoplasm with abundant mitochondria, ribosomes, rough endoplasmic reticula and a large nucleus, the nuclei of some albuminous cells are lobed in shape which increases the outer surface of the nuclei. Usually the albuminous cell contains some starch granules, the quantity of the starch granules in albuminous cells is less than the other parenchyma cells of the secondary phloem. All these cytological characteristics suggest that albuminous cells are active physiologically. The distinguishing characteristics of albuminous cells from other parenchyma ceils are that the albuminous cells are associated with sieve cells through unilateral sieve area and they died together with the sieve cells.  相似文献   

10.
In Ipomoea hederifolia Linn., stems increase in thickness by forming successive rings of cambia. With the increase in stem diameter, the first ring of cambium also gives rise to thin-walled parenchymatous islands along with thick-walled xylem derivatives to its inner side. The size of these islands increases (both radially and tangentially) gradually with the increase in stem diameter. In pencil-thick stems, that is, before the differentiation of a second ring of cambium, some of the parenchyma cells within these islands differentiate into interxylary phloem. Although all successive cambia forms secondary phloem continuously, simultaneous development of interxylary phloem was observed in the innermost successive ring of xylem. In the mature stems, thick-walled parenchyma cells formed at the beginning of secondary growth underwent dedifferentiation and led to the formation of phloem derivatives. Structurally, sieve tube elements showed both simple sieve plates on transverse to slightly oblique end walls and compound sieve plates on the oblique end walls with poorly developed lateral sieve areas. Isolated or groups of two to three sieve elements were noticed in the rays of secondary phloem. They possessed simple sieve plates with distinct companion cells at their corners. The length of these elements was more or less similar to that of ray parenchyma cells but their diameter was slightly less. Similarly, in the secondary xylem, perforated ray cells were noticed in the innermost xylem ring. They were larger than the adjacent ray cells and possessed oval to circular simple perforation plates. The structures of interxylary phloem, perforated ray cells, and ray sieve elements are described in detail.  相似文献   

11.
应用透射电镜技术研究了宁夏枸杞果实韧皮部细胞的超微结构变化。结果表明:(1)随着枸杞果实的发育成熟,果实维管组织中的韧皮部筛分子筛域逐渐变宽,筛孔大而多,通过筛孔的物质运输十分活跃;筛分子和伴胞间有胞间连丝联系,伴胞属传递细胞类型,与其相邻韧皮薄壁细胞和果肉薄壁细胞连接处的细胞界面发生质膜内突,整个筛分子/伴胞复合体与韧皮薄壁细胞之间形成共质体隔离,韧皮部糖分的卸载方式主要以质外体途径进行。(2)韧皮薄壁细胞间的胞间连丝较多,而韧皮薄壁细胞与果肉薄壁细胞的胞间连丝相对较少,但果肉薄壁细胞间几乎无胞间连丝;果肉薄壁细胞之间胞间隙较大,细胞壁和质膜内突间形成较大的质外体空间,为质外体的糖分运输创造了条件。(3)筛管、伴胞、韧皮薄壁细胞和果肉薄壁细胞中丰富的囊泡以及活跃的囊泡运输现象,暗示囊泡也参与了果实糖分的运输过程。研究推测,枸杞果实韧皮部同化物的卸载方式以及卸载后的同化物运输主要以质外体途径为主。  相似文献   

12.
We investigated the phloem loading pathway in barley, by determining plasmodesmatal frequencies at the electron microscope level for both intermediate and small blade bundles of mature barley leaves. Lucifer yellow was injected intercellularly into bundle sheath, vascular parenchyma, and thin-walled sieve tubes. Passage of this symplastically transported dye was monitored with an epifluorescence microscope under blue light. Low plasmodesmatal frequencies endarch to the bundle sheath cells are relatively low for most interfaces terminating at the thin- and thick-walled sieve tubes within this C3 species. Lack of connections between vascular parenchyma and sieve tubes, and low frequencies (0.5% plasmodesmata per μm cell wall interface) of connections between vascular parenchyma and companion cells, as well as the very low frequency of pore-plasmodesmatal connections between companion cells and sieve tubes in small bundles (0.2% plasmodesmata per μm cell wall interface), suggest that the companion cell-sieve tube complex is symplastically isolated from other vascular parenchyma cells in small bundles. The degree of cellular connectivity and the potential isolation of the companion cell-sieve tube complex was determined electrophysiologically, using an electrometer coupled to microcapillary electrodes. The less negative cell potential (average –52 mV) from mesophyll to the vascular parenchyma cells contrasted sharply with the more negative potential (–122.5 mV) recorded for the companion cell-thin-walled sieve tube complex. Although intercellular injection of lucifer yellow clearly demonstrated rapid (0.75 μm s-1) longitudinal and radial transport in the bundle sheath-vascular parenchyma complex, as well as from the bundle sheath through transverse veins to adjacent longitudinal veins, we were neither able to detect nor present unequivocal evidence in support of the symplastic connectivity of the sieve tubes to the vascular parenchyma. Injection of the companion cell-sieve tube complex, did not demonstrate backward connectivity to the bundle sheath. We conclude that the low plasmodesmatal frequencies, coupled with a two-domain electropotential zonation configuration, and the negative transport experiments using lucifer yellow, precludes symplastic phloem loading in barley leaves.  相似文献   

13.
大关杨的输导韧皮部限于当年新生的次生韧皮部。4月中旬至5月中旬大量出现,7月底停止发育。其成熟筛分子中具一细胞核,以后才消失。前一个生长季产生的筛管变形,故二个生长季的韧皮部蛤限明显。韧皮纤维出现迟,呈切向束状分布。含晶细胞分布于纤维束两侧。木栓形成层5月中旬开始活动,7月进入发育高峰。  相似文献   

14.
Periodicity of cambium activity, seasonal changes of the secondary phloem and longevity of sieve tube in main trunk of Dalbergia balansae Prain and in the twig of D. szemaoensis Prain were observed. The results are as follows: 1. All cambia fall under the category of storied type. 2. In D. balansae cambial activity begins in late April and ends in early November. Phloem differentiation is completed by early November. Xylem differentiation ceases in December. In D. szemaoensis cambial activity continues from mid-April to late October. Phloem and xylem differentiation ceases by late November. 3. The width of functional phloem zone is maximal (400—600 μm) in autumn and minimal (200—370 μm) in February to April. In overwintering, functional sieve tube elements contain P-protein, and the pores of sieve plate are open. It could be one of the reasons that these two species are promising host trees of Kerria yunnanensis during winter. 4. The longevity of sieve tubes in D. balansae and D. szemaoensis last 8—12 months and 9—11 months respectively. 5. During dormancy of cambium, the parenchyma cells of the secondary phloem contain large quantities of starch grains and calcium oxalate crystals, which decrease as cambium becomes active and remain little or even non visualized in summer.  相似文献   

15.
Early in April of 1987, cells in an undifferentiated state which overwintered on the phloem side of the cambial zone in the branch of Pterocarya stenoptera began to differentiate into merebets of phloem. Cambium divided actively in mid-April and ceased to decide by early-Novembet. Five to eleven bands of fibers alternating with the bands of sieve tubes, companion cells and phloem parenchyma cells produced every year. By mid to late April, new xylem differentiation began. Phloem and xylem differentiation ceased almost simultaneously. Functional sieve tube elements were present all the year round in the phloem. During winter, most sieve tubes produced in the current year ceased functioning, leaving only the zone of functional sieve tube of several rows of cells in width with open pores in the sieve plates. These sieve tubes did not collapse until mid-May. In October, several rows of partially differentiated sieve elements appeared near the cambial zone. They still possessed nuclei. The companion cells had produced but no P-protein. They matured during April of the following year and collapsed by July to September. The life span of sieve elements extended for 8 months at the most. In winter, there were less functional sieve tubes in the branch. This may be one of the reasons that only few Kerria yunnanensis survive on the branch of Pterocarya stenoptera.  相似文献   

16.
The Phloem of Nelumbo nucifera Gaertn   总被引:1,自引:0,他引:1  
ESAU  KATHERINE 《Annals of botany》1975,39(4):901-913
In common with other aquatic angiosperms, Nelumbo nucifera Gaertn.has a relatively strongly developed phloem tissue. The vascularsystem consists of discrete collateral bundles in which no cambiumdevelops and the phloem and xylem are separated by a narrowlayer of parenchyma cells. The phloem consists of sieve elements,companion cells, and phloem parenchyma cells. The sieve elementshave transverse end walls with simple sieve plates. The cellsattain considerable width in the late phloem (metaphloem). Thecompanion cells are in vertical strands. In the early phloem(protophloem) of large bundles the sieve tubes and companioncells are eventually obliterated. The parenchyma cells alsoform vertical strands which may contain tannin cells. Some parenchymacells and companion cells are binucleate. The sieve elementsshow ultrastructural features common for these cells in dicotyledons.At maturity, they lack nuclei, ribosomes, and tonoplasts, butretain a plasmalemma, mitochondria, and plastids. The latterare poorly differentiated and form starch. The endoplasmic reticulumis in part stacked, in part it forms a network next to the plasmalemma.The P-protein occurs in two forms. One consists of tubules notassembled in any specific type of array. The other, possiblycomposed of much extended tubules, is assembled in crystallineaggregates which are retained as such in mature cells. The sieveplate pores are lined with callose and plasmalemma. The lateralwalls are relatively thin and the nacreous layer varies in degreeof distinctness.  相似文献   

17.
Secondary phloem anatomy of several species of Cycadeoidea is described from trunks in the Wieland Collection, Peabody Museum of Natural History. The trunks were collected from the Lakota Formation, Lower Cretaceous, Black Hills of South Dakota. Secondary phloem is extensively developed and consists of alternating, tangential bands of fibers and sieve elements, with rare phloem parenchyma. Uniseriate rays, 2-22 cells high, occur between every one to three files of the axial system. Fibers are long, more than 1200 μm, approximately 26.6-34.2 μm in diameter, and have slit-like apertures on the lateral walls. Sieve elements range from 16-25 μm in diameter and are up to 500 μm long. Elliptical sieve areas appear on both end and radial walls and measure 10 μm across; minute spots, which may represent sieve pores, are present within the sieve areas. Secondary phloem of North American Cycadeoidea is similar in organization (alternating tangential bands) and cell types (sieve cells, fibers, axial parenchyma) to that known in other extant and fossil cycadophytes and some seed ferns. The unusual pattern of cell types and thickness of secondary phloem is discussed in the context of plant habit, phloem efficiency, and potential phylogenetic importance.  相似文献   

18.
竹子节部“韧皮部结”的发育与超微结构   总被引:6,自引:0,他引:6  
研究了中国最为重要的经济竹种毛竹(Phyllostachys edulis (Carr.)H.de Lehaie)节部“韧皮部结”的个体发育、构成该结构细胞的形态学特征及其超微结构,探讨了该结构可能的生理功能。“韧皮部结”的发育直接来源于原形成层,发生在维管束分叉处,一般成对出现。“韧皮部结”外形呈纺锤体状,一般由4~6层细胞形成叠生构造。构成“韧皮部结”的细胞可以区分为两类,一类是位于纺锤体中部  相似文献   

19.
Stem anatomy and development of medullary phloem are studied in the dwarf subshrub Cressa cretica L. (Convolvulaceae). The family Convolvulaceae is dominated by vines or woody climbers, which are characterized by the presence of successive cambia, medullary- and included phloem, internal cambium and presence of fibriform vessels. The main stems of the not winding C. cretica shows presence of medullary (internal) phloem, internal cambium and fibriform vessels, whereas successive cambia and included phloem are lacking. However, presence of fibriform vessels is an unique feature which so far has been reported only in climbing members of the family. Medullary phloem develops from peri-medullary cells after the initiation of secondary growth and completely occupies the pith region in fully grown mature plants. In young stems, the cortex is wide and formed of radial files of tightly packed small and large cells without intercellular air spaces. In thick stems, cortical cells become compressed due to the pressure developed by the radial expansion of secondary xylem, a feature actually common to halophytes. The stem diameter increases by the activity of a single ring of vascular cambium. The secondary xylem is composed of vessels (both wide and fibriform), fibres, axial parenchyma cells and uni-seriate rays. The secondary phloem consists of sieve elements, companion cells, axial and ray parenchyma cells. In consequence, Cressa shares anatomical characteristics of both climbing and non-climbing members. The structure of the secondary xylem is correlated with the habit and comparable with that of other climbing members of Convolvulaceae.  相似文献   

20.
The anatomy of secondary xylem and secondary phloem in Dipentodon sinicus Dunn a precious and protected plant in China was studied, and compared with the wood anatomy of 8 other genera in Celastraceae. The main characteristics of this genus were described as follows: vessel members length were relatively long with scalariform perforations in oblique end walls, which were formed by 14 (9--28) bars. Intervessel pits possessed scalariform pattern. Libriform fibres and tracheid-fibres were septate. The sieve tube elements of the secondary phloem were relatively shorter, with simple sieve plates in the slightly inclined to almost horizontal end walls. There was no obvious boundary between the functional and non-functional phloem. In the Baileyan sense, the secondary xylem possessed a lower level of specialization, and displayed an obviously primitive and conservative character. In contrast, the secondary phloem possessed a higher level of specialization and displayed advanced characters. Therefore, the phylogenetic evolution between xylem and phloem was not synchronous in this genus. The result provided a novel pattern in the development of xylem and phloem structure which has not been noticed before.  相似文献   

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