单性木兰属花粉形态观察

本文对单性木兰（ＫｍｅｒｉａｓｅｐｔｅｎｔｒｉｏｎａｌｉｓＤａｎｄｙ）的花粉形态和花粉壁的亚显微结构做了详细观察。花粉椭圆形,具单沟;外壁表面较粗糙,具皱波状间小穴纹饰;外壁分层明显,柱状层发育较好。     

Pollen Morphology of Loxostemon (Cruciferae) in China

The present paper deals with the pollen morphology of 10 species and 1 variety of Loxostemon in China. The pollen grains were all examined under light microscope. The pollen grains of Loxostemon are subspheroidal, spheroidal or prolate, 18--33×11.8-28 μ in size, 3-colpate, colpi 15-21 μ long and 1-2 μ wide. The exine is 1.5-3 μ thick with two indistinct or distinct layers. All the pollen grains are generally reticulate under light microscope. They are distinctly or obscurely and finely reticulate. L. axillus and L. repens are generally similar in gross morphology, but the pollen grains of these two species are different. The pollen grains of L. axillus are regularly polygonally reticulate, colpi are acute-ended and the exine is about 3 μ thick, whereas those of L.repens are irregularly polygonally reticulate, colpi are enlarged at both ends and the exine is about 2.8 μ thick. L. incanus and L. stenolobus appear to have similar gross morphology, but the pollen grains of the former have exines with two distinct layers and a densely and finely reticulate ornamentation and those of the latter have exines with two indistinct layers and a flexuosely reticulate ornamentation.     

The Pollen Morphology and Exine Ultrastructure of Paeonia L in China

The pollen morphology of 9 species of Paeonia L. has been investigated with both light microscope and scanning electron microscope. In addition, the exine structure of pollen grains of Paeonia suffruticosa and P. lactiflora was examined by transmission electron microscope. Tricolporoidate aperture is an important character of the pollen grains of the Paeonia. The surface of the exine is characterized by reticulate, foveolate and irregularly tuberculate-foveolate sculpture under the SEM. Thin sections of the pollen of this genus shows that the layers of exine are complete i.e. a perforate rectum to semitectum, columellae and foot layers. The endexine is continuous, considerably thickened in the aperture areas and relatively thin or indistinct in the mesocolpia. Paeonia has been placed in Ranunculaceae. But since the beginning of this century many authors have suggested to separating Paeonia from Ranunculaceae. Pollen marphology supports such separation. In Ranunculaceae most pollen grains are tricolpate or have other types of aperture, and exine with spinules and perforations between them. In electron microscopy, the ektexine contains a foot layer, columellae, and perforate rectum, the columellar layer with two types of columellae; the endexine is generally thin. However, the columellar layer of Paeonia has only monomorphic columellae. Some authors considered that there is a close relationship between Paeonia and the Dilleniaceae, but these also differ in the characters of the pollen grains. In Paeonia the constriction of the colpus in equator is in some degree similar to that of Theaceae (Camellia sasanqua Thunb.), Guttiferae (Hypericum L.), Actinidiaceae and Rosaceae. But in the other respects they are quite different. In sum, the pollen morphology of Paeonia is unique. So the palynological information supports Takhtajan's view that Paeonia should be elevated to a family (Paeoniaceae) or order (Paeoniales).     

Pollen Morphology of Guttiferae in China

The present paper deals with the pollen morphology of 23 species belonging to 6 genera of Guttiferae occurred in China. All pollen grains have been observed under light microscope, and those of 11 species in 5 genera have been examined with SEM as well. The pollen grains of Guttiferae are subspheroidal, spheroidal or prolate, (17–43) × (15–26)μ in size. Mostly 3-eolporate, less frequently 4-colporate or 5-colporate. The exine is 2-layered, but the occassionally demarcation of these layers is generally indistinct. The exine is 0.8–2.6 μ in thickness. The oramentations of all the pollen grains is generlly finely reticulate under the light microscope. Pollen morphology of the 11 species of 5 genera observed under the SEM is stressed. Their exine oramentations may be classified into four major groups, ie. reticulate, finely reticulate, baculate and perforate. Calophyllum: pollen grains reticulate and rugulo-reticulate. Cratoxylon: pollen grains reticulate, with finely and densely granulate over entire muri. Gareinia: pollen grains baculate, reticulate, and exine with perforate oramentation; in reticulate grains, muri with spinulation. Hypericum: pollen grains reticulate, perforate and finely reticulate. Mesua: pollen grains finely reticulate. From the comparison of pollen morphology, Hypericaceae has much connection with Guttiferae (sensu stricto). Because their pollen grains are all 3-eolporate and the exine is reticulate or oerforate under light mieroseope, but it is different between the pollen grains of Hypericum and those of Guttiferae.     

Pollen morphology and phylogenetic relationships in neotropical Phyllanthus (Euphorbiaceae)

In order to provide new insights into phylogenetic relationships among the neotropical taxa of Phyllanthus , 28 illustrations are provided of the pollen grains of 22 selected species studied from 11 sections of the subgenera represented in the neotropics. Special attention has been given to subgenus Conami because of its variability in pollen morphology: of eight species illustrated, the apertures are diploporate colpi in three species and pores in five species; exine ornamentation is vermiculate in two species and pilate in the other six species. The six species in the neotropical sections Pityrocladus and Microglochidion (subgenus Emblica ) are characterized by prolate grains with an increased number of colpi (4–8). Of particular interest are species in which the pollen exine is clypeate (with exine shields); clypeate pollen grains are illustrated in two species of subgenus Xylophylla and in one species of section Cyclanthera that has unique exine shields with single central pila. The pollen of the one Brazilian phylloclade-bearing species illustrated (in section Choretropsis ) has 3-colporate grains with reticulate exine, typical for subgenus Phyllanthus , and very different from the clypeate grains of the West Indian phylloclade-bearing species in section Xylophylla . This pollen evidence clearly demonstrates homoplasy in the origin of phylloclades in Phyllanthus . Pollen morphological data suggest that the neotropical taxa of Phyllanthus have arisen following colonization from Africa (subgenus Kirganelia ) and Asia (subgenus Emblica ). © 2002 The Linnean Society of London, Botanical Journal of the Linnean Society , 2002, 138 , 325–338.     

EVOLUTION OF EXINE STRUCTURE IN THE POLLEN OF PRIMITIVE ANGIOSPERMS

Diversity in the structure of the exine in 35 families of the ranalean complex is compared through a series of representative scanning electronmicrographs, and evolutionary trends in exine structure of primitive angiosperms are outlined, along with discussion of the significance of these data for understanding the evolution of exine structure in flowering plants as a whole. In order to reduce ambiguity in the palynological literature, it is suggested that persons undertaking light microscope studies of unstained, acetolyzed pollen grains adopt the morphological terms sexine-nexine in describing pollen wall layers while restricting their use of the chemically defined terms ektexine-endexine largely to pollen studies carried out with the transmission electron microscope. This study emphasizes that a clear understanding of the palynological concept of structure versus sculpturing is a necessary prerequisite for the taxonomic/ phylogenetic use of pollen wall morphology. Finally, data from investigation of a number of ranalean families of primitive angiosperms support the conclusion that the direction of a recurrent and major evolutionary trend in exine structure of flowering plants proceeds from pollen that is tectate-imperforate to tectate-perforate pollen to semitectate pollen, and more rarely, to pollen grains that are intectate.     

FINE STRUCTURE OF PARKINSONIA ACULEATA POLLEN. I. THE POLLEN WALL

Larson , Donald A., and C. Willard Lewis , Jr . (U. Texas, Austin.) Fine structure of Parki nsonia aculeata pollen. I. The pollen wa ll. Amer. Jour. Bot. 48(10): 934–943. Illus. 1961.—Fresh pollen samples and chemically fossilized pollen samples were fixed in either potassium permanganate or osmium tetroxide and some sectioned material was poststained in an effort to demonstrate the various wall components existing in pollen of P. aculeata. The exine was observed to be consistently 2-layered with the layers corresponding to the endexine and ektexine demonstrated with basic fuchsin staining by optical microscopy. The exine also contained an extensive system of internal channels. Aperture membranes contained laminate-globulate fine structure, and this has been interpreted as a modification for the maintenance of membrane continuity through changes in pollen grain volume.     

Study on the Pollen Morphology of the Chinese Family Oleaceae

This paper deals with the pollen grains of 11 genera, 22 species in Chinese Oleaceae. A comparative study on the pollen grains was carried out by means of scanning electron microscope and light microscope. The pollen grains of the family Oleaceae are almost spheroidal, oblate and prolate, in polar view tlie majority of the pollen grains are tri-lobulate-circular, the minority are tetra-lobulate-circular and dilobulate-circular. Pollen size: (15-65) × (12- 60)μ, 3-colporate and 3-colpate the minority of the pollen grains 4-colpate and 2- colpate colpus usually distinct and the en doaperature vague. The exine oonsists of two layers, the sexine thicker than the nexine, with big reticulum or fine reticulum, the majority of the reticulum are very distinct. On the basis of the pollen size and exine ornamentation, the pollen grains are divided into following two main types: (1) The larger pellen grains and the exine with big reticulum are found in the genera: Jasminum, Nyctanthes, Ligustrum, and Syringa. (2) The smaller pollen grains and the exine with finer reticulum are found in the genera: Osmanthus, Olea, Chionanthus, Fraxinus, Forsythia, Fontanesia and Linociera. In view of the features of pollen morphology, this family is much similar to the family Itamamelidaeeae. For example, the first pollen type resembles the genus Coryiopsis of the family Hamamelidaceae, but there are some differences between them, the former with a bigger reticulate exine and without any colpal membrane, the latter with a finer reticulate apocolpium and eolpate membrane. The second pollen type is much similar to that of the genera Hamamelis and Loropetalum of family Hamamelidaceae.     

水鳖科9属15种植物花粉形态的研究

应用光学显微镜、扫描电镜和透射电镜对水鳖科Hydrocharitaceae 9属15种植物的花粉形态进行 了观察。水鳖科植物花粉为圆球形至近椭球形,无萌发孔或偶为单沟萌发孔,外壁纹饰通常为小刺状纹 饰,刺密集或稀疏,花粉表面具瘤状、疣状、颗粒状、皱波状突起或光滑。外壁由覆盖层、柱状层和基层组 成。覆盖层厚或较薄,柱状层小柱发育不明显,基层薄。水鳖科植物在花粉大小、纹饰类型、刺的长短、 密度、形态、萌发孔的有无以及花粉壁的结构等方面表现出了较为明显的差异,这些特征对探讨类群间 关系具有较重要意义。由于黑藻属Hydrilla和Stratiotes属花粉较为特殊,支持将它们各自作为一个独立 的族处理。水鳖科植物花粉外壁纹饰和结构特点表明该科与水雍科Aponogetonaceae、泽泻科Alismataceae 和花蔺科Butomaceae等近缘,而该科植物花粉大多无萌发孔等则反应了该科与茨藻目Najadales植物有密切联系。     

Pollen exine ornamentation in the F2 generation of an interspecific hybrid of Chorisia (Bombacoideae,Malvaceae) in relation to inheritance pattern

Pollen morphology in ten plants of F₂ progeny of an interspecific tree hybrid, Chorisia insignis H. B.& K.×C. speciosa St. Hil (Bombacoideae, Malvaceae) has been studied with a view to have an insight in to the effect of hybridization on the pollen morphological features in F₂ generation. The study is a sequel to an earlier study on the pollen morphology of Chorisia species and their F₁ hybrid, in which case the hybrid pollen uniformly exhibited the apertural features of the male parent and exine features of the female parent. In the F₂ progeny the pollen grains display the apertural feature of the male parent in all the plants. However, with regard to exine ornamentation, variability has been observed. Of the ten plants, two plants exhibit the exine features of the male parent showing empty lumina (without bacula), five plants have their pollen exactly like that of the F₁ plant (showing prominent columellar heads in the lumina of the apocolpium region) and the remaining three plants showing columellae in lumina of both apocolpium and mesocolpium region being different from the above types. It has been inferred that the variability in the exine pattern in F₂ pollen indicates that the pollen exine pattern in hybrids, perhaps, is not unequivocally controlled by sporophytic or gametophytic genomes.     

论克拉梭粉外壁的超微结构:西伯利亚侏罗纪的一个孢体

通过对西西伯利亚西南部某钻孔中侏罗统上部(Callovian,Tyumen组)所获得的一个Classopollis的四孢体光学显微镜和切片的透射电镜观察研究后认识到,Classopollis的外壁超微结构与它复杂的外部形态一致。外壁由几层组成：上部均质层,具不平的外、内表面,中间均质层,穴状层和下部均质层。在它们之间的柱状体和穴在赤道区更明显。这种结构与光学显微镜下所见的条纹圈相当。环沟(亚赤道沟)是由柱状区和远极面之间的外壁突然变薄形成的。近极区的穴较之赤道区的要小且形状较不规则。外壁远极面较近极面为簿。远极面隐孔区无穴。比较表明此种花粉与掌鳞杉科花粉形态相似。     

Pseudointegricorpus clarireticulatum (Samoilovitch) Takahashi: morphology and ultrastructure

Dispersed tricolpate pollen of Pseudointegricorpus clarireticulatum (Samoil.) Takah. from the Upper Maastrichtian in Zeya-Bureya Basin, Amur (Heilongjiang) River area, Russian Far East/China has been studied with light and electron microscopy. Pollen size, pole outlines and the shape of equatorial projections show some variation within the species. The exine is striate-reticulate, semitectate and columellate. The species is characterised by highly complex structures that have harmomegathic function and include equatorial projections, endexinous thickenings, difference in the thickness of the infratectum, foot layer and endexine throughout the pollen grain, and equatorial furrows. Exine layers taper towards colpi regions while they break abruptly in furrow regions. The furrows could have helped to shed the exine quickly and enabled pollen germination. A non-extended region with a small cavity in the ectexine was observed in the equatorial region. We think that this region is characteristic of most Triprojectate species.     

延龄草科四属花粉形态的研究

对延龄草科重楼属Paris L.延龄草属Trillium L.Medeola L.属和Scoliopus Torr.属以及百合科百合属Ｌilium L.和萱草属Ｈemerocallis L.花粉进行了光镜和电镜的观察和比较。结果表明,在延龄草科中,重楼属,Medeola属和Scoliopus属花粉具有较多的相似性：具单一远极沟,极面观椭圆形,外壁为网状纹饰或皱波－网状纹饰。而延龄草属花粉与它们的差异则较大,为圆形,无萌发孔,外壁非网状纹饰,而是颗粒状,疣状,芽孢状,星状和微刺状等纹饰。百合属中的Lilium michauxii和萱草属中的金针菜Hemerocallis citrina花粉均为单一远极沟,外壁表面为网状纹饰。但其网脊特别粗,具不规则突起并形成棱角（H.citina)或由许多排列成念珠状的、形状不一的分子组成（Lilium michauxii),结构特别复杂。就其萌发孔类型和纹饰特征看,它们与延龄草科中的重楼属,Medeola属和Scoliopus属花粉具有较多的性。花粉外壁的层次结构在延龄草科各属之间（延龄草属除外）,甚至在延龄草科与百合科之间均没有多大的差异。     

POLLEN WALL AND APERTURE DEVELOPMENT IN HELIANTHUS ANNUUS (COMPOSITAE: HELIANTHEAE)

Wall development of tricolpate pollen of sunflower was studied by light and by scanning and transmission electron microscopy. The wall and colpi are initiated during the tetrad stage, producing a young, spinulate, two-layered exine (ektexine and endexine) separated by a “spacer layer.” After release from the tetrads, the individual microspores round up and enlarge. The exine layers increase in thickness and complexity from sporopollenin contributed by the tapetum and microspores. During the mid-vacuolate microspore stage, the tapetum becomes plasmodial and surrounds the developing microspores. At the vacuolate pollen stage, after the wall and colpi are completely formed, the plasmodial tapetum breaks down and releases its contents into the locule. Some of the contents are presumably utilized by the pollen to make storage reserves while other components, such as lipids and proteins, fill the spaces within the pollen wall exine. Pollen wall ontogeny provides a scheme of terms for mature composite walls in general. The various events associated with microsporogenesis in sunflower are compared with those reported in other pertinent studies.     

Some characteristics of pollen wall cytochemistry and ultrastructure in Japanese larch (Larix leptolepis Gord.)

Summary The mature pollen of Larix leptolepis Gord. (Conifer) contains five different cell types, and the plasma membrane of the vegetative cell is continuous and organized. The pollen wall is composed of two morphologically and cytochemically distinct domains: the exine and the intine. In the multilayered exine, the ektexine appears granular and the endexine, lamellar. The intine is thick and bilayered with a microfibrillar structure occupying its inner portion. Cytochemical reactions of the exine and the intine are similar to those found in angiosperms. Pollen wall involvement in the male female recognition system is discussed with respecl to the angiosperms.     

美乐多（Melodorum fruticosum Lour．）花粉形态观察

利用扫描电子显微镜（SEM）和透射电子显微镜（TEM）观察了美乐多（Melodorum fruticosum）的花粉形态特征。美乐多花粉为球形或扁圆形的单粒花粉,外壁纹饰为微褶皱状,有点状凹陷,无任何萌发孔或萌发沟。花粉外壁由外壁外层包括覆盖层（连续）、覆盖下层、基足层（1～3层薄片层结构,偶断裂或扭曲至6～10层）和外壁内层（连续）组成。其中,覆盖下层,其厚度为整个花粉外壁厚度的1／2,为混合型结构,即小柱状和颗粒状同时存在,但以颗粒状为主。花粉内壁分为内壁外层和内壁内层,其厚度逐渐变薄。美乐多的花粉特征（单粒、无萌发孔或沟、覆盖层连续、基足层为薄片层结构、花粉外壁内层薄等）与紫玉盘族其他类群一致。     

Pollen morphology of endemic species of the Horton Plains National Park,Sri Lanka

The pollen morphology of 27 endemic and palaeoecologically-important species belonging to 16 families and 20 genera from the mountain rain forests of Sri Lanka was studied using both light (LM) and scanning electron microscopy (SEM). The pollen grains exhibit a wide range of morphological characters. Their sizes (P and E) are in the range 10-53 2 9-60 mum, and they are distributed among seven shape classes. All the taxa have radially-symmetrical pollen grains except for Impatiens (bilateral). The amb varies from rounded to triangular, with intermediate shapes possible. The pollen grains of all the Lauraceae species studied are inaperturate and microspinose, with a thin, fragile, perforated exine. Sarcococca zeylanica (Buxaceae) has pantoporate pollen grains and a Croton -pattern consisting of faintly striate pegs of various shapes attached or enveloping the smooth rings. Colp(or)ate, syncolpate to parasyncolp(or)ate pollen grains with rugulate to perforate exine patterns occur in Eugenia mabaeoides ssp. mabaeoides and Syzygium ssp. (Myrtaceae). Osbeckia walkeri (Melastomataceae) has heterocolpate pollen with fossulate, foveolate to perforate exine pattern. 3-colporate, microreticulate pollen grains are met with in Euonymus revolutus (Celastraceae), and scabrate-microreticulate ones in Calophyllum walkeri (Clusiaceae). Hedyotis lawsoniae (Rubiaceae) pollen is microreticulate to perforate, while pollen of the Elaeocarpus (Elaeocarpaceae) species is 3-colporate, smooth to scabrate-perforate. Casearia thwaitesii (Flacourtiaceae) has 3-colporoidate pollen grains with a smooth, imperforate to occasionally sparsely perforate exine. Mastixia spp (Cornaceae) have a granular-perforate exine pattern, while Adinandra lasiopetala (Theaceae) has a smooth-perforate exine pattern. Triangular 3 (4)-colporate, and indistinctly faintly microreticulate-perforate pollen was found in Rhamnus arnottianus (Rhamnaceae), rugulate-perforate in Isonandra montana (Sapotaceae) and verrucate-perforate in Symplocos elegans (Symplocaceae). Glochidion coriaceum (Euphorbiaceae) has a 5-colporate grain with a coarsely reticulate exine pattern. Pollen grains of Impatiens walkeri and I. thwaitesii (Balsaminaceae) are bilateral, 4-colpate, reticulate and granular. A pollen key based on light microscope is constructed for all the taxa studied.     

5种裸子植物花粉外壁成分及结构分析比较

利用傅里叶变换红外光谱仪对银杏、日本冷杉等5种裸子植物的花粉外壁成分进行测定分析,结果表明,这5种裸子植物花粉外壁的红外光谱主要由蛋白质、脂类及多糖类物质的特征吸收峰组成。但不同科属间的花粉外壁主要成分含量存在较大差异,其中银杏科的银杏花粉外壁以蛋白质含量最为丰富;松科的雪松花粉外壁以脂类物质较为丰富;杉科的日本冷杉、杉木和日本柳杉花粉外壁成分以多糖类物质为主,但种间花粉外壁成分仍存在差异。采用扫描电镜观察5种裸子植物花粉,显示银杏、柳杉和杉木花粉粒体积较小,不具气囊,银杏花粉粒外壁表面具较均一条纹状纹饰,日本柳杉和杉木花粉粒外壁具颗粒状突起。雪松和日本冷杉花粉粒具气囊,体积较大,花粉外壁分别是粗糙具小穴状纹理以及表面光滑具微穿孔。