Studies on Pollen Morphology of Taxaceae of China

The present study deals with pollen morphology of 4 genera and l0 species of Taxaceae in gymnosperms. Pollen grains of the family are spheroidal or subspheroidal, 20.8μm in diameter and with laptoma or papilla in the distal face. Exine is two-layered, with sexine equal to nexine in thickness, but sometimes the stratification is indistinct. The surface is scabrous or slightly granular under LM. Coarse verrucae and fine tuberculae on pollen surface are observed under SEM. From thin section, endexine is shown to have lamellate structure, and ectexine is made of verrucate elements. In Amentotaxus argotaenia, some pollen grains show remnant saccate. According to pollen morphology, this family may be divided into two tribes: 1, Pseudotaxeae (including Pseudotaxus only), and 2, Taxeae (including Taxus and Torreya). Owirg to the special feature of pollen grains in Amentotaxus the present author suggests that the genus be separated from Taxaceae and raised to the level of family, Amentotaxaceae.     

Studies on Pollen Morphology of the Genus Corylopsis

The present paper describes the pollen morphology of 11 species of thc genus Corylopsis (Hamamelidaceae). The pollen grains were all examined with light microscope and scanning electron microscope. Pollen grains of the genus are prolate, spheroidal or subprolate. Three size types are recognized: (l) 18-23 μm, found in Corylopsis omeiensis Yang, C.gotoana Makino, C. himalayana Griff and C.platypetala Rehd. et Wils. (2) 24-32μm, found in C. sinensis Hemsl., C.willmottiae Rehd. et Wils., C.veitchiana Bean, C. brevistyla H.T.Chang, C.multiflora Hance, C.pauciflora Sieb. et Zucc. and C.spicata Sieb. Zucc. (3) 34-39μm, found in C. wilsonii Hemsl. and C. cordata Merrill. Pollen grains are 3-colpate and 4-colpate (only infrequently found in Corylopsis sinensis Hemsl.); the exine is 2-layered, 1.25-2.50μm thick, distinctly reticulate, sexine almost equal to nexine in thickness. From the pollen morphology the genus is considered as a natu-ral group.     

Studies on Pollen Morphology of Pulsatilla Mill.

Pollen grains of 18 species of Pulsatilla in Ranunculaceae distributed in Asia and Europe were examined by LM and SEM, and exine ultrastructure of tricolpate pollen grains of P. chinensis and of pantoporate pollen grains of P. campanella was examined by TEM. Pulsatilla pollen is divided into four major types based on the aperture character, i.e. tricolpate, di- and tricolpate, pantocolpate and pantoporate. The revolutionary trend of pollen types is as follows: tricolpate→pantocolpate→pantoporate. Surface spinulate and perforate. According to density and size of sptnulae and distribution of perforation, the pollen grains of the genus can be divided into two groups. Thin sections of P. chinensis and P. campanella show endexine thickened at colpi and ora. Ektexine consists of a foot layer, a collumellae layer and a continuous, perforate tectum. The columallae layer is thicker than foot layer and tectum. Pollen morphology of Pulsatilla is similar to that of Anemone, but different in the distribution of spinules and perforation. Pollen information supports Wang’s view about systematic arrangment of species of Pulsatilla in China.     

Studies on Pollen Morphology of Podocarpaceae from China

The pollen morphology and ultrastructure of exine of Podocarpaceae in China were examined with light microscope, scanning electron microscope and transmission electron microscope. The pollen grains of Podocarpus have rather large and prominent sacs on both sides of body, and are 53.9-74.8 μm long in total, with their bodies 29.6-45.2 μm long and 19.1-31.3 μm wide. The sacs are smooth on outer surface with perforation, but reticulate inside. On distal view, they are obviously of radial muri from its base. The body is oblate or spheroidal, laddershaped on distal face. The exine of the capis tuberculate, but more distinctly on the margin than in the centre. The pollen grains of Dacrydium are of small and indistinct sacs around body, which are composed of many small bladders. The body is subcircular in outline. Both body and sacs are irrugulate tuberculate under SEM. Examination of thin sections of Podocarpus macrophyllus var. maki with TEM reveals that the exine includes ectexine and endexine. It is interesting to note that foot layer of ectexine possesses lamellar stru cture, but endexine is homogeneous in structure and lighter in colour. This character is specific in the gymnosperms. Based on informations of fossil pollen grains, Podocarpaceae is rather primitive and of ancient origin.     

旌节花科与省沽油科花粉形态的研究

对旌节花科和省沽油科 4属 13种花粉进行了光镜和扫描电镜的观察 ,其中有些种是第一次观察或报道。这两个科的花粉为近球形到球形 ,3孔沟 (省沽油科银鹊树属TapisciaOliv花粉除外 ,为 3沟 )。它们的花粉大小和外壁纹饰有一定差异。旌节花科花粉相对较小 ,一般为 18～ 2 8 2× 17 5～ 2 6 5 μm ,外壁表面为穴状纹饰。省沽油科花粉较大 ,为 2 8～ 4 0× 2 8 5～4 0 5 μm (银鹊树属花粉只有 13 5～ 17 9× 12 5～ 18μm) ,外壁表面为细网状纹饰。这两个科的花粉特征在某种程度上具有一定的相似性 ,故就孢粉学而言它们具有颇为密切的关系     

Studies on Pollen Morphology in Tiliaceae of China

Pollen morphology of 44 species representing 9 genera of Tiliaceae in China was examined under light microscope, 10 of them were observed with scanning electron microscope. Nine genera involved in this paper are: Colona. Corchoropsis, Corchorus, Excentrodendron, Grewia, Hainannia, Microcos, Tilia and Triumfetta The pollen grains of Tiliaceae are eurypalynous. Based on the aperture type and ornamentation, they may be grouped into four types: (1) The Grewia type, pollen grains tricolporate: Colona, Corchorus, Grewia, Microcos and Triumfetta, (2) The Tilia type, pollen grains brevitricolporate: Hainania and Tilia, (3) The Corchoropsis type, pollen grains triporate, spinate: Corchoropsis, and (4) The Excentrodendron type, pollen grains triporate, reticulate: Exce ntrodendron. The significance of pollen morphology in taxonomy of Tiliaceae is discussed. The palynological data seem to support the separation of Microcos from Grewia and the transfer of Corchoropsis to Sterculiaceae from Tiliaceae.     

五种木兰属植物的花粉形态

对木兰属(Magnolia)5种花粉进行了光学显微镜观察,形态相似。扫描电镜下观察,花粉外壁均为小穴状纹饰,荷花玉兰(M．grandiflora)略为粗糙。透射电镜下观察,5种花粉外壁均可分为覆盖层、柱状层和基层。覆盖层不连续,有小穿孔。在远极面萌发沟区域,外壁逐渐减薄,最后覆盖层和柱状层消失,仅残留基层。柱状层内部空隙较小,多由颗粒构成,处于小柱发育的初级阶段。荷花玉兰和玉兰萌发沟区域下有明显的外壁-2。木兰属花粉属于原始类型的代表。     

Studies on the Pollen Morphology of Family Salicaceae in Gansu

Pullen grains of 2 genera 31 species of the family Salicaceae ia Gansu have been investigated. The comparative studies of the pollen grains were carried out by means of seanning electron microscope and light microscope. The two genera (Popu- lus L. and Salix L.) can be distinguished by their pollen characters such as the shape of pollen, type of aper ure, ornamentation of exine etc. 1. Shape of pollen grains 1) Spherical (rounded) : Populus L., 2) Ellipoidal, (subrotund): Salix L. 2. Type .of aperture 1) Atreme: Populus L., 2) 3-colpate, 3-colporoidate or 3-syncolpate: Salix L. 3. Ornamentation of exine 1 ) Cavernulous: Populus L., 2) Tubercular: Populus L., 3) Spinulate: Salix L., 4) Rugulose: Populus L. and Salix L., 5) Finely-reticulate: Populus L., 6) Reticulate: Salix L., 7) Crass-reticulate: Salix L., 8) Rugulose-Spinulate-Cavernulous: Salix L., 9) Rugulose-Reticulate: Salix L. Basing upon the above pollen characters, the genera Populus L. and Salix L. are con- sidered two good and natural taxa, and the genus Populus L. is more primitive than the genus Salix L.     

Studies on the Pollen Morphology of the Genus Brassica (Cruciferae) in China

The present paper reports the pollen morphology of 36 species and varieties of Brassica L. in China mostly for the first time. They were examined both under LM and SEM. Pollen grains of Brassica L. in China are long-spheroidal, subspheroidal, spheriodal, oblate, rarely reniformis or subsquare. According to the aperture characters pollen grains may be divided into four types: 2,3,4-colpate, 3-colpate, 3,4-colpate, 3,4-colporate. The exine sculpture may also be divided into three types: 1, reticulate, 2, cerebroid-reticulate, 3, foveolatereticulate. Detailed characters of pollen grains for each taxon are presented in Table 1. The 2,3,4-colpate type of pollen grains may be considered as primitive one and the 3,4-colpate or 3,4-colporate type of pollen grains is the most advanced in Brassica. The tricolpate aperture and reticulate exine have been reported by the previous authors, whereas, 3,4-colporate and cerebroid-reticulate or foveolate-reticulate pollen grains are newly reported.     

Pollen Morphology of the Betulaceae

Pollen grains of 6 genera, including 36 species, of the Betulaceae, were examined under LM, SEM and TEM.Their morphological characters are described and three types of pollen are distinguished here. The evidence from pollen morphological characters does not support Hutchinson's (1973)and Dahlgren's (1983)treatments which divided the Betulaceae into two families: Corylaceae ( including Corylus, Ostryopsis, Carpinus and Ostrya) and Betulaceae (including Alnus and Betula). The author agrees with Abbe's (1974)division of the Betulaceae into three tribes with one modification that Ostryopsis is transferred from the tribe Coryleae to the tribe Carpineae. The limits of the three tribes presented here are the same as Kuprianova's (1963) treatment in which she divided the Betulaceae into three families. It is more reasonable to treat Kuprianova's families as tribes. Pollen morphological characters of the three tribes of the Betulaceae are described as follows: 1. Tribe Betuleae (including Alnus and Betula): Pollen grains are triporate or stephanoporate and oblate, suboblate or spheroidal. Sometimes the exine has arci and the ektexine thickens in the apertural region; the sculpture of exine is slightly rugulate under scanning electron microscope (SEM) ; the exine structure is four-layered: tectum, columellae, footlayer and endexine. The columellae are columellate, the endexine thickens in the apertural region and sometimes it is separated from the footlayer to form vestibulum. 2. Tribe Coryleae (only Corylus): Pollen grains are triporate and suboblate. The exine has no arci and the ektexine does not thicken in the apertural region; the sculpture of exine is slightly rugulate under SEM; the exine structure is five-layered: granular layer, tectum, columellae, footlayer and endexine. The tectum is vovered with a granular layer, the columellae granular and the endexine thickens but is not separated from the footlayer in the apertural region. 3. Tribe Carpineae (including Ostryopsis, Carpinus and Ostrya): Pollen grains are mostly triporate and suboblate. The exine has no arci and the ektexine does not thicken in the apertural region; the sculpture of exine is slightly rugulate under SEM; the exine structure is five-layered which is the same as those of the Coryleae. The tectum is covered with a granular layer, the columellae are columellate and the endexine is neither thickened nor separated from the footlayer in the apertural region. The operculum exists on the top of aperturemembrane. Scutcheon noninitial, exuvial touchiness alitizing. Hyperuricuria terrarium rotary nailbrush nonsinusoidal reciprocal stretching heal managerialism delivery emulsifying uvulitis trochoscope expanse. 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Studies On the Pollen Morphology of the Genus Iris in China

In this paper, pollen grains of 32 species of the genus Iris in China were examined under light microscope and scanning elrctron microscope. Pollen grains in Iris of China are navicular or subspheroidal. According to the characters of aperture and shape, pollen grains may be divided into four types: (1) Monocolpate (distal): pollen grains navicular or subspheroidal, exine reticulate. (2) Monocolpate-colpoidal: pollen grains subspheroidal, exine pilate. (3) 2-syncolpate: polen grains subspheroidal or navicular, exine reticulate. (4) No aperture: pollen grains subspheroidal; exine verrucate. The evolutional trends of aperture and exine ornamentation are traced and systematic po-sitions of some species are discussed based on characteristics of pollen grains and other organs.     

中国独行菜属9种植物花粉形态扫描电镜观察

对中国产独行菜属9种植物的花粉微形态作了扫描电镜下的观察和研究。结果表明,花粉粒为超长球形或长球形,具三沟,外壁纹饰均为网状纹饰。根据外壁纹饰可分为3种类型：（1）网眼为不规则形状,网眼边缘常有刺突;（2）网眼为圆形或近圆形,网眼边缘较光滑;（3）网眼为多边形或不规则多边形,网眼边缘较光滑,偶有刺突。     

Studies on Pollen Morphology and Exine Ultrastructure in Cephalotaxaceae

The pollen morphology of Cephalotaxaceae was examined with LM, SEM and TEM. Pollen grains in this family are spheroidal or subspheroidal, rounded in polar view, but usually wrinkled with irregular shape. Pollen size is 22.6- 34.8 μm in diameter. There is a distinct or indistinct tenuity on distal face. The tenuity occasionally slightly rises above the outline of pollen grains, but often sukened. Exine rather thin, 1—1.5μm thick, layers obscure, surface of pollen grains is nearly psilate or weakly granulate. Under SEM exine is covered with fine and dense granules, and sparse Ubisch bodies are found on the granular layer. The Ubisch bodies are provided with minute gemmate processes on the surface. Acorrding to our observation under TEM, exine consists of ectexine and lamellate endexine, with the former divided into outer ectexine of granules densely arranged and inner ectexine of loosely arranged microgranules. Granules of the outer ectexine are relatively thick, and connected with each other, forming a structure just like tectum or separate from each other. Microgranules of the inner ectexine are distinct or indistinct. Endexine is provided with 5- 7 lamellae. As far as information of pollen morphology is concerned, Cephalotaxus oliveri is rather special in the Cephalotaxaceae. First, the tenuity in pollen grains occupies one half of the distal part, much larger than that of the other species in the family. Second, the ectexine in Cephalotaxus oliveri may be divided into two distinct layers, outer ectexine and inner ectexine. The former is made of a layer of sporopollenin masses, which are connected with each other to form tectumlike structure, while the latter consists of a layer of loosely arranged granules or small segments of sporopollenin. The inner ectexine is different from that of other species by having a thicker layer of sporopollenin granules. Based on these two features, we support the division of Cephalotaxus into two Sections, Sect. Pectinatae and Sect. Cephalotaxus. Pollen grains of Cephalotaxaceae are similar to those of the Taxaceae in having spheroidal shape and the tenuity on its distal face. These characteristics strengthen the evidence for a close relationship between the Cephalotaxaceae and Taxaceae. Although pollen grains of the Cephalotaxaceae and Taxaceae are similar in some characteristics, they have obvious differences in , for example, size of tenuity, the fine structure of Ulbisch bodies and of the outer and inner ectexine. On the basis of pollen morphology, the present author considers theCephalotaxaceae slightly more primitive than the Taxaceae.     

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。     

中国钩藤属9种植物的花粉形态

利用光学显微镜和扫描电镜对中国钩藤属(Uncaria Schreb)9种植物的花粉形态进行了观察.结果表明,钩藤属植物的花粉为单粒,小型,辐射对称,赤道面观圆球形至近长球形,极面观3-裂圆形,具3孔沟,萌发沟裂缝状,长达两极.萌发沟中央有"内壁加厚突出"结构.外壁具条纹至细网纹饰,表面光滑无附属物.钩藤属花粉大小、形状、萌发沟和纹饰类型都较接近,属于单一型花粉.钩藤属植物的花粉形态特征是茜草科(Rubiaceae)中较为原始的类型.     

中国木犀属花粉形态研究及其系统学意义

观察了中国木犀属4组21种植物的花粉形态。花粉为圆球形或近长球形,外壁表面均具网状纹饰。大多数种类都具有三孔沟的萌发孔,极少四孔沟,或六萌发孔。内孔明显或不明显,有9种植物同时存在具三孔沟和具三沟二种类型的花粉及中间过渡类型(显脉木犀同时存在具三拟孔沟和具四拟孔沟)。很多特点表明,木犀属花粉的萌发孔在木犀科中处于由简单萌发孔向复合萌发孔过渡的阶段。根据网眼从沟间区中央到沟边是否变细,可将本属花粉分为两大类型,与分组有一定的对应关系。综合一些花粉特征,可发现本属花粉形态差异较明显,与一般形态差异有一定的相关性。花粉形态在木犀属具有一定的系统学意义。     

大风子科13个种的花粉形态

利用光镜和扫描电镜对大风子科 9属 1 3个种的花粉形态进行了观察。花粉形状长球形或圆球形 ,除大风子属 (Hydnocarpus)萌发孔为三拟孔沟 ,其余均为三孔沟 ;外壁纹饰在不同属、同属不同种间表现出明显的多样化 ,基本上可分为粗网状、细网状、穿孔状、穴状4种类型。研究认为花粉形态对于该科与近缘科以及属下的划分具有一定的意义     

A Study on Pollen Morphology of the Genus Viburnum from China

The present study on pollen grains of the genus Viburnum Linn. Shows that: 1. The pollen characteristics are of no significance in division of sections, but each species has its own pollen characteristics. 2. The exine can be divided into three types: I. Exine semitectate, reticulate, muri psilate; II. Exine semitectate, reticulate, muri verrucate; III. Exine intectate, retipilate or pilate, the heads of pila verrucate. The evolutionary trend of the exine is III→II→I. 3. Four types of colpus margin are recognized: I. intectate; II. The colpus margin semitectate, reticulate; III. The colpus margin tectate; IV. Syncolpate at one pole, the margin tectate (only in V. farreri). 4. The ora can be divided into five types according to its membrane shape under SEM: I. The membrane of ora indistinct; II. The membrane of ora semispherical, discontinuous with colpus margin; III. The membrane of ora semispherical, continuous with colpus margin; IV. The membrane of ora semi-ellipsoidat, lolongate; V. The membrane of ora semi-ellipsoidal, lalongate, across the colpus like a bridge. 5. According to both pollen characters and inflorescence, the authors suggest that Sect. Pseudotinus be divided into two subsections, one including V. sympodiale, V. furcatum and V. latanoides, which have large sterile marginal flowers with the exine belonging to the Type I, and the other including only V. nervosum, which has no large sterr-ile marginal flowers with the exine belonging to the Type III.     

羊蹄甲属中国特有种的花粉形态学

对羊蹄甲属植物11种中国特有种的花粉形态进行了研究。结果表明,花粉萌发孔类型均为三孔沟,少数还有合沟;花粉均具半覆盖层,表面纹饰有皱波状、皱波状-穿孔、疣状、孔穴-穿孔、穿孔-网状。依据Larsen(1975)的划分,这11种植物的花粉隶属于Integrifolia型、Glauca型和Curtisii型,我们根据花粉纹饰的差异在Integrifolia型下进一步划分了Auma亚型和Paucinervata亚型。     

中国紫葳科花粉形态的研究

对紫葳科18属27种花粉进行了光镜和扫描电镜的观察,其中有些种是第一次观察或报道。紫葳科花粉明显地属多型花粉,萌发孔类型和纹饰特征多种多样。萌发孔基本上可分为3（－4）沟,3（－4）孔沟,3孔,多沟及散沟等类型;纹饰则可分为皱波状饰,穴状纹饰,穴－网状纹饰,网状纹饰,刺状纹饰以及表面光滑等。值得注意的是在菜豆树属Rademoachera Zoll.et Moritzi中,菜豆树R．sinica和滇菜豆树R.yunnanensis虽为同一个属,但其萌发孔类型和纹饰特征截然不同,菜豆树花粉为3孔,具网状纹饰;而滇菜豆树花粉为3孔沟,具穴状纹饰。就花粉形态学而言,紫葳科也许是多元发生的。