中国丛藓科六种植物孢子形态的研究

本文通过光学显微镜和扫描电镜观察了丛藓科(Pottiaceae)六种孢子的形态特征。在近极薄壁区的有无及形状、外壁纹饰的细微结构及分布等方面有区别。显示了同科不同属(Genus)、种(Species)间的遗传分化。但六种孢子的形态、大小、外壁厚度等方面具有较大的相似性。从孢粉学角度证实丛藓科可能是一个自然分类群。从孢粉形态和萌发孔类型上分析,六种丛藓孢子比泥炭藓(Sphagnum)进化。从孢粉萌发孔演化方面看,与裸子植物和被子植物比较,苔藓的近极萌发孔是处于原始位置。     

中国丛藓科六种植物孢子形态的研究

本文通过光学显微镜和扫描电镜观察了丛藓科（Ｐｏｔｉａｃｅａｅ）六种孢子的形态特征。在近极薄壁区的有无及形状、外壁纹饰的细微结构及分布等方面有区别。显示了同科不同属（Ｇｅｎｕｓ）、种（Ｓｐｅｃｉｅｓ）间的遗传分化。但六种孢子的形态、大小、外壁厚度等方面具有较大的相似性。从孢粉学角度证实丛藓科可能是一个自然分类群。从孢粉形态和萌发孔类型上分析,六种丛藓孢子比泥炭藓（Ｓｐｈａｇｎｕｍ）进化。从孢粉萌发孔演化方面看,与裸子植物和被子植物比较,苔藓的近极萌发孔是处于原始位置。     

八种青藓科植物蒴齿及孢子的超微形态研究

利用扫描电镜观察了八种青藓科植物孢子及蒴齿的形态,青藓科植物的孢子纹饰多以芽孢状和瘤状突起为主,孢子的大小、外壁纹饰的差异显示了不同种之间的遗传分化及系统演化。青藓属外齿层腹面中部分为四种类型:光滑无疣、颗粒状疣、短刺状小疣、棒状和芽孢状疣,外齿层中上部的特征属与属之间存在差异,该研究可为分类鉴定提供一定的依据。     

江西石松类孢子形态的研究

应用扫描电子显微镜对江西产２科５属８种（含变型）石松类植物的孢子形态进行了观察,结果表明,２科植物孢子形态相似,但外壁纹饰有差别,所观察的各属间、种间在孢子形态上亦有差异。     

26种丛藓科（Pottiaceae）植物孢子形态及其系统学意义

通过光学显微镜（LM）和扫描电镜（SEM）观察了26种国产丛藓科（Pottiaceae）植物孢子的形态特征,从孢子形态学角度佐证了这些类群在系统演化中的密切关系。结果表明：这26种植物的孢子在形态、近极面形状及孢壁纹饰等方面有较大的相似性,但在孢子大小和表面纹饰的细微结构及其分布等方面又有区别,显示了同科不同属、种间遗传的相似性及遗传分化。     

7种丛藓科植物孢子形态的研究

对山西７种丛藓科植物的孢子形态进行了扫描电镜观察研究。     

中国产异蒴藓属（Lyellia）植物形态解剖比较观察

利用扫描电镜法、徒手切片法对中国产的2种异蒴藓进行观察分析。分别观察了孢子大小、颜色、叶片和茎的长度和宽度等。结果表明异蒴藓属植物叶片的一些形态学和解剖学性状表现出了金发藓科植物所共有的特征,异蒴藓属在金发藓科中气孔较明显属于进化性状,而孢壁纹饰则属于原始性状。     

中国蕨类植物孢子形态的研究 Ⅱ. 中国蕨科

利用扫描电镜对国产中国蕨科Sinopteridaceae植物9属61种6变种的孢子进行了观察。结果表明,该科植物的孢子可分为3种类型：(1)孢子球形,三裂缝;周壁较厚,疏松地包在孢子之外;外壁光滑,表面纹饰由周壁形成,呈网状、嵴状、刺状或皱状。除金粉蕨属Onychium和珠蕨属Cryptogramma外,该科其他属的植物都具此类型孢子。(2)孢子钝三角形,三裂缝;周壁较薄,由周壁和外壁共同形成表面轮廓,表面具疣状或颗粒状纹饰。具此类型孢子的只有珠蕨属。(3)孢子钝三角形,三裂缝,沿裂缝两侧各有一脊状隆起或瘤状纹饰;周壁薄,由外壁形成表面纹饰的基本轮廓;具赤道环、近极脊和远极脊。具此类型孢子的只有金粉蕨属。另外,从孢粉学的角度对该科的分类和系统演化进行了探讨。     

中国真藓属孢子形态的研究

通过光学显微镜和扫描电子显微镜观察了中国真藓属Bryum Hedw．13种孢子的形态特征。根 据外壁纹饰可分为:类型I,棒状突起顶端圆钝;类型Ⅱ,棒状突起顶端尖或具微突起;类型Ⅲ,棒状突 起顶端膨大成半球形。根据孢子直径的大小,可分3个类群。以上显示了物种间的遗传分化及其相似 性,证明真藓属确为一个自然分类群,真藓属孢子的形态比丝瓜藓属Pohlia Hedw．进化。这给苔藓的孢子形态研究及分类和系统演化的研究提供了新的资料。     

中国蕨类植物孢子形态的研究XI.石杉科

利用扫描电镜对中国产石杉科2属22种植物孢子形态进行了观察,为石杉科分类和系统演化研究提供依据。结果显示:石杉科植物孢子为三裂缝,四面体形,辐射对称;极面观为钝三角形、圆三角形或近圆形;赤道面观为扇形或近椭圆形;石杉属孢子三边向内凹,马尾杉属孢子三边外凸;极轴长为16～26μm,赤道轴长为22～36μm;孢子具外壁,不具周壁,由外壁形成表面穴状纹饰的轮廓,穴为大小、深浅和密度不等的点状近圆形或不规则条状的凹陷。从孢子形态和纹饰类型看,石杉属和马尾杉属属间差异明显,属内差异不明显。     

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.     

Studies in the Spore Morphology of Vittaria Smith

The spore morphology of 32 species of Vittaria Smith has been described. Spores are ellipsoidal or long ellipsoidal in polar view, and kidney-shaped in equatorial view, (18.2–65) × (39–110.5) × (19.5–52)μ in size, monolete, without perine. The stratification of exine which is generally 1.9–2.6 μ in thickness is distinct or indistinct. When it is distinct, the sexine is thicker than the nexine. The exine is generally orna- mented with indistinct granulose or vague sculpture, and with small verrucae in three species. In some species, there is a striate texture on the surface of the exine. As far as it goes, it is a very interesting phenomenon that has not been mentioned elsewhere in the literature of palynology. According to the references, the spores are trilete in a few species of this genus. But it is only monolete in our investigated meterial. Because the gross-morphology of plant in these genera of Vittariaceae is very similar to one anther, we raise the quastion whether the few species which have trilete spores really belong to this genus or to the other genus of Vittariaceae which have trilete, it may be further considered. On the basis of the spore types, Vittariaceae (E. B. Copeland, 1948) may be divided into two groups the one belongs to monolete spore type, and the other to trilete spore type. Based on morphology and anatomy of the plant, R. C. Ching (1940) separated out some genera which have trilete from Vittariaceae to establish a new family– Antrophyaceae, it is valuable to further exploration.     

Pollen Morphology of Cyclobalanopsis and Its Relation to Quercus

The present paper deals with pollen morphology of 19 species belonging to Cyclobalanopsis and of 31 species belonging to Quercus from China. All pollen grains were examined under light microscope and scanning electron microscope, and those of 4 species of Cyclobalanopsis and of 8 species of Quercus were examined under transmission electron microscope. Pollen grains of Cyclobalanopsis are spheroidal or subspheroidal, 25.2(18.9-31.5) ×23.1 (16.8-27.3) μm in size. Mostly 3-colporoidate, rarely 3-colpate or 3-colporate. The exine is 2-layered, 1.1-1.9 μm thick, sexine thicker than nexine, finely granulate under LM, granulate, spinulate, verrucate under SEM. Pollen grains of Cyclobalanopsis and of evergreen members of Quercus are very similar to each other in size, aperture and ornamentation of exine, but there are some differences in pollen grains between Cyclobalanopsis and deciduous members of Quercus. Therefore, Pollenmorphology supports the treatment of Cyclobalanopsis as a subgenus of Querc     

Experimental alterations of the spores of lycopodium clavatum as related to diagenesis

Lycopodium clavatum spores have been heated to different temperatures at atmospheric pressure, at room temperature with 0.5 kbar pressure and at different temperatures with 1 kbar pressure, The effects of heat, pressure, and heat and pressure together on the spore have been examined in detail using different microscope techniques. Effects of some chemicals on these spores have also been observed.It is known that temperature and pressure change the colour of spore and pollen grain walls, mainly the exine (outer wall of the spore). Changes to the intine and the matter present in the cytoplasmic cavity (= inner contents), however, have not been taken into account by very many workers. In most of the previous works the inner contents were extracted before the experimental treatment began.In the present work, unextracted spores are used for the experiments which show two types of alterations of the spores with rising temperature at atmospheric pressure: (1) alteration of the inner contents, i.e. gradual colour change of the inner contents and their ultimate exudation from the spore through the exine at about 300°C; (2) gradual shrinkage of the exine due to the exudation of the inner contents which also causes an overall size reduction of the spore from 200° to 350°C. The exine does not change its colour up to 325°C; and this temperature, its starts to change its colour slowly, amalgamates with other exines of the empty spores, becomes amorphous, and ultimately deteriorates into unidentifiable organic matter.The process of colour change of the inner contents of spores and the general deformation are much slower when the spores are subjected to 1 kbar pressure with rising temperatures. Spores at room temperature with 0.5 kbar pressure show no colour change but only physical deformation.     

Pollen Morphology of Plumbaginaceae in China

The present paper describes the pollen morphology of 30 species belonging to 7 genera of Plumbaginaceae from China. The pollen grains were all examined under light microscope, and those of some species under scanning and transmission electron microscope. The pollen grains of the family are subspheroidal, prolate or oblate, (37.5-74.5)× (40.4-81.9)μ in size, 3-colpate, rarely 4-6-colpate, only pancolpate in Ceratostigma willmottianum. The exine 2-layered, 2.0-7.4μ thick, sexine thicker than nexine, verrucate, reticulate or coarsely reticulate. On the basis of the morphology, two types of pollen grains are distinguished in the family: (1) The pollen grains are 3-(rarely 4-6 ) or pancolpate, the exine verrucate. They are found in the tribe Plumbagineae (inculuding the genera Ceratostigma, Plumbago and Plumbagella). (2) The pollen grains are all 3-colpate, the exine reticulate or coarsely reticulate. They are found in the tribe Staticeae (including the genera Acantholimon, Ikonnikovia, Goniolimon and Limonium ).     

凤仙花属（Impatiens L.）10种植物花粉形态的扫描电镜观察

利用扫描电镜观察了10种凤仙花属（Impatiens L.）植物的花粉形态。结果表明：本属花粉为单粒花粉,呈长圆形至长矩圆形,大小为20.3～46.7 μm,具角萌发孔,网状纹饰,网眼明显;根据花粉网状纹饰中网眼内是否具颗粒状突起可将其分为2类：（1）网眼内无或近无颗粒状突起,黄金凤（I. siculifer）和婺源凤仙花（I. wuyuanensis）的花粉纹饰属于这一类型;（2）网眼内有明显颗粒状突起,其余8个种的花粉纹饰均属于该类型。研究表明,花粉特征,特别是花粉粒网状纹饰中网眼内有无颗粒状突起及颗粒状突起的形态等特征,在凤仙花属内常具种水平上的可见变异,因而可作为种类划分的依据,它们在分类学上的价值应予以关注。     

须芒草族植物花粉形态的观察

在光学显微镜下和扫描电镜下对禾本科须芒草族（Ａｎｄｒｏｐｏｇｏｎｅａｅ）中分隶于８个亚族３４个属的３６种植物的花粉进行形态面容和比较研究。结果显示,本族植物花粉形态较为一致,花粉近形或扁球形,单萌发孔,孔,周围加厚,具盖,外壁表面散布有颗粒。这表明其是一个自然类群。总体来讲,芬烨大的演化分异,只是表面纹饰的和芬烨大小有一;定的差异。纹饰可分为三种类型粗糙型,不明显疠状突起才明显疠状突起型。花粉开矿     

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。