中国鼠李科植物属的空间分布特点研究

在ArcGIS软件中,以中国鼠李科植物物种分布数据为基础,以县为基本单元,制作属的空间分布数据,从空间分布图中提取各属的斑块面积、周长、数目,计算属的Simpson均匀度指数、形状指数及最大斑块指数,分析中国鼠李科植物属的空间分布特点,为确定其空间分布最小范围、定量研究及植物的保护、利用、资源的开发和恢复提供依据。结果表明:①麦珠子属、对刺藤属、苞叶木属、小勾儿茶属、蛇藤属、咀签属和翼核果属为狭域属,马甲子属、猫乳属、雀梅藤属、枳椇属、勾儿茶属、枣属和鼠李属为广域属,狭域属和广域属均占中国鼠李科植物总属数的50%。狭域属的总面积小于30×10⁴km²,其中小勾儿茶属主要分布在我国亚热带中部,其他狭域属主要分布在北回归线附近及其以南地区;广域属的总面积大于40×10⁴km²,分布在我国大部分地区,西北地区呈零星分布。②中国鼠李科植物中,鼠李属的分布范围和总面积最大,几乎涵盖所有属的分布范围,它能体现出鼠李科植物在中国的空间分布及其特点。③麦珠子属是中国鼠李科植物中唯一呈连续分布且分布最狭窄的属,其他属均为间断分布。苞叶木属、咀签属、勾儿茶属和鼠李属呈现只有主分布区,对刺藤属、雀梅藤属和枳椇属呈主次分布区,小勾儿茶属、蛇藤属、翼核果属、马甲子属、猫乳属和枣属均呈星散分布。     

东亚特有属——小勾儿茶属的研究

本文对东亚特有属——鼠李科小勾儿茶属(Berchemiella)进行了比较系统地研究, 对该属的建属历史, 形态特征、木材解剖、分类及分布进行了论述。根据该属的木材构造和花粉形态等, 作者赞同中井猛之进将Berchemiella独立为属的观点。该属共有3种1变种, 在我国有2种1变种。毛柄小勾儿茶(B.wilsonii var.pubipetiolata H.Qian, 新变种)为首次描述。     

A Study on Pollen Morphology of Tribe Rhamneae (Rhamnaceae)in China

Pollen morphology of 25 Chinese species, representing 6 five genera in the tribe Rhamneae of Rhamnaceae, was examined under LM and SEM. Pollen grains are subspheroidal or suboblate, obtuse-triangular in polar view, 3-colporate, with the polar axis (P)10.4-28.7μm long and equatorial axis (E) 11.3-30.5μm long, P/E = 0.81-1.11. Colpi generally narrow and long, ora lalongate, with two ends connected with the thinned part of exine, forming a H-shape. Four thickenings were observed where colpi and ora cross, but sometimes the thickenings were indistinct or formed a ring. The stratification indistinct. The ornamentation of exine obscure or indistinctly reticulate under LM, but rugulose, short-striate, rugulose-foveolate or reticulate under SEM. The exine ultrastructure of Rhamnus ussuriensis was examined under TEM. It consists of imperforate tectum, granular layer, foot layer and endexine. The tectum is rather thick with uneven surface, while the granular layer is rather thin. A key to the genera based on pollen characteristics is provided and the general pollenmorphology of five genera, i.e. Sageretia, Rhamnus, Hovenia, Colubrina and Alphitonia, is described respectively. Based on pollen size, the four thickenings and the ornamentation, the five genera under study may be distinguished from each other. For example, pollen grains are smaller in Sageretia; the four thickenings are larger and distinct in Hovenia and Alphitonia. However, the ornamentation is short-striate under SEM in Hovenia and Alphitonia, while reticulate in the Colubrina and Rhamnus ( Subgen. Rhamnus) .Two different concepts of Rhamnus exist among taxonomists. Heppeler and Suessenguth divided Rhamnus into two subgenera (Subgen. Frangula and Subgen. Rhamnus), whereas Grubov separated Subgen. Frangula from Rhamnus as an independent genus. According to the pollen morphology, the separationis reasonable.     

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     

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 ).     

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.     

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.     

POLLEN MORPHOLOGY OF AMPHIANTHUS,ARTANEMA, CURANGA,GLOSSOSTIGMA, AND PEPLIDIUM (SCROPHULARIACEAE-GRATIOLEAE)

Pollen of the scrophulariaceous genera Amphianthus, Artanema, Curanga, Glossostigma, and Peplidium was examined by light and scanning electron microscopy. All have single, isopolar, radially symmetrical pollen grains with equally spaced meridional colpi and columellate exines. Intergeneric differences are established mainly on the differential correlation of colpus number, colpus morphology, and sculpturing of the mesocolpium. The colpi vary in length and range in number from 3 to 6. The colpus membrane can be variously granular, verrucate, rugulate, or spinulose. The exine varies from semitectate and microreticulate or reticulate to tectate and sparsely perforate. It may be psilate or ornamented with supratectal processes ranging from small granules to relatively long spinules or bacules. All the genera examined, with the possible exception of Artanema vs. Amphianthus, are distinguished from one another by pollen morphology, and the grains of both Curanga and Glossostigma have morphotypes not previously reported in tribe Gratioleae. Final taxonomic assessment of the pollen data in the genera examined must await further comparative studies in the Gratioleae and other tribes, but the morphological diversity observed is clearly of potential significance in evaluating specialization levels and clarifying current conflicting interpretations of relationships in these taxa.     

紫草亚科附地菜族的花粉形态研究

本文用光学显微镜和扫描电子显微镜系统观察了附地菜族5个属26种植物花粉形态。五属是附地菜属、车前紫草属、滨紫草属、山茄子属和皿果草属。观察证明属间花粉形态有明显的差异。花粉资料为族内属的划分和皿果草属的建立提出了花粉学证据。     

中国芸香科植物的花粉形态

本文用光学显微镜对我国21属52种2变种芸香科(Rutaceae)植物的花粉形态进行了详细地观察研究,其中对6属6种进行了扫描电镜观察。本科花粉具沟孔,是花粉单类型的科之一。根据萌发孔的数目和外壁纹饰特点,本文将芸香科的花粉分为具3孔沟和4-6孔沟两个花粉类型,并根据各属花粉形态特征,作出了花粉形态分属检索表。此外,本文还对花椒(Zanthoxylum L.)和Fagara两属的合并问题及花椒与吴茱萸(Evodia Scop.)两属之间的亲缘关系等问题进行了讨论。     

Pollen morphology of the tribe Cynoglosseae of Boraginoideae (Boraginaceae) in China

Pollen morphology of 16 Chinese species representing 7 genera in the tribe Cynoglosseae of Boraginoideae(Boraginaceae) was examined under LM and SEM, and 5 species under TEM. Pollen grains are cocoon-shaped, rarely subprolate, prolate or ovoid, very small, 7～ 15.7μm× 3.5 ~ 13.9 μm in size, P/E = 1.6～2.02; 3-colporate apertures alternate with 3-pseudocolpi, with equatorial endocingulus except those in Bothriospermum; exine surface is usually smooth, with or without perforations in two poles, rarely with tuberculate ornamentation; exine is rather thin and includes ectexine and endexine, while ectexine consists of imperforate tectum, columellae and foot-layer. The tribe Cynoglosseae has many common characters of pollen grains, but there are some differences among genera. A key to the genera is given based on pollen morphology. Bothriospermum, without endocingulus, may be a primitive genus in this tribe, and its pollen morphology is more similar to that of Eritrichieae than to Cynoglosseae, thus it seems more reasonable to put it into Eritrichieae. Solenanthus may be the most advanced genus in the tribe Cynoglosseae for its pollen grains of sub-isopolar and ovoid shape.     

中国大蒜芥族植物花粉形态的研究

对中国大蒜芥族10属14种植物花粉形态分别进行了光镜和扫描电镜下的观察研究。结果表明该族花粉形态可划分为4种类型：（1）具3沟,超长球形,网状纹饰,外壁2层;（2）具3沟,超长球形,细网状纹饰,外壁1层;（3）具3沟（偶4沟）,长球形,网状纹饰,外壁2层;（4）具6沟,长球形,网状纹饰,外壁2层。因此,中国大蒜芥族的花粉形态多样性程度较高,说明了它不是一个自然类群,是一个多系类群,这与前人研究结果相一致。另外,本文首次报道十字花科锥果芥属植物具6沟花粉,具6沟花粉在十字花科中极为特殊,所以作者将锥果芥属提升为族级,另立新族,即锥果芥族（Tribe Berteroelleae F．Z．Li,G．Y．Tang ＆ Z．Y．Sun,trib．nov．）。     

新疆裸果木亚科植物花粉形态学研究

通过光镜和扫镜电镜对新疆产裸果木亚科３属６种植物的花粉形态进行了观察与观察。结果表明：花粉形态有三种类型,裸果木属为散孔类型,治疝草属为三孔类型,拟漆姑草属为三沟类型。具孔类型中,萌发孔边缘界限有不清楚,孔膜不明显,颗粒状纹饰;具沟类型中,萌发沟上有膜覆盖,具颗粒状纹饰。根据花粉形态,编出分属检索表,并讨论了花粉形态在分类中的作用以及各属之间的亲缘关系。     

Pollen Morphology and Epidermal Characters of Leaves in Convallarieae (s. l.)

The tribe Convallarieae (sensu Krause 1930) consists of 7 genera, i.e. Convallaria, Speirantha, Reineckia, Theropogon, Tupistra, Rohdea and Aspidistra, but now generally recognized as two tribes, Convallarieae (the former 4 genera) and Aspidistreae (the rest). Observed in this work were pollen morphology of 17 species and epidermal characters of leaves of 12 species. All the 7 genera are covered in observations. Pollen grains in Convallarieae (s. str.) are all monosulcate and boat-shaped (Plate 1: A-F). The exine is rather uniformly microperforate (Plate 1: A-F); only Theropogon is exceptional in this respect: it has rugulate exine (Plate 1: O, P). Tang and Zhang (1985) have pointed out the heterogeneity of Theropogon in this tribe. Pollen morphology in the tribe Aspidistreae is widely variable. The genera Tupistra and Rohdea were shown to have monosulcate and boat-shaped pollen grains. Their exine is perforate or reticulate (Plate 1: G-N). Pollen grains in the genus Aspidistra, however, are nonaperturate and spheroidal. The exine in the genus varies from crass-rugulate, variously gemmate to tuberculate-baculate (Plate 2; A-H). The pollen morphology of Aspidistra is therefore distinctly different from that of Tupistra and Rohdea, which supports the Nakai's (1936) establishment of the tribe Rohdeae for Tupistra and Rohdea. Therefore, Krause's Convallarieae is reasonably divided into at least three tribes, Convallarieae (Speirantha, Convallaria, Reineckia and Theropogon), Aspidistreae (Aspidistra) and Rohdeae (Rohdea and Tupistra). The pollen characters of all the 7 genera are shown in Table 1. The evolutionary trends of pollen morphology (aperture and exine) in the three tribes are discussed and our major view-points are shown in Fig. 1. Observations on epidermal characters of leaves show that in the Convallarieae (s. 1.) stomatal apparatuses are all anomocytic; cuticular layer on the upper epidermis is mainly striatethickened or rather uniformly thickened (Plate 2: J--P; Plate 3: A-C, F-N), whereas in the genus Convallaria the cuticular layer is squamosely thickened (Plate 2: I; Plate 3: D, E).The epidermal characters of leaves in the 7 genera are summarized in Table 2.     

Pollen morphology of the tribe Rhinantheae (Orobanchaceae) and its systematic significances

Pollen morphology of 36 species representing 14 genera within the tribe Rhinantheae in the family Orobanchaceae was studied and illustrated with light microscopy (LM) and scanning electron microscopy (SEM). Five major pollen types were recognized on the basis of exine ornamentation. Within these major types, minor types (subtypes) were distinguished based on exine surface pattern, size, shape, amb form, colpi and colpus membrane. These types and subtypes are as follows: type I. retipilate: subtype Ia. regular retipilate: (1) pollen size < 27 μm, (2) pollen size > 27 μm, subtype Ib. irregular retipilate; type II. verrucate: subtype IIa. macro-verrucate, subtype IIb. verrucate, subtype IIc. sparse verrucate; type III. retirugulate; type IV. granulate; type V. micro-reticulate. A key to pollen morphology of genera studied within the Rhinantheae was made based on pollen morphology from our study and earlier work. Combining with other sources of information on the Rhinantheae, the systematic relationships of this tribe are discussed. Rhinantheae pollen displays considerable variation between genera and species, with taxonomically significant characters at genus and species level. Palynological characteristics provide evidence for interpreting the conflicting views concerning the “Pterygiella Complex”. The evolutionary trend in exine sculpture of Rhinantheae could be proposed, namely that retipilate sculpturing which is the most widespread type is more primitive than the other types (such as foveolate, granulate, regulate, reticulate, retirugulate and verrucate). The pollen data in present study and the view of Hong (1986), as well as the molecular data from Bennett and Mathews (2006) indicated that Asia and related regions were likely to the origin centre of the tribe Rhinantheae.     

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.     

青藏高原东缘28种风毛菊属植物花粉形态研究

通过扫描电镜对青藏高原高寒草甸风毛菊属28种多年生草本植物的花粉进行了形态观察和比较,结果显示,该属植物花粉形态较为一致。花粉近球形或长球形,极面观三裂圆形,三孔沟,外壁表面具刺状突起。刺间纹饰可分为4种类型:穴状、颗粒状、网状—颗粒状和网状。花粉形态没有大的差异,但刺间表面纹饰、萌发沟的宽窄、刺的大小、分布密度和花粉大小在种间存在差异,可作为种的分类依据。花粉特征聚类分析结果表明,此28种风毛菊属植物花粉大致划分为明显的5个类群,所包含的种分别隶属于风毛菊属的四亚属:雪兔子亚属、雪莲亚属、附片亚属和风毛菊亚属。     

Pollen Morphology of Caprifoliaceae from China and Its Taxonomic Signi-ficance

The pollen morphology of 54 samples representing 12 genera and 31 species was investigated with the aid of scanning electron microscope. Observed were pollen grains of Sambucus, Viburnum, Lonicera, Leycesteria, Heptacodium, Linnaea, Abelia, Dipelta, Kolkwitzia, Symphoricarpos, Triosteum, Weigela. Based on the shape, size, position and number of aperture, exine sculpture, three types are recognized: 1. Pollen grains subprolate, less frequently prolate, rather small, 3-colporate, exine reticulate, as in Sambucus, Viburnum. 2. Mostly spheroidal, subolate, bigger than the former, also 3-colporate, exine spinulose as in Lonicera, Leycesteria, Heptacodium, Triosteum, Linnaea, Abelia, Dipelta, Kolkwitzia, Symphoriocarpos, Weigela. 3. Spheriodal, more or less flattend, exine scabrous as in Abelia section Zabelia and Lonicera section Isoxylosteum. 1. The systematic position of Caprifoliaceae: It has been generally treated as a member of the order Rubiales together with Rubiaceae, Valeriaceae and Dipsacaceae on floral characters. In respect to serological character, it has a close relationship with Cornaceae, and was placed in Araliales. The above stated 2nd and 3rd types of pollen grains are similar to those of Patrinia (Valerianaceae), Scabiosa (Adoxaceae), Cornus (Cornaceae), and the pollen grains of the 1st type are similar to those of Styraceae, Genetianaceae and Araliaceae. Taking the information so far available into consideration, the authors agree to the Cronquists treatment retaining Caprifoliaceae in the order Dipsacales together with Adoxaceae, Valerianaceae and Dipsacaceae. 2. The division of tribes: Formerly Sambuceae included the genera Sambucus and Viburnum. Fritsch (1891) segregated Viburnum from Sambuceae and suggested a new tribe Viburneae including Triosteum. There is distinct difference in palynological features between these two genera. The exine sculpture of Viburnum is reticulate, but that of Triosteum is spinulose. It is reasonable to separate another new tribe, Triosteae, from Viburneae. 3. The pollen morphorlogy of several Chinese endemic genera, such as Heptacodium, Dipelta, Kolkwitzia resembles that of Lonicera, Leycesteria, Linnaea, Symphoricarpos, Abelia, Triosteum. This evidence supports the foregoing treatment including them in Caprifoliaceae. 4. Two different exine sculptures are shown in sections of the genera Abelia and Lonicera. In Abelia the exine of the section Euabelia is spinulose, but that of the section Zabelia is scabrous. Likewise, in Lonicera, the exine of the section Isoxylosteum is scabrous, while that of other sections such as Nintooa, Isika, Lonicera, subgenus Caprifolium, is spinulose. It shows that pollen morphology is one of diagnostic characters for section division.