手参属花粉形态及其分类学意义

首次报道了兰科的手参属Gymnadenia国产5种植物花粉形态的研究结果,并与邻近的兜被兰属 Neottianthem 花粉进行了对比研究。前者花粉小块形状大多不规则,少数为三棱锥体形;而后者花粉小块大多形状为三棱锥体形,少数形状不规则。手参属花粉外壁表面具很细微的小穿孔、皱波状,小穴和小穿孔与沟渠状纹饰共存,或沟渠状等;而兜被兰属外壁表面纹饰明显,具有5种类型： (1)小穿孔,(2)表面近光滑,(3)沟渠状,(4)拟网状,(5)典型的网状纹饰。手参属花粉表面具粘丝,而兜被兰属花粉表面没有发现粘丝。此外,本文还探讨了手参属和兜被兰属两属花粉在分类学上的意义。     

中国兜被兰属植物的花粉形态及其分类意义

兜被兰属Neottianthe全世界共约12种,中国均有分布,其中9种为我国所特有。本属花粉形态 和组成都很特殊,它是由许多单粒花粉粘结在一起形成复合花粉——花粉小块,其形状一般为狭长的三 棱锥体形。外壁表面具5种纹饰类型:(A)近光滑,或具十分微弱的小凹陷;(B)外壁具穿孔状纹饰; (c)外壁具沟渠状纹饰;(D)外壁具拟网状纹饰;(E)具典型的网状纹饰。奉属有些种类,例如:N．cal- cicola,N．monophylla,N．pseudo-diphylax和N．cucullata等4种在分类上还存在许多问题,有些分类 学家把N.calcicola,N.monophylla,N.pseudo-diphylax 3种均归并于N．cucullata。孢粉学资料表 明上述4个种花粉特征完全不同,因此,上述4种仍应各自独立为种。最后,强调指出N．camptoceras的花粉形状和外壁纹饰等特征在本属为特殊类型。     

胡椒科的花粉形态及其分类学意义

胡椒科的某些属之间,花粉形态表现出一定的差异。齐头绒属花粉粒表面粒为平滑,但有小穿孔,略显粗糙。胡椒属的花粉粒表面有不规则的瘤状纹饰,纹饰较为平滑。Ｌｅｐｉａｎｔｈｅｓ（Ｐｏｔｈｏｍｏｒｐｈｅ）的花粉粒表面瘤状纹饰不显著。     

绣球属(Hydrangea L.)及近缘属花粉形态的研究

为深入研究绣球属植物花粉形态的分类学价值和系统学意义,厘清绣球属与近缘属之间的系统发育关系,该文利用扫描电子显微镜(SEM,scanning electron microscope)对国产绣球属及其近缘属41种绣球花科(Hydrangeaceae)植物的花粉形态以及表面纹饰进行了观察。结果表明:绣球属及其近缘属的花粉为三孔沟;形状多数为长圆体形或近球体形;赤道面观为椭圆形或圆形;极面观多为圆形,少数为三角形或圆三角形。花粉外壁纹饰可分为网状和孔穴状。网眼内的三级纹饰可分为光滑和具颗粒状突起。根据花粉形状和外壁纹饰类型将上述物种划分为4个组,即花粉的形状为长圆体形,表面纹饰为孔穴纹饰;花粉的形状为长圆体形,表面纹饰为网状纹饰;花粉的形状为近球体形,表面纹饰为孔穴纹饰;花粉的形状为近球体形,表面纹饰为网状纹饰。以上可进一步细分为8个类型。上述表明花粉形态证据可为绣球属及其近缘属的属下分类和种间界定提供重要佐证;但结合前人的系统发育重建分析该属植物花粉形态的系统学意义相对有限,如花粉形态证据对于该属及其近缘种属系统发育树上大支的界定难以提供有力的证据。     

山小橘属 (芸香科) 花粉形态及其系统学意义

利用扫描电镜（SEM）对芸香科山小橘属（Glycosmis）12个分类群16个样品的花粉形态特征（包括花粉大小、萌发孔及外壁纹饰等）进行了观察研究,其中光叶山小橘（G.craibii var. glabra）、长果山小橘（G.erythrocarpa）、锈毛山小橘（G.esquirolii）、长叶山小橘（G.longifolia）、亮叶山小橘（G.lucida）、海南山小橘（G.montana）、少花山小橘（G.oligantha）、小花山小橘（G.parviflora）和华山小橘（G.pseudoracemos）等9个分类群的花粉形态为首次报道。结果表明,国产山小橘属植物的花粉均为单粒花粉,近球形或长球形,花粉大小范围为(15.90~23.92)×(14.56~22.00)μm,极面观为圆形、三裂圆形或近三角形,极轴与赤道轴比值（P/E）范围为1.03~1.31,均为3孔沟;根据花粉外壁纹饰可以将国产种类划分为条网状、复条网状、条纹-穿孔纹饰以及孔穴状纹饰等四种类型,其中小花山小橘不同来源花粉的外壁纹饰差异较大,至少存在5种类型：(1) 极面穴状,赤面条网状或穿孔,(2) 极面穴状,赤面均匀分布圆形穿孔,(3) 具复条网状,(4) 条网状兼具不规则小穿孔,(5) 条网状兼近圆形穿孔纹饰。研究发现山小橘属植物的花粉形态特征具有较高的多样性,为该属植物的分类及系统学研究提供了可用的孢粉学资料。     

中国柽柳科植物花粉形态的研究

本文用光学显微镜和扫描电镜观察了分布于我国的4属30种柽柳科植物花粉形态。并用透射电镜研究了柽柳属的代表种, Tamarix elongata外壁内部的超微结构。本科花粉为三沟, 少数属种为三拟孔沟。根据扫描电镜观察, 柽柳属花粉外壁表面具粗网状纹饰和细网状纹饰, 以及界于这两个类型之间的过渡类型。水柏枝属外壁表面具粗网状纹饰, 细网状纹饰, 小穿孔以及小的蠕虫状突起。红沙属和枇杷柴属均为细网状纹饰。 本科柽柳属花粉与杨柳科中柳属的花粉特征较相似, 本文提出了它们之间的区别。     

猕猴桃属9种植物的花粉形态研究

本文利用扫描电镜和光学显微镜研究了猕猴桃属6种和3变种植物的花粉形态。本属花粉粒具三孔沟或三拟孔沟,外壁纹饰差异较大。可作为该属属下分组的重要依据之一。根据外壁纹饰,可将它们概括为4种类型:(1)皱块状表面具细条纹;(2)不规则的瘤状纹饰;(3)小沟状或小穿孔状;(4)较规则的瘤状纹饰类型。     

省藤族十六种植物的花粉形态

对棕榈科（Palmae）省藤亚科（Calamoideae）省藤族（Calameae）省藤属（Calamus）8种4变种、钩叶藤属（Plectocomia）1种、黄藤属（Daemonorops）1种、蛇皮果属（Salacca）2种共4个属16种植物的花粉进行了光镜和扫描电镜观察。省藤属植物的花粉均为两沟型花粉,外壁纹饰为网状、穿孔或小凹穴等类型;黄藤属的黄藤（Daemonorops matgaritae）花粉为近环沟型,外壁纹饰为颗粒状,其萌发孔特征与以前报道不一致。钩叶藤属的钩叶藤（Plectocomia kerrana）花粉为两沟型,外壁纹饰为网状。蛇皮果属的滇西蛇皮果（Salacca secunda）花粉的萌发孔为2沟,外壁纹饰为稀疏的穿孔或者小孔穴,而蛇皮果（S.zal-acca）花粉萌发孔为近环沟型,外壁纹饰为刺状突起,刺之间为密集的小穿孔。研究表明,花粉特征可以反映省藤属内的种间差异,支持褐鳞省藤（Calamus balansaeanus var.castaneolepis）、滇缅省藤（C.erectus var.birmanicus）及长穗省藤（C.palustrisvar.longistachys）作为变种,支持勐腊鞭藤（C.karinensis）作为种的等级地位;另外花粉特征对于探索省藤属和其他属的亲缘关系具有重要的参考价值。     

四种番荔枝科植物花粉形态

利用扫描和透射电子显微镜,观察了番荔枝科(Annonaceae)4属4种植物的花粉形态与结构.刺果番荔枝(Annona muricata)和金钩花(Pseuduvaria trimera)为四合花粉,有四角形、偏菱形、T-型、十字形和四面体形.前者花粉表面具小穿孔,后者为皱波状纹饰.蕉木(Oncodostigma hainanense)和那大紫玉盘(Uvaria macclurei)为单花粉,前者表面为皱波状纹饰,后者为粗褶皱状纹饰.透射电子显微镜下,蕉木和那大紫玉盘覆盖层较厚、连续.蕉木覆盖下层较薄,偶尔可见颗粒状物质或不规则小柱,为过渡型覆盖下层;那大紫玉盘覆盖下层颗粒状.基层分为内外两层,外层较厚,平或呈波浪状,内层具有2～4片层结构.在不同属或同属不同种之间,花粉特征差异较大,多样性非常丰富.金钩花具有四合花粉、覆盖下层小柱状等进化特征,同时又具有花粉粒小、覆盖层无穿孔等较原始特征.     

中国紫草科破布木属花粉形态和外壁超微结构

为了深入探讨紫草科（Boraginaceae）的分类问题,用光学显微镜和扫描电子显微镜观察了该科破布木属（CordiaL.) 10种植物的花粉形态和外壁超微结构。发现该属花粉具三孔、三孔沟、三拟孔沟和三合沟4种萌发孔类型。外壁表面具微刺状纹饰、刺状纹饰、网状纹饰和不规则的条纹网状纹状。破布木属的花粉特征表明,该属花粉在紫草科中既是独特的分类群,又是比较原始的属种。     

Pollen morphology of Gymnadenia R. Br. (Orchidaceae) and its taxonomic significance

Pollen morphology of five species from China in the genus Gymnadenia R. Br. (Orchidaceae) was investigated in this work. Pollen characteristics of this genus were compared to those of its closely related genus, Neottianthe Schltr. It is found that there are some differences of pollen morphology between the two genera, e.g.: (A) Pollen massulae are mostly irregular less frequently trigonous-conical in Gymnadenia, while mainly trigenuus-conical less frequently irregular in Neottianthe; (B) Ornamentation of pollen exine surface is usually indistinct, but microperforate, microrugulate, microfoveolate or both microperforate and microfossulate in high magnification in Gymnadenia, but more distinct in Neottianthe. Exine ornamentation of this genus can be divided into five types, ( 1 ) almost smooth, or very obscurely fosset, (2) perforate, (3) fossulate or foveolate, (4) reticuloid, (5) typically reticulate. (C) the surface of pollen massulae in Gymnadenia possess viscin thread, but that in Neottianthe does not. The result of this work supports the separation ofNeottianthe from Gymnadenia as an independent genus.     

Pollen Morphology of Neottianthe (Orchidaceae) and Its Taxonomic Significance

The genus Neottianthe (Orchidaceae) consists of about 12 species in the world, of which all are found in China and nine are endemic to China. The pollen morphology of this genus is very specific in shape and composition. All pollen grains in Neottianthe are of a compound pollen grain, called massula, in which of many monad pollen grains adhere togeth er. A massula is usually long and narrow trigonous cone in shape. Pollen grains can be divid ed into five types according to ornamentation, of exine surface: (A) pollen surface almost smooth, or very obscurely fossete, (B)perforate, (C) fossulate or foveolate, (D) reticuloid, and (E)typically reticulate. Neottianthe. calcicola, N. monophylla, N.pseudo-diphylax and N. cucullata have been merged into one species, N. cucullata, by some taxonomists. This treatment is not supported by the pollen morphological data, because pollen morphological characteristics of above-mentioned four species are different from each other. Therefore, pollen morphology shows that they are all independent at the specific level. Finally, it must be stressed that N. camptoceras is uniquite in the genus Neottianthe for its pollen shape,size and surface ornamentation of pollen exine.     

9种益母草属植物的花粉粒形态

利用光学显微镜、扫描电镜对国产８种１变种及欧美产１种益母草属植物的花粉粒进行观察与研究。本属植物花粉粒椭 球形或近球形,益母草和白花益母草花粉粒两端突起成喙。具３沟,狭长,几达两极,人内陷或内陷。外壁纹纹饰网状,某些种尚具或为细小的穿孔。结果基本支持各种的系统地位。     

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 subfamily Aurantioideae (Rutaceae)

The Aurantioideae is one of seven subfamilies of the Rutaceae consisting of two tribes, the Clauseneae, containing five genera, and the Citreae, with 28 genera. Each tribe contains three subtribes. The pollen morphology of the subfamily Aurantioideae is described and illustrated for the first time based on light and scanning electron microscopy. Five pollen types have been recognised in the subfamily, based mainly on aperture number and exine ornamentation. The pollen grains show a high degree of intergeneric variation. Pollen grains of Clauseneae are 3-colporate, microstriate or microstriato-reticulate, whereas pollen grains of Citreae are almost always 4/5 colporate with exines varying from microperforate to coarsely reticulate. Congruence between pollen types and the currently accepted classification is discussed, as well as the systematic implications of pollen morphology for the subfamily.     

中国紫草科厚壳树亚科的花粉形态及其系统学意义

为探讨厚壳树亚科在紫草科中的系统位置,用扫描电子显微镜研究了国产厚壳树亚科Ehretioideae的厚壳树属Ehretia、轮冠木属Rotula和基及树属 Carmona 3属12种植物的花粉形态,其扫描电镜资料属首次报道。从本文并结合文献报道的双柱紫草属 Coldenia的花粉资料,可得知该亚科花粉为长球形 、近球形,稀球形,赤道部位具有不同程度的膨大;萌发孔类型为三孔沟和三拟假沟二者交替排列,稀具三孔;外壁表面具微弱的小穿孔,稀光滑或皱波状纹饰。厚壳树亚科Ehretioideae与破布木亚科     

Pollen Morphology of the Genus Malus and Its Taxonomic and Evolutionary Significance

The pollen morphology of 26 species and 5 hybrids of the genus Malus was investigated with aid of SEM. It is found that the pollen morphology of Malus is rather similar in shape, size, position and number of aperture and exine sculpture. The characters of polle morphology of sections and series are as follows: Sect. Malus Ser. Baccatae: Striae regular, parallel to colpi, and conjunct at pole; Ser. Pumilae: the same as in Ser. Baccatae, but more or less curved near pole. Sect. Docyniopes: Striae regular and parallel to colpi, but bent near pole. Sect. Chloromeles: Striae irregular, dense and interlock. Sect. Sorbormalus: Striae irregular, sparse and not interlock. Ser. Sieboldiance: pollen grains prolate, with perforation among striae, colpi narrow; Ser. Kansuenses: Pollen grains spheroidal, colpi wide in the middle but narrow at both ends, striae relatively dense and regular, mostly dichotomous, perforation present; Ser. Yunnanenses; Pollen grain spheroidae, colpi wide in the middle but narrow at both ends, striae obviously irregular, less dichotomous, perforation absent. The major evolutionary trend of exine sculpture of pollen may be from densely thin-striate to sparsely striate with perforation. Characters of the exine sculpture of hybrids can be used to recognize the rela-tionship between the parental species.     

POLLEN MORPHOLOGY IN THE SELAGINEAE,MANULEAE (SCROPHULARIACEAE), AND SELECTED GLOBULARIACEAE,AND ITS TAXONOMIC SIGNIFICANCE

The pollen grains of 22 genera and 182 species of Selagineae, Manuleae, and selected Globulariaceae were examined by light and scanning electron microscopy of whole and fractured pollen. Grains of the Selagineae and most Manuleae have trizonicolporate aperatures with long, unconstricted ectocolpi; clearly delimited margos; psilate colpus membranes; lalongate transverse endocolpi extending beyond the boundaries of the ectocolpi; thickened endoaperture margins; semitectate, reticulate to microreticulate exines; and psilate, simplicolumellate muri. In the Globulariaceae, Globularia has spinulose, microperforate exines and undifferentiated ectocolpus margins, and both Globularia and Poskea have granular to spinulose colpus membranes, lolongate endoapertures included within the ectocolpi, and unthickened endoaperture margins. These pollen data support postulated relationships between Selagineae and Manuleae, but pollen grains of Selagineae and Globulariaceae are distinct, and pollen morphology does not correlate with proposals combining these taxa in Globulariaceae or Selaginaceae. Pollen morphology in Glumicalyx is indistinguishable from that in most Manuleae and supports transfer of this genus to the Manuleae from the Digitaleae. Differences in pollen morphology supplement established morphological distinctions between Globularia and Poskea, but the pollen evidence does not support published infrageneric classifications in Globularia or postulated relationships between Selagineae and Gratioleae or Selagineae and Lagotis.     

Pollen of African Spermacoce species (Rubiaceae) Morphology and evolutionary aspects

Pollen morphology of 43 African species of the genus Spermacoce has been investigated by scanning electron and light microscopy. The genus is eurypalynous, which is reflected in the remarkable variation of almost all pollen characters. The average equatorial diameter (E) ranges from 15.8 w m to 115.5 w m. Grains are colporate or pororate. The number of apertures varies from 3 up to more than 25. The majority of species has apertures situated only at the equator (being zonoaperturate), but a few species have pantoaperturate grains. The endoaperture is generally an endocingulum, often with a secondary lolongate or lalongate thinning at the ectocolpus; endocolpi and endopores are also observed. The sexine is usually perforate, but eutectate, foveolate, and (micro)reticulate tecta were also found. Supratectal elements are present as granules, microspines or spines. The inner nexine surface is granular, often with irregular grooves (endocracks). Among native African species, nine pollen types are recognized mainly on the basis of pollen size, aperture morphology and tectum peculiarities. In two of the pantoaperturate types, apertures are in a configuration not yet recorded for the angiosperms in general. Some evolutionary trends are proposed that await verification by further systematic study. Pollen morphological characters have a high taxonomic value in the genus Spermacoce . They provide almost unique identification marks for the species, which enables sharpening of species boundaries. Small groups of related species often share the same pollen type. The genus Borreria , previously separated from Spermacoce on the basis of its fruit morphology only, is not supported by pollen data.