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。     

中国木兰属和含笑属导管分子的比较解剖

本文对我国木兰科的39种木兰属和含笑属植物次生木质部的导管分子进行了初步分析。两属导管分子的长度和宽度略有差异。木兰属中多数种的导管分于有单穿孔板,但有的可见到梯状穿孔板。含笑属植物的导管分子大多具有梯状穿孔板,仅有一种可看到单穿孔板。在具有梯状穿孔板的木兰属植物中,穿孔板的横隔数目较含笑属的多。木兰属的导管壁上一般无螺纹加厚;含笑属则相反。此外,在两属之间,导管尚存在一些其它差异。     

10 种茶藨子属植物导管分子形态特征及其生态适应性比较研究简

利用光学显微镜和扫描电子显微电镜,以10种茶藨子属植物为研究材料,观察了其导管分子的形态结构。结果显示：（1）所研究的茶藨子属植物导管分子穿孔板为梯状穿孔板,且穿孔板上横隔分布的数量不同,端壁倾斜角度种间变化不大;（2）导管分子纹孔式样为互列式或兼有互列式和对列式,纹孔形状种间存在差异;（3）有的种类导管分子内壁有螺纹加厚或网状凸起。研究表明,不同生境下的茶藨子属植物导管形态与其生态适应性之间有较强的相关性,表现为湿生环境的物种导管较短,直径较宽;旱生环境的物种导管较长,直径较小;中生环境的居中。本文分析了茶藨子属植物导管分子形态特征的生态适应性。     

国产省藤属植物的花粉形态学

对国产棕榈科省藤属(Calamius L.)15种植物的花粉进行了光学和扫描电镜观察,其中12种为首次报道。省藤属的花粉均为两沟型花粉,外壁覆盖层多为网状纹饰(大喙省藤C．macrorrhynchus)或具穿孔(华南省藤C.rhabdocladus)。首次发现省藤属花粉的外壁纹饰存在穿孔和外壁疣状突起的类型(阔叶鸡藤C.pulchellus)以及皱波状突起的类型(长鞭省藤C.flagellum)。花粉的大小、形状、外壁纹饰、外壁是否有突起,外壁厚度和网状纹饰网眼的大小,对于省藤属的种级分类有较大的意义。     

类叶升麻(毛茛科)次生木质部管状分子的研究

利用扫描电子显微镜对毛良科类叶升麻（Artaea asiaticaHara）根和根状茎次生木质部中的管状分子进行观察．发观其管状分子类型丰富,主要有：管胞、管胞状导管、纤维导管和典型的导管分子,其中管胞、管胞状导管和纤维导管为在该类群中首次报道;在导管分子中．存在着梯状穿孔板、网状穿孔板、混合型穿孔板和单穿孔板．其中网状穿孔板和混合型穿孔板为在陔类群中的首次报道;对其导管分子上的侧壁穿孔板、多穿孔板和纹孔膜残余也进行了描述。根据类叶升麻次生木质部中多变的管状分子类型,认为以往积累的有关毛茛科植物管状分子类型及导管穿孔板类型是小个面的,因此以该性状为参考作出的有关某一个类群的原始性和进化性的推论也是不可靠的。同时探讨了不同类型管状分子作类叶升麻不同器官的分布与其生理功能和生态环境的关系,同时将该植物作为毛莨科的代表类群．与其它基邴类群植物导管分子进行了比较。     

国产对囊蕨亚科（蹄盖蕨科）植物的管状分子

利用扫描电镜观察了国产蹄盖蕨科（Athyriaceae）对囊蕨亚科（Deparioideae）10种植物及双盖蕨属（Diplazium Sw．）3种植物根状茎的管状分子。结果显示,这些管状分子端壁和侧壁的形态及结构分别相同且侧壁具有穿孔板（多穿孔板）。根据穿孔板的形态特征,将该亚科的管状分子分为5种类型：（1）梯状穿孔板,无穿孔的二型性现象：（2）梯状穿孔板,有穿孔的二型性现象：（3）网状穿孔板：（4）梯状-网状混合的穿孔板：（5）大孔状穿孔板。按照纹孔膜残留的程度又可分为3种：部分区域有完整的纹孔膜、残留呈网状或线状以及很少或无纹孔膜残留。结合前人的研究资料,发现蕨类植物的管状分子与被子植物的导管分子在形态和输导机理上存在明显差异,管胞和导管分子不能仅仅根据纹孔膜的存在与否来确定,而应根据穿孔板存在于端壁还是侧壁进行判断,即穿孔板仅存在于端壁的管状分子为导管分子：端壁和侧壁形态及结构分别相同,有或无穿孔板的管状分子为管胞。由此可以推测蕨类植物和裸子植物中输导水分和矿物质的管状分子主要为管胞。单叶双盖蕨属（Triblemma（J．Sm．）Ching）与双盖蕨属管状分子的特征并不相似,显示了将单叶双盖蕨属从双盖蕨属独立出来归人对囊蕨亚科的合理性。根据管状分子的特征,推测假蹄盖蕨属（Athyriopsis Ching）和蛾眉蕨属（Lunathyrium Koidz．）可能是比较进化的属,而介蕨属（Dryoathyrium Ching）相对比较原始,单叶双盖蕨属的系统位置应介于假蹄盖蕨属与介蕨属之间。     

10种茶藨子属植物导管分子形态特征及其生态适应性比较研究

利用光学显微镜和扫描电子显微电镜,以10种茶藨子属植物为研究材料,观察了其导管分子的形态结构。结果显示:(1)所研究的茶藨子属植物导管分子穿孔板为梯状穿孔板,且穿孔板上横隔分布的数量不同,端壁倾斜角度种间变化不大;(2)导管分子纹孔式样为互列式或兼有互列式和对列式,纹孔形状种间存在差异;(3)有的种类导管分子内壁有螺纹加厚或网状凸起。研究表明,不同生境下的茶藨子属植物导管形态与其生态适应性之间有较强的相关性,表现为湿生环境的物种导管较短,直径较宽;旱生环境的物种导管较长,直径较小;中生环境的居中。本文分析了茶藨子属植物导管分子形态特征的生态适应性。     

中国省藤属(棕榈科)区系地理研究

省藤属（Calamus L．）属棕榈科（Palmae）省藤亚科（Calamoideae）,是棕榈科中最大的属,约有370种。中国是其天然分布的北缘,共有37种26变种,种数约占世界的10％,有西南和东南两大分布中心;省藤属的天然分布地域性较强,各地区特有种比例较高;在区系上,西南分布中心和中南半岛西部、南亚的省藤区系都有较强的联系,东南分布中心与中南半岛东部的联系更为紧密。     

木通科4属植物导管穿孔板的比较研究

运用扫描电子显微镜法(SEM)对木通科(Lardizabalaceae)4属植物茎的次生木质部导管分子进行观察,结果表明:(1)端壁均具有单穿孔板;(2)串果藤属的导管分子具有丰富的穿孔板类型,包括网状、梯状、单穿孔及过渡类型,穿孔具有网状、丝状、片状的纹孔膜残余;大血藤属和八月瓜属的导管分子具有相似的特征,端壁具有梯状、单穿孔及梯—单混合穿孔板;野木瓜属只具有单穿孔板;(3)侧壁上具有穿孔板,多为梯状或梯—网混合类型(除了野木瓜属);(4)野木瓜属的导管侧壁具有独特的螺旋状加厚。各属导管的不同特征为木通科的系统演化提供比较可靠的依据。     

国产省藤属植物的叶表皮形态学

对国产省藤属（Calamus L．）植物17种2变种的叶表皮进行光学显微镜观察,除单叶省藤（C.simplicifolius）、短叶省藤（C.egregiw）和白藤（C.tetradactylus）外,其它种均为首次报道。省藤属植物的叶表皮形态较为一致,气孔器为轮列4细胞型（tetracytic,或称四轮列型）,即有4个副卫细胞,其中2个为侧副卫细胞,2个为端副卫细胞;表皮细胞为长方形,纵向排列。表皮毛有3种类型：多细胞排成单列的单毛（人喙省藤C．macrorrhynchus）、多细胞排成2-3列的单毛（毛鳞省藤ethysanolepis等）、多细胞分枝毛（白藤等）。表皮细胞的长度和宽度特征、细胞壁的厚薄及波纹的深浅和形状、端副卫细胞的长短等细微特征在种问存在差异,可以区分种类。叶表皮结构还反映了种问的亲缘关系。因此,叶表皮特征对于省藤属种类的划分和亲缘关系的确定有较大的分类学意义。     

Morphometric, AFLP and plastid microsatellite variation in populations of Scalesia divisa and S. incisa (Asteraceae) from the Galápagos Islands

Analysis of the stem vasculature of the American climbing palm Desmoncus reveals structural features differing significantly from the Old World rattan genus Calamus . Desmoncus has a more directly continuous vascular system but nevertheless shows a vessel distribution that makes for high hydraulic resistance in the axial xylem. Desmoncus is like Calamus in having a single very wide metaxylem vessel in each central axial bundle and is also without direct vascular contact between protoxylem and metaxylem tracheary elements. However, in Desmoncus the stem vascular bundle system resembles that in tree palms (as has been described in the model palm Rhapis excelsa ) in having a continuing axial bundle that branches from each outgoing leaf trace together with a large number of bridge connections between leaf traces and peripheral axial bundles. Resistance to axial water transport is, however, evident in the narrowness of the continuing metaxylem elements in the peripheral stem vascular region. Desmoncus has scalariform perforation plates with few thickening bars in the metaxylem vessels, unlike the simple perforation plates found in Calamus . Thus, Desmoncus shows only limited convergence in stem vascular architecture toward the extreme modifications found in Calamus . This is not unexpected since it is clear that the climbing habit evolved independently in the two genera.  © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society, 2003, 142 , 243−254.     

Anatomical diversity of Indian rattan palms (Calamoideae) in relation to biogeography and systematics

Of the 13 genera and 600 species of the subdivision Calamoideae, only four genera– Calamus, Daemonorops, Korthalsia , and Plectocomia –represent the Indian rattans which are found in three major regions: Western Ghats of Peninsular India, Andaman and Nicobar islands and north and north-eastern India. Detailed anatomical survey of 42 species shows considerable differences among the four genera. The vascular bundle in Calamus, Daemonorops and Korthalsia is characterized by a solitary metaxylem vessel and two phloem fields, while Plectocomia shows 1–2 metaxylem vessels and a single phloem field. The mechanical tissues show diversity in Korthalsia and Plectocomia with sclereids as a yellow cap on the outer side of the fibrous sheaths of vascular bundles. The size of the different cells, the diameter of the metaxylem vessel in particular, appears to be related to species habit, geography and stem size. The Andaman and Nicobar islands with equable temperature and high humidity provide the best environment for cane growth–the widest vessels are in canes from this region. While altitudinal influence on vessel diameter appears to be relatively small, the higher latitude is associated with narrow and short vessel elements. With the exception of C. erectus , an erect species with the thickest stem, vessel diameter shows positive correlation with stem diameter. Vessel perforations are simple or rarely scalariform. Climbing palms which grow to enormous heights generally have wider vessels with simple perforations, an adaptation for conductive efficiency. Based on these results, the implications of stem anatomy for rattan biogeography, systematics and identification are discussed, and identification keys to species presented.     

洋蒲桃次生木质部中导管分子的解剖学

运用细胞图像分析系统和显微照相的方法对洋蒲桃(Syzygium samarangense)次生木质部导管分子进行了观察研究。次生木质部导管分子类型有: 两端具尾导管、一端具尾导管和无尾导管。导管分子穿孔板存在着4种类型: 两端均为具2个单穿孔的复穿孔板;一端为1个单穿孔板, 另1端为具2个单穿孔的复穿孔板;两端均为单穿孔板;两单穿孔板位于同一端壁两侧相互对应以及一些过渡类型穿孔板。根据观察结果, 分析了各类型穿孔板之间的演化关系。     

洋蒲桃次生木质部中导管分子的解剖学

运用细胞图像分析系统和显微照相的方法对洋蒲桃（Syzygium samarangense）次生木质部导管分子进行了观察研究。次生木质部导管分子类型有：两端具尾导管、一端具尾导管和无尾导管。导管分子穿孔板存在着4种类型：两端均为具2个单穿孔的复穿孔板;一端为1个单穿孔板,另1端为具2个单穿孔的复穿孔板;两端均为单穿孔板：两单穿孔板位于同一端壁两侧相互对应以及一些过渡类型穿孔板。根据观察结果,分析了各类型穿孔板之间的演化关系。     

基于不同方法的毛茛族(毛茛科)导管穿孔板比较研究

导管分子的演化与植物的进化相关联.毛茛科是联系基部被子植物和核心真双子叶植物的关键类群,对其导管穿孔板的研究具有重要的系统学意义.为研究毛茛科毛茛族不同属植物导管穿孔板类型及其与环境的相关性,该文利用新的扫描电子显微镜和半薄切片技术,对该族7属8种植物次生木质部导管状分子进行了比较观察.结果表明:木质部管状分子以单穿孔...     

细枝木麻黄导管分子及穿孔板解剖学研究

运用细胞图象分析系统和显微照相的方法对细枝木麻黄(CasuarinacunninghamianaMiq.)次生木质部导管分子进行了观察研究。细枝木麻黄次生木质部导管分子有3种类型,即两端具尾导管、一端具尾导管和无尾导管。导管分子穿孔板有4种类型:两端均为梯状穿孔板、一端为单穿孔板,另一端为梯状穿孔板、两端均为单穿孔板、一梯状穿孔板与一单穿孔板位于同一端壁两侧相互对应以及一些过渡类型穿孔板。根据观察结果,分析了各类型穿孔板之间的演化关系。     

Xylem of rattans: vessel dimensions in climbing palms

We examined 11 species in four genera of rattans (Calamus, Daemonorops, Korthalsia, Plectocomia) growing in their native rainforest habitat in Singapore. Using aqueous safranin dye, we found that >95% of all vascular bundles at the base of a mature stem were functioning to transport water. We determined the frequency of vessel lengths in the long stems of these climbing palms by infiltration with dilute latex paint. Separate length distributions were made for metaxylem and protoxylem vessels; in both, there were many short and a few long vessels. The longest protoxylem vessels ranged from 7.5 to 62 cm in length, but one stem had an exceptional protoxylem vessel measuring 3.0 m. Maximum metaxylem vessel diameters were positively correlated to maximum vessel lengths in these species. The longest metaxylem vessel was found in K. rigida and was 3.96 m in length and was constructed from ～1200 vessel elements (cells). The widest vessel in that same stem was 532 μm in diameter. Long, wide vessels decrease resistance and increase water transport efficiency. In addition, we suggest that wide metaxylem vessels may have an important function in water storage.     

Sem studies on vessels in ferns. 12. Marattiaceae, with comments on vessel patterns in eusporangiate ferns

Scanning electron microscopy (SEM) of tracheary elements of roots of five species from four genera of Marattiaceae and of the rhizome of one species revealed vessel elements present in all. The secondary wall framework of perforation plates is the same as that of lateral wall pitting for vessel elements in all species. Thus, no specialization is present in perforation plates of Marattiaceae compared to the simplified morphology of perforation plates of some leptosporangiate ferns (e.g., Dryopteridaceae, Polypodiaceae, and Pteridaceae). The difference between lateral wall pitting and perforation plates in tracheary elements of Marattiaceae cannot be seen by light microscopy (in which pit membranes are transparent), but is evident with SEM. Diversity in structure of perforation plates (especially the alternation of wide and narrow perforations within a plate) and presence of web-like pit membrane remnants are evident. Vessels are widespread in both leptosporangiate and eusporangiate ferns, although specialization in perforation plates (e.g., bars few and more widely spaced in lateral wall pitting of a given vessel element) is to be expected only in ferns of habitats with marked fluctuation in water availability. Vessels of Marattiaceae lack such specializations and are thus are correlated with the mesic habitats characteristic for the family.     

蜈蚣草导管分子的观察

对蜈蚣草(Pteris vittata)叶轴中导管分子进行了观察。结果表明,其导管分子十分细长,均具长、且十分倾斜的梯状穿孔板,穿孔没有纹孔膜的残余,与侧壁上的梯纹纹孔有着明显的差异。     

阳桃次生木质部导管分子及侵填体的研究

运用细胞图象分析系统和显微照相的方法对阳桃次生木质部导管分子进行了观察研究。次生木质部导管分子类型有两端具尾导管、一端具尾导管和无尾导管。导管分子穿孔板存在着2种类型:两端均为一个单穿孔板;一端为一个单穿孔板,另一端为具两个单穿孔的复穿孔板。48%的导管分子具有囊状侵填体;管间纹孔式为互列纹孔式。