青藏高原的兰科植物

一、兰科植物在青藏高原的种子植物中是大科之一,共有99属,474种及9变种.属占我国国产属总数的61.5%,地生型54属,附生型37属,腐生型8属.种数占我国国产种总数的46.5%,属中含超过20种的属有:虾脊兰属、羊耳蒜属、杓兰属、舌唇兰属、玉凤花属和石豆兰属,含10-20种的属有石斛属、毛兰属、角盘兰属、无柱兰属、阔蕊兰属、红门兰属、贝母兰属和对叶兰属,而仅含1种的属有43属,含2种的属有15属.兰科植物在本地区的分布是以横断山     

青岛沿海的管口类纤毛虫(原生动物,纤毛门,管口目)

根据形态学和纤毛图式特征等第一手信息,对采集自青岛沿海的管13类纤毛虫15属(伪斜管虫属Pseudochilodonopsis,斜管虫属Chilodonella,拟篷体虫属Chlamydonellopsis,篷体虫属Chlamydonella,齿管虫属Chlamydodon,腹沟虫属Coeloperis,哈特曼虫属Hartmannula,布鲁克林虫属Broklynella,宽管虫属Aegyriana,偏体虫属Dysteria,轮毛虫属Trochilia,直毛虫属Orthotrochilia,毛足虫属Trichopodiella,类偏体虫属Agnathodysteria,绒毛虫属Microxysma的分类学特征、属级定义及鉴定作了综述,并给出了属级检索表.     

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。     

大巴山自然保护区种子植物中国特有属的初步研究

大巴山自然保护区分布中国特有属45属,占本区的种子植物总属的4.98%。本区分布的中国种子植物特有属中均为少种属或单种属,单种属22属,少种属23属,分别占本区中国特有属总属数的48.9% 和51.1%。木本属22属,草本属23属,分别占本区中国特有属总属数的48.9% 和51.1%。本区的中国特有属植物主要分布在低山和中山,其中分布在低山的有6属,占总属数的13.3%, 分布在中山的有39属,占总属数的86.7%。其特点表现为众多的古特有属、较明显的过渡性质和丰富的珍稀物种,与四川和湖北的共有成分最多,是中国特有属川东鄂西特有现象中心的重要组成部分。     

中国的骨碎补科

本文讨论了骨碎补科属的划分问题,承认了骨碎补属、钻毛蕨属、雨蕨属和大膜盖蕨属。小膜盖蕨属和阴石蕨属的种类被并入到了骨碎补属。中国计有骨碎补科植物3属14种,其中骨碎补属12种,雨蕨属1种,大膜盖蕨属1种。     

四川白蚁名录

为了给基础研究和防治应用提供参考,笔者结合近年的研究成果和经验,对1923~2013年的文献涉及内容进行分析和甄别,确认四川地区(含重庆市)现发现白蚁4科14属96种。其中,草白蚁科:原白蚁属1种;木白蚁科:堆砂白蚁属1种,树白蚁属13种;鼻白蚁科:乳白蚁属1种,散白蚁属39种,杆白蚁属17种;白蚁科:土白蚁属5种,大白蚁属2种,亮白蚁属1种,华扭白蚁属5种,近扭白蚁属3种,象白蚁属4种,钝颚白蚁属3种,新白蚁属1种。四川省发现白蚁4科14属64种:其中草白蚁科:原白蚁属1种;木白蚁科:堆砂白蚁属1种,树白蚁属10种;鼻白蚁科:乳白蚁属1种,散白蚁属23种,杆白蚁属13种;白蚁科:土白蚁属1种,大白蚁属1种,亮白蚁属1种,华扭白蚁属3种,近扭白蚁属2种,象白蚁属4种,钝颚白蚁属2种,新白蚁属1种。     

杉科的细胞分类学和系统演化研究

根据杉科的核型资料,本文(1)提出“1B”可能是一个新的高等植物核型类型;(2)讨论了各属的有关分类学问题及相互亲缘关系,它们的进化顺序可能是柳杉属、水松属、落羽杉属、水杉属、巨杉属、红杉属、杉木属(密叶杉属与之近缘)、台湾杉属;(3)支持金松属分立成金松科,它可能比杉科各属原始;(4)红杉(AAAABB)的亲本可能是二个古代种水杉”和“巨杉”,它们的直接后裔或留下的近缘是水杉和巨杉;(5)杉科存在A和L两条进化路线,前者包括柳杉属、水松属、落羽杉属、台湾杉属,后者包括水杉属、巨杉属、红杉属、杉木属(密叶杉属);(6)提出一个杉科新系统(包括一个新亚科)：I．柳杉亚科(柳杉属),II．落羽杉亚科(水松属、落羽杉属),III．红杉亚科(冰杉属、巨杉属、红杉属),Ⅳ.杉木亚科(杉木属、密叶杉属),V．台湾杉亚科,新亚科(台湾杉属)。本文还对前人的杉科系统作了讨论。     

柏科的分类和分布:亚科、族和属

柏科Cupressaceae和杉科Taxcdiaceae有许多相似之处,近年来不少分类学家主张把两科合并成 广义的柏科。原杉科中的金松属Sciadopitys与两科其他屑的差异较大,被提升为单种科Sciadopity- aceae。本文根据球果可育种鳞的位置把柏科(狭义)分为2亚科,即上部种鳞不可育的柏木亚科Cupres- soideae和上部种鳞可育的澳洲柏亚科Callitroideae。综合其他形态学和解剖学证据,柏木亚科又分4族,即柏木族Cupresseae(包括：柏木属Cupressus、杂交柏属X Cupressocyparis、扁柏屑Chamaecyparis和福建柏属Fokeinia)、侧柏族Thujopsideae(包括：崖柏属Thuja、罗汉柏属Thujopsis和侧柏属laty-ladus)、圆柏族Junlpereae(包括：圆柏属Junzperus和海参威柏属Microbiota)以及香漆柏族Tetraclineae(包括：翠柏属Calt*edrus和香漆柏属Tetraclinis)。澳洲柏亚科又分3族,即澳洲柏族Actinostrobeae(包括：西澳柏属Actinostrobus、澳洲柏属Callitris、智利柏属Fitzroya和杉叶柏属Neocallitropsis)、南非柏族Widdringtoneae(包括：白智利柏属Pilgerodendron、塔斯曼柏属Diselma和南非柏属Widdringtonia)以及甜柏族Libocedreae(包括：甜柏属Libocedrus、巴布亚柏屑Papuacedrus和南美柏属Austrocedrus)。柏科21个属的地理分布可划分为5种类型,即：(1)杂交柏属系英国选出的属间杂交类型;(2)分布非洲、欧洲、亚洲和北美洲的属,有柏木属和圆柏属2个属;(3)东亚—北美洲际间断分布的属,有扁柏属、崖柏属和翠柏属3个属;(4)分布区较窄的属,包括西澳柏属,、澳洲柏属、甜柏屑、巴布亚柏属、南非柏属5个属;(5)单种屑,包括福建柏属、海参威柏属、罗汉柏属、侧柏属、香漆柏属、杉叶柏属、塔斯曼柏属、智利柏屑、南美柏属和白智利柏属等10个属。该科属的3个地理分布中心是：东亚(9属)、北美西南部(5属)、澳大利亚及其东部附近群岛(6属)。此外,地中海沿岸分布3属,智利南部和阿根廷分布3属。     

辣根属和豆瓣菜属(十字花科)系统位置的分子证据

对十字花科葶苈族的辣根属、南芥族的豆瓣菜属及相关属种植物的叶绿体DNA的trnL内含子和trnL-F基因间隔区序列进行了测定分析。结果表明,辣根属植物与南芥族的山芥属、蔊菜属、豆瓣菜属、碎米荠属在系统发育树中聚成一支,与葶苈族的模式属葶苈属植物相隔较远,结合形态特征,本研究认为辣根属应从葶苈族移出,其系统位置应靠近山芥属、蔊菜属、豆瓣菜属、碎米荠属植物;此外,系统发育树中,豆瓣菜属植物并入碎米荠属中,表明二者具有更近的亲缘关系,本研究结果不支持《中国植物志》第33卷对辣根属和豆瓣菜属的系统位置的处理。     

杉科的细胞分类学和系统演化研究

根据杉科的核型资料,本文(1)提出“1B”可能是一个新的高等植物核型类型;(2)讨论了各属的有关分类学问题及相互亲缘关系,它们的进化顺序可能是柳杉属、水松属、落羽杉属、水杉属、巨杉属、红杉属、杉木属(密叶杉属与之近缘)、台湾杉属;(3)支持金松属分立成金松科,它可能比杉科各属原始; (4)红杉(AAAABB)的亲本可能是二个古代种“水杉”和“巨杉”,它们的直接后裔或留下的近缘是水杉和巨杉;(5)杉科存在A和L两条进化路线,前者包括柳杉属、水松属、落羽杉属、台湾杉属;后者包括水杉属、巨杉属、红杉属、杉木属(密叶杉属);(6)提出一个杉科新系统(包括一个新亚科):Ⅰ.柳杉亚科(柳杉属),Ⅱ.落羽杉亚科(水松属、落羽杉属),Ⅲ.红杉亚科(水杉属、巨杉属、红杉属),Ⅳ.杉木亚科(杉木属、密叶杉属),Ⅴ.台湾杉亚科,新亚科(台湾杉属)。本文还对前人的杉科系统作了讨论。     

中国乌头属分布式样的数值分析

本文运用聚类分析方法,将国产乌头属划为4个分布区,同时探讨了各区的地理、气候和植物区系特点以及该属植物的分布规律。     

乌头属植物化学成分、药理作用及其内生菌的研究进展

毛茛科乌头属植物广泛分布于北温带地区,具有重要的药用价值。乌头属植物主要的化学成分是生物碱,其中二萜生物碱是历来的研究热点。现代药理学研究证明,乌头属植物具有镇痛、抗炎、抗肿瘤及杀虫等作用。目前乌头属植物内生菌的研究也逐渐开展。本文对乌头属植物近年来报道的新的化学成分、药理研究和利用植物内生菌产生活性成分等进行了综述,可为乌头属植物的进一步开发利用提供参考。     

国产12种乌头属和18种翠雀属植物的细胞学研究

研究了12种乌头属Aconitum L．和18种翠雀属Delphinium L．植物的染色体。在12种乌头属植物中,除粗花乌头A．crassiflorum为四倍体(2n=4x=32)外,其他种类都为二倍体(2n=2x＝16),中甸乌头 A.piepunense中有B染色体存在,牛扁亚属Aconitum subgen．Lycoctonum的二倍体植物与乌头亚属Aconitum subgen．Aconitum 植物的染色体在大小和形态上有明显区别;所有18种翠雀属植物都为二倍体(2n＝2x=16),其染色体在大小和形态上极为相似,但与乌头亚属的染色体易于区别。翠雀属植物的核型不对称性程度明显高于乌头属植物,因此从染色体证据来看,翠雀属要比乌头属进化。     

The Chemotaxonomy of Chinese Species of the Genus Aconitum L. (Ranunculaceae)

On the basis of biosynthsis, distribution of diterpenoid alkaloids as well as morphological evolution of Chinese species L. (Ranunculaceae), chemotaxonomy of the genus Aconitum is discussed: 1, Subgen. Lycoctonum, containing lycoctonine-type alkaloids and Subgen. Aconitum containing aconitine-type alkaloids, were probably differetiated at the early stage of evolution of the genus Aconitum and evolved respectively in their own ways. 2, In Subgen. Aconitum: (1) Ser. Bullatifolia, containing mainly atisine-, veatchine-type alkaloids, and amino, alcohol and ester base of aconitine-type, and distributed in Hengduan Mountain and Jingsha River valley, where is the centre of modern differentiation of species of Aconitum, is probably a series from which Chinese species of the genus Aconitum were derived; (2) Ser. Inflata, containing mainly aconitine, mesaconitine and bypaconitine, is an advanced group; (3) Ser. Grsndituberosa, containing mainly aconitine and songorine, is related to Ser. Bulatifolia; (4) Ser. stylosa and Ser. volubilia, containing mainly yunaconitine and other anisyl ester alkaloids form another advanced branch. 3, Ser. Tangutica and A. naviculare of Ser. Rotaundifolia, containing atisine and lactone-type alkaloids may be a specialized group in high mountains and have occurred at early stage of evolution of the genus Aconitum. 4, Subgen. Gymnaconitum, containing atisine-type alkaloids and amino alcohol of aconitine type, may als be a specialized group in high mountains. 5, A. franchetii Finet. et Gagnep. mainly containing ester bases of aconitine-typeand closed to A. chasmanthum Stapf, is best placed into Ser. Ambigua.     

Cytologyof 12 species in Aconitum L. and of 18 species in Delphinium L. of the tribe Delphineae (Ranunculaceae) from China

Cytology of 12 species in Aconitum L. and of 18 species in Delphinium L. of the tribe Delphineae (Ranunculaceae) from China have been investigated. Only A. crassiflorum is a tetraploid with the chromosome number of 2n = 32, and all the other Aconitum species studied are diploids with 2n = 16. In A. piepunense, up to six B-chromosomes were observed. All the Delphinium species are diploids with 2n = 16; their karyotypes are very similar among the species, and are distinctly distinguishable from those of Aconitum species with respect to the chromosome size, chromosome morphology and karyotype asymmetry. From a cytological view, Delphinium seems to be more advanced than Aconitum, as the karyotypes in Delphinium are more asymmetric than those in Aconi-tum.     

甘肃乌头属二新种

描述了自甘肃发现的毛茛科乌头属二新种,合作乌头和莲花山乌头,并分别给出二种与其等近缘种的形态区别特征。     

Quantification of Aconitum alkaloids in aconite roots by a modified RP-HPLC method

The three Aconitum alkaloids, aconitine (1), mesaconitine (2) and hypaconitine (3), are pharmacologically active but also highly toxic. A standardised method is needed for assessing the levels of these alkaloids in aconite roots in order to ensure the safe use of these plant materials as medicinal herbs. By optimising extraction, separation and measurement conditions, a reliable, reproducible and accurate method for the quantitative determination of all three Aconitum alkaloids in unprocessed and processed aconite roots has been developed. This method should be appropriate for use in the quality control of Aconitum products. The three Aconitum alkaloids were separated by a modified HPLC method employing a C18 column gradient eluted with acetonitrile and ammonium bicarbonate buffer. Quantification of Aconitum alkaloids, detected at 240 nm, in different batches of samples showed that the content of 1, 2 and 3 varied significantly. In general, the alkaloid content of unprocessed roots was higher than that of processed roots. These variations were considered to be the result of differences in species, processing methods and places of origin of the samples.     

Comparative Anatomical Studies on Chinese Medicinal Plants of the Genus Aconitum

This paper reports the result of comparative anatomical studies on medicinal roots of 53 species and varieties in the genus Aconitum from China. The anatomical structures of the roots can be classified into 6 types and 18 subtypes according to the level of their evolution. The anatomy of Aconitum roots is discussed in relation to phylogeny based on chemotaxonomy, cytology and other related disciplines. It was found that the six types of Aconitum roots are correlated with chemical components, chromosomes, toxicity and the gross morphology. The relatively advanced Types I and II roots always contain highly toxic alkaloids of diterpenoid diester of aconitine type, distributed mainly in Ser. 3, 5-11 of Sect. Aconitum of Subgen. Aconitum, while the relatively primitive Types III, IV and II roots with small diameters contain mainly atisine and aminal alcohol alkaloids, which have lower toxicity, present in Subgen. Gymnaconitum and Ser. 1, 2 of Sect. Aconitum of Subgen. Aconitum. The primitive Types V and VI roots of Subgen. Lycoctonum contain mainly the most low-toxic alkaloids of lycoctonine Type. The result is of significance both in theory or practice for the development of medicinal plant resourcesand the safety of clinical usage of these of plants.     

中国乌头属属下等级数量分类的初步研究

本文取中国乌头属50种(含变种)植物,选取形态学性状46个、化学性状8个、组织学性状5个、生态学性状1个,运用数量分类方法,对该属进行属下等级的分类研究。根据数学分析结果,确定了树系图中变种、种、系、亚属的分级界线,并在聚类分析的基础上,进一步探讨了各等级类群的划分。     

The Diterpenoid Alkaloids of Aconitum nagarurn var. lasiandrurn W. T. Wang and Its Chemotaxonomic Significance

From the roots of Aconitum nagarum var. lasiandrum W. T. Wang, seven diterpe- noid alkaloids were isolated and determined as follows: denudatine of atisine-type (7), songorine and songoramine of veatchine-type (1 and 12), virescenine of lycoctonine-type (13), neoline, 14-acetylneoline and fiavaconitine of aconitine-type (2, 3 and 8). A. nagarum var. lasiandrum W. T. Wang is a typical species of Ser. Bullatifolia which contained four types diterpenoid alkaloids. On the basis of distribution of diterpenoid alkaloids, phytogenesis add morphological evolution of Chinese species of genus Aconitum, probably Chinese species of genus Aconitum modernly advanced and divided from this serics.