山东产蹄盖蕨科2属植物形态解剖学的研究

采用光镜和扫描电镜对山东分布的蹄盖蕨科2属(蹄盖蕨属和假蹄盖蕨属)7种植物的根、根茎、叶柄、叶轴、叶表皮、表皮毛和孢子囊进行了形态解剖学的系统研究.结果表明,在形态解剖学方面2属植物的共同特征为:根均为无髓中柱;叶柄基部的双柱型维管束向上渐靠近联合形成1个周韧型维管束;叶上下表皮垂周壁均呈波状;气孔主要为胞环型、周胞型或极附型.2属植物的不同特征是:蹄盖蕨属植物体无毛;而假蹄盖蕨属植物叶片和叶轴上均生有腺毛;蹄盖蕨属植物根皮层外侧为薄壁细胞,假蹄盖蕨属则为棕色厚壁细胞环.研究结果表明蹄盖蕨科为一个自然分类群,并支持假蹄盖蕨属的成立.     

蹄盖蕨科的系统发育: 叶绿体DNA trnL-F区序列证据

蹄盖蕨科Athyriaceae是蕨类植物中一个复杂的大科,由于属间关系不甚清楚,该科分类系统还有一些问题,比如新蹄盖蕨、拟鳞毛蕨属、假冷蕨属、肠蕨属、短肠蕨属和菜蕨属的系统位置常有争议。根据蹄盖蕨科34种植物和3种外类群植物的叶绿体DNA trnL-F区序列建立了系统发育树,结果显示:1.trnL_F区序列分析的结果与rbcL基因序列分析的结果几乎一致。2.新蹄盖蕨属Neoathyrium Ching&Z.R.Wang不应成立,该属应与角蕨属Cornopteris Nakai合并。3.假冷蕨属Pseudo     

黑龙江省蹄盖蕨科（Athyriaceae）植物的RAPD分析及其系统学意义

在形态分类研究的基础上,利用RAPD技术,对黑龙江省蹄盖蕨科植物6属9种共15个种群进行了遗传多样性分析,分析结果表明：（1）假冷蕨属应包括在蹄盖蕨属中（2）角蕨属与蹄盖蕨属,羽节蕨属与冷蕨属亲源关系较近（3）短肠蕨属为独立一属,与其它属亲源关系较远。根据黑龙江省蹄盖蕨科植物的DNA水平的研究结果,再结合其形态学特征,建议将黑龙江省蹄盖蕨科划分为3个亚科：冷蕨亚科（Cystopterioideae）包括2个属：冷蕨属（Cystopteris）和羽节蕨属（Cemnocarpium）。蹄盖蕨亚科（Athyrioideae）包括3个属：蹄盖蕨属（Athyrium）、假冷蕨属（Pseudocystopteris）和角蕨属（Cornopteris）。双盖蕨亚科（Diplazioideae）包括短肠蕨属（Alhntodia）。     

蹄盖蕨科植物叶表皮特征的比较形态学研究

对国产蹄盖蕨科18属47种植物的叶表皮特征进行了比较观察,同时选取了5科15属植物作为外类群,对它们的气孔器类型进行了比较。结果表明蹄盖蕨科植物的气孔器类型与近缘的各科植物有明显的区别,叶表皮特征支持将假冷蕨属、峨眉蕨属、短肠蕨属、假蹄盖蕨属、轴果蕨属、网蕨属作为独立属的观点,但不支持将单叶双盖蕨属从双盖蕨属中分出的观点。     

黑龙江省蹄盖蕨科(Athyriaceae)植物的RAPD分析及其系统学意义

在形态分类研究的基础上,利用RAPD技术,对黑龙江省蹄盖蕨科植物6属9种共15个种群进行了遗传多样性分析,分析结果表明：（1）假冷蕨属应包括在蹄盖蕨属中（2）角蕨属与蹄盖蕨属,羽节蕨属与冷蕨属亲源关系较近（3）短肠蕨属为独立一属,与其它属亲源关系较远。根据黑龙江省蹄盖蕨科植物的DNA水平的研究结果,再结合其形态学特征,建议将黑龙江省蹄盖蕨科划分为3个亚科：冷蕨亚科(Cystopterioideae)包括2个属：冷蕨属(Cystopteris)和羽节蕨属(Gymnocarpium)。蹄盖蕨亚科(Athyrioideae)包括3个属：蹄盖蕨属(Athyrium)、假冷蕨属(Pseudocystopteris)和角蕨属(Cornopteris)。双盖蕨亚科(Diplazioideae)包括短肠蕨属(Allantodia)。     

浙西南山地蕨类植物区系研究

浙西南山地蕨类植物十分丰富,区系有46科99属396种(含变种及变型)组成。优势科是鳞毛蕨科、水龙骨科、蹄盖蕨科、金星蕨科等;优势属是鳞毛蕨属、复叶耳蕨属、铁角蕨属、卷柏属、毛蕨属等。区系地理成分复杂,具有亚热带性质,但兼有亚热带向暖温带过渡的特征;区系起源古老,不乏古老的科、属及孑遗种;区系具有丰富的中国特有成分;该区系与邻近地区蕨类植物区系关系的密切程度依次为西南、华南、日本、华中、台湾、华北、西北、西藏和东北。     

假冷蕨属孢子形态研究

利用光学显微镜和扫描电子显微镜对假冷蕨属4种植物的孢子进行了详细观察,并与亲缘关系较近的冷蕨属、蹄盖蕨属植物孢子形态进行比较。结果表明,假冷蕨属孢子均为单裂缝,两侧对称,极面观为椭圆形,赤道面观为肾形,周壁表面具不规则脊状褶皱,连接成网状。假冷蕨属与蹄盖蕨属孢子形态特征相似,亲缘关系较近。     

蹄盖蕨科三属植物管状分子的研究

扫描电镜观察假冷蕨属4种、冷蕨属3种、蹄盖蕨属3种植物根状茎中的管状分子,结果显示:这些管状分子端壁和侧壁的形态、结构相同且侧壁具有穿孔板(多穿孔板)。根据穿孔板的类型和穿孔的纹孔膜残留程度,我们发现假冷蕨属与蹄盖蕨属亲缘关系较近,进化地位较高,冷蕨属的进化地位相对原始。     

直立介蕨是假蹄盖蕨属的成员

对直立介蕨Dryoathyrium erectum (Z. R. Wang) W. M. Chu &; Z. R. Wang与介蕨属Dryoathyrium、假蹄盖蕨属Athyriopsis的叶、毛、孢子囊群和孢子的形态进行了比较研究。直立介蕨叶轴和羽轴上的沟槽不明显、具有单列细胞的节状毛、孢子囊群有双生一脉, 以及孢子的形态等特征与假蹄盖蕨属植物相似。结合叶绿体DNA trnL-F区序列分析结果, 所有形态及分子资料均表明该种植物应属于假蹄盖蕨属, 应恢复其原名直立假蹄盖蕨Athyriopsis erectum Z. R. Wang。     

中国蹄盖蕨属轴果蹄盖蕨系的研究

本文是中国蹄盖蕨属植物研究的系列论文的第三篇,对国产轴果蹄盖蕨系植物进行了分类学订正,详细记载了中国产该系植物11种,首次将20余个名称归入该系的一些种下做为异名处理。轴果蹄盖蕨系植物是蹄盖蕨属中自然的一群,以其铁角蕨类型的孢子囊群和囊群益与其它属下类群相区别。本系植物分布于亚洲热带和亚热带山地,常见于山地常绿阔叶林下,海拔500～1800m。在华中和华东地区其分布区北界不超过长江一线。中国西南地区和台湾及日本为该系的三个分化中心。     

台湾岛和海南岛兰科植物区系特征比较

为探明台湾岛和海南岛兰科( Orchidaceae)植物区系特征,在充分查阅相关资料的基础上,对2个岛屿兰科植物的物种组成、生活型和分布区类型进行分析,并对这2个岛屿与大陆陆地和周边国家兰科植物的分布特征进行比较和分析。结果表明：2个岛屿的兰科植物共有146属639种,其中,台湾岛有107属446种,海南岛有96属302种。2个岛屿树兰亚科( Subfam. Epidendroideae)的属和种比例均最高;原始的拟兰亚科( Subfam. Apostasioideae)在台湾岛无分布,而在海南岛分布有2属4种。从属和种的数量看,含1种和2~5种的属比例较高,分别占台湾岛兰科植物总属数的43.9%和36.4%,占海南岛兰科植物总属数的45.8%和40.6%;且包含种数多的属的比例较低。从生活型看,2个岛屿地生兰和附生兰的比例较高,分别占台湾岛兰科植物总种数的52.7%和34.3%,占海南岛兰科植物总种数的37.1%和55.3%。从分布区类型看,台湾岛和海南岛的兰科植物分别可划分为11和10个分布区类型,且均以热带亚洲至热带大洋洲分布型属和种的比例最高,热带亚洲分布型属和种的比例也较高。从热带成分与温带成分的数量比(R/T)看,台湾岛和海南岛兰科植物属的R/T值分别为3.6和3.3,种的R/T值分别为10.9和11.9,说明2个岛屿的兰科植物均以热带成分为主,台湾岛还包含一定的温带成分。从共有属和共有种看,2个岛屿与大陆陆地的兰科植物共有属均约占各自兰科植物总属数的90.7%,其中,三地共有属有66属;台湾岛与大陆陆地的兰科植物共有种比例较低(46.2%),而海南岛与大陆陆地的兰科植物共有种比例较高(74.9%),说明2个岛屿与大陆陆地兰科植物属的同源性较高,且海南岛兰科植物的大陆性特征更明显。与周边国家相比,2个岛屿与越南的兰科植物共有种比例较高,分别占台湾岛和海南岛兰科植物总种数的33.9%和75.2%。综合分析结果显示：台湾岛和海南岛的兰科植物种类丰富,生活型齐全,且具有明显的热带性质,但台湾岛的兰科植物还表现出一定的温带性质;2个岛屿与大陆陆地兰科植物的亲缘关系较近,但台湾岛兰科植物的特有性更明显。     

我国浙江与日本和我国台湾森林植物区系的联系

作者在“试论浙江省森林植物区系”一文中对我国浙江与日本和我国台湾森林植物区系的联系已作了扼要的说明,本文就是在此基础上作更详尽的论述。浙江省东濒大海,隔海相望,东北方向有日本,其本部岛屿的南端为九州,和浙江北部的纬度相近,具有亚热带气候特征,出现了和浙江相类似的常绿阔叶林和竹林,九     

中国蹄盖蕨属的研究I─属下分类

蹄盖蕨属是蕨类植物中分类最困难的大属之一,中国、喜马拉雅和日本为其分布中心。隶属于本属的种实际上是由蹄盖蕨科或广义蹄盖蕨属中其他属被划分出去以后剩余下来的种类集合而成的“大杂烩”,因此,它们被放在一起并非是一个单系起源的自然类群;属下不同类群分化的程度相差也很大,有的类群进化活跃,近缘种很多,有的类群则很孤立,所以属下单位所包括的种数相差悬殊;孢子周壁表面褶皱的有无在本属的属下分类中占有重要的位置。已发表的中国蹄盖蕨属植物名称约有３００多个,它们初步被处理为１１７种和一些变种和杂种,本文建议把这些种分为１４个组和１５个系。     

中国蹄盖蕨属的研究Ⅰ-属下分类

蹄盖蕨属是蕨类植物中分类最困难的大属之一,中国、喜马拉雅和日本为其分布中心。隶属于本属的种实际上是由蹄盖蕨科或广义蹄盖蕨属中其他属被划分出去以后剩余下来的种类集合而成的"大杂烩",因此,它们被放在一起并非是一个单系起源的自然类群;属下不同类群分化的程度相差也很大,有的类群进化活跃,近缘种很多,有的类群则很孤立,所以属下单位所包括的种数相差悬殊;孢子周壁表面褶皱的有无在本属的属下分类中占有重要的位置。已发表的中国蹄盖蕨属植物名称约有300多个,它们初步被处理为117种和一些变种和杂种,本文建议把这些种分为14个组和15个系。     

中国台湾海峡两岸原始被子植物的起源、分化和关系

文章分析了中国台湾海峡两岸共有20个原始被子植物科的地理分布,区系分化,起源以及它们之间的关系,进一步证明台湾海峡两海的植物区系是一个统一的区系,台湾省是一个东亚植物区系的马来西亚植物区系交汇,而以东亚植物区系成分占优势的地区,台淡丰富的原始被子植物特有种,大多种是在台湾同大陆分离以后形成的,带有新特有的种的性质,中国大陆同台湾现存的原始被子植物科属在区系上是共同起源的,起源的时间和地区可以追溯到中生代的华夏古陆,即在白垩纪末台湾同大陆第一次分裂之前就已经表成了,第四纪冰期大陆同台湾之间的陆桥,对两岸原始被子植物的分布几乎没有影响。     

海南和台湾蕨类植物多样性及其大陆性特征

海南和台湾是我国南部和东部两个最重要的大陆性岛屿,具有极为丰富的蕨类植物多样性。特有现象揭示着植物区系和植物多样性的历史,间断分布揭示着与邻近或相关植物区系的联系;特别是在岛屿地区,这种现象和意义尤其明显。海南有蕨类植物区系55科、135属、466种,其中特有种有32种,台湾蕨类植物区系57科、142属、599种,其中特有种达66种。在海南与台湾两地,有共有属104属,共有种仅有176种。台湾海峡出现始于晚白垩世,持续至第四纪;琼州海峡出现于早第四纪,因此,两地的特有现象远少于种子植物(台湾有801种,海南有501种),原因与蕨类植物具有更广的散布性相关,而且在被子植物中起重要作用的物种生物学障碍(机制)在蕨类是缺乏的;形态学的、生殖生物学特征导致蕨类植物具有较缓慢的物种演化历史和较低的灭绝率(Smith,1972)。海南和台湾蕨类植物区系的比较还表明,地理位置和海拔高度对植物区系的物种分化和物种多样性产生了极大的影响。     

The formation and differentiation of the Leguminosae flora in Xizang (Tibet)

Xizang (Tibet) is rich in Leguminosae flora, comprising 41 genera and 254 species so far known, exclusive of the commonly cultivated taxa (including 11 genera and 16 species). There are 4 endemic genera (with 8 species), 10 temperate genera (with 175 species) and 19 tropical genera (with 46 species) as well as the representatives of those genera whose distribution centers are in East Asia-North America, Mediterranean and Central Asia. 1. There are altogether 4 endemic genera of Leguminosae in this region. According to their morphological characters, systematic position and geographical distribution, it would appear that Salweenia and Piptanthus are Tertiary paleo-endemics, while Straceya and Cochlianths are neo-endemics. Salweenia and Piptanthus may be some of more primitive members in the subfamily Papilionasae and their allies are largely distributed in the southern Hemisphere. The other two genera might have been derived from the northern temperate genus Hedysarum and the East Asian-North American genus Apios respectively, because of their morphological resemblance. They probably came into existanc during the uplifting of the Himalayas. 2. An analysis of temperate genera There are twelve temperate genera of Leguminosae in the region, of which the more important elements in composition of flora, is Astragalus, Oxytropis and Caragana. Astragalus is a cosmopolitan genus comprising 2000 species, with its center distribution in Central Asia. 250 species, are from China so far known, in alpine zone of Southwest and Northwest, with 70 species extending farther to the Himalayas and Xizang Plateau. Among them, there are 7 species (10%) common to Central Asia, 12 species (15.7%) to Southwest China and 40 species (60%) are endemic, it indicates that the differentiation of the species of the genus in the region is very active, especially in the subgenus Pogonophace with beards in stigma. 27 species amounting to 78.5% of the total species of the subgenus, are distributed in this region. The species in the region mainly occur in alpine zone between altitude of 3500—300 m. above sea-level. They have developed into a member of representative of arid and cold alpine regions. The endemic species of Astragalus in Xizang might be formed by specialization of the alien and native elements. It will be proved by a series of horizontal and vertical vicarism of endemic species. For example, Astragalus bomiensis and A. englerianus are horizontal and vertical vicarism species, the former being distributed in southeast part of Xizang and the latter in Yunnan; also A. arnoldii and A. chomutovii, the former being an endemic on Xizang Plateau and latter in Central Asia. The genus Oxytropis comprises 300 species which are mainly distributed in the north temperate zone. About 100 species are from China so far known, with 40 species extending to Himalayas and Xizang Plateau. The distribution, formation and differentiation of the genus in this region are resembled to Astragalus. These two genera are usually growing together, composing the main accompanying elements of alpine meadow and steppe. Caragana is an endemic genus in Eurasian temperate zone and one of constructive elements of alpine bush-wood. About 100 species are from China, with 16 species in Xizang. According to the elements of composition, 4 species are common to Inner Mongolia and Kausu, 4 species to Southwest of China, the others are endemic. This not only indicates that the species of Caragana in Xizang is closely related to those species of above mentioned regions, but the differentiation of the genus in the region is obviously effected by the uplifting of Himalayas, thus leading to the formations of endemic species reaching up to 50%. 3. An Analysis of Tropical Genera There are 19 tropical genera in the region. They concentrate in southeast of Xizang and southern flank of the Himalayas. All of them but Indigofera and Desmodium are represented by a few species, especially the endemic species. Thus, it can be seen that they are less differentiated than the temperate genera. However, the genus Desmodium which extends from tropical southeast and northeast Asia to Mexio is more active in differentiation than the other genera. According to OhaShi_,s system about the genus in 1973, the species of Desmodium distributed in Sino-Himalaya region mostly belong to the subgenus Dollinera and subgenus Podocarpium. The subgenus Dollinera concentrates in both Sino-Himalaya region and Indo-China with 14 species, of which 7 species are endemic in Sino-Himalaya. They are closely related to species of Indo-China, southern Yunnan and Assam and shows tha tthey have close connections in origin and that the former might be derived from the latter. Another subgenus extending from subtropical to temperate zone is Podocarpium. Five out of the total eight species belonging to the subgenus are distributed in Sino-Himalaya and three of them are endemic. An investigation on interspecific evolutionary relationship and geographic distribution of the subgenus shows that the primary center of differentiation of Podocarpium is in the Sino-Himalaya region. Finally, our survey shows that owing to the uplifting of the Himalayas which has brought about complicated geographic and climatic situations, the favorable conditions have been provided not only for the formation of the species but also for the genus in cer-tain degree.     

On the Genus Athyrium Ser. Epiraches Ching et Y. T. Hsieh ex Y. T. Hsieh

This paper,third in the series of an account of the genus Athyrium in China, presents a revision of the series Epiraches Ching et Y．T．Hsieh ex Y．T．Hsieh．A total of 11 species are recognized from China,and more than 20 names are reduced to synonyms in the present paper．Ser．Epiraches is anatural group in Athyrium,it is distinguished from all the other groups of the genus by its Asplenioid sori and indusia,The series is entirely Asian tropical,subtropical and primarily montane．Its northern limits in central and eastern China are not beyond the Yangtze River．Southwestern part and Taiwan of China and Japan Islands are centers of diversity for the series,each with more than five species．Some speciesare disjunctly distributed in southwest China-Taiwan-Japan;one species(Athyrium roseum) occurs discontinuously between Yunnan and Taiwan;one endemic to Hainan(A. hainanense)is the only representative of Athyrium on the island．All members of this series grow in evergreen broad-leaf forests,generally from 500 to 1800 m above sea level．A key to the species,and illustrations of the middle pinnae from different specimens are provided．     

丁香属植物的地理分布及其起源演化

木犀科丁香属植物主要分布在中国、朝鲜、日本以及欧洲东南部。中国是丁香属的自然分布中心,丁香主要分布在中国西南、西北、华北、东北等地区。根据植物区系的演化规律,作者认为丁香属起源于中国西南,并以此为中心主要沿中国西南-西北-华北-东北-朝鲜半岛-日本和中国西南-中亚-欧洲的路径散布。近缘种之间存在着遥远的地理隔离,中国原产的华丁香与分布在我国西北及中亚的花叶丁香、欧洲特有种欧洲丁香均为近缘种,表明欧洲丁香的散布与中国西北的种类有着密切的联系。近年分子生物学试验表明羽叶性状是演化中的过渡类型,在研究该属系统演化中具有重要作用。化石记录华北紫丁香在中新世时的华中地区已有存在,说明该属至少在中新世时完成了由西南向华中的演化、辐射。