湖北八角莲属植物叶表皮研究

小檗科(Berberidaceae)八角莲属(Dysosma)为我国特有属植物,全国共有7个种,多分布在亚热带区域。湖北有4个种,其中一个为内定种,民间大多作药用,具有清热解毒、抗毒蛇咬伤之功效。近年来的研究表明,该属植物有抗癌活性,特别是用于治疗食道癌、子宫癌。近20年来,叶表皮性状用于种间或属间分类及系统关系的探讨,对科以上分类单元系统的研究有一定的价值。八角莲属的某些种叶片形态很相似,在无花的情况下很难区分。关于八角莲属     

湖北产八角莲属植物花粉形态研究

应用光学显微镜和电子扫描显微镜,对湖北产八角莲属４种植物八角莲、六角莲、小八角莲和乌云伞的花粉作了比较观察,找出了它们的鉴别特征,为该属的进一步研究提供依据。     

睡莲属植物花粉形态研究

为明确睡莲属植物花粉形态特征,研究利用扫描电镜对18种或品种睡莲属植物的花粉形态特征进行观察,并对花粉形态及其种间亲缘关系进行分析,同时利用离体萌发法对睡莲品种‘彼得’的花粉活力进行测定,为睡莲杂交育种亲本的选择提供依据。结果表明:(1)18种或品种睡莲属植物的花粉均为单粒花粉,形态均为近球体或扁球体,其中巨花睡莲花粉粒最大,体积指数为30.3;埃及白睡莲花粉粒最小,体积指数为19.2。(2)花粉外壁纹饰类型繁多,包括网纹状、小颗粒状、瘤状、小柱状、长条状、微波纹起伏状。(3)根据聚类分析可将18种或品种睡莲属植物分为4个类群,其中Nymphaea亚属与Brachyceras亚属间亲缘关系最近。(4)‘彼得’的花粉离体萌发率高,可达95%以上。研究认为,睡莲属植物的花粉形态特征,特别是花粉萌发沟类型、外壁纹饰等特征可作为睡莲属植物种间分类、亚属间以及种间亲缘关系、系统进化规律的关键证据。     

叶下珠科花粉组织化学、花粉数和胚珠数及其与传粉者关系的研究

植物花粉中营养物质的储存形式以及单花的花粉数与胚珠数被认为与其传粉系统有一定的联系。本文研究了叶下珠科部分种类的花粉组织化学、花粉数和胚珠数, 以及它们与传粉者之间的关系。结果显示: 在叶下珠科内, 植物花粉所含营养成分和传粉者之间存在相关性: 蛾类传粉的类群主要属“淀粉型”花粉, 蝇类和蜂类传粉的类群主要属“非淀粉型”花粉。蝇类传粉和蛾类传粉的植物花粉数没有一定规律。蝇类传粉的类群比蛾类传粉的类群胚珠数少, 这可能是由于蝇类携带花粉能力及传粉精确性均较小, 导致植物以减少胚珠数来适应的结果。对同一属内不同生活型植物的花粉数比较, 发现乔木的单花花粉数高于灌木, 灌木的单花花粉数明显高于草本。这可能是由于不同生活型的植株, 其花朵大小不同, 导致花粉数出现明显差别。另外, 通过扫描电子显微镜对花粉形态的观察, 发现蝇类传粉的类群和蛾类传粉的类群间的花粉表面纹饰存在显著差异。     

湖北八角莲属四种药用植物的生药学研究

本文对湖北分布的八角莲属四种植物进行了全面系统的生药学研究,发现不同种之间的显微特征明显,为四种药材的鉴别以及伪品药材的识别提供了重要依据。     

云南铁线莲属植物地理分布及区系特征

依照王文采和李良千最新系统,云南有铁线莲属(Clematis)植物59种24变种,分属于3亚属6组,是中国该属种类分布最多的省份。横断山区可能是该属的起源、分化和特有中心,而滇西、滇西南以及滇东南地区也与该属的分化有一定联系。云南铁线莲属植物特有现象较为突出:含中国特有的56种(含变种),占云南总种数的67·2%;云南特有16种(含变种),占云南分布的中国特有种的35·0%。云南铁线莲属植物与国内邻近的四川关系最为密切,西藏的关系最弱;与国外邻近的缅甸具有一定的联系。     

浙江铁线莲属植物资源及其开发应用前景

浙江省铁线莲属植物作为重要的观赏植物和药用植物资源,其开发利用前景广阔。本文从植物分类学角度,总结了浙江省野生铁线莲属的种类及分布情况,并探讨其园林应用前景。     

八角金盘传粉昆虫及其访花行为

八角金盘(Fatsia japonica(Thunb.)Dccne.et Planch.)为冬季开花植物,探讨其访花昆虫种类及访花行为对研究冬季开花植物的传粉生物学规律具有重要意义。对八角金盘访花昆虫种类、访花频率、访花时间、访花行为进行了初步研究。结果发现:八角金盘的传粉昆虫有2目、3科、3种,主要为膜翅目胡蜂科金环胡蜂Vespa mandarinia Smith、双翅目食蚜蝇科斜斑鼓额食蚜蝇Scaeva pyrastri(L.)及丽蝇科大头金蝇Chrysomya(Compsomyia)megacephala(Fabricius);八角金盘提供的酬物主要为花粉与花蜜,食蚜蝇舔食其花粉与花蜜,而金环胡蜂与大头金蝇主要吮吸花蜜;金环胡蜂、大头金蝇及斜斑鼓额食蚜蝇的访花高峰均在10:30—14:30;斜斑鼓额食蚜蝇访花时间较长,5～10min,金环胡蜂访花时间较短,8～30s,大头金蝇访花时间最短只有3～5s。八角金盘具有较低的自花授粉能力,但主要为异花授粉植物。     

湖北产八角莲属3种植物的解剖学研究

报道了湖北产八角莲属３种植物八角莲,小八角莲和乌云伞的根,根茎,茎和叶的显微构造特点。茎部构造不同于一般双子叶植物的茎,近皮层有８－２２个大小不等外韧维管束排列成环状,而髓内又有３－６个内轮维管束。整个茎轮廊类似于单子叶植物的散生维管柱（中柱）。根,根茎及叶的构造类似于一般双子叶植物。本研究为开发和利用湖北产八角莲属药用植物资源提供鉴别依据。     

我国铁线莲属植物研究进展

摘要:系统介绍了国内铁线莲属植物在系统分类、种质资源、发育生物学、细胞染色体学、植物生理学、育种学、引种驯化及繁殖、栽培学方面的研究情况,提出在铁线莲属植物资源收集与保存、新品种培育方面进一步研究的重点。 关键词：铁线莲属;研究进展     

峨眉山槭属植物的地理分布和区系特点

本文报道了分布于四川峨眉山槭属植物,计26种1变种。讨论了槭属植物在峨眉山的垂直分布与水平分布规律。峨眉山槭属植物的区系组成是亚热带和温带东亚区系成分。     

峨眉山细辛属的分布及其与系统分类的关系

峨眉山细辛属植物共有6种1变种,分属于2亚属3组,它们的垂直替代现象较为明显,从山脚至山顶,依次由花脸细辛Asarum chingchengense。尾花细辛A.cauidigerum.花叶尾花细辛A.caudige-erum var.cardiophyllum、牛蹄细辛A.delavavi、长毛细辛A.pul-chellum、短尾细辛A.caudigerellvm和单叶细辛A.himalaicum组成垂直带谱。     

BIOLOGICAL AND HISTORICAL FACTORS INFLUENCING GENETIC DIVERSITY IN THE SCUTELLARIA ANGUSTIFOLIA COMPLEX (LABIATAE)

Studies of genetic diversity at isozyme loci were used to examine the phylogenetic distribution of several frequently reported population-genetic parameters in a putatively monophyletic group of plant species, the Scutellaria angustifolia complex. The influence of taxon-specific differences in habitat preference, breeding system, degree of endemism, and phylogenetic relatedness was examined. Many characters of reproductive morphology traditionally used in phylogenetic inference vary with breeding system. To the extent that reproductive systems are conservative markers of phylogenetic relationships, one would expect the distribution of genetic variation to be similar in closely related taxa. Results showed that closely related taxa may exhibit very different genetic-diversity statistics and that distantly related taxa may exhibit very similar genetic-diversity statistics. This suggests that complex patterns of evolution of breeding systems and morphological characters have occurred in the ten taxa included in the Scutellaria angustifolia complex. Similarity in habitat is not associated with similarity in genetic diversity in this group of species.     

共系蚤属－新种及雌蚤－例畸形（蚤目：角叶蚤科）

鞋形共系蚤Ｓｙｎｇｅｎｏｐｓｙｌｌｕｓｃａｌｃｅａｔｕｓ（Ｒｏｔｈｓｃｈｉｌｄ,１９０５）自发表迄今８５年以来为一独模属。在峨眉山发现的一新种,是本属首次有了第二种。共系蚤属的地理分布也因新种的地理位置向北推到了西南区的西南山地亚区。新种雌蚤（配模）盲管的末端具一受精囊的雏形,认为这一结构在角叶蚤科的共系蚤属中的出现是一个返祖遗传性质的畸形。     

Notes on the Orchid Flora in the Hengduan Mountain Region,China

The Hengduan Mountain Region on the south-eastern fringe of the Qinghai- Xizang (Tibet) Plateau is located in W. Sichuan, N. W. Yunnan and E. Xizang, with a wide area of juxtaposition from the east to the west, the mountains extending and the rivers flowing from the north to the south. In this paper it covers an area from Daojie, Wayao, Yingping, Yangbi, Dali of Yunnan and Dukou of Sichuan in the south, to Banbar, Dengqeu, Shenda of Tibet and Serxu, Dainkog, Shuajingsi and Nanping (Jiuzhaigou) of Sichuan in the north, and from Lharong, Baxoi and Zayü of Tibet in the west, to Maowen, Wenchuan, Mt. Erlang, Mt. Emei and Xichang of Sichuan in the east (Fig. 1.). The Gongga Mountain is the highest in the region, its summit being at an altitude of 7556m, whereas the Dadu River Valley in the eastern part of the area is only 1150 m above sea level. Therefore, the relative height is about 6400 m in the region. The Hengduan Mountain Region is well-known for its various topography, complex natural conditions and rich flora. The floristic composition and features of orchids in Hengduan Mountain Region. 1. The species of orchids are abundant in the region. As we know so far, orchids in the Hengduan Mountain Region comprise 91 genera and 363 species with 9 varieties, and thus it is one of concentration centres of orchids in China, making up 56.17% of the total number of orchids genera in China, only less than in Yunnan and Taiwan, and 34.87% of the total number of orchids species in China, only less than in Yunnan and Sichuan. 2. The orchids genera in the Hengduan Mountain Region are complex in geographical components as indicated below: (1) Four geneva are endemic to China and one of them is endemic to the region. (2) Fourteen genera are of the north temperate distribution pattern, 2 of the Old World temperate one, 18 of the East-Asian one (including Sino-Himalayan and Sino-Japanese) and 3 of the East-Asian-North American one. (3) Twenty one genera belong to the tropical Asian distribution pattern, 3 to the tropical Asian-tropical African one, 13 to the tropical Asian-tropical Australian one, 1 to the tropical Asian-tropical South American one, 8 to the Old World tropical one and 2 to the pantropical one. (4) Two genera are cosmopolitan. The analysis of genera: Fourty eight genera (containing 151 species with 4 varieties) of the tropical distribution occur in the region, among which Calanthe and Cymbidium distributed in the temperate region, and Bulbophyllum and Peristylus in the subtropical part of China are comparatively abundant (with over 10 species), but the other 25 genera are monospecific and 11 genera each contain only 2-3 species. Some epiphytic genera mainly distributed in tropical Asia and belonging to tropical florestic elements, such as Vanda, Luisia, Schoenorchis, Flickingeria, Monomeria, Kingidium, Acampe, Phalaenopsis, Thrixspermum, Eria, Taeniophyllum, and terrestrial genera, such as Aphyllorchis, Collabium, Mischobulbum, Paphiopedilum, Thunia, Brachycarythis, Satyrium, Corybas, Geodorum, Zeuxine, Tropidia, have the Hengduan Mountain Region as the northern limit of distribution. Of 151 species with 4 varieties, 41 species with 4 varieties are endemic to China, and 14 species with 3 varieties of them are endemic to the area, making up 3.86% of the total in the region under discussion. There are 41 genera (containing 189 species with 5 varieties) of the temperate distribution, which occur in the region. Among them Platanthera (22 species with 1 variety), Cypripedium (17 species), Herminium (16 species), Amitostigma (15 species with 1 variety), Orchis (12 species), Hemipilia (8 species with 1 variety), Neottianthe (4 species), Gymnadenia (4 species), Diphylax (3 species), Bletilla (3 species), have the Hengduan Mountain Region as the distribution centre and differentiation centre. Among the 189 species with 5 varieties, 111 species with 5 varieties are endemic to China, and 54 species with 5 varieties are endemic to the area, making up 14.88% of the total of orchids in the Hengduan Mountain Region. Although the number of temperate distribution genera is smaller than that of tropical distribution ones, several points may be mentioned: (1) The Hengduan Mountain Region is distribution centre and differentiation centre of a number of temperate genera in China, and is the northern limit of many genera mainly distributed in the tropics. (2) The number in the former category is obviously larger than that in the latter. (3) Endemic species in the former category in the area are over three times as many as those in the latter. The differentiation of species of the temperate distribution genera is obviously stronger than the tropical ones, which characterizes the orchid flora in the area as the temperate one. The life forms of genera. The orchid flora in the Hengduan Mountain Region so far known comprises 91 genera, among which 51 are terrestrial, 32 epiphytic and 8 saprophytic, thus with the terrestrial one dominant. The analysis of species: The orchid flora in the Hengduan Mountain Region so far known comprises 363 species with 9 varieties. Their distribution patterns and floristic components, to which they belong, are indicated as follows: (1) Fifty four species, belonging to 33 genera, are widespread, covering the whole East Asian Region, but 6 of them are endemic to China. (2) Forty four species, belonging to 27 genera, are the elements of the Sino-Japanese Subregion, but 22 species of them are endemic to China. (3) One hundred and ninety five species with nine varieties, belonging to 53 genera, are the elements of the Sino-Himalayan Subregion under discussion: (A) Four species (i.e. Aphyllorchis alpine, Listera divaricata, L. pinetorum and Oreorchis micrantha) are distributed in the Himalayan Region and S. E. Xizang (Tibet), western part of this region. (B) Twenty five species, belonging to 17 genera, are distributed in N. W. Yunnan and the Himalayan Region (Appendix, 1.). (C) Sixteen species, belonging to 11 genera, are distributed in the Himalayan region and W. Sichuan. Among them 6 species occur only with Mt. Emei as the easternmost limit and 10 species occur in the region west of Mt. Emei. (D) Ten species, belonging to 9 genera, are distributed in the Himalayan region, this region and S. Shaanxi, S. Gansu or S. E. Qinghai. (E) Eight species, belonging to 6 genera, are distributed in the Himalayan region and this region. Among them 6 species have their range extending eastwards to Guizhou and 2 species eastwards to Guangxi. (F) Five species, belonging to 5 genera, having their range extending from this region southwards to N. Burma. (G) One handred and twenty seven species with nine varieties are endemic to China behind discussion. (4) (A) Three species (i.e. Anoectochilus moulmeinensis, Bulbophyllum forrestii and Liparis chapaensis) are distributed in Indo-China, Burma and the region. (B) Nine species, belonging to 7 genera, are distributed in Indo-China, N. E. India and this region. (C) Forty six species, belonging to 21 genera, are distributed in Indo-China, the Himalayan Region and this region (Appendix, 2.). (D) Twelve species, belonging to 11 genera, are distributed in Indo-China and this region (Appendix, 3.) 3. The vicarism is obvious in the orchid flora of the Hengduan Mountain Region. There are 10 species-pairs (in genera Calanthe, Tropidia, Anoectochilus, Mischobulbum, Bulbophyllum, Gymnadenia, Pogonia, Tipularia, Tulotis, Orchis, etc.) of the horizontal vicarism and 7 species-pairs (in genera Epigeneium, Epipogium, Platanthera, Pogonia, etc.) of the vertical vicarism in the region. 4. The endemic species are prolific in the region. In the orchid flora of the Hengduan Mountain Region there are 155 species and 9 varieties endemic to China: (1) Six species are widespread in the whole East-Asian Region. (2) Twenty two species are the elements of the Sino-Japanese Subregion. (3) One hundred and twenty seven species with nine varieties are the elements of the Sino-Himalayan Subregion. Among them 69 species with 5 varieties are endemic to the region (Appendix, 4.), making up 19% of the total in the region; other 58 species with 4 varieties are distributed in the region and neighbouring regions or provinces of it (Appendix, 5.). 5. Remarkable differentiation of the orchid flora in the Hengduan Mountain Region is shown by evident vicarism and abundance of endemic elements, exampled by Amitostigma, Herminium, Orchis, Cypripedium, Platanthera, etc. and one group of Platanthera, which is confined to the south fringe of the Xizang (Tibet) Plateau-Hengduan Mountain Region. The group consists of 12 species, of which one (P. edgeworthii) is distributed in the Western Himalayas from Hazara in Pakistan to Kumaun in India, and all the other 11 species (i.e.P. stenantha, P. bakeriana, P. roseotincta, P. deflexilabella, P. longiglandula, P. exilliana, P. chiloglossa, P. leptocaulon, P. platantheroides, P. clavigera and P. latilabris) occur in China, with 3 of them (i.e.P. deflexilabella, P. longiglandula and P. chiloglossa) endemic to China. According to their structure of gynostemum and form of labellum they belong to Platanthera without question, although they are different from the other members of Platanthera in stigma convex (not concave) and sepals mammillary-ciliate, stigma exhibits a series of evolutionary trends in part of species, from stigma single, convex, elliptic and located near rear of spur mouth (in P. stenantha) to stigma single, suddle, and located near front of spur mouth (in P. bakeriana) and to stigma double, separate and located at front of spur mouth in the other ten species. The group in Platanthera is only confined to the area from the south fringe of the Xizang (Tibet) Plateau to the Hengduan Mountain Region. It seems that the genus has been affected by intense lift of the area, causing variation and differentiation and giving rise to the group due to the long-term natural selection. Mt. Emei in Sichuan Province is the eastern limit of distribution of the group, where there are three spcies, among which two (P. deflexilabella and P. longiglandula) are endemic to the mountains. In addition, among Risleya (1 species), Diphylax (3 species) and Diplomeris (2 species), three genera typical of distribution in the Sino-Himalayan Subregion, Risleya and Diphylax have Mt. Emei as their eastern limit. Eleven species, belonging to elements of the SinoJapanese Subregion, occur only from Japan to Western Sichuan with Mt. Emei as the western limit. Among nine species, belonging to elements of the Sino-Himalayan Subregion, six occur from the Himalayas to W. Sichuan and three of them are endemic to the Hengduan Mountain Region, with Mt. Emei as their eastern limit of distribution. There are eight endemic species and one variety of orchids in Mt. Emei, making up about 11.59% of the total endemic species in the Hengduan Mountain Region. Orchid floristic elements in Mt. Emei are obviously different from those in Mt. Jinfo, the former being mainly of the Sino-Himalayan Subregion, while the latter being mainly of the Sino-Japanese Subregion. From the distribution patterns of the orchid floristic elements in the Hengduan Mountain Region and Eastern China, the Emei Mountain is considered important for drawing a boundary line between the Sino-Japanese Subregion and the Sino-Himalayan Subregion. The discussion may be summarized as follows: the floristic features of the orchid flora in the Hengduan Mountain Region are: (1) rich in species, complex in geographical components, eminent vicarism and differentiation, and prolific in endemic species; (2) terrestrial life form is dominant one; (3) mainly consisting of temperate and subtropical East-Asian elements, es pecially, elements of Sino-Himalayan Subregion, though with some tropical elements and elem-ents of other regions.     

Differential responses of Abies fabri and Rhododendron calophytum at two sites with contrasting pollution deposition and available calcium in southwestern China

The correlation between forest decline and calcium (Ca) depletion under long-term acid deposition remains elusive in China due to the high level of Ca deposition. We compared two species (Abies fabri and Rhododendron calophytum) for their growth pattern and base elements concentration in both polluted (Mt. Emei) and unpolluted (Mt. Gongga) sites in Sichuan, southwestern China. A. fabri grown at Mt. Emei had poorer crown condition, slower radial growth rate, and lower seedling density under long-term acid deposition, which correlated closely with the reduced Ca concentration in foliage and tree-ring, in comparison with those at Mt. Gongga. In contrast, R. calophytum showed a stable Ca level and thus displayed normal growth between the two sites. The differential capability of these two species to acclimate to poor Ca environment is one of the keys to understanding the long-term ecological effect of changing atmospheric acid and Ca deposition in the subalpine forest in southwestern China.     

峨眉山野生药用蕨类植物资源及其开发利用

峨眉山中药材以其品种多、质优量大、历史悠久而驰名中外,素有“天然药园”之称。其野生药用蕨类植物有38科148种,占全国该类植物资源总科数的97%、总种数的80%左右。本文对药用蕨类植物的生境、分布、药用部位、功效等作了初步分析,并对合理开发利用提出了建议。     

On Dysosma Woodson and Sinopodophyllum Ying,gen. nov. of the Berberidaceae

1. A classification is made on seven species of the genus Dysosma, of which four are proposed as new combinations, and one as new species. 2. The pollens of six species in the genus Dysosma and two species of Podophyllum are examined. Morphologically, the Asiatic. P. emodi is radically distinct from the North American P. peltatum and can be separated from Podophyllum as an independent genus-Sinopodophyllum. 3. The trend of evolution in Dysosma (fig. 2)and its relationships with the genera Sinopodophyllum and podophyllum are discussed. 4. Based on the evidence from an analysis of the ecology and geographical distribution of the component species (fig. 3), the problem of the centre of development of the genus Dysosma has been discussed.     

贵州梵净山生物圈保护区兰科植物区系特征

研究了贵州梵净山自然保护区兰科植物的区系特征。结果表明:①兰科植物种类组成丰富多样,计有兰科植物38属72种(含种下分类群),分别占贵州兰科植物属总数和种总数的50.14%和29.27%。与邻近自然保护区所含的兰科植物属、种数相比,梵净山兰科植物的属、种总数与重庆金佛山和湖北神农架相当,而仅次于四川峨眉山;与贵州的茂兰、习水相比,其属数高于茂兰和习水,种数高于习水、略低于茂兰;②兰科植物种的分布区类型有17个类型或变型,中国特有分布成分占明显优势,为30.55%;其次为热带亚洲至热带大洋州成分,占15.28%;③兰科植物生活类型多样,既有地生、附生和腐生的类型,又有半地生、半附生的类型。     

四川和贵州省兽类新纪录——-台湾灰麝鼩（Crocidura tanakae Kuroda, 1938）

正台湾灰麝鼩(Crocidura tanakae)属于鼩形目(Soricomorpha)鼩鼱科(Soricidae),首次被Kuroda于1938描述,其模式产地在中国台湾台中市(Taichung)。随后一直被认为是灰麝鼩(Crocidura attenuata)的亚种或同物异名(Corbet and Hill,1992;Hutterer,1993;Fang et al.,1997;Motoka-