胶东海岸的沙生植被

胶东半岛位于山东省东部,地处黄、渤海之滨,陆地海岸线全长1668.58km,占山东省陆地海岸线总长的一半以上。海岸地理位置约当北纬36°15′42″—38°24′00″,东经119°33′00″—122°42′18″之间,属暖温带生     

广东阳春鹅凰嶂自然保护区种子植物区系研究

鹅凰嶂自然保护区位于广东省阳春市境内 (1 1 1°2 1′2 9″～ 1 1 1°3 6′0 3″E ,2 1°5 0′3 6″～ 2 1°5 8′40″N) ,为北热带地区。计有维管植物 2 1 0科 75 4属 1 5 80种 (包括亚种与变型 ) ,其中种子植物有 1 72科 681属 1 44 8种。研究分析和讨论了本区主要植被类型、种子植物区系及珍稀濒危植物 ,其种子植物区系特征是 :种类组成比较丰富 ,地理成分复杂 ,联系广泛 ,以热带成分占绝对优势 ,是典型的热带北缘区系性质 ;植被类型以山地雨林为主 ;区系起源古老 ,原始类群丰富 ;特有性比较高 ,珍稀濒危植物明显。建议对一些濒危物种采取有效的保护措施。     

广东新会维管植物区系的研究

新会市位于广东省中南部 ,地理位置为北纬 2 2°0 5′4 3″～ 2 2°4 8′2 4″,东经 1 1 2°4 7′0 3″～ 1 1 3°1 5′2 4″,南濒南海 .该地区共有维管植物 1 6 98种 ,隶属于 2 0 9科 81 6属 ,其中蕨类植物 32科 5 4属 82种 ,种子植物 1 78科 76 2属1 6 1 6种 .区系地理学研究表明 :蕨类植物地理成分以热带亚热带分布属居多 ,达 2 6属 ,占蕨类总属数的 4 8.1 3% ,而且是以单种属或少种属占优势 .种子植物地理成分以泛热带、热带亚洲分布占绝对优势 ,全部热带成分已达78.0 9% ;其特征科主要有 :山矾科、冬青科、壳斗科、桑科、金缕梅科、山茶科、樟科、萝摩科、大戟科、蝶形花科、野牡丹科、茜草科等 ;中国特有属杉木属、穗花杉属、石笔木属、四药门花属、马蹄参属、天星藤属、大血藤属、刚毛药花属、台闽苣苔属、酸竹属及广东特有属绣球茜草属、异枝竹属等 .与邻近的香港、惠东古田、鼎湖山和黑石顶的植物区系比较其相似性很高 ,体现出南亚热带地区植物区系成分的过渡性及热带区系的渗透性     

蛇雕繁殖生态的初步观察

蛇雕(Ｓｐｉｌｏｒｎｉｓｃｈｅｅｌａ)属隼形目鹰科猛禽。有关其繁殖行为研究,到目前未见报道。笔者于1997～1998年,在贵州茂兰国家级自然保护区内,对蛇雕东南亚种(Ｓｐｉｌｏｒｎｉｓｃｈｅｅｌａｒｉｃｋｅｔｔｉ)的繁殖生态作了初步观察,现将观察情况报道如下。1　自然概况茂兰保护区位于贵州南部的荔波县境内。东经107°10′10″～108°05′40″,北纬25°09′20″～25°20′50″。海拔500～1100ｍ,最高点为肯西山1170ｍ。林区总面积2100ｈｍ2。为中亚热带季风湿润气候。年平均气温153℃,年降雨量1750ｍｍ左右,集中于4～10月,年平均相对…     

攀枝花苏铁

1971年,四川省林科所和飞播林场进行植被考查时,发现大片自然苏铁林,地理座标是东经101°33′30″～101°35′38″,北纬26°36′58″～26°38′33″。分布总面积约300多公顷,约12万株,集中在攀枝花市巴关河民政、平江一带,海拔1100～1500m的石灰岩山地、稀树草丛地带,定名为攀枝花苏铁(Cycas Panzhihuaensis)。     

巴颜喀拉山地区植物区系研究

巴颜喀拉山地区位于青海省南部,北纬32°20′～35°15′,东经94°50′～101°45′,面积约84 000km2,海拔高程介于3 600m至5 369m之间。本地区拥有种子植物1 116种,分属于64科,295属。区系特征概述如下：1)对属的分布区类型的分析表明,本地区植物区系以北温带成分为主,仅有9个分布区从热带延伸到温带的热带属,且在本区所含种类极少或仅有1种。2)对种的分布区类型的分析表明,大多数种(不包括中国特有种)属于中亚成分和东亚成分,且多呈中亚-喜马拉雅-中国西南或中国-喜马拉雅分布式样。以此为据所得结论是,本地区的种以温带成分为优势,具高原、高山分布的特点。3)本区东南部的生态环境和区系成分的来源均不同于其余地区。东亚分布型及其变型中国-喜马拉雅的种聚集在东南部。这里被认为是那些来源于横断山和西秦岭的区系成分的一个通道。4)对中国特有种的分析表明,本区系与横断山区系和甘肃南部区系联系最为密切。5)在高山特化作用和高山生态因子的选择之下,本区植物获得了适应寒冷和干旱的特性。6)本区植物的耐寒性常常伴随着耐旱和耐湿的双重特性,植物的这些特性也反映在它们的地理分布上。7)本区的区系性质和特点与唐古特地区基本一致,因此本植物区系应视为唐古特区系的一部分。     

鄂东花马湖水生高等植物研究：Ⅰ.水生植物区系

花马湖位于北纬30°15′—30°18′、东经114°58′—115°1′,面积约27.5km~2。湖中分布82种2变种水生维管束植物,隶属于34科66属,其中资源植物众多。花马湖水生高等植物大型属少,小型属较多,单型属相对突出。区系地理成分以温带成分占优势,计34种,占全湖种类的40.48%。起源古老的成分也较多。通过与有关湖泊水生植物区系的比较,及区系成分的分析,说明花马湖水生植物区系具有从暖温带至中亚热带过渡的特点。     

洞庭湖区常绿阔叶林的特征与分析

一、洞庭湖区常绿阔叶林的生境及自然条件洞庭湖区居荆江南岸,地理位置在北纬28°39′20″至30°14′18″,东经111°42′44″至113°39′45″之间。环湖和湖间丘陵5,044平方公里,占全区总面积的26.86%,其间保存有天然次生林106万亩。环湖和湖间丘陵多属低丘波状台地,除个别低山外,海拔多在350米以下。基岩由浅变质岩、砂页岩、石英砂岩、局部花岗岩体和厚层的第四纪红壤所组成。林地有机质含量一般在2—3%,全氮含量0.075—0.15%,速效氮、磷、钾含量为60     

稻苞虫为害发生的观察

<正> 马边县是大山区,位于东经103°14′—103°49′40″,北纬28°04′30″—28°24′30″。年平均气温17℃,年降水1,100毫米左右。冬春冷凉干燥、夏秋温暖多雨。 全县耕地面积22万亩,其中稻田3万亩,历年都遭受稻苞虫的为害。1973年稻苞虫特大发生,90％的稻田受害,全县因稻苞虫为害稻谷比1972年减产236万斤。近年来结合预测预报,对稻苞虫进行了如下观察。     

历山保护区爬行类多样性及保护

历山保护区位于山西省南部 ,地处运城、晋城、临汾三个地市的垣曲、阳城、沁水、翼城四县交界处 ,地理坐标为东经 1 1 1°51′1 0″～ 1 1 2°5′3 5″,北纬3 5°1 6′3 0″～ 3 5°2 7′2 0″ ,总面积 2 4 2 0 0ｈｍ2 。本区系中低山石质山地 ,系燕山褶皱而成 ,喜马拉雅山运动中有强烈的上升和断裂发生 ,本区属暖温带季风型大陆性气候 ,复杂的地理环境 ,丰富的光热资源 ,造就了种类繁多的爬行动物。搞清本区的爬行动物资源 ,可为资源的合理开发利用、珍稀物种的保护和地方志的编撰提供基础资料。关于该区的爬行类 ,山西大学殷源洪、蒋位金…     

湖南省德夯风景区蕨类植物区系的研究

德夯风景区位于湖南省西北部吉首市之西。海拔１８９．４～９６４．６ｍ,面积２５２ｋｍ２。该区蕨类植物有２８科,５１属,１１８种,区系特点是：（１）种类丰富而密度大,以鳞毛蕨科,水龙骨科,蹄盖蕨科,卷柏属（Ｓｅｌａｇｉｎｅｌｌａ）,铁角蕨属（Ａｓｐｌｅｎｉｕｍ）,凤尾蕨属（Ｐｔｅｒｉｓ）等为优势类群,科内、属内种数贫乏;（２）属的地理成分以热带成分为主,温带与亚热带成分次之,无特有属。种的地理成分以亚热带成分为主,热带与温带成分次之,特有种类丰富;（３）东亚成分（尤其是中国—日本成分）众多。可能是东亚成分分布中心的一部分;（４）与天平山、佼母溪关系最密切,与庐山、黄山、大瑶山关系较密切,与神农架、鼎湖山较疏远。     

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。     

秦岭植物区系的性质、特点和起源

秦岭是中国长江和黄河两大水系的分水岭,位于北纬32°5′至34°45′;东经104°30′至115°52′,最高峰达3767m。该山区是我国温带植物区系最丰实的地区之一,约有种子植物3124种,隶属于158科,892属。包括热带属220属,温带属563属,和中国特有属39属。根据该山区植物区系中各大科、主要植物群落优势种和组成种类的温带性质以及温带属在整个植物区系中的主导地位。该山区的植物区系和植被具有明显的温带性特点。特有种和非特有种的分析结果表明,该山区植物区系的特点还表现在高度特有性和以中国-日本森林植物区系为主体方面。 根据古植物学资料分析,秦岭地区植物区系的起源时间不会晚于晚白垩纪;植物群落的主要成份可能以原地生长的种类为主;秦岭及其邻近古老山区,不仅对自身的植物区系和植被具有较大的发生意义,而且对东亚植物区系具有始生性质。     

海南岛吊罗山种子植物区系分析

吊罗山位于海南岛东南部 ,约 1 8°5 0′N,1 0 9°5 0′E,为北热带地区 ,其种子植物区系共有种子植物1 71科、846属、1 90 0种 (裸子植物 4科 5属 1 0种 ,被子植物 1 67科 841属 1 890种 )。区系分析表明 :(1 )地理成分以泛热带、热带成分占绝对优势 (非世界属总数的 84.2 9% ) ;(2 )纯热带成分不形成区系和植被的表征 ,许多泛热带、热带种类已接近其分布北限 ;山地成分表现出热带、亚热带 -温带成分相互渗透的特点 ;(3 )该区系在海南岛整体区系中占重要位置 ,特有现象较突出 ,有海南岛地区特有属 4个 ,其它中国特有属 6个 ;吊罗山包括邻近的陵水县有 2 3 7个海南岛地区特有种 ,占全部 5 3 6个海南特有种 (变种 )的 44.2 2 % ;吊罗山特有种 5 2个 ,占海南全部特有种的 9.7% ,这表明该区系在海南森林区系中具重要意义。     

海南鹦哥岭的种子植物区系

海南鹦哥岭保存了我国华南地区面积最大和最原始的热带雨林。2003–2006年间, 作者通过近4个月的野外调查, 对该地区植物物种多样性进行了研究, 以期阐明其种子植物区系组成及其在中国植物物种多样性研究及保育中的重要性。结果如下: 该地区共有野生种子植物173科825属1,706种(含变种)。该地植物区系成分热带性质较强, 在属的水平上, 泛热带和热带亚洲成分占优势, 各占非世界属总数的25.28%和32.36%; 中国特有属8个, 占非世界属总数的1.01%, 其中海南特有属2个, 分别为多核果属(Pyrenocarpa)、盾叶苣苔属(Metapetrocosmea)。在种的水平上, 热带成分占非世界种总数的70.50%, 处于明显优势地位; 中国特有种474种, 占非世界种总数的28.42%, 其中海南特有种149种, 占中国特有种的31.44%。鹦哥岭的植物区系在组成上具有较强的特殊性, 主要表现在不但具有较多的特殊类群, 而且是亚热带植物种类与典型热带植物种类、干热性植物种类与湿热性植物种类相互渗透的交汇地带, 在植物区系地理研究方面具有重要意义。最后作者还讨论了该地区与邻近4个地区植物区系的联系, 认为鹦哥岭与吊罗山的种子植物区系相似性最大, 而与鼎湖山、西双版纳的种子植物区系相比, 鹦哥岭表现出更强的热带性。     

南岭植物区系地理学研究──Ⅰ．植物区系的组成和特点

南岭山地地质历史较为古老．自然环境复杂多样,孕育了比较丰富的植物资源,计有维管束植物３８３１种．隶属１１８４属．２４８科．蕨类植物以亚热带及亚热带至热带分布科属为主,起源古老;裸子植物多数为原始古老的子遗成分;被子植物大多数科属的分布中心都在中国或华夏的亚热带及其附近热带地区．研究表明．南岭山地植物区系是典型的亚热带植物区系,具有由热带性区系成分向温带性区系成分过渡的特点;亚洲热带、温带和亚热带植物区系成分在发生上是统一的;北美植物区系和华夏植物区系有着共同的起源,是在联合古陆漂离之前通过欧洲一北美古陆发展过去的．     

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.     

海南岛尖峰岭地区种子植物区系组成及地理成分研究

尖峰岭地区位于海南岛西南部 ,面积约 470 km2 ,有种子植物 1 83科、90 6属、2 0 87种及变种。区系组成及地理成分分析结果表明 ,本区种子植物区系有如下特征 :(1 )科属种的组成较为丰富 ,但属内种系较贫乏、分化程度弱 ;(2 )地理成分复杂 ,以热带成分、热带亚洲成分占优势 ,特有成分也相对较丰富 ,是海南岛整体区系的重要组成部分 ;(3)区系有一定邃古性 ,本质上是华夏植物区系不可分割的一部分。     

庐山蕨类植物区系研究

庐山共有蕨类植物39科87属247种(含变种、变型),其区系带有热带和温带双重性。其中鳞毛蕨科、水龙骨科、蹄盖蕨科、金星蕨科和铁角蕨科属种优势明显,共有38属160种,分别占总属数的43.7%和种数的64.8%,代表了该地区蕨类植物区系的一个重要特征。该区区系地理成分复杂,相互交错,其中热带性属占总属数的64.2%,温带性属占总属数的35.8%。东亚成分在该区系占有绝对优势,共有14属,占总属数的20.9%,中国特有属缺乏,特有种丰富,表明成分具有多样性并具有热带亲缘性,是亚热带向北温带的过渡地区。该区与井冈山、武夷山关系密切,与鼎湖山、秦岭和横断山关系疏远。     

广西元宝山植被种子植物区系初步研究

组成元宝山植被的种子植物共有118科337属732种,区系统计分析表明:(1)科级和属级的区系成分都表现为热带性质稍强于温带性质,亚热带区系性质明显。在元宝山植被区系中,热带亚热带成分与温带成分相互交融,这正是亚热带山地植物区系的一个基本特征。(2)泛热带分布、热带亚洲分布、北温带分布、东亚和北美洲间断分布和东亚分布的属为该植被区系主要构成成分。(3)元宝山植被中存在许多区系上孑遗、古老、孤立的植物类群,并且特有成分丰富,具有重要的保护价值。(4)裸子植物丰富,针叶林群落类型多样,是元宝山植被组成的突出特点。