粤东地区野果植物资源

本文报道了粤东地区野生水果植物资源的调查结果,记录到该地区野生水果植物有57科、101属、205种(含变种),分别占全国野生果树73科、173属、1157种(变种)的78．1％、58．4％、17．7％,含15种以上的科有蔷薇科、壳斗科、芸香科、桑科4个科,为该地区野生水果的优势科,这说明粤东地区的野生水果植物资源极为丰富．     

未来气候变化对粤港澳地区杜鹃花适生区的影响

位于我国南方丘陵的粤港澳地区拥有丰富杜鹃花资源,长期以来受杜鹃花不适宜在高温低海拔地区进行开发利用等思想的影响,该区域野生杜鹃花的开发、保护与利用研究寥寥无几,但低海拔野生杜鹃花在气候变化下正面临较高灭绝风险。基于粤港澳地区杜鹃花属(Rhododendron)14个筛选后的野生物种229个标本点位数据,利用最大熵模型(Maxent)模拟粤港澳地区野生杜鹃花在2070年低、中、高3种温室气体排放模式(RCP2.6、RCP4.5、RCP8.5)下的适生区范围大小与方向的变化及其主导环境变量。研究发现未来粤港澳地区野生杜鹃花的适生区范围整体呈缩小趋势,且随着温室气体排放浓度的增加,即从RCP2.6到RCP8.5,越来越多杜鹃花物种适生区呈现向高纬度、高海拔方向迁移的趋势;对杜鹃花分布影响最大的变量为最冷月的最低温、温度季节性和最干月降水量。本研究通过探究气候变化对野生杜鹃花适生区范围的影响,以期为粤港澳地区野生杜鹃花的保护与开发利用提供科学指导。     

滇东英武山杜鹃花种质资源的调查

采用实地调查的方法,以云南省东部曲靖地区师宗县境内英武山为调查研究区域,以分布于该区域的杜鹃花属植物为重点调查对象,记录其区域内杜鹃花属植物种类、杜鹃花资源的垂直分布和水平分布。在对英武山杜鹃花属植物进行系统调查和资料整理的基础上,研究了该属植物在英武山的分布规律,结果表明,英武山杜鹃资源有10种,分布于海拔2 000~2 400 m之间。其水平分布呈现不均匀格局。在此基础上对10种(包括亚种和变种)杜鹃花的的生境类型和主要种类的观赏性状,包括花、叶及其花期以及旅游资源开发现状和利用途径的问题进行了详细观察和探讨。提出了进一步加强对杜鹃花属植物资源保护与开发利用、加强野生杜鹃引种驯化、利用杂交及现代生物学技术培育杜鹃花新品种的建议。     

包头地区野生种子植物区系组成及特征研究

通过对包头地区野生种子植物区系进行调查、统计、整理,从科、属、种3个分类等级上对其区系地理成分、生活型、水分生态类型分别进行分析,探讨该区植物区系的起源和演化,为保护和利用该区珍稀、特有物种及其生存环境提供依据。结果表明:(1)包头地区有野生种子植物71科、274属、595种,其中,裸子植物2科3属5种,被子植物69科271属590种,占内蒙古被子植物的全部科、属、种的62.28%、43.81%、27.78%。(2)从科、属组成来看,包头地区野生种子植物组成中单属科和寡属科(2~4)、单种属和寡种属(2~4)构成了该地区植物科、属的主体部分。(3)从地理成分来看,温带成分占绝对优势;生活型以草木植物为主,占79.83%;从水分生态类型看,中生植物是该区的主要成分,占55.62%,旱生植物在该区系中也占有相当比重,占36.98%,说明该地区水分条件较差,在气候区上属于半干旱地区。     

中国西藏横断山北缘——杜鹃花考察札记

<正>长期以来,我国杜鹃花野生资源考察集中在云南边境地区(Indo-Burma)、西南山地(Mts.of SW China)、喜马拉雅山脉(Himalaya)和中亚山地(Mts.of Central Asia)等生物多样性热点地区,本次在横断山和澜沧江流域北段干热河谷区域调查发现该区域生境多样,杜鹃花属(Rhododendron)物种丰富,但缺乏系统性的调查资料。     

粤东野生壳斗科果树资源

报道了粤东地区壳斗科野生果树资源的调查结果,记录到该地区壳斗科野生果树资源有4属、17种,分别占全国野生壳斗科果树4属、48种的100%、35.4%,同时分析了部分壳斗科果树的利用价值,并提出开发利用的建议。     

中国野生杜鹃花属植物名录与地理分布数据集

杜鹃花属(Rhododendron)植物分布广泛, 生存环境多样, 类群结构复杂, 深入分析其地理分布格局与特征, 可为种质资源保育和利用等提供依据。本文基于大量基础数据及文献资料, 更新了中国陆域分布的野生杜鹃花属植物物种名录, 统计了其物种多样性、组成成分等信息, 建立了中国野生杜鹃花属植物地理分布数据库, 旨在为种质资源调查及引种应用研究提供参考。截至2021年7月, 共记载7亚属720种(包括114变种、45亚种和2变型), 其中中国特有种450种。除宁夏和新疆干旱荒漠地带外, 中国其他各省区均有野生杜鹃花属分布, 其中云南省分布393种, 是省级尺度物种丰富度及特有性最高的区域; 其次为四川省(278种)及西藏自治区(271种)。县级尺度贡山独龙族怒族自治县与察隅县以134种并列物种丰富度第一, 其次是德钦县128种。     

粤东地区野生葡萄植物资源及其开发利用

本文记录了粤东地区野生葡萄资源的调查结果,同时分析了野生葡萄的利用价值,并提出开发利用的建议.     

青海峡群寺森林公园野生维管植物资源调查

采用访问、随机路线和文献查阅的方法,调查到青海峡群寺森林公园193种野生维管植物.结果表明,该区野生维管植物中草本植物(69.43％)占多数,菊科植物科属分布(17.10％)具优势,经济类药用植物资源占主导地位(65.80％),且该区野生维管植物以北温带分布类型为主(47.58％);有6种省级以上重点保护野生植物.调查...     

我国东北高寒地区野生浆果资源研究与利用

经1987～1989年、2002—2003年和近几年的调查,明确了我国东北高寒地区有野生浆果种质资源8个科、13个属、28个种,该区独特的地理条件蕴育了丰富的野生浆果资源,其果实可鲜食,但大部分做为生产果酒、果酱、果汁等的原料,鲜果和加工产品以其丰富的营养、新颖的风味以及纯天然、无污染等独特的优势,被国内外果树生产、科研和消费者所关注。简述其分布、生态环境、开发利用现状及提出对该区野生浆果资源研究开发利的建议。旨在为我国东北高寒地区野生浆果资源的进一步研究及开发利用供依据。     

A Preliminary Study on the Taxonomy of the Family Magnoliaceae

A new system of classification of Magnoliaceae proposed. This paper deals mainly with taxonomy and phytogeography of the family Magnoliaceae on the basis of external morphology, wood anatomy and palynology. Different authors have had different ideas about the delimitation of genera of this family, their controversy being carried on through more than one hundred years (Table I). Since I have been engaged in the work of the Flora Reipublicae Popularis Sinicae, I have accumulated a considerable amount of information and material and have investigated the living plants at their natural localities, which enable me to find out the evolutionary tendencies and primitive morphological characters of various genera of the family. According to the evolutionary tendencies of the characters and the geographical distribution of this family I propose a new system by dividing it into two subfamilies, Magnolioideae and Liriodendroideae Law (1979), two tribes, Magnolieae and Michelieae Law, four subtribes, Manglietiinae Law, Magnoliinae, Elmerrilliinae Law and Micheliinae, and fifteen genera (Fig. 1 ), a system which is different from those by J. D. Dandy (1964-1974) and the other authors. The recent distribution and possible survival centre of Magnoliaceae. The members of Magnoliaceae are distributed chiefly in temperate and tropical zones of the Northern Hemisphere, ——Southeast Asia and southeast North America, but a few genera and species also occur in the Malay Archipelago and Brazil of the Southern Hemisphere. Forty species of 4 genera occur in America, among which one genus (Dugendiodendron) is endemic to the continent, while about 200 species of 14 genera occur in Southeast Asia, of which 12 genera are endemic. In China there are about 110 species of 11 genera which mostly occur in Guangxi, Guangdong and Yunnan; 58 species and more than 9 genera occur in the mountainous districts of Yunnan. Moreover, one genus (Manglietiastrum Law, 1979) and 19 species are endemic to this region. The family in discussion is much limited to or interruptedly distributed in the mountainous regions of Guangxi, Guangdong and Yunnan. The regions are found to have a great abundance of species, and the members of the relatively primitive taxa are also much more there than in the other regions of the world. The major genera, Manglietia, Magnolia and Michelia, possess 160 out of a total of 240 species in the whole family. Talauma has 40 species, while the other eleven genera each contain only 2 to 7 species, even with one monotypic genus. These three major genera are sufficient for indicating the evolutionary tendency and geographical distribution of Magnoliaceae. It is worthwhile discussing their morphological characters and distributional patterns as follows: The members of Manglietia are all evergreen trees, with flowers terminal, anthers dehiscing introrsely, filaments very short and flat, ovules 4 or more per carpel. This is considered as the most primitive genus in subtribe Manglietiinae. Eighteen out of a total of 35 species of the genus are distributed in the western, southwest to southeast Yunnan. Very primitive species, such as Manglietia hookeri, M. insignis and M. megaphylla, M. grandis, also occur in this region. They are distributed from Yunnan eastwards to Zhejiang and Fujian through central China, south China, with only one species (Manglietia microtricha) of the genus westwards to Xizang. There are several species distributing southwards from northeast India to the Malay Archipelago (Fig. 7). The members of Magnolia are evergreen and deciduous trees or shrubs, with flowers terminal, anthers dehiscing introrsely or laterally, ovules 2 per carpel, stipule adnate to the petiole. The genus Magnolia is the most primitive in the subtribe Magnoliinae and is the largest genus of the family Magnoliaceae. Its deciduous species are distributed from Yunnan north-eastwards to Korea and Japan (Kurile N. 46’) through Central China, North China and westwards to Burma, the eastern Himalayas and northeast India. The evergreen species are distributed from northeast Yunnan (China) to the Malay Archipelago. In China there are 23 species, of which 15 seem to be very primitive, e.g. Magnolia henryi, M. delavayi, M. officinalis and M. rostrata, which occur in Guangxi, Guangdong and Yunnan. The members of Michelia are evergreen trees or shrubs, with flowers axillary, anthers dehiscing laterally or sublaterally, gynoecium stipitate, carpels numerous or few. Michelia is considered to be the most primitive in the subtribe Micheliinae, and is to the second largest genus of the family. About 23 out of a total of 50 species of this genus are very primitive, e.g. Michelia sphaerantha, M. lacei, M. champaca, and M. flavidiflora, which occur in Guangdong, Guangxi and Yunnan (the distributional center of the family under discussion) and extend eastwards to Taiwan of China, southern Japan through central China, southwards to the Malay Archipelago through Indo-China. westwards to Xizang of China, and south-westwards to India and Sri Lanka (Fig. 7). The members of Magnoliaceae are concentrated in Guangxi, Guangdong and Yunnan and radiate from there. The farther away from the centre, the less members we are able to find, but the more advanced they are in morphology. In this old geographical centre there are more primitive species, more endemics and more monotypic genera. Thus it is reasonable to assume that the region of Guangxi, Guangdong and Yunnan, China, is not only the centre of recent distribution, but also the chief survival centreof Magnoliaceae in the world.     

中国大陆特有华溪蟹属分布格局探讨(甲壳纲,十足目,溪蟹科)

华溪蟹属Sinopotamon是中国淡水蟹类的特有属。在构建种群数据库的基础上,对华溪蟹属的分布格局进行了深入的研究。结果显示:迄今,华溪蟹属已报告75种和9亚种,占中国淡水蟹总数的29.68%(84/283),系中国淡水蟹36个属中所含种及亚种最多的一个类群,广泛分布于赣、鲁、苏、皖、浙、闽、湘、鄂、粤、桂、川、黔、豫、晋、陕、陇、冀计17个省区。华溪蟹属的分布格局与中国自然地理环境区域分异密切相关,自然地理的阻限等因素是导致华溪蟹属在中国高度分化的主要原因,表现出该属下物种对现代自然条件的适应及其遗传与分化至现阶段的结果。依照中国淡水蟹类地理区划的划分,华溪蟹属分属于西南区、华中区、华南区、华北区及其各亚区的东部季风区内,以东洋界物种成分为绝对优势,其地理分布约以24°N为其南限,37°N为北限,经度则为103°E以东直至东南沿海地区。在垂直分布上,该属物种多分布在海拔200～1000m。又以长江中下游一带物种最为丰富,而黄河与淮河流域则相对贫乏。秦岭及其淮河一线成为华溪蟹属东洋界和古北界物种的明显分野地域,但二界之间存在广泛过渡与渗透。据此,华溪蟹属的地理分布,均受制于中国第2级阶梯和第3级阶梯内的秦岭、雪峰山、巫山、太行山、南岭、武夷山等主要山脉及其低岗丘陵与平原地域。     

濒危植物杜鹃红山茶的细胞学研究

报道了杜鹃红山茶(Camellia azalea)的细胞学资料。其间期核为球形前染色体型,有丝分裂前期染色体为中间型。核型公式为2n=2x=30=28m(1SAT) 2sm,核型类型属于Stebbins的1B型。第3、4、9、10、11、12条染色体的长臂上具有次缢痕,第15条染色体的短臂上具随体。细胞学证据支持杜鹃红山茶在山茶组中较为原始的推断,并为人工杂交育种时亲本的选择提出了一些建议。     

陕西延安市区蝶类多样性初探

延安市区有蝶类6科25属36种,其中凤蝶科2属3种;粉蝶科5属8种;眼蝶科3属5种;蛱蝶科7属10种;灰蝶科7属9种;弄蝶科1属1种。陕西省新记录5种。区系分析表明,该地区以广布种为优势种。     

CLASSIFICATION,DISTRIBUTION AND PHYLOGENY OF THE GENUS ENKIANTHUS

The genus Enkianthus is one of the genera of Ericaceae, It contains 13 species, distributing in eastern Asia. Many studies of the genus Enkianthus made by predecessors did not have divide the infrageneric taxa and discuss evOlutionary trend of the genus. The present author divides the genus into 3 sections(Sect.Ⅰ. Enkianthus, Sect. Ⅱ.Racemuss and Sect. Ⅲ. Monanthus)and also discusses the evolutionary trend of the genus. In this paper 1 new specios has been discribed, with the figure of the type specimen.     

广西毛茛科植物新记录属——尾囊草属

该文报道了中国广西毛茛科(Ranunculaceae)植物新记录属——尾囊草属(Urophysa Ulbr.)。该属为中国特有属,原记载分布于四川东部、贵州、湖北西部、湖南北部和广东,在广西木论国家级自然保护区的发现表明了亚热带喀斯特地貌植物区系广泛的联系性。文中还提供了尾囊草[U.henryi(Oliv.)Ulbr.]的形态描述和图片。     

张氏红山茶——一个具有优先权的合法和正确名称

张氏红山茶Camellia changii Ye是1985年在广东省植物学年会上以抽印本先行发表的,依照国际植物命名法规第29.1条款,第30.4条款和第31.1条款,根据它刊印在广东省植物学会会刊第三期在发表时间上的说明以及1985年12月20日编印的广东省植物学会1985年年会论文目录,均表明张氏红山茶的学名是一个有效发表和合格发表的名称。C.azalea Wei是张氏红山茶的一个晚出异名,中国植物志合并了C.azalea Wei应是权威的选择,对此应该加以尊重。     

Karyological Study on the Endangered Species Camellia azalea (Theaceae)

The chromosome number and karyotype of Camellia azalea were reported here for the first time . The species showed in somatic cells the round prochromosome type of the interphase nuclei and the interstitial type of the prophase chromosomes. It was a diploid , and the karyotype could be formulated as 2n = 2x = 30 = 28m (1SAT ) + 2sm, belonging to Stebbins’1B type. The third, fourth, ninth, tenth, eleventh and twelfth chromosomes had secondary constriction respectively, and one satellite had been found on the fifteenth chromosome. The cytological results supported the suggestion that C. azalea was primitive species in Sect . Camellia of the genus Camellia. A clue on selecting parents was also proposed due to the chromosome numbers and the position in Sect. Camellia.     

粉条儿菜属(肺筋草科)的地理分布及其物种多样性和分化中心

粉条儿菜属(AletrisL.)隶属于肺筋草科,全世界有23种1变种,东亚有18种1变种,北美东南部有5种,为典型的东亚-北美间断分布的属.本文在种(变种)的水平上,研究了粉条儿菜属的地理分布及其分布中心和多样化中心,并对其起源和分化以及现代洲际间断分布格局的成因进行了分析.结果表明,(1)中国共分布有粉条儿菜属植物15种1变种,而广义的横断山地区集中分布有13种1变种,是东亚粉条儿菜属植物分布最为集中的地区,而且包含该属植物各个进化阶段的代表.因此,广义的横断山地区是粉条儿菜属在东亚的分布中心和多样化中心.(2)根据粉条儿菜属及其近缘属的分布格局推测,该属可能在不晚于第三纪早期,起源于古北大陆.东亚和北美的粉条儿菜属植物形态区别明显,应该是隔离分化的结果.(3)该属植物可能曾经广布于北半球,后来地质、气候以及冰川等因素的变化,导致该属在一些地区灭绝,而仅存于东亚和北美东南部.(4)尽管横断山及其周边地区是东亚粉条儿菜属的多样化中心,但该地区很可能并不是粉条儿菜属最早的分化中心,因横断山地区周边的一些特有种可能是在晚近的时期形成的新特有种;另外,东亚粉条儿菜属一些原始的种类主要分布于我国中东部到日本一带.所以,中国中东部到日本一带可能是粉条儿菜属早期的分化中心.