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1.
兰科是单子叶植物最大的科和被子植物中的第二大科.兰科植物物种多样性的海拔梯度格局因地域或坡向不同而呈不同趋势.南岭国家级自然保护区地处南岭山脉中段南坡,植物资源丰富.作者对南岭国家级自然保护区兰科植物进行了为期4年的调查,记录了其种类、数量、生活型、海拔、生境,分析了其区系成分,并依据IUCN(2001)濒危物种红色名录及保护区的具体情况对其濒危等级进行了评估.从海拔230-1,902m,每200 m分段,共划分为9个海拔段分析其垂直分布格局.结果显示:(1)实地记录兰科植物38属70种,大多数种类数量较少,乳阳管理处的种类最为丰富;(2)随着海拔的上升,总体兰科植物以及不同生活型的兰科植物物种数量均呈现"中间高度膨胀型"而峰值偏向低海拔的特点;(3)濒危物种主要集中在600-1,000 m人为活动稀少、环境好的小生境中;(4)800-1,000 m的区系成分最丰富,热带性质的兰花多数分布在海拔1,600 m以下;(5)相邻海拔段的兰科植物种类的相似性系数较高;海拔段相隔越远,相似性系数越小.小生境和水分条件对于兰科植物的生长非常重要,中海拔具有良好的水热条件,因此物种多样性最高;而低海拔地区的人为破坏使得该海拔段兰科植物物种的多样性显著降低.  相似文献   

2.
根据调查,齐云山自然保护区有兰科(Orchidaceae)植物33属62种,以地生兰占优势,有22属45种;附生兰11属16种;腐生兰1属1种。从海拔分布来看,1000 m以上的高海拔区域主要分布的是中国特有种和温带分布种;400 m以下的低海拔区域则以热带分布种为主。单种属有21属,占保护区兰科植物总属数的63.6 %。保护区兰科植物属的地理成分可划分为11个分布型和2个变型,种以东亚分布占主体。保护区特有种丰富,中国特有种15种。与邻近地区相比,保护区兰科植物与井冈山自然保护区的相似性系数最高(44.0%),与庐山自然保护区的最低(38.2%)。  相似文献   

3.
云南省小黑山自然保护区兰科植物多样性及保护评价   总被引:7,自引:0,他引:7  
云南省小黑山自然保护区孕育了丰富的兰科植物。据调查,保护区有兰科植物43属、134种,约占云南省135属、780种的31.9%和17.2%,是保护区种子植物种类最多的科。兰科植物在保护区的各个生态类型中均有出现。保护区134种兰科植物以附生兰占优势,占67.16%(90种);其次,地生兰占31.34%(42种),腐生兰为1.50%(2种)。保护区兰科植物起源于新、旧世界的热带和温带,热带属占70.0%(28),温带属占27.5%(11)。鉴于兰科植物重要的保护价值,应加强保护区兰科植物的保护。首先应加强保护区的建设和管理,还应加强社区经济发展,加强科学研究,实施社区共管以及加大保护宣传力度。  相似文献   

4.
中国1,334种兰科植物就地保护状况评价   总被引:1,自引:0,他引:1  
作者通过对中国543个自然保护区内兰科植物数据的分析,对我国1,334种兰科植物的就地保护状况进行了逐一评价。我们根据有记录分布保护区的数量,通过专家咨询的方式,将兰科植物就地保护水平划分为"有效保护"、"较好保护"、"一般保护"、"较少保护"、"保护状况不明"和"未予评价"6个等级。结果发现:有676种兰科植物在自然保护区内得到了不同程度的就地保护,占所评价兰科植物总数的51.9%;但有626种兰科植物保护状况不明,尚未受到就地保护,占总数的46.9%。另外有32种仅分布在香港、澳门和台湾地区,本研究中未予评价,约占总数的2.4%。根据评价结果,就兰科植物就地保护中存在的基础调查不足、受关注程度低、受保护率低等问题进行了深入的讨论,提出5条有针对性的建议对策:(1)加强兰科植物的调查监测;(2)提高兰科植物的保护级别与受关注程度;(3)进一步完善兰科自然保护区建设;(4)规范自然保护区综合科学考察;(5)定期评价我国兰科植物保护成效。  相似文献   

5.
为了掌握海南主要陆域自然保护地内野生兰科植物的物种多样性现状以及制约其发展的关键生境因子,对该地区进行兰科植物资源调查并分析兰科植物多样性的空间分布格局,进一步采用典范对应分析(CCA)探索生境因子对兰科植物组成的影响,最后运用广义线性模型(GLM)框架下的负二项回归拟合兰科植物丰富度和多度对生境变异的响应。结果表明:(1)共发现兰科植物67属193种,为海南兰科植物分布的绝对中心。(2)水平方向上,霸王岭兰科植物丰富度高但居群相对拥挤,而五指山最大的海拔落差带来了更加多样化的小生境类型和宽阔的生存空间,孕育了种类丰富且分布均匀的兰科植物资源。(3)垂直方向上,中海拔地区兰科植物种类最为丰富且种间竞争较为激烈,高海拔地区则存在明显的优势类群。(4)海拔变化对兰科植物物种组成变异有着非常高的解释率,而喀斯特和河谷地貌的显著影响也不容忽视。(5)多因子综合作用共同影响着兰科植物的多样性,其中坡度、河谷地貌、喀斯特地貌的显著正效应和枫香林的显著负效应受其他协变量的影响较小,是驱动兰科植物丰富度和多度变化的关键生境因子。综上所述,中高海拔地区以及特殊地貌(如河谷和喀斯特地貌)应作为兰科植物多样性的优先保护区域。  相似文献   

6.
叶超  刘锋  安明态  杨焱冰 《广西植物》2022,42(2):240-246
兰科(Orchidaceae)植物是植物界中最进化、种类最丰富的类群之一,有较高的环境要求和较强的生态系统依存性。由于很多兰科植物具有较高的观赏价值和药用价值,各地采挖频繁,导致其受威胁十分严重,已成为保护植物中的“旗舰”类群。该文基于文献资料和近年来课题组野外调查数据,分析贵州省野生兰科植物的地理分布状况、就地保护现状与保护空缺,以期为该地区野生兰科植物科学合理的保护管理提供参考。结果表明:(1)贵州省野生兰科植物共343种,其中在自然保护区内分布的物种有291种,就地保护率为84.84%。(2)在兰科植物地理分布上,黔西南(221种)>黔南(198种)>遵义(135种)>铜仁(110种)>黔东南(101种)>贵阳(82种)>六盘水(79种)>毕节(68种)>安顺(65种),黔西南和黔南分布的兰科植物及它们自然保护区内分布的兰科植物种类均远高于其他地区。(3)采用“累计筛选法”共鉴别出保护贡献率较高的前14个保护区,累计保护贡献率达84.84%。总体而言,贵州省野生兰科植物受到了较全面的保护,但仍有部分物种未受到保护,且受威胁严重。  相似文献   

7.
井冈山自然保护区野生兰科植物资源分布及特点   总被引:1,自引:0,他引:1       下载免费PDF全文
通过对江西省井冈山自然保护区兰科(Orchidaceae)植物的调查,分析了保护区内兰科植物的物种多样性、区系特点、分布格局,并采用SPSS18.0软件对井冈山及其邻近保护区属的种类进行相关和聚类分析。结果表明:井冈山兰科植物种类丰富,共有兰科植物34属75种,中国特有兰科植物19种。井冈山兰科植物资源垂直分布格局明显,不同海拔段的兰科植物分布差异较大,中低海拔的物种分布较多,资源相对保存较好;区系成分复杂多样,井冈山兰科植物属的地理成分可以划分为10个类型2个变型,热带性属占优势,占总属数的67.3%,但热带分布的种仅占本地区总种数的37.3%,而温带分布的种却占62.7%,故井冈山自然保护区属热带植物区系与温带植物区系过渡的交汇地带。井冈山兰科植物与齐云山自然保护区的相似性最高,与武夷山自然保护区的相似性最低。  相似文献   

8.
张哲  任明迅  向文倩  宋希强 《广西植物》2021,41(10):1683-1698
兰科(Orchidaceae)植物广布于除两极和极端沙漠地区外的各种陆地生态系统,包括5个亚科800多属28 000多种。东南亚地区兰科植物种数约占世界的1/3,是兰科植物生物多样性热点区域之一。通过查阅文献及书籍等资料,该文系统整理了东南亚兰科植物物种种类及其扩散演化历史,并对其生活习性和传粉系统进行了归类。结果表明:(1)东南亚兰科植物8 855种,分属5亚科17族26亚族240属;(2)主要生活型为附生的有127属6 000种以上,地生97属2 000种以上,腐生13属约100种,藤本4属40余种;(3)根据整理出的东南亚79个属的兰科植物传粉系统发现,有44个属含有自动自交的物种,具报酬物的传粉系统有花粉(仅见于拟兰亚科)、芳香类物质(仅见于香荚兰亚科)和花蜜(5个亚科均有)等报酬物类型。欺骗性传粉系统广泛存在于各个亚科,包括食源性欺骗、性拟态、繁殖地拟态和信息素拟态等类型。东南亚兰科植物在物种、生活习性及传粉系统都展现出极高的多样性,对这些生物学特点的总结将为兰科植物的保育提供一定的理论基础和本底资料。  相似文献   

9.
西双版纳片段化石灰岩森林附生兰科植物多样性研究   总被引:1,自引:0,他引:1  
西双版纳石灰岩地区拥有丰富的兰科植物资源,但近年来随着橡胶树的大面积种植,使得该地区很多石灰岩森林呈片段化。为了解片段化石灰岩森林中附生兰科植物多样性状况以及片段化对附生兰科植物的影响,该研究选取了生境片段化的青岩寨和曼纳览,以及连续生境的绿石林和巴卡新寨等4个样地的29个样方进行多样性调查和对比研究。结果表明:4个石灰岩森林样共记录到附生兰科植物34属76种1 528株(丛)。通过对坡向、坡度、海拔、地形、郁闭度和森林类型等6个环境因子与附生兰科植物丰富度进行CCA分析,发现石灰岩地区附生兰科植物的分布主要受海拔和森林类型2个因素的影响,在海拔较高的青岩寨和巴卡新寨附生兰科植物物种丰富度高于低海拔的绿石林和曼纳览,而片段化对附生兰科植物的物种多样性和多度均无显著影响,这可能与片段化的历史较短有关。虽然目前来看生境片段化对石灰岩地区的附生兰科植物多样性无显著影响,但生境脆弱的石灰岩森林植被的保护对于兰科植物多样性保护则更具重要性。  相似文献   

10.
金佛山自然保护区兰科植物多样性及保护对策研究   总被引:2,自引:0,他引:2  
通过对保护区内兰科植物的调查,分析了保护区内兰科植物的物种多样性、垂直分布格局.结果表明,金佛山兰科植物种类丰富,区系成分复杂多样,共有兰科植物48属114种;金佛山兰科植物特有现象明显,中国特有兰科植物47种,3种为金佛山特有;垂直分布格局明显;不同海拔段的兰科植物濒危程度差异较大,低海拔地区物种?受威胁程度较低,资源保存状况更好.对造成兰科植物濒危的主要原因进行了分析,并提出了保护对策.  相似文献   

11.
Orchid classification has undergone a series of significant changes during the past decade as molecular phylogenetic studies have examined relationships at all taxonomic levels in the family. Today, the 750 genera and 25,000 species of Orchidaceae are organized into five subfamilies, the two largest of which (Epidendroideae and Orchidoideae) are further divided into 19 tribes and 43 subtribes. Whereas some of these groups are relatively small in terms of total species numbers, and may be of little horticultural or medicinal value, they are especially important for understanding orchid evolution and may deserve to be conserved for this reason alone. The question of which orchids to conserve is a complex one, but the science of systematics, including taxonomy and phylogenetics, has an undeniable role to play in answering that question. Among the many ways that phylogenetic trees can assist biologists in setting conservation priorities are by: 1) guiding taxonomists in naming species, which is essential for creating checklists within floras, monographs, and inventories; 2) discovering overlooked, rare or cryptic species that deserve recognition and protection; 3) determining whether or not a taxon is actually a species or simply a variant or hybrid; 4) predicting species that may be of value to humans for economic value; 5) identifying species that may have particularly important scientific value for better understanding the biology of plants. In the same way that we cannot protect all habitats, we may not be able to save every orchid species. Priorities must be established. The Yachang Orchid Reserve has been recognized as important not only because of the number of individual orchid plants that grow there, but also because of its great orchid diversity. Diversity is a product of evolution by natural selection, and the science of phylogenetics has a role to play in better understanding that process.  相似文献   

12.
兰科植物内生细菌与菌根真菌的协作对宿主植物的生长、抗病、抗逆及植物修复环境能力等具有重要意义,揭示其内生细菌多样性及与生境之间的关系有助于阐明兰科植物的适应与进化机制。本研究基于16SrDNA序列分析探讨了不同生境下东南亚特有种五唇兰根部可培养内生细菌多样性及其空间异质性。结果表明:从不同生境下五唇兰根部共分离出内生细菌59株,其中从土生型五唇兰根部分离出内生细菌45株(76.27%),从石生型五唇兰根部分离出内生细菌14株(23.73%);基于内生细菌16SrDNA序列同源性分析及构建的系统发育树显示,五唇兰根部内生细菌分属于7属,即芽孢杆菌属(Bacillus)、伯克氏菌属(Burkholderia)、草酸菌属(Pandoraea)、土壤杆菌属(Agrobacterium)、类芽孢杆菌属(Paenibacillus)、泛菌属(Pantoea)、欧文氏菌属(Erwinia),其中优势属为芽孢杆菌属,次优势属为泛菌属和伯克氏菌属;多样性分析显示,土生型五唇兰根部内生细菌群落的Shannon多样性指数大于石生型五唇兰,不同生境下五唇兰根部内生细菌群落结构差异极显著(P0.01)。土生型五唇兰根部内生细菌群落优势属为芽孢杆菌属和泛菌属,石生型五唇兰根部内生细菌群落优势属为芽孢杆菌属和伯克氏菌属。  相似文献   

13.
兰科植物是开花植物中最大的家族之一,其科研和经济价值越来越受到全世界的重视。兰花的组织培养近年来发展迅速,对兰花组织培养中原球茎的诱导和培养基选择的国内外研究进行了综述;并对近年来应用分子标记、转基因等分子生物学技术研究兰花的遗传多样性、系统分类和基因功能进行综述。  相似文献   

14.
兰科植物是典型的菌根植物。兰菌根是兰科植物根与真菌形成的菌根共生体。兰菌根真菌的营养来源影响宿主植物的生活方式和营养水平。氮是植物生长的主要限制因子。兰科植物具有富集氮的特征, 其组织和器官的氮含量通常高于同生境中的其他植物。该文综述了兰菌根真菌类别、兰科植物氮营养特征和兰菌根的氮转移机制等的研究进展, 以期为兰科植物资源的保护、再生及可持续利用的相关研究提供参考和借鉴。  相似文献   

15.
广西雅长林区野生兰科植物资源丰富,约有52属156种,其中雅长保护区几乎每座山头都有兰科植物的分布,但其种类与居群基株数量等分布不均匀,且不连续,呈现出破碎化现象,其中面积较大的局部密集分布区有16处.文中根据野生兰科植物的资源现状及生物生态学特性,针对目前兰科植物保育存在的问题,分析人畜干扰及自然条件变化等不利因素,从兰科植物维持机制角度出发,提出雅长野生兰科植物的保护应以就地保护为主、迁地保育为辅的保育措施与策略:保护区应加快建设的步伐,构建野生兰科植物种质资源基因库,同时对密集分布区在人畜干扰大的区域,优先拉设铁丝网围护,并派专人巡护,重点保护,确保野生兰科植物及基因库安全.  相似文献   

16.
Aim This research investigates changes in orchid species composition and diversity, plant breeding system and floral traits along an elevational gradient spanning 2300 m (200–2500 m). Location The study was conducted on Réunion Island (Mascarene Islands, Indian Ocean). Methods Data on the distribution of 135 orchid species from 35 genera were gathered from 121 localities situated between 200 and 2500 m a.s.l. For each locality, 500‐m transects were walked and each orchid species was recorded. Measures of species diversity (species richness, a modified Shannon diversity index and the modified Shannon equitability index) were related to altitude using ordinary least‐squares regression. Species turnover and elevational gradients in species composition were determined by: (1) relating scores of detrended correspondence analysis to altitude using ordinary least‐squares regression, and (2) relating Sørensen similarity indices to differences in altitude using Mantel tests. Finally, the average proportion of species displaying similar floral traits or showing the same breeding system were compared among altitudinal zones. Results Species richness per transect ranged from 1 to 36 species (mean 14.3) and decreased significantly with increasing altitude. Similarly, species evenness decreased significantly with increasing altitude. Around 50% of all orchid species were rare (occurred in fewer than 5% of all localities), and only a few occurred in more than 50% of all localities. Orchid species composition changed continuously with altitude, indicating turnover of species with increasing altitude. Analogously, orchid breeding systems and floral traits also changed with altitude. Relatively more auto‐pollinating species were found at high altitudes compared with mid‐ and low‐altitude sites where animal‐pollinated species were most abundant. Species characterized by a cleistogamous pollination system were found almost exclusively in high‐altitude sites, whereas the proportion of species displaying floral traits related to pollination by long‐tongued moths (sphinx) and flies sharply decreased with increasing altitude. Main conclusions Environmental conditions associated with altitude exert a large influence on orchid species composition and the distribution of orchid breeding systems. Our results revealed a high proportion of auto‐pollinating species, and confirm earlier findings that auto‐pollinating species are more frequent in high‐altitude sites.  相似文献   

17.
赵泽宇  刘娜  邢晓科 《菌物学报》2021,40(3):423-435
兰科植物因其具有丰富的物种多样性和重要的社会经济价值,多年来一直是植物学及生态学界的重点研究对象。菌根真菌对兰科植物的种子萌发、营养吸收和种群动态等多个方面都具有十分重要的作用,因而近年来受到越来越多的关注。探究菌根真菌与兰科植物互作的内在机制是目前兰科菌根研究的一大热点领域,同时也为兰科植物野生资源保护和种群恢复提供了许多新方法与新思路。随着新一代测序技术以及多种组学数据库的发展与建立,菌根真菌与兰科植物互作机制研究已然进入了一个全新的时代。纵观近年来的研究,通过基因组学、转录组学、蛋白质组学和代谢组学等相关技术,人们对兰科菌根共生过程中的种子萌发、营养物质转运、信号转导、宿主免疫和逆境抗性等方面的内在机制有了一定的了解。本文对近十年来国内外采用组学技术研究菌根真菌与兰科植物互作机制方面的研究成果进行了总结和梳理,并对未来该领域的研究进行了展望。  相似文献   

18.
Ecosystem integrity often needs to be evaluated rapidly; indicator species may be used to do so. In this study we aim to evaluate whether White Fringed Orchid is an indicator of ombrotrophic peatland (Sphagnum bog) integrity in northeastern North America. The study was carried out in 113 sampling plots located in 60 bogs of southern Quebec, Canada. Vegetation (species cover and strata) and abiotic variables were collected within the plots and disturbance variables were determined using aerial photographs and satellite imagery. The level of integrity on each plot was assessed by calculating a Floristic Quality Assessment Index (FQAI) and an Anthropogenic Activity Index (AAI). Data were analyzed with ANOVAs, multivariate techniques and logistic multiple regression. Results indicated that the presence and abundance of White Fringed Orchid were positively linked to the FQAI and negatively to the perimeter/area ratio variable, suggesting that this species is most abundant and frequent at sites that are less disturbed and influenced by human activities. ANOVA showed that the AAI was lower in plots with high orchid abundance than in those without, suggesting that the orchid grows in more pristine sites. Our study showed that White Fringed Orchid abundance and presence may be used to rapidly and accurately evaluate Sphagnum bog integrity.  相似文献   

19.

The Ghost Orchid, Dendrophylax lindenii (Lindl.) Benth x. Rolfe, is a rare and endangered epiphytic orchid native to south Florida and Cuba. The orchid is considered difficult to propagate under greenhouse conditions, requiring high humidity and low air movement. In contrast, the orchid’s native habitat seasonally dries out with decreased precipitation and humidity. This suggests some level of desiccation tolerance. Ghost Orchid plants were assessed for potential desiccation tolerance and ability to recover from desiccation stress under in vitro conditions. In vitro-derived plants were placed into sterile baby food jars and transferred to chambers maintained at 10% relative humidity, which is extremely low compared to relative humidity levels (40–100%) recorded under natural field conditions. Plants were removed every week for 4 wk and recovered on P723 medium supplemented with banana powder for 4 wk. Data were collected at the initiation of the experiment, after the desiccation periods, and after 4 wk in vitro recovery. Ghost Orchid plants demonstrated extremely high desiccation tolerance. Even after 4 wk desiccation, plant survival was observed at 79.2% after recovery. Desiccated plants exhibited significant decreases in tissue water potential (− 18.44 MPa), fresh weight (65.5% loss), and water content (14.2%); however, high plant survival was still observed under these conditions similar to poikilohydric plants. Overall, the Ghost Orchid demonstrated high desiccation tolerance, which should be considered for future greenhouse culture and for its application in the direct field establishment of in vitro-derived plants without greenhouse acclimatization.

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