黑龙江依兰始新世植物群的研究

本文报道了黑龙江依兰煤矿早第三系始新统达连河组的上、下两个层位所产的植物化石的区系组成及植物群特征：一个系产于煤层下部的砂页岩中的植物群A,另一个是产于煤层上部油页岩中的植物群B。植物组合共计35科49属52种,其中有蕨类植物2种,裸子植物10种,被子植物40种,其中包括1个新种。对其进行区系成分和叶相分析表明,A段植物群的古植被为北亚热带常绿阔叶和落叶阔叶混生林;B段植物群的古植被为暖温带落叶阔叶林。通过与邻近地区的国内外相应植物群比较及植物群的属种地史分布分析,确定A段植物群的时代为早始新世,B段植物群的时代很可能为晚始新世。两个层位间植物群区系成分的变化,表明始新世我国东北地区发生了较明显的气温下降过程,即古气候发生了由亚热带向暖温带的变化。     

Paleoclimatic Analysis of Paleogene Flora in Yilan County,Heilongjiang

Plant fossils were collected from the sand-shale above the lower coal seam and the upper oil shale above the upper coal seam in the Yilan coal mine, Heilongjiang. The floras contained 2 species of pteridophytes, 10 species of gymnosperms and over 58 species of angiosperms assigned to 46 genera and 34 families. The fossils were divided into two floras, one of which was in lower sand-shale beds, with the age assigned to the Eocene, and the other was in the upper part of oil shales considered to belong to the Oligocene. The floras were complicated in composition and rich in species, and were studied by means of floristic analysis, foliar architectural and physiognomical analysis. The Eocene flora consisted of many evergreen broad-leaved species, which indicated that the flora belonged to north subtropical evergreen broad-leaved forest or subtropical coniferous and broad-leaved mixed forest. The foliar physiognomical analysis of the floristic composition showed that the species with entire leaf margines made up 38.3 percent of the total. The climate in the Eocene was estimated by means of climatic nomogram as follow: The mean annual temperature was 13.2 ℃ and annual temperature deviancy was 20℃. In the Oligocene flora, deciduous broadleaved trees were dominant, which indicated that the vegetation was of temperate deciduous broad-leaved forest or warm temperate coniferous and deciduous broad-leaved mixed forest. The species with entire leaf margines were 30. 8 percent with an estimated mean annual temperature of 11 ℃ and mean annual temperature deviancy of 25 ℃. The floristic aspect and climate in the Paleogene of Yilan region were very different from the present ones.     

山东植物区系的演变和来源

1　现代植物区系山东省位于我国东部、黄河下游 ,北濒渤海 ,东临黄海 ,地理范围介于北纬 34°2 3′～38°2 4′,东经 1 1 4°4 8′～ 1 2 2°4 3′之间。全省总面积为 1 5.72万 km2 ,占全国总面积的 1 .6%。属暖温带季风气候 ,沿海比较湿润 ,地带性植被主要是暖温带落叶阔叶林和松、栎类针阔叶混交林。山东省在中国植物区系的分区地位隶属于泛北极植物区、中国 -日本森林植物亚区、华北植物地区 [1 ]。据最近研究统计 ,现有野生维管植物 1 47科、61 4属 ,约 1 547种 (包括变种 ,下同 )。其中蕨类植物 2 4科 39属 1 0 5种 ,裸子植物 3科 3属 …     

东亚暖温带落叶阔叶林的起源

以对北京百花山种子植物区系起源的分析为例,探讨了暖温带落叶阔叶林的起源,认为:世界暖温带落叶阔叶林在植物区系起源上是统一的,东亚暖温带落叶阔叶林是基本类型,中国西南的亚热带山地是它们的发源地。     

江苏省江都市大桥镇ZKA4钻孔第四纪孢粉组合及其环境变化研究

本文依据江苏省江都市大桥镇第四系钻孔(ZKA4)中孢粉的分布,自下至上划分了11个孢粉组合:1.Betula-Ulmus-Artemisia,2.Ulmus-Chenopodiaceae-Quercus,3.Artemisia-Gramineae-Quercus,4.Liquidambar-Polypodiaceae-Ulmus,5.Pinus-Quercus-Betula-Juglans,6.Quercus-Juglans-Artemisia,7.Quercus-Polygonum-JuglansCarya,8.Betula-Gramineae-Artemisia,9.Quercus-Polypodiaceae,10.Podocarpus-Triorites-Polypodiaceae,11.Pinus-Podocarpus-Juglans-Pterocarya。依据孢粉组合,识别出更新世以来七个气候冷暖变化阶段。孢粉组合1为常绿落叶针阔叶混交林,气候以冷干为主,向上气候回暖;孢粉组合2为高寒灌丛—落叶针阔叶混交林,以冷干为主;孢粉组合3为草本—落叶针阔叶混交林,较前一阶段气候变暖,偏暖干;孢粉组合4-5以落叶阔叶为主,整体上以变暖为主;孢粉组合6-7为落叶针阔叶混交林,整体气候为暖湿,早期略干;孢粉组合8-9为以针叶为主的针阔叶混交林,气候温凉偏湿;孢粉组合10-11为常绿—落叶阔叶混交林,气候以湿暖为主。     

Leaf litter carbon,nitrogen, and phosphorus stoichiometric patterns as related to climatic factors and leaf habits across Chinese broad-leaved tree species

Our understanding of how climate and leaf habit (evergreen vs. deciduous) drive leaf litter carbon (C), nitrogen (N), and phosphorus (P) stoichiometric patterns is largely limited but is particularly important for broad-leaved forests, since the forest is sensitive to climate change. Here, we investigated leaf litter C, N, and P stoichiometric ratios of broad-leaved tree species in relation to climate and leaf habit using previous publications and our additional samplings across China. We found that mean leaf litter C:N across Chinese broad-leaved tree species was within the range of the global flora, whereas C:P was lower and N:P higher. Evergreen species displayed higher leaf litter C:N, C:P, and N:P than their deciduous counterparts. Both leaf litter C:P and N:P for all species pooled were negatively correlated with latitude, driven by mean annual precipitation (MAP) and mean annual temperature, respectively, while leaf litter C:N displayed no clear latitudinal trend. The direction and magnitude of leaf litter C, N, and P stoichiometric ratios in response to climate diverged between leaf habits. For example, evergreen leaf litter C:N was negatively correlated with MAP, while deciduous counterparts did not respond significantly to MAP. We conclude that leaf litter C, N, and P stoichiometric ratios shifted along the climatic gradient, and the strength of such shifts differed between leaf habits. Therefore, leaf litter stoichiometric patterns across leaf habits suggest that any climate change-driven shift in species distribution may potentially alter the ecosystem’s nutrient cycling processes of evergreen- and deciduous-dominated broad-leaved forests differentially.     

河南宝天曼种子植物区系特征

宝天曼位于河南省西南部,共有种子植物１５０科７８３属２１４７种。种子植物各科中有不少是起源古老的科,各种属中共有１８５个单型属和少型属,占总属数２３．６３％,表明了本区系起源的古老性。     

云南中山湿性常绿阔叶林起源的探讨

云南中山湿性常绿阔叶林广泛分布于海拔1800~3400 m的山地,这类常绿阔叶林在生态外貌上具有亚热带常绿阔叶林特征,但其分布生境却是暖温带-温带气候,且植物区系组成与热带植物区系有古老的渊源。该文以研究得比较深入的哀牢山中山湿性常绿阔叶林为例,对其植物区系与其气候条件的不协调进行剖析。哀牢山的中山湿性常绿阔叶林记录了种子植物110科386属821种。在植物区系科的地理成分上,无论是含种数多的科,还是所有科的分布区类型,都是以热带分布科为主,体现了它的远古热带起源背景。在该种子植物区系中,热带分布属占总属数的47.75%,热带分布种占总种数的33.45%,在近代演化上仍体现出明显的热带亲缘特征。按照哀牢山中山湿性常绿阔叶林分布地区的暖温带-温带气候条件,它相当于中国东部的暖温带落叶阔叶林地区。在中国东部地区类似气候条件的地带性植被的植物区系中,热带分布属通常只占总属数的25%~27%,云南中山湿性常绿阔叶林植物区系的地理成分与所在地的温带气候明显不协调。对这种现象的解释,笔者认为结合哀牢山地区曾经是低海拔夷平面,在第四纪以来才迅速抬升形成的地质历史,可能这里曾经在第四纪以前的热带-亚热带性质的植物区系和常绿阔叶林随着地形的迅速抬升,逐渐适应了因海拔上升而形成的温带气候,成为在云南高海拔山地存在的所谓中山湿性常绿阔叶林,其植物区系和植被的热带-亚热带性质及常绿阔叶生态外貌并未因气候改变而发生改变。     

Tropical deciduous forest in Yunnan,southwestern China: Implications for geological and climatic histories from a little-known forest formation

In the southern mountain ranges of Yunnan province, China, deep valleys of several large rivers create rain shadows with hot dry summers, and are locally designated tropical; towards the north, notably in the Lancang (Upper Mekong) valley, these regions may experience frost during winter. The woody forest canopy of these valleys is predominantly deciduous, with evergreen elements in the north, where the canopy is open and the forest savanna-like. However, we here present tall forest with a closed deciduous canopy and semi-evergreen subcanopy observed in hot dry valleys of these rivers and their tributaries in the tropical south. The structure and physiognomy of these forests resemble the tall (moist) deciduous forest formation widespread in South Asia and Indo-Burma. Furthermore, these forests are largely composed of tropical elements at both the generic (80%) and the species level (>70%), indicating that these forests are indeed tropical. We originally hypothesized that these isolated forests represent refugia of a pre-Holocene extension of tall (moist) deciduous forest formation of South Asia and Indo-Burma. The sample plot we established to test this hypothesis confirmed that these forests share the structure and physiognomy of the tall (moist) deciduous forest formation; however, the plots also showed that these forests lack the characteristic and dominant species of the formation''s Indo-Burmese range. The tree flora, in particular, indicates that both deciduous and evergreen elements are instead mostly derived from the adjacent tropical semi-evergreen forests of tropical southern China; yet they also include an important endemic element, which implies that these forests have survived as refuges possibly since the Pliocene. The exceptional representation of evergreen elements in these forests indicates that they have rarely been subject to hot fires or domestic cattle browsing, adding to the unique nature of the forests and further justifying their strict conservation.     

Early Tertiary fossil plants and paleoclimate of Lanzhou Basin

Fossil plants from the lower part of Xianshuihe Formation in the Lanzhou Basin, Gansu Province were studied. The flora contains 29 species, representing 20 genera and 12 families, which include Lauraceae ( Daphnogene ), Lardizabalaceae ( Akebia ), Berberidaceae ( Berberis ), Ulmaceae ( Planera, Ulmus, Zelkova ), Betulaceae ( Alnus, Carpinus ), Myricaceae( Myrica ), Salicaceae ( Populus, Salix), Myrsinaceae(Ardisia), Rosaceae ( Prunus, Sorbus, Sorbaria, Spiraea ), Leguminosae ( Gleditsia, Sophora), Anacardiaceae (Rhus), Caprifoliaceae(Viburnum). An analysis of the floristic elements and their foliar physiognomy shows that most members of the flora are deciduous broad-leaved trees or shrubs with a few evergreen shrubs. The most noteworthy species is Rhus turcomanica which was present in the Middle Eocene to Late Eocene of Central Asia (Kazakhstan, Turkmenistan). Generally, Rhus turcomanica occurred at the same beds as Palibinia, an extinct fossil plant whose presence indicates a subtropical dry climate. Another species, Sorbaria callicomifolia Kornilova was present from the Early Oligocene to Early Miocene of Central Asia (Kazakhstan and Turkmenistan). According to an analysis of spores and pollen, this flora contains over 20 species. It is predominated by the angiosperm pollen. There appeared Ephedripites and Nitrariadites which were important elements in the dry area. Ephedripites was found from the Upper Cretaceous to Early Tertiary. Nitrariadites occurred in the Late Miocene, whereas Rhus turcomanica and Sorbaria callicomifolia were both reported in the subtropical dry area from the Middle Eocene to Early Oligocene. The latest record of Rhus turcomanica is from the Middle Eocene to Early Oligocene of Central Asia. The presence of this element in the lower part of Xianshuihe Formation may indicate that itsage is the latest stage of the Early Oligocene.     

兰州盆地早第三纪植物及古气候意义

化石采自甘肃省兰州盆地咸水河组底部,经研究认为有29种,归属20属12科。它们是：樟科 Lauraceae (Daphnogene),木通科Lardizabalaceae(Akebia),小檗科Berberidaceae(Berberis),榆科Ulmaceae (Planera,Ulmus,Zelkova),桦木科Betulaceae(Alnus,Carpinus),杨梅科Myricaceae(Myrica),杨柳科Sali- caceae(Populus,Salix),紫金牛科Myrsinacese(Ardisia),蔷薇科Rosaceae (Prunus,Sorbus,Sorbaria,Spir- aea),豆科Leguminosae(Gleditsia,Sophora),漆树科 Anacardiaceae(Rhus),忍冬科Caprifoliaceae(Viburnum) 等。经植物区系组成与叶相分析显示,该植物区系的大多数成员是落叶阔叶乔、灌木,少数为常绿灌木。其中特殊的分子是 Rhus turcomanica Korov．ex Vassilvesk,该成分是早第三纪中、晚期的标志化石植物。另一化石植物 Sorbaria callicomifolia Kornilova曾出现在中亚的早渐新世,最晚至早中新世。同一层位采集的孢粉样分析结果显示：该组合仅约20种,种类相对贫乏,并以被子植物的花粉占优势。其中出现裸子植物的麻黄粉,被子植物的白刺粉及蒿粉等,这几个类型均指示沉积时期经历干旱气候。综合植物大化石及孢粉分析研究,均出现一些指示气候为亚热带干旱或周期性干旱气候的特点,并据Rhus turcomanica出现的最晚记录,推测咸水河组底部的地质时代大约是早渐新世晚期。     

The uplift of the Qinghai-Xizang (Tibet) Plateau in relation to the vegetational changes in the past

By late Carboniferous the flora of northern Xizang differs from that of the northern India. During late Permian, the northern Xizang was inhabited by the Gigantopteris flora, while in the southern Xizang was widespread the Glossopteris flora. The upper Triassic flora of the northern Xizang is closely related to that of southwestern China and quite different from that of India. The Jurassic flora found in Tsaidam of Chinghai and the early Cretaceous flora found in Lhasa of the northern Xizang are closely related to these of the northern hemisphere, and show no relationship with these of the southern hemisphere. The late Cretaceous flora of Rikaze and the early Eocene flora of Ali region are also of northern hemisphere in affinity and show no relationship with the Daccan Intertrappean and the Eocene floras of India. Hence, the northern and the southern Xizang should have belonged to two different continents, Eurasia and Gondwanaland. Between them, a very wide sea, the Tethys, was situated. This strongly supports the view of continental drift that the India block drifted in late Jurassic-Cretaceous from the south-eastern corner of Africa and later on in Eocene joined up with Asia to become its subcontinent. The suture line between Eurasia and the India block perhaps lies in the belt of basic to ultrabasic rocks along the Yalu-Tsangpo valleys. Judging from the nature of the floras ranging from the late Carboniferous to the early Eocene, the northern Xizang most probably was of lowland in topography throughout these periods. The Miocene floras of the central and the northern Xizang were mainly composed of deciduous broad-leaved trees, though some evergreen trees existed somewhere else. It reflects the land of the central and the northern Xizang had already uplifted to some extant before Miocene. During the time of Pliocene, the evergreen broadleaved trees were gradually declining in their development in the northern Xizang. The vegetation of the Chaidamu (=Tsaidam) Basin further changed into deciduous broad-leaved to coniferous forests and then turned into grasslands and semi-deserts or deserts. It shows by that time the land of Xizang and Chinghai further upheaved. Up to the late Pliocene, the vegetation of the northern Xizang and Chinghai further changed. But the vegetation of the Himalayan region was still dominated by evergreen oaks and Cedrus forests. Most probably by that time the Himalayas was not so high as present. There was no barrier to prevent the monsoon winds of the Indian Ocean passing over the Himalayas. The most active period of the uplift of the mountain ranges in Xizang and the Qinghai-Xizang Plateau is the Quaternary. By that time no evergreen broad-leaved trees could live in the northern Xizang. During the late Quaternary, the vegetation of most parts of Xizang gradually changed into cold alpine desert. At last the Qinghai-Xizang Plateau turned into the present state.     

The Tertiary Vegetation and Flora and Floristic Regions in China

The development or adaptation radiation of angiosperms has been closely related to the paleoclimate and paleoenvironment. Several environmental factors, influencing each other, have affected the evolution or development of angiosperms, which falls into different stages. The lines between these stages are not consistent with the traditional geological ages. Floristic regionalization might be better based on the stages of the development. Angiosperms have become important or dominant elements in the flora since the middle and late period of the Late Cretaceous. The development of angiosperms may be divided into four stages: (1) Initial stage: The angiosperms were not yet well established during the Early Cretaceous. The number of species and individuals was limited, the leaf small, mostly with entire margine, irregular venation and poor differentiation of venation; (2) Flourished stage: The angiosperms increased dramatically and became abundant. The leaf was larger with more regular venation and the differentiation of venation was remarkable. The percentage of angiosperms was from 40%-60% in the flora, and eventually arose, becoming predominant, with important families well presented. This was probably from the Late Cretaceous to the Early Tertiary; (3) Herbs-Flourished stage: Some of woody plants were extinct, while herbs greatly increased, because of the changes in climate, sea level and mountain uplift during the Neogene period; (4)Quaternary stage: The mountain glacier in China, influenced by global glacial-interglacial alternation due to the climatic fluctuation, advanced and regressed during the Quaternary. The climatic fluctuation apparently affected the distribution of plants. But the components of the flora were similar to or slightly different from the features of the present one. The aim of the present paper is to discuss the floristic regions at the second and third stages. The Late Cretaceous-Early Tertiary stage: A. The Late Cretaceous-Paleogene flora of northern China 1. Warm-temperate to subtropical deciduous broad-leaved and conifer forests in North and Northeastern China 2. Dry subtropical flora of Northwestern and Central China B. Southern China Late Cretaceous-Paleogene flora 3. Deciduous and evergreen forests with coniferous elements in the subtropical coastal region of east China 4. Evergreen forests of South China 5. Evergreen forests of lower mountains in the Tethys The Neogene stage-Herbs-flourished stage: 1. Temperate forests and grasslands to semidesert-desert floras of northwestern China; 2. Warm temperate deciduous forests of north and northeastern China; 3. Warm temperate to subtropical deciduous and evergreen forests of central and east China; 4. Evergreen forests of the subtropical and tropics mangrove vegetation of south China; 5. Subtropical evergreen and deciduous forests on the Yunnan and Xizang plateau.     

台湾植被分类方案

复杂的自然条件导致面积仅为36000多平办公里的台湾兼有热带和寒温带的群落类型,堪称中国乃至世界植被之缩影。它的植被分类也是对中国乃至世界植被分类的补充。台湾植被分类采用的是外貌-区系原则,分类单位和系统自上而下是：植被型纲、植被型目、植被型、群团组、群团和群丛。高级单位(植被型纲、植被型目和植被型)以群落的生态外貌为依据;中、低级单位主要依据种类组成,兼顾优势种和标志种的指示意义。在中级单位中(群团组、群团),重视优势种的作用,在低级单位中(群丛)更重视特征种(或标志种)的意义。按此原则将台湾植被划分为5个植被型纲(森林、灌丛、草本植被、岩原植被、沼泽和水生植被),29个植被型目(寒温性针叶林,凉温性针叶林,暖温性针叶林,暖性针叶林、落叶阔叶林、常绿阔叶落叶阔叶混交林、常绿苔藓林、常绿硬叶林、常绿阔叶林、热带雨林、热带季雨林海岸林、暖性竹林、常绿针叶灌丛、革叶灌从、落叶阔叶灌丛、常绿阔叶灌丛、刺肉灌从、竹灌丛、草甸、疏灌草地、干热旱生草地、岩屑堆稀疏群落、石隙植被、木本沼泽、草本沼洋、藓类沼泽、淡水水生植被和成水水生植被),53个植被型。列举了各个植被型中的重要群团。     

台湾植被分类方案

复杂的自然条件导致面积仅为36 000多平方公里的台湾兼有热带和寒温带的群落类型,堪称中国乃至世界植被之缩影.它的植被分类也是对中国乃至世界植被分类的补充.台湾植被分类采用的是外貌-区系原则,分类单位和系统自上而下是:植被型纲、植被型目、植被型、群团组、群团和群丛.高级单位(植被型纲、植被型目和植被型)以群落的生态外貌为依据;中、低级单位主要依据种类组成,兼顾优势种和标志种的指示意义.在中级单位中(群团组、群团),重视优势种的作用,在低级单位中(群丛)更重视特征种(或标志种)的意义.按此原则将台湾植被划分为5个植被型纲(森林、灌丛、草本植被、岩原植被、沼泽和水生植被),29个植被型目(寒温性针叶林,凉温性针叶林,暖温性针叶林,暖性针叶林、落叶阔叶林、常绿阔叶落叶阔叶混交林、常绿苔藓林、常绿硬叶林、常绿阔叶林、热带雨林、热带季雨林海岸林、暖性竹林、常绿针叶灌丛、革叶灌丛、落叶阔叶灌丛、常绿阔叶灌丛、刺肉灌丛、竹灌丛、草甸、疏灌草地、干热早生草地、岩屑堆稀疏群落、石隙植被、木本沼泽、草本沼泽、藓类沼泽、淡水水生植被和咸水水生植被),53个植被型.列举了各个植被型中的重要群团.     

Distribution and structural-functional attributes of trees in the high altitude zone of Central Himalaya,India

Patterns of tree species distribution and their structural-functional features were studied along an altitudinal gradient in the Indian Central Himalaya. The forest vegetation falls within three formation types: low to mid-montane sclerophyllous, broad-leaved forests; mid-montane deciduous forests; and high-montane mixed stunted forests. Deciduous tree species formed a considerable (49%) portion of the high altitude forests between 1500–3300 m. The upper limit of forests ranges from 3000 to 3300 m, and three taxa are commonly found at tree line: an evergreen, needle-leaved gymnosperm (Abies pindrow Spach.), an evergreen, broad-leaved sclerophyllous oak (Quercus semecarpifolia Sm.), and a deciduous, broad-leaved birch (Betula utilis Don).The high altitude forests differed from the low altitude forests of Central Himalaya in their greater proportion of microphanerophytes. Vernal flowering is common at this elevation in Central Himalaya. In general, in their elevational distribution and structural-functional attributes, these high altitude forests are similar to other forests of cool temperate zones in Himalaya.     

秦岭落叶阔叶林25 ha森林动态监测样地物种组成与群落特征

秦岭落叶阔叶林是温带-亚热带过渡区保存较好的植被类型, 群落结构复杂。为了研究该过渡区植被的生物多样性维持机制, 按照CTFS (Center for tropical Forest Science)和中国森林生物多样性监测网络(CForBio)的建设标准, 于2015年在陕西省佛坪国家级自然保护区的落叶阔叶林建立了一块面积25 ha的动态监测样地。本文对样地内胸径(DBH) ≥ 1 cm的所有木本植物进行了调查和统计, 分析了其物种组成、区系特征、径级结构和空间分布格局。结果表明: 样地内DBH ≥ 1 cm的木本植物独立个体有47,739株, 隶属于36科66属119种。温带区系成分的科和属分别占总科数和总属数的41.18%和60.00%, 温带区系特征明显。稀有种有51种, 占总树种的42.86%。落叶树种有106种, 占总树种的89.07%, 在样地内占绝对优势。重要值≥ 1的物种共有20个, 分别占样地总个体数和总胸高断面积的70.35%和57.41%, 重要值最大的物种分别是乔木层的锐齿栎(Quercus aliena var. acutesrrata)、亚乔木层的水榆花楸(Sorbus alnifolia)和灌木层的刺叶栎(Q. spinosa)。样地内所有个体的平均胸径为8.61 cm, 整体径级分布呈倒”J”型, 小径级个体较多, 群落更新良好。除了太白杨(Populus purdomii), 样地内优势种表现出大尺度的聚集分布, 且它们的分布与生境紧密相关, 不同物种表现出不同的生境偏好。     

Neogene Flora of Tengchong Basin in Western Yunnan,China

The specimens were collected by our expedition from the Neogene flora of Tengchong basin, i.e. 20 families, 29 genera and 35 species, four of which are described as new species, its show with characteristics as follows: 1. Tengehong basin flora developed from the Paleogene flora of Tethys sea and remains some eharaeters of the latter, for example, containing forest forms of Fagaeeae and Lauraeeae with evergreen boradleaves. Since Late Miocene the Himalayas uplifted, the Tecthys sea was recessive from the region, and this region had started aequiring its present day configuration. The climate became arid and cool. The flora was expanded with some deciduous elements. 2. The flora was expanded with Leguminosae elements which may indicate the climate changing to arid. The age of the flora is considered to Late Miocene- Early Plioeene. Its elements closely resemble with the modern ones of Yunnan flora.     

无量山半湿润常绿阔叶林的区系特征及保护生物学意义

无量山半湿润常绿阔叶林是其垂直带上重要的植被类型,目前面临被彻底毁灭的危险,从这类森林及相应地段的177种优势和常见植物的种类结构分析看,只有热带亚洲的成分,东亚中的中国－喜马拉雅成分和中国特有成分贯穿乔木A,B,C层,灌木层,草本和层外植物几大类中,而中国特有种的进一步分析表明了它的区系成分的亚热带性质,温带性质不是很显著,在无量半山湿润常绿阔叶林地段,还存在一些原生植被破坏后产生的次生落叶阔叶加以保护,因之有这么多的特点,加之其为重要特有类群和保护种类聚集的场所,该类植被明显具有不同层次的保护生物学意义。     

云南大围山种子植物区系海拔梯度格局分析

 海拔梯度包含了多种环境因子的梯度效应,因而研究山地植物区系的海拔梯度格局对揭示植物区系的环境梯度变化规律、了解生物适应性和生物多样性沿海拔梯度的变化趋势等具有重要意义。为了探讨山地植物区系构成特征及其海拔梯度的生态意义,该文根据对大围山国家级自然保护区植被线路调查和垂直样带调查,并结合文献研究等获得的植物区系资料,分析了该保护区种子植物区系构成的基本特征及其随海拔梯度的变化趋势;利用系统聚类的方法寻找和研究大围山植物区系沿海拔梯度变化的断点位置。研究结果表明：1)大围山大多数热带成分分布的上限位于海拔1 500 m左右,以此为界划分热带雨林和常绿阔叶林是合理的。 2)湿润雨林分布于海拔700 m以下;山地雨林分布于海拔700～1 500 m;季风常绿阔叶林分布于海拔1 300～1 800 m;山地苔藓常绿阔叶林分布于海拔1 800 m以上;在海拔2 100 m以上的迎风坡面、土层瘠薄的地段分布有不甚典型的山地苔藓矮林。