四川小河沟自然保护区植被类型在地形上的分异研究

以四川小河沟自然保护区为研究对象,在遥感影像和DEM数据的基础上,对植被类型在地形上的分布差异进行研究。结果表明:(1)随着海拔高度的逐渐上升,各种植被类型依次出现和消失,呈顺序分布,并且每种植被类型在相应的海拔段上拥有优势地位。(2)植被类型的分布与坡向之间存在相关性,大面积的常绿落叶阔叶林和次生落叶阔叶林常常在西南坡向上出现,高山灌丛和高山草甸在南坡上的分布面积最大,而在平地、北坡和西北坡上则少有亚高山草甸分布。(3)随着坡度由缓变陡,各植被类型的面积比例在不同的坡度段内发生相应变化,但各坡度段上的植被类型均以次生落叶阔叶林和亚高山针叶林为主,除亚高山草甸外,其余植被类型均主要分布在坡度20~°50°的区域内。     

河北小五台山主要植被类型的分布与地形的关系：基于遥感信息的分析

小五台山是河北省最高峰,具有较完整的暖温带植被垂直带谱。本文通过野外群落植被调查,结合由TM遥感影像解译1：50000地形图制作的DEM数据而得到的植被图,分析了小五台山主要植被群落的分布状况及其与地形的关系。结果表明,小五台山从低海拔到高海拔,依次出现灌丛、阔叶林、针阔混交林、暗针叶林、矮林、灌丛、草甸等植被类型。森林景观的面积最大,占总面积的60．7％;平均斑块面积最大的是阔叶林和亚高山草甸,斑块破碎化最严重的是水体和针阔混交林。不同的植被类型在不同的地形条件下分布特点不同,林地在北坡所占面积比例(占总面积的75％)远大于南坡(46%),说明水分条件是小五台山森林分布的限制因子之一;灌丛和草甸与林地相反。随海拔高度的变化,不同植被类型的分布面积比例发生变化,出现替代现象,形成植被垂直带谱。由于坡度的影响,增加了带谱内植被组成的复杂性。     

山西吕梁山南段植物群落的生态梯度

吕梁山南段在中国植被区划上属暖温带南部落叶阔叶林亚地带向暖温带北部落叶阔叶林亚地带的过渡地带.采用TWINSPAN分类和DCCA排序法,从植物种、植物群落与环境因子之间的相互关系,对吕梁山南段植物群落的生态梯度进行了研究.结果表明:(1)TWINSPAN分类将74个样方划分为18个群丛.其中4个群丛为森林群落,14个群丛为灌丛.这18个群丛属南暖温带性质的次生植被类型,代表了吕梁山南段植物群落的主要类型,这些群丛都不同程度受到人类活动的干扰;(2)样方的DCCA排序较好地揭示了该区域植物群落的分布格局与海拔、坡度、土层厚度、枯枝落叶层厚度、坡向和人类干扰6个因子的关系,其中制约植物群落结构及分布格局的主导因子是海拔高度和人类干扰,另外,坡向和土层厚度也对植物群落特征产生一定的影响;(3)对环境因子的相关分析表明,海拔、人类干扰、土层厚度和枯枝落叶层厚度之间存在着极显著的相关性,是影响分布格局的主导因子;(4)结合TWINSPAN和DCCA的分析表明,吕梁山南段植物群落表现出明显的垂直分布格局,在海拔690～1 100 m的低山和沟谷中主要分布着荆条和酸枣灌丛;海拔1 100～1 300 m阳坡和半阳坡主要分布着灌木状檀子栎林,并伴生有少量的侧柏和鹅耳枥;在1 300～1 570 m主要分布着以辽东栎为建群种的森林群落;(5)灌木状檀子栎林的分布,是该地区处于暖温带南部落叶阔叶林亚地带向暖温带北部落叶阔叶林亚地带的交错区的主要标志.     

三峡库区不同植被类型土壤养分特征

通过三峡库区8个植被类型370个样地的群落调查和土壤分析,研究了不同植被类型、土壤类型、海拔对表层土壤有机质及全氮、速效磷、速效钾含量的影响.结果表明:(1)三峡库区不同植被类型土壤有机质、全氮平均含量规律为阔叶林＞竹林＞针叶林＞灌丛＞草丛,森林土壤有机质及全氮平均含量丰富;速效磷平均含量表现为草丛＞落叶阔叶林＞灌丛＞暖性针叶林＞常绿落叶阔叶混交林＞温性针叶林＞竹林＞常绿阔叶林,草丛与其他植被类型差异显著;速效钾平均含量表现为常绿落叶阔叶混交林＞落叶阔叶林＞灌丛＞针叶林＞竹林＞草丛＞常绿阔叶林,竹林、草丛、常绿阔叶林与常绿落叶阔叶混交林、落叶阔叶林、灌丛、针叶林差异显著.(2)不同土壤类型养分含量差异显著,黄棕壤中有机质、全氮含量高,分别为6.83%、0.44%,紫色土中速效磷含量高,达到54.24mg/kg.(3)随海拔升高,有机质、全氮含量呈明显增加趋势,速效磷、速效钾含量变化趋势不明显.     

南岭东西段植物群落物种组成及其树种多样性垂直格局的比较

根据沿海拔梯度设置的样地的调查资料,对南岭东段的莽山和西段的猫儿山植物群落乔木层物种多样性的垂直分布格局进行了比较研究。莽山和猫儿山的植被类型差异不大,但相同植被类型的物种组成有比较明显的差异。随海拔的上升,两山体乔木的最大树高均呈现显著下降趋势。猫儿山乔木的最大胸径、胸高断面积之和以及立木密度在海拔梯度上呈单峰曲线变化趋势。莽山乔木的最大胸径、胸高断面积之和与海拔呈明显的负相关性,而立木密度的变化规律不明显。这种单峰曲线格局或负相关关系与中尺度上的海拔高度以及小尺度上的土壤特性、小地形以及人为干扰强度等因素有关。在海拔1000m以下的常绿阔叶林群落和1700m以上的山顶矮林群落,莽山乔木的物种丰富度均明显高于猫儿山。两山体的乔木种数与海拔之间都显示出负相关性,但莽山由于高海拔群落受人为干扰的影响,这种相关性不显著。乔木层α多样性沿海拔梯度没有表现出明显的变化规律,并且在两山体之间也看不出明显的差别。本文最后还对两山脉低海拔区段的常绿阔叶林群落的物种组成和多样性进行了对比分析,结果表明人为干扰导致猫儿山常绿阔叶林的物种丰富度(S)和α多样性(H’)明显低于莽山的原生性常绿阔叶林群落,而且落叶阔叶树种和毛竹(Phyllostachys pubescens)开始入侵到群落中。     

神农架龙门河地区的植被制图及植被现状分析

依据龙门河地区所处位置的植被地理分布规律性 ,绘制了该地区 1∶50 0 0 0的植被复原图。并在野外调查、资料搜集的基础上 ,辅以全球定位系统 (GPS)、GIS软件及TM影像数据 ,绘制了该地区 1∶50 0 0 0的植被类型图。结果表明 :1 )植被海拔分布由低至高依次为常绿阔叶林 (海拔 90 0m以下 ) ,硬叶常绿阔叶林 (海拔 90 0～ 1 30 0m)、常绿落叶阔叶混交林 (海拔 1 30 0～ 1 60 0m)以及落叶阔叶林 (海拔 1 60 0～ 2 2 0 0m)。 2 )龙门河地区林地面积 441 9.2hm2 ,占该地区总面积的 93 .71 % ,共计 8个植被型 65个群系。其中常绿落叶阔叶混交林面积最大 ,为 1 674.0 9hm2 ,占林地面积的 37.88%。另外 ,果园 (3种类型 )和农田两种农业用地面积 2 2 8.1 2hm2 ,占总面积的 4 .84%。 3)由植被复原图与现状植被类型图叠加分析可知 ,干扰后增加了针叶林、针阔混交林、灌丛、草地 4种植被类型 ,占龙门河地区总面积的 34 .6 %。其中针阔混交林所占面积最大 ,996 .79hm2 。     

中国西南干旱河谷植物群落的数量分类和排序分析

中国西南干旱河谷植被是我国西南横断山区特有的植被类型, 目前关于西南干旱河谷植被还没有整体性的群落类型划分研究。根据对甘肃、四川、云南三省九条主要河流的干旱河谷段野外调查和文献来源的1,339个植物群落样方数据, 采用自适应仿射传播聚类方法, 对我国西南干旱河谷的植物群落进行数量分类, 并采用典范对应分析方法进行排序分析。结果表明: (1)调查样方的植物群落分为7个植被型(稀树草原、肉质灌丛、常绿阔叶灌丛、暖性落叶阔叶灌丛、常绿硬叶林、落叶阔叶林和暖性针叶林), 24个群系, 31个群丛类型。暖性落叶阔叶灌丛是本植被区的代表性植被类型; 分布最广的群系为鞍叶羊蹄甲灌丛(Form. Bauhinia brachycarpa, 样方比例50.9%)、黄茅灌草丛(Form. Heteropogon contortus, 样方比例11.9%)、孔颖草灌草丛(Form. Bothriochloa pertusa, 样方比例5.6%)、黄荆灌丛(Form. Vitex negundo, 样方比例4.2%)、知风草灌草丛(Form. Eragrostis ferruginea, 样方比例3.8%)、车桑子灌丛(Form. Dodonaea viscosa, 样方比例3.4%)、云南松疏林(Form. Pinus yunnanensis, 样方比例3.3%)。(2)冬季低温和降水的季节性是限制干旱河谷植物群落分布的主要气候因子。稀树草原、肉质灌丛是典型的干热河谷植被类型; 暖性落叶阔叶灌丛、常绿硬叶林、常绿阔叶灌丛是干暖河谷植被的优势类型; 暖性针叶林、落叶阔叶林则主要在干温河谷环境占优势。     

基于RS/GIS的重庆缙云山自然保护区植被及碳储量密度空间分布研究

对森林植被类型和碳储量密度空间分布的研究,可以为森林生态系统服务功能和价值的提高、充分发挥"增汇减排"的碳库经营和管理工作提供重要的基础数据。利用缙云山高分辨率影像(WorldView-2)解译植被专题图和1∶10 000地形图生成数字高程模型,结合野外样方调查、文献中植被生物量回归(经验)模型和碳含量数据资料,在ArcGIS支持下对缙云山自然保护区植被和碳储量密度空间分布进行研究。研究显示,缙云山植被以针叶林为主(30%),人为干扰程度较高的灌木林也占有相当大的比例(21%),地带性顶级植被——常绿阔叶林面积较小(6%);碳储量密度为针阔混交林(74.23 Mg/hm2)>针叶林(62.97 Mg/hm2)>常绿阔叶林(62.65 Mg/hm2)>针竹混交林(59.84 Mg/hm2)>慈竹林(48.72 Mg/hm2)>毛竹林(47.88Mg/hm2)>灌木林(10.66 Mg/hm2),平均碳储量密度高于全国和同地区的平均值,达到了50.45 Mg/hm2;在空间分布上,针叶林在中高海拔(>500 m)和斜坡(>15°)以上优势明显,灌木林则相反,针阔混交林、常绿阔叶林的优势随着海拔升高或坡度增大而增加,植被的碳储量密度也随海拔的增高或坡度增大而增势明显。结果表明缙云山积累和存贮了较多的碳,"库"的功能强;而处于演替阶段初期的针叶林及灌木林明显占优,表明其在碳的积累上还有很大的提升空间,具有"汇"的潜能。此外,在较高海拔和较大坡度上的高碳储量密度,与人类的活动频度较小和对植被干扰较轻相关。因此可以推测,随着自然演替和保护区的封育改造、退耕还林及择伐补阔等森林管理措施的进行,将利于森林植被的保护、发育和更新,促使缙云山森林生态系统的碳储量密度进一步增大,碳"汇"潜能进一步增强,生态服务功能和价值得到进一步提高。     

六盘山典型植被下土壤大孔隙特征

利用水分穿透曲线法和Poiseuille方程研究了六盘山8种典型植被类型下土壤大孔隙的半径与密度特征.结果表明:研究区典型植被下土壤大孔隙半径在0.4~2.3 mm,加权平均半径为0.57~1.21 mm,平均值为0.89 mm;大孔隙密度变化范围为57~1117个.dm-2,平均408个.dm-2;半径>1.4 mm的大孔隙密度较小,其数量仅占大孔隙总数量的6.86%;大孔隙面积与土柱水分出流面积的百分比(简称土壤大孔隙面积比)介于0.76%~31.26%,平均为10.82%.研究区土壤大孔隙密度为阔叶林大于针叶林,亚高山草甸与阔叶林相当,灌丛与针叶林相当;土壤大孔隙面积比为阔叶林高于针叶林,灌丛与阔叶林相当,亚高山草甸与针叶林相当.     

四川小寨子沟自然保护区大熊猫生境植物群落结构特征

通过沿海拔梯度的系统调查,对小寨子沟自然保护区大熊猫生境的植物群落种类组成和结构进行了初步研究。结果表明:(1)小寨子沟大熊猫生境的植被类型有2种:阔叶林和针叶林;(2)小寨子沟自然保护区内分布有青川箭竹、缺苞箭竹、华西箭竹、冷箭竹等多种箭竹,这些作为大熊猫食料的箭竹广布在各种植被类型中,尤其是针阔混交林和亚高山针叶林;(3)大熊猫对生境的群落结构有较广的适宜性,阔叶林、针阔混交林、亚高山针叶林均可作为它的适宜生境;(4)小寨子沟自然保护区内的植被类型是随海拔的升高而自然过渡的,呈现出受人类活动影响较小的自然状态。     

Vegetation classification of East China with multi-temporal NOAA-AVHRR data

East China lies in the subtropical monsoon climatic zone and is dominated by subtropical evergreen broad-leaved forests,a unique vegetation type mainly distributed in East Asia with the largest distnbution in China.It is important to be able to monitor and estimate forest biomass and production,regional carbon storage,and global climate change impacts on these important vegetation types.In this paper,we used coarse resolution remote sensing data to identify the vegetation types in East China and developed a map of the spatial distribution of vegetation types in this region.Nineteen maximum normalized difference vegetation index(NDVI)composite images(acquisition time span of 7 months from February to August),which were derived from 10 days National Oceanographic and Atmospheric Administration(NOAA)Advanced Very High Resolution Radiometer(AVHRR)channel 1 and channel 2 observations,an unsupervised classification method,and the ISODATA algorithm were employed to identify the vegetation types.To reduce the dimensions of the dataset resulted in a total of 28 spectral clusters of land-cover of which two clusters were urban/bare soil and water,the images were processed using principal component analysis(PCA).The 26 remaining spectral clusters were merged into six vegetation types using the Chinese vegetation taxonomy system:evergreen broad-leaved forest,coniferous forest,bamboo forest,shrub-grass,aquatic vegetation,and agricultural vegetation.The spatial distribution and areal extent for the coniferous forests,shrub-grass,evergreen broad-leaved forests,and agricultural vegetation were calculated and comscale.The spatial accuracy and the area accuracy for coniferous forests,shrub-grass,evergreen broad-leaved forests,and agricultural vegetation were 79.2%,91.3%,68.2% and 95.9% and 92.1%,95.9%,63.8% and 90.5%,respectively.The spatial accuracy and area accuracy of the bamboo forest were 28.7% and 96.5%,respectively;the spatial accuracy of aquatic vegetation was 69.6%,but there was a significant difference in its area accuracy because image acquisition did not cover the full year.Our study demonstrated the fea sibility of using NOAA-AVHRR to identify the different vegetation types in the subtropical evergreen broad-leaved forest zone in East China.The spatial location of the six identified vegetation types agreed with the actual geo graphical distribution of the vegetation types in East China.     

基于NOAA-AVHRR数据的中国东部地区植被遥感分类研究

该文采用 19幅 (时间跨 8个月 ) 时间序列的NOAA_AVHRR的归一化植被指数 (NDVI) 最大值合成影像遥感数据, 经过主分量分析 (Principlecomponentanalysis, PCA) 处理后, 用非监督分类方法的ISODATA算法, 对中国东部地区的 (五省一市 ) 植被进行分类, 结果可以分出 2 8种土地覆盖类型, 除了两种类型为水体和城市或裸地外, 其余 2 6种类型均为植被类型, 根据中国植被分类系统, 这 2 6类可以归并为 6大植被类型 :1) 常绿阔叶林 ;2 ) 针叶林 ;3) 竹林 ;4 ) 灌草丛 ;5 ) 水生植被 ;6 ) 农业植被。用 1∶10 0 0 0 0 0数字化《中国植被图集》的植被类型检验遥感分类结果表明, 针叶林、灌草丛、常绿阔叶林和农业植被的分类具有较高的位置精度和面积精度, 位置精度分别为 79.2 %、91.3%、6 8.2 %和 95.9%, 面积精度分别达到 92.1%、95.9%、6 3.8%和 90.5 %。这 6大植被类型在地理空间上的分布规律与中国东部常绿阔叶林区植被的地带性分布基本一致。     

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.     

Long-term protection effects of national reserve to forest vegetation in 4 decades: biodiversity change analysis of major forest types in Changbai Mountain Nature Reserve, China

The Changbai Mountain Nature Reserve (CNR) was established in 1960 to protect the virgin Korean pine mixed hardwood forest, a typical temperate forest of northeast China. We conducted systematic stud- ies of vascular diversity patterns on the north slope of the CNR mountainside forests (800-1700 m a.s.l.) in 1963 and 2006 respectively. The aim of this comparison is to assess the long-term effects of the protection on plant biodiversity of CNR during the interval 43 years. The research was carried out in three types of forests: mixed coniferous and broad-leaved forest (MCBF), mixed coniferous forest (MCF), and sub-alpine coniferous forest (SCF), characterized by different dominant species. The alpha diversity indicted by species richness and the Shannon-Wiener index were found different in the same elevations and forest types during the 43-year interval. The floral composition and the diversity of vascular species were generally similar along altitudinal gradients before and after the 43-year interval, but some substantial changes were evident with the altitude gradient. In the tree layers, the dominant species in 2006 were similar to those of 1963, though diversity declined with altitude. The indices in the three forest types did not differ significantly between 1963 and 2006, and these values even increased in the MCBF and MCF from 1963 to 2006. However, originally dominant species, P. koraiensis for ex- ample, tended to decline, while the proportion of broad-leaved trees increased, and the species turn- over in the succession layers trended to shift to higher altitudes. The diversity pattern of the under canopy fluctuated along the altitudinal gradient due to micro-environmental variations. Comparison of the alpha diversity in the three forests shows that the diversity of the shrub and herb layer decreased with time. During the process of survey, we also found some rare and medicinal species disappeared. Analysis indicates that the changes of the diversity pattern in this region are caused by both nature and human factors. Meteorological records revealed that climate has changed significantly in the past 43 years. We also found the most severe human disturbance to the CNR forests in the process of another field survey that is the exploitation of herb medicines and Korean pine nuts. We hope this research would give some guidance to the future reserve management in Changbai Mountain area.     

气候变化下西南地区植物功能型地理分布响应

以中国西南地区(云南、贵州、四川和重庆)为研究区,基于中国植被图划分植物功能型,筛选影响各植物功能型分布的主导环境因子,进而通过最大熵模型结合未来气候情景(2050年)预测西南地区植物功能型地理分布。结果表明:(1)根据植物冠层特征(针叶/阔叶、常绿/落叶)及对水分和温度的需求,结合研究区实际植被数据,筛选得到15类植物功能型,包含6类乔木、6类灌木和3类草本功能型;(2)影响西南地区热带乔木分布的主导因子为最冷月最低温度和年降水量(贡献率达90.3%),亚热带植物功能型分布主要受到温度变化影响(贡献率达41.7%),温带植物功能型则受降水因子的影响最大(贡献率约40.1%),高寒草甸草和高寒常绿阔叶灌木主要受温度和海拔因子影响,高寒落叶阔叶灌木受降水因子影响大;(3)随CO_2排放量增加,未来西南各植物功能型分布呈现不同变化,其中,热带常绿阔叶乔木适宜区逐渐扩大;亚热带落叶木本类植物功能型的高适宜区面积2050年(RCP8.5)增至10.3%,呈东移趋势;亚热带常绿木本和草本类植物功能型适宜区广(占研究区总面积86.5%),未来气候下分布呈不规则波动;温带植物功能型(除温带灌木类外)适宜区面积减小至2050年(RCP8.5)的13.6%;温带常绿针叶灌木适宜区面积增大,2050年(RCP2.6)高适宜区向西移动且面积增至当前的8.25倍;高寒类植物功能型适宜区面积则呈缩小趋势,高适宜区东移。     

Long-term protection effects of national reserve to forest vegetation in 4 decades: biodiversity change analysis of major forest types in Changbai Mountain Nature Reserve,China

The Changbai Mountain Nature Reserve (CNR) was established in 1960 to protect the virgin Korean pine mixed hardwood forest, a typical temperate forest of northeast China. We conducted systematic studies of vascular diversity patterns on the north slope of the CNR mountainside forests (800–1700 m a.s.l.) in 1963 and 2006 respectively. The aim of this comparison is to assess the long-term effects of the protection on plant biodiversity of CNR during the interval 43 years. The research was carried out in three types of forests: mixed coniferous and broad-leaved forest (MCBF), mixed coniferous forest (MCF), and sub-alpine coniferous forest (SCF), characterized by different dominant species. The alpha diversity indicted by species richness and the Shannon-Wiener index were found different in the same elevations and forest types during the 43-year interval. The floral composition and the diversity of vascular species were generally similar along altitudinal gradients before and after the 43-year interval, but some substantial changes were evident with the altitude gradient. In the tree layers, the dominant species in 2006 were similar to those of 1963, though diversity declined with altitude. The indices in the three forest types did not differ significantly between 1963 and 2006, and these values even increased in the MCBF and MCF from 1963 to 2006. However, originally dominant species, P. koraiensis for example, tended to decline, while the proportion of broad-leaved trees increased, and the species turnover in the succession layers trended to shift to higher altitudes. The diversity pattern of the under canopy fluctuated along the altitudinal gradient due to micro-environmental variations. Comparison of the alpha diversity in the three forests shows that the diversity of the shrub and herb layer decreased with time. During the process of survey, we also found some rare and medicinal species disappeared. Analysis indicates that the changes of the diversity pattern in this region are caused by both nature and human factors. Meteorological records revealed that climate has changed significantly in the past 43 years. We also found the most severe human disturbance to the CNR forests in the process of another field survey that is the exploitation of herb medicines and Korean pine nuts. We hope this research would give some guidance to the future reserve management in Changbai Mountain area.     

长白山北坡草本植物分布与环境关系的典范对应分析

在长白山北坡海拔700～2600m的坡面上,海拔每上升100m设立一块样地,共计20个样地,计测样地中草本层植物的生态重要值和包括气候、土壤、林冠郁闭度等在内的13个环境因子,对获得的数据进行典范对应分析,作出了种类、样地分布与环境因子关系的二维排序图,排序图直观地反映了主要草本植物分布与环境因子间的关系。排序图中环境因子与前两个排序轴的相关系数大小表明,海拔高度作为诸多环境因子的综合反映,是影响长白山北坡草本植物分布的主导因素,除此之外,其它环境因子如林冠郁闭度、土壤有机质及有效N、P、K等因素,也对草本植物的分布有较大的影响。高山冻原与2000m以下森林群落内的草本植物明显不同,反映出二种不同类型植被间草本植物组成格局间质的差异。