中国黑戈壁地区植物物种丰富度格局的水热解释

我国黑戈壁地区自然环境恶劣,植物多样性格局受到极端干旱气候的影响而形成了特殊的分布格局。为了揭示黑戈壁地区极端气候对物种丰富度格局的影响,通过对5000 km样线内174个样方中的植物进行调查,结合气候数据,研究影响中国黑戈壁地区植物物种丰富度格局的气候因素以及不同生活型植物物种丰富度格局与气候关系的差异。结果表明,水热动态假说对物种丰富度格局的解释率为62.3%,未解释部分为37.7%,说明其能够很好的解释黑戈壁地区的植物群落物种丰富度格局;能量对物种丰富格局的单独解释率仅为3.5%,水分的单独解释率为16.4%,两者共同解释率为42.4%,水分和能量共同决定的水资源可利用性主导着物种丰富度格局;不同生活型植物对气候因子的响应存在显著差异,水热综合作用对草本植物丰富度格局的解释率为65.4%,但对灌木仅有37.9%,表明水热动态假说不适用于解释灌木植物的物种丰富度格局,植物对气候的适应特性及种间相互作用对物种丰富度格局有着重要的影响。     

科尔沁沙地植物物种丰富度格局及其与环境的关系

能量、水分和生境异质性是物种丰富度分布格局的重要因素。本文以特殊环境科尔沁沙地为对象,通过植物区域物种丰富度数据和对应气候数据统计,结合生境异质性分析,对科尔沁沙地物种丰富度格局及其主导因素进行研究。结果显示:(1)科尔沁沙地植物共计有115科1030种,呈现显著的空间异质分布,随着经度的增加物种丰富度呈先下降后上升的趋势,而受纬度影响较小。(2)水热动态假说最适合用于解释科尔沁沙地植物物种丰富度格局。说明水资源可利用性是科尔沁沙地植物物种丰富度的主要影响因素。     

柴达木盆地水生植物多样性格局及多假说验证

物种多样性格局同时受到多个因子和过程的综合作用。以往对水生植物多样性格局形成机制的研究主要集中在几何限制、水分能量状况或随机过程等少数因子方面。该研究通过野外调查, 研究柴达木盆地水生植物沿经度和纬度梯度的分布格局, 并验证了对物种多样性分布格局影响较大的水分-能量假说、栖息地异质性假说、空间自相关、物种-面积效应和中域效应这5种假说。主要结果表明柴达木盆地水生植物多样性沿经度和纬度梯度均呈现“∩”形单峰格局。回归分析显示中域效应和物种-面积效应显著影响柴达木盆地水生植物多样性格局, 而水分-能量、栖息地异质性假说及空间自相关对该区域水生植物多样性格局影响较小。方差分解显示中域效应对柴达木盆地水生植物多样性经度和纬度格局的单独解释率分别为68.41%和66.91%, 该结果表明柴达木盆地水生植物多样性格局主要受几何限制和扩散限制影响。结合以往研究结果, 该研究进一步证实几何限制和随机效应可能是影响中国干旱区水生植物多样性分布格局的重要自然因素。     

中国典型森林生态系统乔木层群落物种多样性的空间分布格局及其影响因素

物种多样性地理分布格局及其成因是生物地理学和宏观生态学研究的核心问题之一,基于中国13个典型森林生态系统乔木层群落植物的调查数据,分析物种多样性随经纬度的变化规律,探讨物种多样性空间分布格局的影响因素。结果表明:(1) 13个典型森林生态系统的4个物种多样性指数均随经纬度上升而下降,其中物种丰富度变化更为显著,而Shannon-Wiener指数、Simpson指数和Pielou指数随经度上升变化不显著;(2)相关性分析结果显示,物种多样性指数与植物特性、能量和水分因子的单因素相关关系并不一致。其中,物种丰富度、Shannon-Wiener指数和Simpson指数与年均温、最冷月均温、温度年较差和潜在蒸散量的相关性最显著(P0.01),Pielou指数与年均温、最冷月均温、实际蒸散量、潜在蒸散量和郁闭度有显著相关关系(P0.05);(3)方差分解结果表明,能量和水分的共同作用对物种多样性指数空间分布格局的解释率最高,达到15%—42%;植物特性、能量和水分因子三者共同作用对物种多样性指数空间分布格局解释率次之,为14%—27%;植物特性与能量因子或水分因子两者之间的共同作用以及植物特性和水分因子独立作用对物种多样性指数空间分布格局的解释率较小,其中能量因子对物种多样性指数空间分布格局的单独解释率高于植物特性或水分因子。研究表明能量和水分共同作用是影响大尺度森林乔木层物种多样性空间分布格局形成的主要因素,但植物特性的差异对物种多样性空间分布格局影响也不可忽视。     

中国西北荒漠区植物物种丰富度分布格局及其环境解释

土地荒漠化是中国西北地区的主要生态问题之一,荒漠生态系统极易受到气候与土地利用类型变化的影响。然而受恶劣的自然环境与交通条件影响,目前我国西北荒漠区植物多样性格局及其维持机理的系统研究还很缺乏。本文通过对中国西北荒漠区195个植物群落样方进行调查,并结合气候与空间变量数据,探讨了西北荒漠区植物物种丰富度的分布格局及其主导因素。研究结果表明:(1)本次调查共记录植物363种,分属38科153属,植物物种丰富度存在显著的经纬度分布格局,随着经度或纬度的升高呈现出先下降后增加的变化趋势;(2)水分、能量及空间变量均对植物物种丰富度有着显著的独立作用;(3)水分、能量与空间变量解释了植物物种丰富度65.36%的变异,三者的共同解释率高达48.08%,且水分与能量一起解释的变异更多。以上结果表明,西北荒漠区的植物物种丰富度格局由生态位分化与中性过程以及其他未知因素共同控制,其中生态位分化的贡献可能更大。而研究中未考虑的土壤、地形、人为干扰等因素也很可能对西北荒漠区植物物种丰富度存在非常重要的影响。     

新疆开都河流域水生植物多样性及其影响因素

河流是一个连续的、流动的、独特而完整的系统,研究河流生态系统中水生植物的多样性分布格局及其影响因素对河流生态学研究具有重要意义。本文通过野外调查,研究了新疆开都河流域水生植物多样性、主要水生植物群落特征及与环境因子之间的关系,并利用水分-能量动态假说和栖息地异质性假说对该流域水生植物物种多样性的地理格局进行解释。结果表明: 开都河流域共有水生植物71种,隶属于24科39属;聚类分析可将开都河流域水生植物群落划分为10个主要群落类型,其中芦苇群落物种丰富度最高,狭叶香蒲群落和金鱼藻群落物种丰富度最低;流域水生植物群落Shannon指数与pH呈显著负相关,Simpson指数与pH、经度呈显著负相关,与海拔呈显著正相关;流域水生植物群落类型主要受海拔、水深及水温的影响;流域水生植物物种多样性随经纬度无明显变化规律。水分-能量动态假说和栖息地异质性假说共解释开都河流域水生植物多样性格局变量的31.4%,表明这两个假说对于该流域水生植物多样性格局的解释力并不高。     

长江三峡库区物种多样性的垂直分布格局:气候、几何限制、面积及地形异质性的影响

为了验证生物多样性地理格局的几个重要假说,即种-面积关系、水分-能量动态假说、几何限制(中域效应)假说和生境异质性假说,作者以长江三峡库区维管植物物种丰富度沿海拔梯度的分布格局为例,采用多元回归和方差分解方法,研究了面积、气候、几何限制、地形异质性对多样性垂直格局的独立影响和协同作用,及其对各植物类群(不同分布宽度、不同分布区类型和不同生长型)影响的差异.结果表明,三峡库区各种植物类群的物种丰富度随着海拔上升均呈先升后降的单峰格局.水分-能量动态假说对多样性格局有很强的解释能力,其总的解释力(＞93％)明显高于其他所有解释机制.但对于很多植物类群而言,水分和能量的解释力中有很大一部分属于几何限制、面积及地形异质性等因素的协同作用.几何限制对分布宽度大的物种的多样性格局解释力很强,但对分布宽度小的物种作用很小;面积自身对物种丰富度解释力较强,但在考虑了其他环境因素的影响时,仅对少数植物类群有解释力;地形异质性自身对多样性的解释能力很弱,但在多元回归模型中起着必要的作用.综合来看,水分-能量动态是解释三峡库区植物多样性垂直格局的最重要的机制.几何限制的作用随着物种分布宽度减小而递减;地形异质性虽然对多样性垂直格局的影响较弱,但也是一种必要的补充解释机制;由于面积与气候、几何限制等因素存在强烈的共线性,面积对植物多样性垂直格局的相对作用大小还需要进一步的系统比较研究.     

贺兰山甲虫物种丰富度分布格局及其环境解释

理解山地物种丰富度分布格局及其成因对于山地生物多样性保护具有重要意义。本文基于贺兰山地区甲虫31科252属469种的分布信息, 结合相关气候与生境异质性数据, 系统地探讨了贺兰山地区甲虫及6个优势科物种丰富度地理格局及其影响因素。结果表明, 甲虫物种丰富度及科属区系分化强度以贺兰山中段最高, 南段比北段高, 西坡比东坡高。基于183个栅格内物种分布的二元数据聚类分析, 贺兰山甲虫分布可分为北段强旱生景观甲虫地理群、中西段半湿生景观甲虫地理群、中东段及南段半旱生景观甲虫地理群3个地理群。冗余分析(RDA)表明年均温和年均降水量是影响最显著的因子。方差分解结果显示, 水分与能量因子共同解释了全部甲虫物种丰富度57.1%的空间变异, 单独解释率分别为5.9%和7.1%。生境异质性解释了全部甲虫物种丰富度35.2%的变异, 单独解释率仅为1.8%。气候因素与生境异质性对不同优势科物种丰富度的相对影响并不一致。在贺兰山的南段和北段, 生境异质性和水分因子对甲虫物种丰富度影响作用明显。水分和能量因子是贺兰山地区甲虫物种丰富度空间分布格局的主导因子, 生境异质性有助于提高甲虫物种丰富度。从未解释的比例来分析, 地形和土壤因素可能对贺兰山甲虫物种丰富度存在重要影响。     

白水江自然保护区两栖、爬行动物物种丰富度的海拔梯度格局的解释:水分能量动态假设和生境异质性假设

采用线性回归模型和方差分离方法,利用水分能量动态假设和栖息地异质性假设解释了白水江自然保护区两栖、爬行动物物种丰富度的海拔分布格局。水分能量动态假设对白水江自然保护区两栖爬行动物物种丰富度的海拔分布格局的解释力较强,同时,水分能量动态假设和栖息地异质性假设之间存在着较强的共线性。年均降水量(PAN)进入了两栖动物物种丰富度海拔分布格局的最优线性回归模型,未进入爬行动物物种丰富度海拔分布格局的最优线性回归模型,但潜在蒸散量(PET)及其二次方(PET2)全部进入了爬行动物的最优线性回归模型,说明水分对两栖动物的重要性和温度对爬行动物的重要性。方差分离结果表明,栖息地异质性假设对两栖、爬行动物物种丰富度海拔分布格局的独立解释力较低,而水分能量动态假设的独立解释力较高。对于广域种,可能受到边界限制的影响,水分能量动态假设和栖息地异质性的解释力并不高。     

秦岭两栖、爬行动物物种多样性海拔分布格局及其解释

物种多样性和种域宽度沿环境梯度的分布格局及其成因机制一直是生物地理学和生态学讨论的重要议题。本研究采用多元回归模型和方差分离的方法判断面积、水分和能量、边界限制对秦岭两栖、爬行动物及其不同区系成分的物种丰富度海拔梯度分布格局的影响。结果表明, 秦岭两栖爬行动物及其不同区系成分的物种丰富度均呈单峰分布格局, 但峰值分布的海拔段有所差异。形成这种格局是各种因素相互作用的结果, 3种假设的独立解释力较低。水分能量动态假设对两栖、爬行动物物种的丰富度格局有很强的解释能力, 但水分和能量的解释力中有很大一部分属于边界限制、面积的协同作用, 在解释两栖动物的海拔分布格局时, 边界限制与水分和能量之间存在较强的共线性, 而在解释爬行动物的海拔分布格局时, 面积与水分和能量之间存在较强的共线性。同时, 本研究采用Stevens法和逐种法对Rapoport法则进行了验证。结果表明, 爬行动物物种种域的海拔梯度格局基本上支持Rapoport法则, 两栖动物很难判断是否支持Rapoport法则。     

草原区区域气候变化对物种多样性的影响

 人口增长以及人类活动对环境产生的深刻影响,导致除自然规律产生的变化以外的全球或区域的气候变化,这些变化又从不同尺度影响生物多样性。本文就内蒙古草原区40年间气候变化对植物种的多样性影响作了初步探讨,结果如下：1)从1950年到1990年的40年间,草原区的气候变化造成湿润度等值线的摆动,而且向东摆动的幅度和频率都大,其中以0.3线的摆动最为明显。2)0.3线的核心区不同样方向个体数和生物量向相邻区的相对变化率(0.42,0.56)与波动方差都很显著,物种多样性指数有增大的趋势。3)湿润度等值线所处的位置正好是两个相邻湿润度区的交错区,在正常情况下,交错区植被数量特征的变化应比核心区敏感,本文所出现的异常情况,正是由于区域气候变化影响的结果。     

Unimodal Latitudinal Pattern of Land-Snail Species Richness across Northern Eurasian Lowlands

Large-scale patterns of species richness and their causes are still poorly understood for most terrestrial invertebrates, although invertebrates can add important insights into the mechanisms that generate regional and global biodiversity patterns. Here we explore the general plausibility of the climate-based “water-energy dynamics” hypothesis using the latitudinal pattern of land-snail species richness across extensive topographically homogeneous lowlands of northern Eurasia. We established a 1480-km long latitudinal transect across the Western Siberian Plain (Russia) from the Russia-Kazakhstan border (54.5°N) to the Arctic Ocean (67.5°N), crossing eight latitudinal vegetation zones: steppe, forest-steppe, subtaiga, southern, middle and northern taiga, forest-tundra, and tundra. We sampled snails in forests and open habitats each half-degree of latitude and used generalized linear models to relate snail species richness to climatic variables and soil calcium content measured in situ. Contrary to the classical prediction of latitudinal biodiversity decrease, we found a striking unimodal pattern of snail species richness peaking in the subtaiga and southern-taiga zones between 57 and 59°N. The main south-to-north interchange of the two principal diversity constraints, i.e. drought stress vs. cold stress, explained most of the variance in the latitudinal diversity pattern. Water balance, calculated as annual precipitation minus potential evapotranspiration, was a single variable that could explain 81.7% of the variance in species richness. Our data suggest that the “water-energy dynamics” hypothesis can apply not only at the global scale but also at subcontinental scales of higher latitudes, as water availability was found to be the primary limiting factor also in this extratropical region with summer-warm and dry climate. A narrow zone with a sharp south-to-north switch in the two main diversity constraints seems to constitute the dominant and general pattern of terrestrial diversity across a large part of northern Eurasia, resulting in a subcontinental diversity hotspot of various taxa in this zone.     

Species Richness Patterns and Water-Energy Dynamics in the Drylands of Northwest China

Dryland ecosystems are highly vulnerable to climatic and land-use changes, while the mechanisms underlying patterns of dryland species richness are still elusive. With distributions of 3637 native vascular plants, 154 mammals, and 425 birds in Xinjiang, China, we tested the water-energy dynamics hypothesis for species richness patterns in Central Asian drylands. Our results supported the water-energy dynamics hypothesis. We found that species richness of all three groups was a hump-shaped function of energy availability, but a linear function of water availability. We further found that water availability had stronger effects on plant richness, but weaker effects on vertebrate richness than energy availability. We conducted piecewise linear regressions to detect the breakpoints in the relationship between species richness and potential evapotranspiration which divided Xinjiang into low and high energy regions. The concordance between mammal and plant richness was stronger in high than in low energy regions, which was opposite to that between birds and plants. Plant richness had stronger effects than climate on mammal richness regardless of energy levels, but on bird richness only in high energy regions. The changes in the concordance between vertebrate and plant richness along the climatic gradient suggest that cautions are needed when using concordance between taxa in conservation planning.     

Plant species richness of nature reserves: the interplay of area, climate and habitat in a central European landscape

Aim To detect regional patterns of plant species richness in temperate nature reserves and determine the unbiased effects of environmental variables by mutual correlation with operating factors. Location The Czech Republic. Methods Plant species richness in 302 nature reserves was studied by using 14 explanatory variables reflecting the reserve area, altitude, climate, habitat diversity and prevailing vegetation type. Backward elimination of explanatory variables was used to analyse the data, taking into account their interactive nature, until the model contained only significant terms. Results A minimal adequate model with reserve area, mean altitude, prevailing vegetation type and habitat diversity (expressed as the number of major habitat types in the reserve) accounted for 53.9% of the variance in species number. After removing the area effect, habitat diversity explained 15.6% of variance, while prevailing vegetation type explained 29.6%. After removing the effect of both area and vegetation type, the resulting model explained 10.3% of the variance, indicating that species richness further increased with habitat diversity, and most obviously towards warm districts. After removing the effects of area, habitat diversity and climatic district, the model still explained 9.4% of the variance, and showed that species richness (i) significantly decreased with increasing mean altitude and annual precipitation, and with decreasing January temperature in the region of the mountain flora, and (ii) increased with altitudinal range in regions of temperate and thermophilous flora. Main conclusions We described, in quantitative terms, the effects of the main factors that might be considered to be determining plant species richness in temperate nature reserves, and evaluated their relative importance. The direct habitat effect on species richness was roughly equal to the direct area effect, but the total direct and indirect effects of area slightly exceeded that of habitat. It was shown that the overall effect of composite variables such as altitude or climatic district can be separated into particular climatic variables, which influence the richness of flora in a context‐specific manner. The statistical explanation of richness variation at the level of families yielded similar results to that for species, indicating that the system of nature conservation provides similar degrees of protection at different taxonomic levels.     

Functional dominance rather than taxonomic diversity and functional diversity mainly affects community aboveground biomass in the Inner Mongolia grassland

The relationship between biodiversity and productivity has been a hot topic in ecology. However, the relative importance of taxonomic diversity and functional characteristics (including functional dominance and functional diversity) in maintaining community productivity and the underlying mechanisms (including selection and complementarity effects) of the relationship between diversity and community productivity have been widely controversial. In this study, 194 sites were surveyed in five grassland types along a precipitation gradient in the Inner Mongolia grassland of China. The relationships between taxonomic diversity (species richness and the Shannon–Weaver index), functional dominance (the community‐weighted mean of four plant traits), functional diversity (Rao's quadratic entropy), and community aboveground biomass were analyzed. The results showed that (1) taxonomic diversity, functional dominance, functional diversity, and community aboveground biomass all increased from low to high precipitation grassland types; (2) there were significant positive linear relationships between taxonomic diversity, functional dominance, functional diversity, and community aboveground biomass; (3) the effect of functional characteristics on community aboveground biomass is greater than that of taxonomic diversity; and (4) community aboveground biomass depends on the community‐weighted mean plant height, which explained 57.1% of the variation in the community aboveground biomass. Our results suggested that functional dominance rather than taxonomic diversity and functional diversity mainly determines community productivity and that the selection effect plays a dominant role in maintaining the relationship between biodiversity and community productivity in the Inner Mongolia grassland.