蚂蚁群落研究方法

综述了蚂蚁群落常见抽样方法和分析方法,总结了陷阱法、样方法、诱饵法、枯落物抽样法、手拣法、杀虫剂击倒法、精细抽样法及样地调查法等抽样方法的优点及不足,分析了不同抽样方法采集蚂蚁的效率,介绍了国际上通用的地表蚂蚁抽样方法ALL草案及蚂蚁功能群研究,比较了物种累积曲线、相对多度、物种丰富度和多样性指数等在蚂蚁群落分析中的运用.指出了当前蚂蚁群落研究中存在研究方法不够规范的问题,提出了运用ALL草案在全国范围内进行蚂蚁群落调查,在高度异质性的生境开展抽样方法比较研究,加强对蚂蚁群落物种累积曲线及相对多度的分析,通过它们来进行科学的物种丰富度估计的建议.     

喜马拉雅山错那段不同海拔梯度蚂蚁多样性

为了揭示喜马拉雅山不同海拔梯度蚂蚁的多样性规律,采用样地调查法研究了喜马拉雅山错那段北坡、南坡和山间谷地的蚂蚁群落.共采集蚂蚁标本7516头,隶属于2亚科、5属、7种.利用EstimateS 9.1.0程序对该地区蚂蚁物种丰富度进行估计并绘制物种累计曲线,结果表明错那段的蚂蚁物种实际观察值等于或接近该地区蚂蚁丰富度的估计值.多样性分析显示,错那段3个垂直带蚂蚁物种数目、Shannon-Wiener多样性指数和Fisherα指数顺序为北坡>山间谷地>南坡,优势度指数顺序为北坡<山间谷地<南坡,个体密度顺序为北坡>南坡>山间谷地;在各垂直带上蚂蚁群落物种数目、个体密度、多样性指数总体随海拔升高呈现垂直带中下部较高,垂直带上部较低;群落各项指标更多的表现出"多域效应"现象,降水和海拔对蚂蚁物种丰富度和多样性起决定作用,凋落物的质量和坡度有重要影响.相关性分析发现错那段蚂蚁物种多样性指数与草本盖度极相关,优势度指数与灌木盖度相关性显著;群落相似性分析表明植被类型和海拔高差对蚂蚁群落间相似性有重要作用.     

禁牧条件下不同类型草地群落结构特征

利用幂乘方法则模型探讨了鄂尔多斯3种不同类型草地在禁牧情况下的群落结构特征,包括物种组成、物种多样性、生物量和空间分布规律。结果表明:幂乘方法则在解析鄂尔多斯不同类型草地的空间异质性时具有很好的吻合性;羊草(Leymuschinensis)草地、芨芨草(Achnatherum splendens)草地和油蒿(Artemisia ordosica)灌丛草地均比随机分布呈现了较强的空间异质性,群落整体的空间异质性指数表现为油蒿灌丛草地>羊草草地>芨芨草草地;群落整体的物种多样性指数为油蒿灌丛草地>羊草草地>芨芨草草地;L-样方(50cm×50cm)内的平均物种数和物种多样性指数均表现为羊草草地极显著地高于油蒿灌丛草地,油蒿灌丛草地又极显著地高于芨芨草草地(P<0.001);L-样方内的平均生物量表现为油蒿灌丛草地极显著地高于芨芨草草地(P<0.001),而羊草草地与油蒿灌丛草地以及芨芨草草地之间没有显著性差异;这3种类型的草地其L-样方内的平均生物量和物种多样性指数都随着群落整体空间异质性指数的增大而增大。     

北京松山自然保护区森林群落物种多样性及其神经网络预测

物种多样性是群落结构和功能复杂性的一种度量,物种多样性的空间分布格局受许多环境因子的影响.运用多样性指数,多层感知器网络,分析了松山保护区森林群落物种多样性与群落类型、结构和生境之间的关系.结果表明:(1)大果榆+山杨混交林、油松+青杨混交林物种丰富度、多样性和均匀度均较高,而大果榆林、华北落叶松林的各项指数值均较低.Patrick指数和Shannon-Weiner指数在森林群落中均表现为草本层＞灌木层＞乔木层;Pielou指数在榆林中表现为草本层＞乔木层＞灌木层,而在其他森林群落中表现为灌木层＞草本层＞乔木层.(2)功能层物种多样性在海拔梯度上的变化趋势不同,在乔木层,丰富度、多样性和均匀度随海拔的升高逐渐降低;在灌木层,丰富度、多样性和均匀度均呈比较明显的单峰曲线变化趋势;在草本层,丰富度和多样性随海拔的升高都呈下降趋势,而在草本层,均匀度变化不大.(3)用多层感知器网络预测功能层多样性效果很好,结果发现坡向对乔木层和灌木层物种多样性的影响最大,而海拔高度对草本层物种多样性的影响最大.     

豫东平原蚂蚁群落结构及物种多样性

在2006年4、5月对豫东平原5种生境(人工林地、荒地、农田区、居民区和山丘)的蚂蚁进磊了广泛的调查,共获得蚂蚁62703只,隶属于5亚科,18属,43种.结果表明:5种生境中蚂蚁群落种类、组成和多样性等指标均不相同;人为干扰越强的生境,蚂蚁群落多样性指数越低;质量和异质性越高的生境,蚂蚁群落多样性指数越高.     

广西猫儿山植物群落物种组成、群落结构及树种多样性的垂直分布格局

沿海拔梯度设置16个样地,对广西猫儿山植物群落物种多样性的垂直分布格局进行了初步研究。结果表明：(1)16个样地中共调查到乔木44科79属184种,其中常绿阔叶树121种、落叶阔叶树61种、针叶树2种;(2)随着海拔的上升,整个乔木层以及不同生活型的最大树高均呈显著下降趋势,而乔木树种的最大胸径、胸高断面积之和以及立木密度都呈现出先增大后减小的趋势;(3)物种丰富度在海拔1350m以下变化不明显,但1350m以上随着海拔的升高明显下降。在研究的海拔范围内,物种丰富度呈非常显著的单峰分布格局,最大的丰富度出现在中海拔群落中;(4)α多样性沿海拔梯度的变化趋势与物种丰富度相似,但没有后者显著。Shannon-Wiener指数(H’)和海拔之间有明显的负相关性,均匀度Pielou指数(E)在取样范围内并没有随着海拔梯度的变化表现出明显的规律;(5)1350m以下的相邻群落之间的Jaccard指数(CJ)大于1350m以上相邻群落之间的Jaccard指数,最小值出现在中海拔的植被过渡带。Cody指数也有类似的趋势,原因在于物种丰富度的变化;(6)在本研究的海拔范围内,海拔比坡度和坡向对群落的结构特征、物种丰富度以及α多样性的影响更大。而在局部尺度上,人为干扰以及小地形而导致的生境异质性对群落的物种多样性和结构特征有着重要的影响。     

滇东南地区的蚂蚁物种多样性

为了全面揭示云南蚂蚁多样性规律,采用样地调查法研究了滇东南地区的蚂蚁物种多样性。结果表明:在滇东南地区5个垂直带共采获蚂蚁7亚科57属202种;各样地蚂蚁群落主要指标为:物种数目6～49种(平均24种),个体密度0.7～5 943.6头/m~2(平均560.5头/m~2),多样性指数0.1693～2.6382(平均1.6574),均匀度指数0.0771～0.8022(平均0.5468),优势度指数0.0012～0.9031(平均0.2733);蚂蚁群落间相似性系数0.0333～0.3810,处于极不相似至中等不相似水平。结论认为,滇东南地区栖息着丰富的蚂蚁种类,在生态系统功能和生物多样性保护中具有重要价值。垂直带上蚂蚁物种的丰富度和多样性主要受气温制约,具体表现为纬度和海拔对蚂蚁群落的影响。该地区蚂蚁群落主要指标普遍表现出多域效应现象,除了地形和森林结构因素外,主要受到人类干扰影响,应当结合天然林保护工程对该地区蚂蚁群落加以保护,以便充分发挥其生态功能。     

中国沙拐枣属天然群落特征及其物种多样性研究

根据野外调查资料,应用生物多样性的原理和方法计测了群落的物种丰富度指数(R0、R1)、物种多样性指数(H′、D)、均匀度指数(E)以及优势度指数(C)以分析中国沙拐枣属天然群落的群落学特征。结果表明(1)中国沙拐枣属天然群落组成成分简单,共出现种子植物91种,分属22科62属,科属组成较为分散;生活型组成中1年生植物种类多,数量大,占总数的35.16%;沙拐枣属天然群落的垂直结构明显;(2)多样性分析表明,中国沙拐枣属天然群落物种组成单一,结构简单,其中群落多样性最低分别为塔克拉玛干沙拐枣(Calligonum roborowskii)群落和沙拐枣(C.mongolicum)(若羌)群落。群落多样性最高分别为沙拐枣(C.mongolicum)(采南)群落、小沙拐枣(C.pumilum)群落和艾比湖沙拐枣(C.ebi-nuzicum)群落。不同沙拐枣属植物所形成的群落差异主要表现在物种组成以及物种多样性水平,这种差异表现主要是1年生和多年生草本植物的物种多样性。(3)丰富度指数和物种多样性指数表现出基本一致的变化趋势,而生态优势度指数则表现相反的趋势。物种的丰富度指数和多样性指数与群落的结构以及立地环境条件等有密切的关系,结构复杂的群落较其它群落的多样性指数高,但由于特殊生境所形成的单优群落物种多样性指数则较低。     

澳门青洲山翻白叶树群落特征及物种多样性研究

根据样方调查结果,对澳门青洲山翻白叶树(Pterospermum heterophyllum)群落的种类组成、外貌、结构特征与动态及物种多样性进行分析.结果表明:(1)在1 600 m2样地中,有维管束植物47种,隶属于29科44属;对乔木层和灌木层主要物种的重要值以及频度分析结果显示,该群落是以翻白叶树为主的单优种群落,群落种类组成多样性和水平分布不均匀,其外貌终年常绿;对优势种种群的年龄结构分析显示,该种群处于增长状态;(2)整个群落的物种丰富度Margalef指数为13.72,Shannon-Wiener指数为1.15,Simpson指数为0.875,均匀度指数为0.34,该群落的层次格局为:灌木层>藤本层>乔木层>草本层;(3) 与其他5个不同类型地区森林群的物种多样性比较结果显示,澳门翻白叶树群落的物种多样性明显低于其他5个森林群落.     

农业景观非农生境植物多样性及其影响因素

农业景观是人类生活所需资料的最主要来源地和生物多样性保护的重要区域之一。黄河中下游地区是我国最重要的农业区之一,在区域农业景观中,非农生境中各群落植物物种多样性组成特征有何差异?在不同尺度上,景观异质性特征与生境特征对植物物种多样性特征有何影响?在黄河中下游典型区域布点,对区内主要非农生境(次生林、次生灌丛、人工林和农田边缘等)中的植物群落物种多样性进行调查。结果显示:(1)次生灌丛中的物种丰富度和多样性显著高于其他生境,而农田边缘也保育有较多的物种;(2)从物种组成来看,景观尺度上样点间物种多样性差异(β_2)是所有生境中物种丰富度的最主要组成部分,而次生灌丛与次生林两类自然生境中小尺度(α和β1)物种丰富度的贡献相对较高。(3)景观异质性特征指标对物种多样性的影响主要体现在样方尺度上(α_(样方)),而β和γ多样性与之的关系并不甚密切。表征生境特征的群落高度和盖度指标能更好的预测物种多样性的特征。研究发现,常用的表征景观异质性的指数在各尺度上对植物群落物种多样性特征的影响也并不显著,局地群落特征的影响更为直接和重要。在探讨景观异质性特征与生物多样性关系时,常用的多样性指数(Shannon多样性指数、均匀度指数和Simpson指数等)并不合适,而拆分后的物种丰富度会更有效。但景观异质性对生物多样性的影响也不容忽视,它的改变会是影响群落物种多样性及其组成结构的重要潜在因素,在更大尺度上景观异质性会通过对景观组成要素特征(生境组成和构型)的影响进而影响到区域植物物种丰富度的变化。     

Tree diversity alters the structure of a tri‐trophic network in a biodiversity experiment

Species and processes in ecosystems are part of multi‐trophic interaction networks. Plants represent the lowest trophic level in terrestrial ecosystems, and experiments have shown a stabilizing effect of plant diversity on higher trophic levels. Such evidence has been mainly collected in experimental grasslands. Forests are structurally more complex than grasslands and support the majority of the global biodiversity, but studies on multi‐trophic interaction networks are missing in experimental tree diversity gradients. In a forest diversity experiment in southeast China, we examined how tree diversity affects the structure of trophobiotic networks. Trophobioses are tri‐trophic interactions between plants, sap‐sucking Hemiptera and honeydew‐collecting ants that can be subdivided into a largely mutualistic Hemiptera–ant and an antagonistic plant–Hemiptera network. We inspected almost 7000 trees in 146 plots ranging from monocultures to 16 tree species mixtures and found 194 trophobioses consisting of 15 tree, 33 Hemiptera and 18 ant species. We found that tree diversity increased the proportion of trees harboring trophobioses. Consistent with the prediction that mutualistic and antagonistic networks respond differently to changing environments, we found that the generality index of the mutualistic Hemiptera–ant but not the antagonistic plant–Hemiptera network increased with tree diversity. High generality, maintained by high tree diversity, might correspond to higher functional stability. Hence, our results indicate that tree diversity could increase via bottom–up processes the robustness of ant–Hemiptera associations against changing environmental conditions. In turn, the plant–Hemiptera network was highly complementary, suggesting that host‐specific Hemiptera species may be vulnerable to co‐extinction if their host plants disappear. Based on our results, we provide possible future research directions to further disentangle the bottom–up effect of tree diversity on the structure of trophobiotic networks. Synthesis It is now widely accepted that plant diversity promotes ecosystem functionality and stability. However, it is still largely unknown how plant diversity affects interactions between trophic levels and if different interaction types are affected differently. Using a tri‐trophic study system consisting of plants, sap‐sucking Hemiptera, and ants we provide evidence that increasing local plant diversity stabilizes the mutualistic Hemiptera–ant but not the antagonistic plant–Hemiptera networks. Our results suggest that bottom–up effects of plant diversity on trophic interactions might generally depend on the type of interaction (mutualistic versus antagonistic) considered.     

停止人为去除植物功能群后的高寒草甸多样性恢复过程与群落构建

已有大量研究利用功能性状或系统发育来推断群落构建机制, 然而不同过程可能会导致相似的格局。本文基于对甘南高寒草甸植物功能群去除处理后群落恢复过程的跟踪调查, 对比了物种多样性、功能多样性和系统发育多样性的动态变化, 并分析了物种定殖与消失过程对功能多样性和系统发育多样性变化的影响。结果表明: 去除不同数量功能群的群落中: (1)包括物种丰富度(SR)、Shannon-Wiener指数(H°)和Simpson指数(D)在内的传统物种多样性均随时间快速上升并与自然群落趋同, 不同群落的均匀度指数(J)随时间呈增加趋势并趋于相似; 功能多样性(FD)与系统发育多样性(PD)呈现出与物种多样性相似的动态变化趋势, 而平均配对距离(MPD/MPD_a、MFD/MFD_a)则向中等程度聚集。(2)不同群落的功能群和物种组成在短期内均恢复到与自然群落非常相似的程度。(3)物种定殖与消失过程的功能格局是群落恢复过程中趋同效应的主要驱动力。本研究揭示了高寒草甸植物功能群去除停止后群落短期内快速恢复的过程, 说明在小尺度且周边具有大范围未退化草甸的情况下, 无论物种多样性、功能多样性还是系统发育多样性都具有较快的恢复能力, 同时说明了利用群落系统发育多样性格局来推断群落构建机制的局限性。     

Bottom-up effects of host-plant species diversity and top-down effects of ants interactively increase plant performance

While plant diversity is well known to increase primary productivity, whether these bottom-up effects are enhanced by reciprocal top-down effects from the third trophic level is unknown. We studied whether pine tree species diversity, aphid-tending ants and their interaction determined plant performance and arthropod community structure. Plant diversity had a positive effect on aphids, but only in the presence of mutualistic ants, leading to a threefold greater number of both groups in the tri-specific cultures than in monocultures. Plant diversity increased ant abundance not only by increasing aphid number, but also by increasing ant recruitment per aphid. The positive effect of diversity on ants in turn cascaded down to increase plant performance; diversity increased plant growth (but not biomass), and this effect was stronger in the presence of ants. Consequently, bottom-up effects of diversity within the same genus and guild of plants, and top-down effects from the third trophic level (predatory ants), interactively increased plant performance.     

Tree diversity promotes predator but not omnivore ants in a subtropical Chinese forest

1. Epigeic ants are functionally important arthropods in tropical and subtropical forests, particularly by acting as predators. High predation pressure has been hypothesised to be a mechanism facilitating high diversity across trophic levels. 2. In this study, standardised pitfall traps were used in a highly diverse subtropical forest to test if and how ant species richness is related to tree species richness and a comprehensive set of other environmental variables such as successional age, soil properties or elevation. 3. A total of 13 441 ant individuals belonging to 3839 species occurrences and 71 species were collected, of which 26 species were exclusive predators and 45 species were omnivores. 4. Occurrence and species richness of total and omnivore ants were positively related to soil pH. Predator ant occurrence was unrelated to all environmental variables tested. 5. The species richness of predator ants increased with tree species richness but decreased with leaf functional diversity and shrub cover. Elevation negatively influenced only total ant species richness. 6. The evenness of predators increased with tree species richness, while the evenness of all ants decreased with shrub cover. Omnivore ant evenness decreased with tree evenness, but increased with successional age. 7. The results highlight the value of diverse forests in maintaining species richness and community evenness of a functionally important predator group. Moreover, the results stress the importance of analysing trophic groups separately when investigating biodiversity effects.     

地形异质性对云南普洱季风常绿阔叶林物种多样性的影响

地形异质性通过调控树木生长所需的养分、水分和光照等而成为亚热带森林结构与物种组成的重要驱动因子。但是, 地形异质性对季风常绿阔叶林物种多样性及其分布影响的研究还相对较少。该文基于云南普洱30 hm²森林动态监测样地(大样地) 750个20 m × 20 m的样方调查数据, 以海拔、坡度、凹凸度和坡向4个地形因子为变量, 采用C均值模糊聚类分析大样地的地形类型, 进而分析不同地形条件下的群落物种组成及群落物种多样性; 采用Torus转换检验法, 探讨物种与地形关联性, 为季风常绿阔叶林生物多样性保护提供科学依据。研究结果表明, 大样地可分为山脊、陡坡、缓坡、高谷和沟谷等5类地形, 地形面积分别是8.00、6.04、7.68、2.76和5.52 hm²。大样地中胸径(DBH) ≥ 1 cm的木本植物个体153 418株, 分属79科179属271种。5类地形中, 物种丰富度、不同径级的植株密度和比例明显不同, 多样性及优势物种多度分布具有较大差异。种-面积曲线表明, 同等面积条件下, 随着取样面积增加, 山脊的物种丰富度始终最小, 高谷次之, 沟谷的物种丰富度始终最大。种-个体数累积曲线表明, 随着个体数增加, 山脊物种丰富度的累积速率最小, 种丰富度增加缓慢, 高谷次之。在被检验的123个物种中, 与地形相关的物种有83个, 高达67.5%的物种与至少一类地形存在显著相关关系。山脊和缓坡中与地形具有显著负相关关系的物种数超过显著正相关的物种数; 而与陡坡、高谷和沟谷显著正相关的物种数高于显著负相关的物种数。普洱大样地地形异质性对物种多样性维持的贡献率为7.8%。     

西双版纳不同地点和生境鼠类及蚂蚁的多样性比较

于2004年4月至2005年5月在西双版纳的3个不同地点(勐仑植物园、新山和补蚌)选择荒地、野芭蕉林和森林3种不同植被类型的生境,对2个重要的雨林种子传播类群--鼠类和蚂蚁的多样性进行了研究.采用铗日法捕获9种鼠共97只,采用陷阱法捕获104种蚂蚁共2 600头.结果表明,蚂蚁聚集生活在干燥的荒地生境中,而鼠类则集中生活在食物资源丰富的野芭蕉林生境中.不同地点鼠的种类和数量无显著差异(P＞0.05),但不同地点蚂蚁的种类和数量差异显著(P＜0.05);不同生境鼠和蚂蚁的种类和数量均差异显著(P＜0.05).地点和生境对2个类群分布有不同的影响,这种影响也通过它们对种子散布的不同作用,最终影响地区内植被的更新和循环.     

Ant communities,environmental characteristics and their implications for conservation in the Brazilian Pantanal

Studies about processes determining biodiversity in Pantanal are urgently needed and the use of invertebrates for this purpose may be an efficient tool. The purpose of this paper is to verify whether ants could be used to predict human impacts on Pantanal, assessing how environmental characteristics of gallery forest influence arboreal ant species richness. Specifically, we tested the hypotheses that: (i) resource availability (estimated by tree density) and (ii) diversity of environmental conditions (estimated by structural heterogeneity) positively influence arboreal ant species richness and composition. Ants were sampled in a gallery forest in the Miranda River. Ant species richness did not respond to tree density, but increased with structural heterogeneity. Species composition was affected both by tree density and structural heterogeneity. The species list produced in the present study showed a high similarity between arboreal ant faunas of Cerrado and Pantanal, which are contiguous biomes. The relationship of ant species richness with heterogeneity, as well as the observed changes of species composition with tree density and heterogeneity may be explained by the presence of a variation of environmental conditions, which create several micro-habitats in the forest. The response of the ant community can reflect human impacts on the forests of the studied region, which are usually modified to create patches for sport fishing and by pathways used in ecotourism.     

Trophically unique species are vulnerable to cascading extinction

Understanding which species might become extinct and the consequences of such loss is critical. One consequence is a cascade of further, secondary extinctions. While a significant amount is known about the types of communities and species that suffer secondary extinctions, little is known about the consequences of secondary extinctions for biodiversity. Here we examine the effect of these secondary extinctions on trophic diversity, the range of trophic roles played by the species in a community. Our analyses of natural and model food webs show that secondary extinctions cause loss of trophic diversity greater than that expected from chance, a result that is robust to variation in food web structure, distribution of interactions strengths, functional response, and adaptive foraging. Greater than expected loss of trophic diversity occurs because more trophically unique species are more vulnerable to secondary extinction. This is not a straightforward consequence of these species having few links with others but is a complex function of how direct and indirect interactions affect species persistence. A positive correlation between a species' extinction probability and the importance of its loss defines high-risk species and should make their conservation a priority.     

Food‐web structure varies along environmental gradients in a high‐latitude marine ecosystem

Large‐scale patterns in species diversity and community composition are associated with environmental gradients, but the implications of these patterns for food‐web structure are still unclear. Here, we investigated how spatial patterns in food‐web structure are associated with environmental gradients in the Barents Sea, a highly productive shelf sea of the Arctic Ocean. We compared food webs from 25 subregions in the Barents Sea and examined spatial correlations among food‐web metrics, and between metrics and spatial variability in seawater temperature, bottom depth and number of days with ice cover. Several food‐web metrics were positively associated with seawater temperature: connectance, level of omnivory, clustering, cannibalism, and high variability in generalism, while other food‐web metrics such as modularity and vulnerability were positively associated with sea ice and negatively with temperature. Food‐web metrics positively associated with habitat heterogeneity were: number of species, link density, omnivory, path length, and trophic level. This finding suggests that habitat heterogeneity promotes food‐web complexity in terms of number of species and link density. Our analyses reveal that spatial variation in food‐web structure along the environmental gradients is partly related to species turnover. However, the higher interaction turnover compared to species turnover along these gradients indicates a consistent modification of food‐web structure, implying that interacting species may co‐vary in space. In conclusion, our study shows how environmental heterogeneity, via environmental filtering, influences not only turnover in species composition, but also the structure of food webs over large spatial scales.     

武夷山大安源甜槠常绿阔叶林群落物种组成及多样性分析

采用相邻格子样方法对武夷山大安源甜槠〔Castanopsis eyrei(Champ.ex Benth.)Tutch.〕常绿阔叶林群落的物种组成及物种多样性进行了研究,并分析了群落的种-面积曲线以及样方面积与物种多样性的关系。结果表明:在面积4 800 m2的样方中共记录维管植物31科57属97种,其中乔木78种、灌木8种、草本植物5种、藤本植物6种;乔木主要为常绿树种,落叶树种仅10种;优势科为壳斗科(Fagaceae)、杜鹃花科(Ericaceae)、杜英科(Elaeocarpaceae)和山茶科(Theaceae)等,优势属为栲属〔Castanopsis(D.Don)Spach〕、杜鹃属(Rhododendron Linn.)和杜英属(Elaeocarpus Linn.);优势树种为甜槠、马银花〔Rhododendron ovatum(Lindl.)Planch.〕、鹿角杜鹃(R.latoucheae Franch.)和薯豆(Elaeocarpus japonicus Sieb.et Zucc.)等,其中甜槠的相对胸高断面积达64.93%,重要值也最高(25.70%),在群落中具有明显的优势地位。群落中胸径小于5 cm的乔木个体数量占76.88%,径级越高个体数量越少。南坡样方的Simpson指数和Shannon-Wiener指数均高于北坡,显示该群落南坡的物种多样性高于北坡。该群落的种-面积曲线拟合方程为y=21.836ln(x)-87.287(R2=0.990 2),且随样方面积的增加,物种数量、Shannon-Wiener指数和Pielou指数呈增加且趋于稳定的趋势,总体上调查样方面积应设置在2 000 m2以上。综合分析结果说明:武夷山大安源甜槠常绿阔叶林的物种组成较丰富、物种多样性水平较高;光照条件是导致该群落南坡多样性大于北坡的主要环境因素。