乌鲁木齐达坂城山区地衣生态位特征的研究

为揭示达坂城山区地衣对生境资源的利用状况及竞争程度,该研究在野外设置30个样方并调查其物种盖度数据,利用生态位宽度、生态位重叠指数及排序分析,探讨达坂城山区地衣的生态位特征及环境影响因子。结果表明:(1)达坂城山区生态位最宽的为丽黄鳞衣(Rusavskia elegans)和内卷野粮衣(Circinaria contorta),对不同环境具有较强的适应性,其他地衣物种生态位宽度较窄,对环境资源利用程度低。(2)物种间生态位重叠值整体偏低,生态位重叠值较高的物种对极少,地衣物种生态位分化程度高,物种间竞争不激烈。(3)生态位较宽的物种与多数物种之间都存在生态位重叠,但重叠值较低; 一些生态位较窄的物种与其他物种之间的生态位重叠值较高; 生态位重叠和生态位宽度之间并无直接的线性关系。(4)地衣物种沿海拔梯度分布具有差异,海拔、光照强度、湿度、风速和人为干扰是本地区地衣群落物种生态位特征差异的主导环境因子。综上所述,达坂城山区地衣物种由于生境资源的竞争占据各自独特的生态位,形成了生态位的分化,群落较为稳定,沿海拔梯度的生境条件差异是物种差异分布的重要原因。该研究可为地衣群落构建研究提供理论依据,并对该地区地衣物种的多样性和生境保护具有重要意义。     

米槁群落主要物种资源利用特征分析

开展米槁群落物种生态位研究,可了解米槁群落物种对资源的利用特征,为米槁的保护与管理提供科学依据。基于贵州省米槁天然林群落的实际调查数据,通过生态位宽度、生态位重叠指数,分析该群落主要物种的资源利用特征。群落中米槁(Cinnamomum migao)、杜茎山(Maesa japonica)、菝葜(Smilax china)的生态位宽度最大,在群落中处于明显优势地位,具有较强竞争力和资源利用能力;生态位宽度越大的物种间生态位重叠越大,但在相同或相似环境条件下,生态位宽度值小的种对也会拥有较高的生态位重叠;米槁群落主要物种间的生态位重叠指数偏低,说明物种间对资源利用的相似性较低,物种的生态位分化明显,竞争不激烈,群落结构较为稳定,物种间能够较好地相互共存。     

陕北典型退耕还林区林下草本物种生态位研究

基于样方法进行不同资源位的群落调查,并用群落物种多样性、生态位宽度、生态位重叠和生态位相似性比例分析了安塞县典型退耕区16种不同退耕模式及年限群落林下草本物种生态位特征。结果表明:乔木林下草本群落物种多样性高于灌木林。生态位宽度以达乌里胡枝子和阿尔泰狗娃花最大,它们的Shannon-Wiener(Bs-w,i)和Levins(Bl,i)指数分别为0.89、0.83和0.64、0.58。生态位宽度较大的种间生态位重叠程度大,如阿尔泰狗娃花、铁杆蒿、长芒草等。生态位宽度与生态位相似比例值并不一致。生态位相似性比例小于0.5的种对有174对,约占种群总对数的91.6%,说明种群对环境需求有较大的差异,各种群能较好地共生于群落中。     

戴云山黄山松群落主要树种更新生态位研究

为探讨戴云山黄山松(Pinus taiwanensis)群落的分化与动态更新,采用改进的更新生态位宽度和更新生态位重叠公式研究黄山松群落主要树种的更新生态位。结果表明,不同物种对空间资源的利用存在差异,不同物种具有不同的更新生态位宽度,物种间的更新生态位重叠值也不同。在群落乔木层,黄山松的更新生态宽度最大,因此,黄山松在群落中占优势地位。黄山松与其它物种的更新生态位重叠值主要在0.1~0.39之间,表明黄山松与其它树种存在共用资源利用谱。黄山松与窄基红褐柃(Eurya rubiginosa)和短尾越桔(Vaccinium carlesii)的更新生态位重叠值较大,与这些物种的竞争和排斥作用明显,不利于黄山松幼苗和幼树更新,因此建议采用人工抚育措施并加强保护,提高黄山松幼苗和幼树的成活率,使群落处于稳定状态。     

漓江河岸带枫杨群落主要木本植物种群生态位

为了解漓江河岸带枫杨群落主要木本植物种群的生态位特征,在对其进行群落调查的基础上,利用Levins和Shannon生态位宽度、Schoener生态位相似性和Pianka生态位重叠指数对漓江河岸带枫杨群落乔木层、灌木层主要种群生态位进行定量分析.结果表明: 乔木层的枫杨、灌木层的石榕树和桑的生态位宽度较大;重要值较大的物种,其生态位宽度一般较大,但两者排名顺序并不完全一致.乔木层主要种群生态位相似性普遍小于灌木层,平均值分别为0.151和0.236,主要种群间的生态位相似性较小,各种群对资源利用的相似程度不高;乔木层主要种群生态位重叠普遍小于灌木层,它们的平均值分别为0.217和0.273,主要种群间的生态位重叠程度较低;生态位宽度与生态位相似性之间无显著相关关系,生态位宽度大的物种与其他物种发生重叠的概率更大,但生态位重叠值不一定大,生态位相似性大的物种,其生态位重叠值一般较大.漓江河岸带枫杨群落属于地带性顶极群落,种间关系相对稳定,种群更新缓慢,在发展中有衰退趋势.     

季风常绿阔叶林不同恢复阶段乔木优势种群生态位和种间联结

生态位和种间联结是群落动态研究的重要内容之一,物种间相互作用影响着群落的恢复和演替。本文在对云南普洱地区不同恢复阶段(恢复15年、恢复30年和原始林群落)季风常绿阔叶林群落的野外调查基础上,采用生态位宽度、生态位重叠、方差比率(VR)和基于2×2联列表的χ2检验、联结系数(AC)等方法,分析了不同恢复阶段各种群的变化趋势。结果表明:3种群落类型中物种的重要值与相对应的生态位宽度之间存在着显著的正相关,恢复15年群落有78.22%的种对之间的生态位重叠值在0.4～0.8,说明其群落优势物种存在较强的资源利用性竞争,而恢复30年和原始林群落结构则具有一定的稳定性,多数生态位宽度较大的物种之间的生态位重叠要大于生态位较小的物种,反映出优势物种具有较强的竞争能力;恢复15年和恢复30年群落物种间总体呈不显著正联结,原始林群落则呈不显著负联结;3种群落231种对中,绝大多数种对联结系数未达显著水平,种对间的独立性相对较强,群落中物种间正负联结对数占总种的比例随恢复进程而出现下降趋势。不同恢复阶段群落中联结系数与生态位重叠值之间存在显著正相关,生态位重叠值越大,其联结系数也越大。     

百山祖常绿阔叶林优势种群的生态位

为了理解百山祖中山常绿阔叶林备优势种群在群落中的关系、地位和功能,用定量分析法,对该群落中平均重要值大于1%的13个优势种群的生态位特征进行了研究。结果表明:多脉青冈、麂角杜鹃和窄基红褐柃的生态位宽度较大,它们的Hurlbert生态位宽度(B_a)分别为0.878、0.825、0.806;而厚叶红淡比、亮叶水青冈和水丝梨的生态位宽度较小,它们的B_a分别为0.341、0.320、0.272。物种的生态位宽度与其重要值大小无关,但与其在各样方中的重要值均匀程度呈极显著的线性正相关。生态位相似性比例(C_(ih))最大的是多脉青冈与尖连蕊茶(0.832),最小的是凸脉冬青和水丝梨(0.248)。对生境需求相似而生态位宽度较小的厚叶红淡比与亮叶水青冈的C_(ih)高达0.758。同属植物多脉青冈与褐叶青冈、台湾冬青与凸脉冬青之间并不具有较大的C_(ih)值。生态位宽度较大的物种与其他物种的生态位重叠值一般较大;生态位相似性比例大的物种的生态位重叠值一般较大。多脉青冈与褐叶青冈、台湾冬青与凸脉冬青的生态位重叠值并不大。总体来看,群落优势种群之间的生态位重叠程度较低,说明该群落主要优势种群之间竞争不激烈群落稳定。该研究揭示了群落优势种群的生态位特征和结构稳定性,为生物多样性保护、群落演替和种群进化等研究提供了理论基础,也为自然保护区管理机构制定和完善保护措施提供参考依据。     

戴云山罗浮栲林主要乔木树种营养生态位研究

通过生态位空间分割,应用多维生态位宽度和生态位重叠分析戴云山罗浮栲(Castanopsis fabri)群落主要乔木树种在不同资源空间中的营养利用情况。结果表明,各物种在不同资源空间的营养利用情况存在差异。同一物种不同龄级生态位宽度不同,同一龄级不同物种生态位宽度也存在差异。罗浮栲天然林主要种群生态位重叠值介于0.2~0.3的有33对,占27.5%;大于0.3的有51对,占42.5%,群落中优势种种群生态位具有较大程度重叠,对资源的利用能力相似且竞争格局明显。乔木层中,个体多度分布较大的罗浮栲与其它树种生态位重叠在0.042~0.424,罗浮栲与其它物种在资源利用上所受到的竞争相对较弱,在一定程度上决定了该种群在群落中的优势地位。按照经典的分层频度分析,罗浮栲种群属于典型的衰退种,与群落演替的实际情况相一致。     

仙湖苏铁群落优势种群的生态位特征

采用生态位宽度和生态位重叠探讨仙湖苏铁群落优势种群的生态位特征。结果表明,群落中生态位宽度大的优势种群,对其它种群的生态位重叠大,而生态位宽度小的种群对生态位宽度大的种群的生态位重叠不一定大;如果2个种群生态位宽度相近,则存在着较大的生态位重叠。优势种之间生态位重叠大,由于存在资源竞争,导致群落组成和结构发生变化从而影响群落的演替发展。相同的物种对在不同层次其生态位重叠水平不一致,从林下层到立木层,物种对的生态位重叠程度降低。仙湖苏铁种群与立木层中生性树种的生态位重叠大,由于植株高度的差异,它们之间可能存在着促进而非竞争关系,因此调整群落林分组成,使群落向着以中生性树种为优势种的方向发展,也许是促进仙湖苏铁种群恢复和发展的有利措施。     

人为干扰对碧峰峡山矾次生林群落主要植物种群生态位的影响

基于对碧峰峡山矾(Symplocos sumuntia)次生林中乔木层、灌木层、草本层总计288个样方的调查,采用Levins、Hurlber生态位宽度指数、Pianka生态位重叠指数及Sφrensen相似性系数对山矾次生林不同强度人为干扰下各层次主要植物种的生态位特征及群落物种相似度进行定量分析,以揭示碧峰峡山矾次生林不同干扰程度下,各层次主要种群对生境资源的利用情况以及相对地位的变化,明确物种的生态适应性,为生态系统稳定性研究提供理论依据。结果显示:(1)山矾在不同强度人为干扰下均占据较宽生态位,适应环境和利用资源的能力较强,是次生林群落的建群种;随干扰强度增加,乔木层中山茶科(Theaceae)植物生态位宽度增大,青冈(Cyclobalanopsis glauca)生态位宽度呈先增大后减小的趋势;灌木层中杉木(Cunninghamia lanceolata)在重度干扰下生态位宽度减小,光枝楠(Phoebe neuranthoides)生态位宽度则增加,其他大多数植物在中度干扰下生态位宽度最小;草本层中红盖鳞毛蕨(Dryopteris erythrosora)在重度干扰下生态位变宽,其适应范围扩大。(2)乔木层中山矾和冬青(Ilex chinensis)生态位重叠值在重度干扰下增大;灌木层中高粱泡(Rubus lambertianus)和老鼠矢(Symplocos stellaris)与其他物种的生态位重叠值仅在中度干扰下出现;草本层中,随干扰强度增加,书带蕨(Vittaria flexuosa)生态位重叠值消失,红盖鳞毛蕨生态位重叠值出现并且较高;群落各层次主要树种整体生态位重叠均值在中度干扰下降至最低。(3)乔木层和草本层中不同强度干扰层次两两之间相似性系数均大于0.8;灌木层中重度干扰-中度干扰、中度干扰-轻度干扰、重度干扰-轻度干扰之间相似性系数分别为0.636、0.746、0.608。研究表明,不同强度人为干扰下,山矾次生林中因资源利用而产生的种间竞争均较激烈,群落分布格局和演替方向受到影响,森林群落不稳定。     

三种小花蝽核型研究(半翅目:花蝽科)

本文利用姬姆萨染色压片法对花蝽科小花蝽属3个种:荷氏小花蝽Orius horvathi(Reuter),微小花蝽Oriusminutus Linnaeus和东亚小花蝽Orius sauteri(Poppius)的核型做了研究,结果表明3种小花蝽单倍体均具有12条染色体,X-Y性别决定机制,但3种核型行为具特定的差异,其核型特征可用于种间分类。     

A comparative measure of biodiversity based on species composition

In conservation planning, species richness and species endemism are the most often used metrics for describing the biodiversity importance of areas. However, when it comes to prioritizing regions for conservation actions these measures alone are insufficient because they do not reveal how similar or different the actual composition of species may be from one area to another. For comparative analysis an additional useful metric would be one that indicates the degree to which the species assemblage in one area is also represented in—or is distinct from—species assemblages of other areas. Here we describe a method for quantifying the compositional representativeness of species assemblages among geographic regions. The method generates asymmetric pairwise similarity coefficients that are then used to calculate separate measures for the representativeness and the distinctiveness of species assemblages in the regions being compared. We demonstrate the method by comparing fish communities among freshwater ecoregions of the Mississippi Basin, and then among smaller hydrological units within two individual freshwater ecoregions. At both scales of analysis, our measures of representativeness and distinctiveness reveal patterns of fish species composition that differ from patterns of species richness. This information can enhance conservation planning processes by ensuring that priority-setting explicitly consider the most representative and distinctive species assemblages.     

DNA analysis by flow cytometry

Accurate quantification of DNA from cells of several species is possible with flow cytometry. When one species is used as a reference, cytometric readings from two or more different species can be compared to obtain relative percent DNA or DNA indices. Differences in DNA from the male and female of the same species also can be measured. The method allows rapid screening of chromosomal abnormalities among large clinical populations, and evaluation of errors of sex determination such as XY sex reversal.     

Distinguishing Anuran species by high‐resolution melting analysis of the COI barcode (COI‐HRM)

Taxonomic identification can be difficult when two or more species appear morphologically similar. DNA barcoding based on the sequence of the mitochondrial cytochrome c oxidase 1 gene (COI) is now widely used in identifying animal species. High‐resolution melting analysis (HRM) provides an alternative method for detecting sequence variations among amplicons without having to perform DNA sequencing. The purpose of this study was to determine whether HRM of the COI barcode can be used to distinguish animal species. Using anurans as a model, we found distinct COI melting profiles among three congeners of both Lithobates spp. and Hyla spp. Sequence variations within species shifted the melting temperature of one or more melting domains slightly but do not affect the distinctness of the melting profiles for each species. An NMDS ordination plot comparing melting peak profiles among eight Anuran species showed overlapping profiles for Lithobates sphenocephala and Gastrophryne carolinensis. The COI amplicon for both species contained two melting domains with melting temperatures that were similar between the two species. The two species belong to two different families, highlighting the fact that COI melting profiles do not reveal phylogenetic relationships but simply reflect DNA sequence differences among stretches of DNA within amplicons. This study suggests that high‐resolution melting analysis of COI barcodes (COI‐HRM) may be useful as a simple and rapid method to distinguish animal species that appear morphologically similar.     

A distance-based least-square method for dating speciation events

Distance-based phylogenetic methods are widely used in biomedical research. However, there has been little development of rigorous statistical methods and software for dating speciation and gene duplication events by using evolutionary distances. Here we present a simple, fast and accurate dating method based on the least-squares (LS) method that has already been widely used in molecular phylogenetic reconstruction. Dating methods with a global clock or two different local clocks are presented. Single or multiple fossil calibration points can be used, and multiple data sets can be integrated in a combined analysis. Variation of the estimated divergence time is estimated by resampling methods such as bootstrapping or jackknifing. Application of the method to dating the divergence time among seven ape species or among 35 mammalian species including major mammalian orders shows that the estimated divergence time with the LS criterion is nearly identical to those obtained by the likelihood method or Bayesian inference.     

Species boundaries and genetic diversity among Hawaiian crickets of the genus Laupala identified using amplified fragment length polymorphism

Crickets of the genus Laupala represent one of the many morphologically cryptic groups of insects, with the most closely related species distinguished only by the male calling song. Cryptic groups provide a challenge in determining the genetic boundaries between closely related populations and species. We have addressed the question of species boundaries in the Hawaiian cricket, Laupala, using nuclear DNA patterns sampled by the amplified fragment length polymorphism (AFLP) technique. This method has been used widely by plant researchers to facilitate the rapid assessment of genetic diversity in very closely related species and varieties. The AFLP technique is simple and robust, can be applied to any organism, and overcomes problems associated with cost, development time, information content and reproducibility that can plague other marker systems. Our results support previously hypothesized taxonomic relationships among sympatric populations and suggest close genetic relationships among allopatric, conspecific populations.     

AFLP 引物组合数量对准确研究竹子系统关系的影响

利用AFLP技术对26个竹子种类进行了多样性分析, 以探索引物组合数量对准确研究竹子类群系统关系的影响。实验共随机选取10对AFLP引物, 并对所得10组AFLP标记数据随机组合后进行Nei氏遗传距离/UPGMA聚类分析。每对AFLP引物 扩增数据为一组, 随着用于聚类统计的AFLP标记数据随机组合数量的增加, 26个竹子种类的聚类关系趋向一致。这提示我们,在系统学研究中, 足够数量的引物组合是获得供试材料间准确聚类关系的基础, 应采用对各AFLP引物组合数据随机累加后进行聚类分析的方法, 以聚类关系为标准来确定用于分析供试品种的最少引物组合数量。     

不同地理种群美洲斑潜蝇及近缘种的rDNA-ITS1序列分析和比较

【目的】通过对美洲斑潜蝇Liriomyza sativae Blanchard 不同地理种群及近缘种间的核糖体DNA第一内转录间隔区（rDNA-ITS1）进行比较,分析美洲斑潜蝇不同地理种群间的遗传分化情况,并为美洲斑潜蝇与近缘种间提供分子鉴别标记。【方法】用PCR产物直接测序法及克隆测序法对我国美洲斑潜蝇8个地理种群的rDNA-ITS1序列进行测序,并调用GenBank中3个近缘种的rDNA-ITS序列,运用软件MEGA3.1对美洲斑潜蝇不同地理种群及近缘种间的rDNA-ITS1序列进行分析。【结果】美洲斑潜蝇8个地理种群间的分化程度较低,只有8个变异位点,遗传距离都在0.02以下,但4个近缘种间的碱基差异显著,遗传距离为0.149～0.390,有126个变异位点,12个美洲斑潜蝇特异性识别位点。【结论】虽然基于rDNA-ITS1序列所显示的美洲斑潜蝇各地理种群之间的遗传分化很小,但是其分化趋势与地理分布基本相吻合;得到的12个特异性识别位点不仅可以作为美洲斑潜蝇与其近缘种间鉴别的分子标记,而且可为今后设计鉴别性PCR引物提供重要的参考依据。     

Using probability of persistence to identify important areas for biodiversity conservation

Most attempts to identify important areas for biodiversity have sought to represent valued features from what is known of their current distribution, and have treated all included records as equivalent. We develop the idea that a more direct way of planning for conservation success is to consider the probability of persistence for the valued features. Probabilities also provide a consistent basis for integrating the many pattern and process factors affecting conservation success. To apply the approach, we describe a method for seeking networks of conservation areas that maximize probabilities of persistence across species. With data for European trees, this method requires less than half as many areas as an earlier method to represent all species with a probability of at least 0.95 (where possible). Alternatively, for trials choosing any number of areas between one and 50, the method increases the mean probability among species by more than 10%. This improvement benefits the least-widespread species the most and results in greater connectivity among selected areas. The proposed method can accommodate local differences in viability, vulnerability, threats, costs, or other social and political constraints, and is applicable in principle to any surrogate measure for biodiversity value.     

A framework for assessing the vulnerability of species to climate change: a case study of the Australian elapid snakes

Frameworks that provide a system for assessing species according to their vulnerability to climate change can offer considerable guidance to conservation managers who need to allocate limited resources among a large number of taxa. To date, climate change vulnerability assessments have largely been based on projected changes in range size derived from the output of species distribution models (SDMs). A criticism of risk assessments based solely on these models is that information on species ecological and life history traits is lacking. Accordingly, we developed a points-based framework for assessing species vulnerability to climate change that considered species traits together with the projections of SDMs. Applying this method to the Australian elapid snakes (family Elapidae), we determined which species may be particularly susceptible in the future and assessed broad-scale biogeographic patterns in species vulnerability. By offering a more comprehensive and rigorous method for assessing vulnerability than those based solely on SDMs, this framework provides greater justification for resource allocation, and can help guide decisions regarding the most appropriate adaptation strategies.