Spatial pattern of lithorheophile macrobenthos (by the example of a stream in Moscow region)

The distribution of lithorheophil macrobenthos was studied in the range of scales from decimeter (regions in the scope of one stone) up to seven kilometers on the basis of 153 quantitative samples from oligosaprobic stream in Moscow region. Community shows significant spatial heterogeneity even at the small scale: life forms inhabit different sides of each stone and different sites of the riffle depending on current. At the scale of tens and hundreds of meters (between different riffles, within one stream) spatial heterogeneity of benthos is low, distribution of common species is independent from each other and riffs are similar by community structure. At the scope of kilometers heterogeneity increase and the alterations of community appear due to changes in stream size. Seasonal differences of benthos distribution are mentioned. The impact of various environmental factors on the distribution of lithorheophile macrobenthos is discussed.     

巢湖流域春季大型底栖动物群落生态特征及与环境因子关系

采用野外采样调查的方法,结合聚类(Cluster)、多维排序尺度(MDS)、典范对应分析(CCA),以及Shannon多样性指数、Pielou种类均匀度指数、Margalef种类丰度指数等手段,研究了巢湖流域春季大型底栖动物的种群结构特征、多样性及其与环境因子的相关性.调查共采集到大型底栖动物23种,其中环节动物门6种,占26.1%,节肢动物门8种,占34.8%,软体动物门9种,占39.1%;流域内大型底栖动物的优势种为环节动物门的霍甫水丝蚓(Limno-drilus hoffmeisteri)和苏氏尾鳃蚓(Branchiura sowerbyi),以及软体动物门的铜锈环棱螺(Bel-lamya aeruginosa),且其在流域内的分布具有显著的空间差异性.出入湖河流上游区域(群落Ⅰ)生物多样性相对较好;出入湖河流下游区域(群落Ⅱ)生物多样性最差;巢湖湖体及出入湖河流河口(群落Ⅲ)生物多样性处于两者之间.巢湖流域大型底栖动物空间分布受各种环境因素影响,其中Chl a与NO-3为主要影响因素.     

Small-scale spatial variability in intertidal and subtidal turfing algal assemblages and the temporal generality of these patterns

Spatial and temporal variation in patterns of distribution and abundance of algal assemblages is large and often occurs at extremely small spatial and temporal scales. Despite this, few studies investigate interactions between these scales, that is, how patterns of spatial variation change through time. This study investigated a number of scales of spatial variation (from tens of centimetres to kilometres) in assemblages of intertidal and subtidal turfing algae. Significant differences were found in the composition and abundances of species in assemblages of turf at all spatial scales tested. Much of the variation among assemblages could, however, be explained at the scale of quadrats (tens of centimetres apart) (27±1.4 (SE)% of dissimilarity) with an additional 7±1.2% explained at the scale of sites (tens of metres apart) and 10±1.5% at the scale of locations (kilometres apart). Although the greatest dissimilarity in assemblages occurred at the scale of habitats, this accounted for a relatively small proportion of the overall variation in assemblages. These patterns were consistent through time, that is, at each sampling time the spatial scale explaining the greatest proportion of variation in assemblages was replicate quadrats separated by tens of centimetres. These patterns appear to be due to small-scale variation in patterns of distribution and abundances of the individual species that comprise turfing algal assemblages. The results of this experiment suggest that large scale processes have less effect on patterns of variability of algal assemblages than those occurring on relatively smaller spatial scales and that small-scale spatial variation should not be considered as simply “noise”.     

Self-similar properties of the spatial structure of intertidal macro- and microbenthic communities

Spatial distribution (SD) of White Sea intertidal soft-bottom communities was studied at scales from decimetres to dozens of kilometres on the basis of an extensive dataset (464 samples of macrofauna, 349 samples of ciliates, and 333 samples of diatoms). We used the information index of structural heterogeneity D(I) (Azovsky et al., 2000 // Mar. Biol. 136 (3): 581-590) to characterize spatial variability in the species composition of the communities at different extent (total area surveyed) and grain (finest spatial resolution). The type of distribution was determined via the relation between D(I) and parameters of the spatial scale (extent and grain). At small scale (in terms of extent), all the communities were distributed randomly (mosaic SD). At larger scales, the estimated spatial variability depended neither on extent nor grain, exclusively on their ratio, i.e., was scale-invariant. This means that at some scale the spatial patterns of communities display self-similar properties (fractal SD). Such SD was found at a rather wide range of scales scales: 10(1)-10(4) m for the macrofauna, 10(0)-10(3) m for the ciliates, and 10(-1)-10(2) m for the diatoms. At still greater scales, patchy or gradient patters were observed. Thus, the ranges of fractal distribution were proportional to the average size of the organisms (approximately 10(4)-10(7) times the body size). We suppose that such spatial pattern reflects community self-organization in a relatively homogeneous environment and may be the most efficient way to realize the highest structural diversity on the basis of pre-formed complexes of predominant species. We also suppose that fractal-like patterns may be a general feature of the spatial organization of communities.     

高岚河大型底栖动物时空分布及影响因子研究

为了解大型底栖动物沿河流分布的物种丰富度变化及环境因子对其种群的影响,于2016年12月对高岚河的大型底栖动物进行了调查,并对理化指标进行了测定。研究结果发现,物种丰富度沿河流纵向梯度变化差异性不显著,生物多样性指数沿河流变化差异不显著,说明高岚河大型底栖动物群落结构稳定。高岚河上游的生态指示种为高翔蜉和四节蜉,中游的生态指示种为四节蜉和萝卜螺,下游的指示种为萝卜螺。模糊聚类分析发现高岚河大型底栖动物类群可划分为3个生境类群,且在梯度分布下群落生境较相似,大型底栖动物群落间关系接近,分布均匀。典范对应分析发现影响大型底栖动物群落结构沿梯度分布的主要因子是海拔、pH、浊度和深度。     

Multiple scales and the relationship between density and spatial aggregation in littoral zone communities

Understanding the constraints on community composition at multiple spatial scales is an immense challenge to community and ecosystem ecologists. As community composition is basically the composite result of species’ spatial patterning, studying this spatial patterning across scales may yield clues as to which scales of environmental heterogeneity influence communities. The now widely documented positive interspecific relationship between ‘regional’ range and mean ‘local’ abundance has become a generalisation describing the spatial patterning of species at coarse scales. We address some of the shortcomings of this generalisation, as well as examine the cross‐scale spatial patterning (aggregation and density levels) of littoral‐benthic invertebrates in very large lakes. Specifically, we (a) determine whether the positive range‐abundance relationship can be reinterpreted in terms of the actual spatial structure of species distributions, (b) examine the relationship between aggregation and density across different spatial scales, and (c) determine whether the spatial patterning of species (e.g. low density/aggregated distribution) is constant across scales, that is, whether our interpretation of a species spatial pattern is dependent on the scale at which we choose to observe the system. Spatial aggregation of littoral invertebrates was generally a negative function of mean density across all spatial scales and seasons (autumn and spring). This relationship may underlie positive range‐abundance relationships. Species that were uncommon and highly aggregated at coarse spatial scales can be abundant and approach random distributions at finer spatial scales. Also, the change in spatial aggregation of closely related taxa across spatial scales was idiosyncratic. The idiosyncratic cross‐scale spatial patterning of species implies that multiple scales of environmental heterogeneity may influence the assembly of littoral communities. Due to the multi‐scale, species‐specific spatial patterning of invertebrates, littoral zone communities form a complex spatial mosaic, and a ‘spatially explicit’ approach will be required by limnologists in order to link littoral‐benthic community patterns with ecosystem processes in large oligotrophic lakes.     

长江口潮沟大型底栖动物群落的初步研究

通过对长江口崇明东滩潮沟系统与大型底栖无脊椎动物进行取样调查 ,研究了潮沟不同生境的底栖动物群落及其多样性 ,分析了潮沟生境异质性与底栖动物群落的关系。研究发现 :①潮沟剖面中出现明显的动物群落分带现象 ,从潮沟底、潮沟边滩到草滩 ,底栖动物种类、生活型组成和生活类群比例反映了河口潮滩潮沟底栖动物生态系列 ;②密度和生物量的分布皆为潮沟边滩 >草滩 >潮沟底 ,但密度与生物量的面上群 /面下群值格局却有不同 ,说明了密度和生物量的优势生活型和生活类群随潮沟生境的差异而变化 ;③潮沟系统 3种生境的多样性指数D ,H′和J值均为草滩 >潮沟边滩 >潮沟底 ,是潮沟系统生境结构分化的结果。潮沟底和潮沟边滩等特殊生境的存在 ,提高了淤泥质河口潮滩的生境异质性 ,说明了潮沟系统在维持河口生态系统底栖动物物种多样性中的重要作用。     

青弋江流域大型底栖动物群落结构及水质评价

研究河流大型底栖动物群落结构特征及水环境质量对水生态的保护与修复具有重要意义。以青弋江流域为研究对象,于2020年9月进行了大型底栖动物及水体理化因子的调查,采用相对重要性指数、生物多样性指数及Jaccard相似性系数分析了大型底栖动物群落结构特征,运用丰度/生物量比较曲线法及冗余分析法探究了底栖动物群落受到的干扰程度及其主要影响环境因子,最后利用水生态环境质量综合指数对河流水质进行评价。研究结果表明：(1)共采集鉴定大型底栖动物61种,隶属于3门6纲17目,平均丰度为265.9个/m~2,平均生物量41.6 g/m~2。相对重要性指数分析显示,日本沼虾(Macrobrachium nipponensis)、中国圆田螺(Cipangopaludina chinensis)、羽摇蚊(Chironomus plumosus)及扁蜉(Ecdyrus)为群落中的主要优势种。(2)由群落相似性分析知,Jaccard相似性系数较低,调查点位之间存在较强的空间异质性。(3)冗余分析表明,电导率、氨氮浓度及流速是影响底栖动物群落结构的主要环境因子。(4)生物指数分析结果显示该流域水质为轻度污染或中度污...     

Distribution of forest dwelling carabids (Coleoptera): spatial scale and the concept of communities

Associations between spatial distribution of ground-beetles (Carabidae) and environmental variables were studied over three hierarchical scales in deciduous forest in central Alberta, Canada We also examined the relationship between species abundance and distribution on several scales ranging from the local scale of our study to that of the North American temperate deciduous forest Understorey plant cover, tree cover, and occurrence of other carabids were associated with distribution of particular species at the smallest ecological scales within populations However, great differences in population sues of carabid species among five distinct sites several kilometres apart were not correlated with variation in the same environmental variables In central Alberta, abundance and extent of distribution were correlated positively among the 30 carabid species collected, and distributions of the ten species classified as 'core' species were generally aggregated at all spatial scales On the continental scale, there was a significant positive correlation between abundance and distribution for the 114 species of the entire data set, and the six species meeting the criteria of 'core' taxa on this scale, were also 'core' elements in central Alberta Further analysis of covariance of core elements of species assemblages across different taxa provides a sound empirical approach for understanding community organization     

雅砻江(锦屏段)及其主要支流的大型底栖动物

分别于2004年5月和11月对雅砻江锦屏段及其主要支流25个采样点的大型底栖动物进行了采样.研究发现, 5月和11月整个采样区域的最优势类群为四节蜉稚虫1种(Baetis sp.)(Baetidae, Ephemeroptera),相对百分比分别达到14.9%和27.0%.利用大型底栖动物的物种组成和物种相对丰度,应用双向指示种分析和无偏对应分析,对11月份的25个样点的分组研究表明,底栖动物类群按照所处的生境类型分为4个主要类群.典范对应分析表明,5月影响底栖动物群落结构的主要环境因子为海拔高度、氨氮和硬度,11月影响底栖动物分布的主要环境因子为海拔高度、二氧化硅、硬度和氨氮.     

帽儿山红松人工林鞘翅目成虫群落小尺度空间异质性变化特征

空间异质性是群落空间格局形成的基础,也是物种共存的重要前提。基于地统计空间分析方法,研究20 m×20 m空间尺度上帽儿山红松人工林鞘翅目成虫群落及物种的空间自相关性及异质性分布格局。结果显示:5次调查共捕获鞘翅目成虫10科、42种、2721只个体,群落组成具有中等或较强的空间变异性和明显的时间变异性;Moran's I系数表明群落及部分物种具有显著的空间自相关性,各调查月份接近甚至超过一半的物种不存在空间自相关性;群落及部分物种表现为异质性特征并在特定空间尺度内形成集群,且这种空间分异多由结构性因素或结构性因素和随机性因素共同调控;物种之间表现为具有复杂正的或负的空间作用关系,这种空间关联性的形成主要是结构性因素或随机性因素单一调控的结果,但简单Mantel检验并未发现物种之间存在显著的空间关联性;群落的空间格局梯度分布特征较明显,随着季节的变化(夏天到秋天)聚集物种数量的斑块复杂程度降低。本文旨在揭示鞘翅目成虫空间异质性的变化特征,为鞘翅目成虫群落物种构建机制研究奠定基础。     

广西大青山次生林的群落特征及主要乔木种群的空间分布格局

本文依托广西友谊关森林生态系统国家定位观测研究站在大青山设置的1 ha长期监测样地, 分析了森林群落的物种组成、区系特征及乔木种群的径级结构, 并用点格局分析方法的O-ring统计对主要乔木植物种群的空间分布格局及其空间关联性进行了研究, 旨在深入探讨该区域次生林的物种多样性特点及其维持机制, 分析影响优势树种空间分布格局的可能因素。大青山次生林共调查到植物109种, 其中乔木58种、灌木29种、草本22种, 樟科为样地内物种最丰富的科, 区系组成以泛热带成分为主; 乔木树种的径级结构接近倒“J”形, 主要种群的个体集中分布于中小径级范围(1-5 cm), 林分结构合理, 更新良好。从物种多度、胸高断面积和重要值来看, 大叶栎(Quercus griffithii)和锈毛梭子果(Eberhardtia aurata)是群落中的共优种, 其个体数占总个体数的30.8%, 鸭公树(Neolitsea chuii)、广东琼楠(Beilschmiedia fordii)和尖连蕊茶(Camellia cuspidata)为群落的主要伴生树种。用完全随机模型不排除生境异质性的条件下, 主要种群多数呈聚集分布; 用异质性随机模型排除生境异质性的条件下, 主要种群的聚集程度显著下降, 仅在小尺度上呈聚集分布; 主要树种均在一定尺度上表现为两两间正相关, 且在0-50 m的大部分尺度上显示出相互独立的特点, 没有表现出负相关。     

坡向尺度差异对大理苍山捕食线虫真菌分布格局的影响

为了解大理苍山地区不同尺度坡向上捕食线虫真菌的分布格局及其驱动因素,利用系统采样法对大理苍山东、西坡及其次级南、北坡的捕食线虫真菌进行调查。按照五点采样法采集苍山东、西坡及其次级南、北坡土壤样品共300份。采用传统方法对捕食线虫真菌进行分离纯化,结合形态特征和分子生物学方法鉴定所得菌株,按照新分类系统进行分类,鉴定为3属12种57株捕食线虫真菌。结果表明：苍山各尺度坡向捕食线虫真菌检出率和多样性指数均是西坡大于东坡,次级南坡大于次级北坡。次级南、北坡向间捕食线虫真菌群落差异大于东、西坡向间;西坡次级南、北坡向间的群落差异最大;东、西坡向的次级南坡向间群落差异也较大;东坡次级北坡与西坡次级北坡间的群落最为相似。产黏性菌网的Arthrobotrys属、产黏性球和黏性分枝的Dactylellina属在东、西坡及其次级南、北坡间均有分布,而产收缩环的Drechslerella属仅在西坡有分布。因此,坡向是影响苍山捕食线虫真菌空间分布格局的驱动因子之一,不同尺度坡向上捕食线虫真菌分布格局存在差异;次级南、北坡间捕食线虫真菌群落差异性比东、西坡间大,小尺度坡向间地理屏障对捕食线虫真菌分布格局的影响大于大尺度坡向间环境异质性的作用;环境筛选和扩散限制均会影响到捕食线虫真菌的群落构建过程。     

The relative influences of exotic species and environmental factors

Spatial variation in the native fish community of the lower Guadiana basin (southern Iberia) was related to both biotic (abundance of exotic species) and environmental factors using canonical correspondence analysis, CCA. After choosing the best predictors among the environmental and biotic variables, we partitioned the total variation in native species abundances (18 species-size combinations by 44 sampling locations matrix) into that accounted for (1) solely by selected environmental variables, (2) solely by selected biotic variables, (3) by both environmental and biotic variables together, and (4) that unexplained. Of the 22 variables initially considered in the environmental CCA, only RIVER (dummy variable codifying sampling locations belonging to the main river), SALT (dummy variable codifying sampling locations belonging to tributaries that discharge to the brackish Guadiana), substrate heterogeneity, and macrobenthos abundance were selected as best predictors. In the biotic CCA, three species-size combinations were selected from the eight considered: Micropterus salmoides > 150 mm in total length (TL), Lepomis gibbosus > 100 mm in TL and Gambusia holbrooki. The total variation in the native fish community was partitioned into the following components: pure environmental (24.4%), pure biotic (12.4%), shared (9.2%) and unexplained (54.0%). There was a significant influence of exotic fish on native community variation after accounting for the effect of environmental factors. This revised version was published online in July 2006 with corrections to the Cover Date.     

亚龙湾珊瑚礁大型礁栖生物的群落结构及生态警示

鱼类和大型底栖生物等礁栖生物是珊瑚礁生态系统的重要组成部分,其群落信息是全面评价珊瑚礁生态系统健康状况的必要基础数据.基于录像样带法,分析了2018年12月底海南省三亚市亚龙湾珊瑚礁区17个站位礁栖鱼类和大型底栖生物的群落结构、数量分布及相似性,揭示了其中的生态警示,并提出相应的监管建议,旨在保护和恢复亚龙湾的珊瑚礁....     

Fractal analysis of plant spatial patterns: a monitoring tool for vegetation transition shifts

Spatial heterogeneity, like species diversity, is an important ecosystem property. We examine the effects of land use on the diversity and spatial distribution of plants in five semi-arid communities of eastern Spain using non-linear methods to assess the spatialtemporal dynamics of plant populations. Specifically, we are interested in detecting long-term structural changes or drift in an ecosystem before it is too late to prevent irreversible degradation. Fractal analysis is used to characterize the complexity of plant spatial patterns and Information Theory indices are used to measure change in information flow with land use changes and soil substrate. We found that grazing favored diversity and heterogeneity of species distribution on the impoverished gypsum and saline substrate community, as opposed to the detrimental effect of grazing in the Alpha steppe community. Indeed, old-field succession after 30 years of abandonment showed a recovery of species diversity but not the spatial structure of the vegetation. Further, Information Fractal Dimension, representing the unpredictability of plant spatial patterns in the landscape, increased as we moved from a highly diverse to a less diverse community, revealing the change to a more scattered and homogeneous spatial plant distribution. The Information Fractal Dimension is a good estimator of ecosystem disturbance, independent of scale, and thus can be used to monitor ecosystem dynamics.     

宜昌百里荒草山草坡群落物种分布的空间趋势分析

通过基于CCA的趋势面分析和空间插值方法,研究了宜昌百里荒山地草场的群落结构空间变化,以及群落结构空间趋势与主要环境因子的相关性。结果表明,该群落物种空间中的群落结构面和物理空间中的空间趋势面可以很好地吻合,说明该群落的结构由一种具有强烈空间结构化特征的机制控制。对群落结构和空间趋势影响最显著的环境因素是土壤有效磷。     

Spatial variability in structural and functional aspects of macrofauna communities and their environmental parameters in the Jade Bay (Wadden Sea Lower Saxony, southern North Sea)

Spatial distribution and functional structure of intertidal benthic macrofauna in relation to environmental variables in the Jade Bay (southern North Sea) were studied and compared with other intertidal areas of the Wadden Sea. A total of 128 stations covering the whole Jade Bay were sampled in summer 2009. A total of 114 taxa were found. Highest species numbers occurred in the subtidal areas, whereas highest mean abundances were found in the upper intertidal areas. Based on species abundance data, six significantly distinct macrofauna communities in the Jade Bay were identified and evaluated with multivariate statistics, univariate correlations and canonical correspondence analysis. Differences in these community patterns were caused by the response of the dominant species (Hydrobia ulvae, Tubificoides benedii, Pygospio elegans, Caulleriella killariensis, Scoloplos armiger, Urothoe poseidonis, Microprotopus maculatus) to prevailing environmental conditions along the gradient from the lower and exposed sandy intertidal areas via intermediate mixed sediments to the upper mudflat areas. Distribution patterns in relation to tidal zonation were best explained by variability in submergence time, Chlorophyll a (chl a) content and sediment composition (mud content), which are proxies for hydrodynamic conditions and food availability. Species inventory and species richness were comparable with other intertidal areas of the Wadden Sea, but the Jade Bay differs from these areas regarding dominant species. Differences in sediment composition and morphological characteristics (macrotidal versus mesotidal Wadden Sea areas) are discussed for comparison of regional differences.     

2011-2020年长江口大型底栖动物群落结构变化趋势

对2011—2020年夏季长江口48个站位的大型底栖动物定量监测数据进行统计分析,研究长江口海域底栖生物群落时空结构演变特征。结果表明,近10年长江口海域共鉴定大型底栖动物284种,其中多毛类128种,占总种数的45.1%,甲壳类64种占22.2%,软体动物56种占19.7%,棘皮动物16种占5.6%,其他类合计20种。平均生物密度为(79.5±45.9)个/m²(年份变幅14.7—195个/m²)。平均生物量为(5.20±3.25)g/m²(年份变幅1.01—10.11g/m²),多毛类、软体动物、甲壳类是生物密度和生物量组成的主要类群。十年期间种类数、生物密度和生物量均呈现明显上升趋势,口外区贡献最突出。四个监测区域(南支、北支、杭州湾、口外)的优势种差异大。丝异须虫Heteromastus filiformis在各年份的优势种中出现的频度显著最大。总体来看,长江口监测区域大型底栖动物群落自然演变趋势向好。三项多样性指数统计结果表明,口外区大型底栖动物种类组成多样性水平显著高于口内三个区。生物群...     

不同发育时间的互花米草盐沼对大型底栖动物群落的影响

2004-2006年对长江口崇明东滩湿地芦苇(Phragmites australis)盐沼和不同发育时间的互花米草(Spartina alterniflora)盐沼的大型底栖动物群落特征进行分析研究.结果表明:互花米草盐沼发育初期,大型底栖动物群落以腹足类为主,物种丰富度(D=2.18)和多样性(H′=2.19)均低于芦苇盐沼(D=2.61, H′=2.29);随着时间的推移,互花米草与本地生物逐渐形成互动和稳定的格局,大型底栖动物群落组成中多毛类的种类逐渐上升(由3种变为6种),物种数和物种丰富度也上升,从而逐步形成新的大型底栖动物群落,物种丰富度(D=2.70)和多样性(H′=2.48)逐渐上升并高于芦苇盐沼(D=2.19, H′=2.09);从大型底栖动物群落的重新形成到稳定阶段,需要若干年的时间.