Ocean-scale patterns of 'biodiversity' of Atlantic asteroids determined from taxonomic distinctness and other measures

We examine patterns of ‘gamma’ (within-rcgion) and ‘beta’ (between-region) diversity from analysis of a presence/absence dataset for species of asteroids encompassing the whole Atlantic Ocean partitioned into 26 regions. Absolute species numbers (a poor measure of biodiversity) in shallow coastal areas and the deep sea are the same, although species richness per area for two well-sampled regions suggests, qualitatively, that coastal areas may be more speciose. Taxonomic distinctness (A*), an index which is markedly less sample-size dependent than other common diversity measures, shows no significant association with geographic area and no clear pattern with depth, suggesting an absence of latitudinal and coastal/deep trends. Cluster analysis shows that distinctive faunal assemblages are most evident in shelf/ shallow waters, where six groupings separate recognizably acccording to geographical location. Three of these arc the southernmost regions of the Atlantic (southeast of S. America, S. Angola/S. Africa & Tristan da Cunha/Gough Island) and arc characterized by their isolation and high levels of endemism. As depth increases so does the amount of faunal similarity between regions. This indicates that beta diversity is highest in shelf regions and lowest in lower bathyal/abyssal regions. Our results may support the contention which questions the emerging paradigm that the deep sea has exceptionally high diversity. It is evident, however, that comparisons (e.g. between coasts and the deep sea) are problematic and can depend very much on the element(s) of biodiversity measured, sampling methods and the spatial scales (e.g. alpha, beta or gamma diversity) over which assessment is made. Any wider conclusions should therefore be drawn cautiously, particularly since assessment is made of only one faunal group. Other findings include significant correlation between the depth range of asteroids and their geographical range. The utility of low-resolution datasets is reviewed. It is concluded that within limitations they can be of value for determining broad (e.g. regional, ocean-scale and global-scale) patterns of diversity and community structure, especially when analysed using measures relatively uninfluenced by sample size.     

Environmental drivers of species composition and functional diversity of dung beetles along the Atlantic Forest–Pampa transition zone

Human activities are causing a rapid loss of biodiversity, which impairs ecosystem functions and services. Therefore, understanding which processes shape how biodiversity is distributed along spatial and environmental gradients is a first step to guide conservation and management efforts. We aimed to determine the relative explanatory importance of biogeographic, environmental, landscape and spatial variables on assemblage dissimilarities and functional diversity of dung beetles along the Atlantic Forest–Pampa (i.e. forest–grassland) transition zone located in Southeast South America. We described each site according to their biogeographic position, environmental conditions, landscape features and spatial patterns. The compositional dissimilarity was partitioned into turnover and nestedness components of β‐diversity. Mantel tests and generalised dissimilarity models were used to relate β‐diversity and its components to biogeographic, environmental, landscape and spatial variables. Variation partitioning analysis was used to estimate the pure and shared variation in species composition and functional diversity explained by the four categories of predictors. Biome domain was the main factor causing dung beetle compositional dissimilarity, with a high species replacement between Atlantic Forest and Pampa. Biogeographic, environmental, landscape and spatial distances also affected the patterns of dung beetle dissimilarity and β‐diversity components. The shared effects of the four sets of predictors explained most of the variation in dung beetle composition. A similar response pattern was found for dung beetle functional diversity, which excluded biogeographic effects. Only the pure effects of environmental and spatial predictors were significant for species composition and functional diversity. Our results indicate that dung beetle species composition and functional diversity are jointly driven by environmental, landscape and spatial predictors with higher pure environmental and spatial effects. The forest–grassland transition zone promotes a strong species and trait replacement highly influenced both by environmental filtering and dispersal limitation.     

Environmental and topographic drivers of amphibian phylogenetic diversity and endemism in the Iberian Peninsula

Understanding the ecological and evolutionary processes driving biodiversity patterns and allowing their persistence is of utmost importance. Many hypotheses have been proposed to explain spatial diversity patterns, including water-energy availability, habitat heterogeneity, and historical climatic refugia. The main goal of this study is to identify if general spatial drivers of species diversity patterns of phylogenetic diversity (PD) and phylogenetic endemism (PE) at the global scale are also predictive of PD and PE at regional scales, using Iberian amphibians as a case study. Our main hypothesis assumes that topography along with contemporary and historical climate are drivers of phylogenetic diversity and endemism, but that the strength of these predictors may be weaker at the regional scale than it tends to be at the global scale. We mapped spatial patterns of Iberian amphibians' phylogenetic diversity and endemism, using previously published phylogenetic and distribution data. Furthermore, we compiled spatial data on topographic and climatic variables related to the water-energy availability, topography, and historical climatic instability hypotheses. To test our hypotheses, we used Spatial Autoregressive Models and selected the best model to explain diversity patterns based on Akaike Information Criterion. Our results show that, out of the variables tested in our study, water-energy availability and historical climate instability are the most important drivers of amphibian diversity in Iberia. However, as predicted, the strength of these predictors in our case study is weaker than it tends to be at global scales. Thus, additional drivers should also be investigated and we suggest caution when interpreting these predictors as surrogates for different components of diversity.     

西南地区生物文化多样性空间格局定量研究

自然条件的丰富性与独特性以及多民族聚居的特征使得西南地区成为我国生物多样性和文化多样性的热点地区,但当前仍然缺乏对区域生物文化多样性格局的定量研究。以西南地区603个县级行政区为基本单元,探讨了西南地区的文化多样性与生物多样性的分布格局,在此基础上定量计算了生物文化多样性,从而识别西南地区生物文化多样性空间格局,并分析不同因素对多样性空间分布的影响。文化多样性与生物多样性存在一定的空间分布差异,同时也存在高低值聚类的重叠区域。高生物文化多样性的区域与高生物多样性的区域分布较为相似,而低生物文化多样性的区域与低文化多样性的区域分布较为接近;生物文化多样性的高低值聚类区呈现明显的片状格局。由于生境条件与人为干扰等原因,西南地区文化多样性、生物多样性与生物文化多样性沿河流流向大多呈现"低-高"或"低-高-低"的变化状态。影响因素分析表明,文化多样性与生物多样性产生相互促进的作用;三种多样性的空间分布都受到平均坡度的重要影响;多样性高的单元聚集在地形坡度大、海拔与坡度的差异程度较大而水体覆盖率较低的区域。文化多样性与生物多样性的密切联系表现在地理空间上的交叉重合,因此,对文化多样性与生物多样性的保护应统筹兼顾,并更多从生物文化多样性的视角或者途径来开展相关研究与保护实践。     

中国桑科植物属的空间分布及多样性

该研究以FRPS《中国植物志》全文电子版网站、中国在线植物志(eFlora)网站和国家标本资源共享平台(NSII)网站收录的全部中国桑科植物数据为基础,以部分省的植物志以及正式发表的论文为补充,查找每一个桑科植物的具体分布地点(精确到县一级),并采用地理信息系统技术,以县为空间数据的基本单元,以桑科12属的植物为研究对象,制作属的空间分布图,计算空间相似性系数,分析桑科植物各属的空间多样性及其差异。结果表明:(1)中国桑科植物中桑属的分布最广,橙桑属的分布最狭窄。(2)橙桑属与其他属的空间分布相似性系数均较低(0~0.0444),其中橙桑属与见血封喉属和牛筋藤属的相似性系数均为0,表明橙桑属与其他属的分布几乎没有重叠区;榕属与构属和柘属的空间分布相似性系数分别为0.7394和0.6795,表明这3属的空间分布有较多的重叠区;见血封喉属的分布范围较广,从热带到亚热带地区均有。(3)中国桑科植物属的多样化中心(保护区域)集中在热带和亚热带地区,其中波罗蜜属和葎草属的多样化中心均在云南,鹊肾树属的多样化中心在海南,柘属的多样化中心从热带、南亚热带扩大至中亚热带地区;榕属在中国有98个种,多样化中心分布在甘肃东南部、贵州东北部、云南南部、广西西南部、台湾南部和海南西部;桑属(11个种)的多样化中心分布在重庆南部、湖北南部、湖南西北部、贵州中南部、云南东部和广西西部。研究认为,中国桑科植物属的多样化中心各有特点,基于县的空间分布及多样性研究结果能够具体确定中国桑科植物属的最小保护区域;且该研究结果支持贵州地区是桑属植物的分化中心和过渡中心。     

中国壳斗科植物属的空间多样性及差异

该文采用地理信息系统技术,以县为空间数据的基本单元,以壳斗科植物为研究对象,制作属的空间分布图,计算空间相似性系数,分析壳斗科各属的空间多样性及其差异。结果表明,三棱栎属为连续分布,与其他属的空间分布最不相似,其他属均为间断分布,其中锥属、青冈属、柯属空间分布最相似,这3个属的多样化中心均有云南南部,水青冈的多样化中心比前3个属偏北,栎属多样化中心是四川西南部和云南西北部,西北地区东南部是联系南方与北方栎属植物的重要通道。     

Scale-dependent relationships between native richness, resource stability and exotic cover in dock fouling communities of Washington, USA

Aim In terrestrial plant communities, the relationship between native species diversity and exotic success is typically scale‐dependent. It is often proposed that within local neighbourhoods, high native diversity limits resources, thereby inhibiting exotic success. However, environmental variation that manifests over space or time can create positive correlations between native diversity and exotic success at larger scales. In marine habitats, there have been few multi‐scale surveys of this pattern, so it is unclear how diversity, resource limitation and the environment influence the success of exotic species in these systems. Location Washington, USA. Methods I analysed nested spatial and temporal surveys of fouling communities, which are assemblages of sessile marine invertebrates, to test whether the relationships between native richness, resource availability and exotic cover supported the diversity‐stability and diversity‐resistance theories, to test whether these relationships changed with spatio‐temporal scale, and to explore the temperature preferences of native and exotic fouling species. Results Survey data failed to support diversity‐stability theory: space availability actually increased with native richness at the local neighbourhood scale, and neither space availability nor variability decreased with native richness across larger spatio‐temporal scales. I did find support for diversity‐resistance theory, as richness negatively correlated with exotic cover in local neighbourhoods. Unexpectedly, this negative correlation disappeared at intermediate scales, but emerged again at the regional scale. This scale‐dependent pattern could be partially explained by contrasting water temperature preferences of native and exotic species. Main conclusions Within local neighbourhoods, native diversity may inhibit exotic abundance, but the mechanism is unlikely related to resource limitation. At the largest scale, correlations suggest that native richness is higher in cooler environments, whereas exotic richness is higher in warmer environments. This large‐scale pattern contrasts with the typical plant community pattern, and has important implications for coastal management in the face of global climate change.     

The role of habitat and daily activity patterns in explaining the diversity of mountain Neotropical dung beetle assemblages

The interaction between land use and climate change is expected to strongly affect species distributions along high elevation landscapes. We aimed to test the effect of climatic variables on community metrics among five types of land use in a high elevation landscape. We described dung beetle spatial and temporal taxonomic and functional diversity patterns, and partitioned β‐diversity into turnover and nestedness components. The interaction between land use and daily period of activity mostly drives abundance, functional richness and functional diversity, but not dung beetle species richness. Unlike Neotropical lowlands, species richness and abundance in open environments are similar to those existing in forests. Temperature is an important predictor of abundance and functional divergence. There is a higher spatial component of the taxonomic β‐diversity, which is highly driven by species turnover. The temporal component of the taxonomic β‐diversity was strongly driven by nestedness, where night assemblages are sub‐sets, although not entirely, of diurnal assemblages. For functional diversity, the temporal β‐diversity was much higher than the spatial β‐diversity, but both were similarly represented by functional group turnover and nestedness. The composition of nocturnal and diurnal assemblages is clearly different, even more than the differences observed between habitats. However, taxonomic turnover is the dominant force between sampling sites while nestedness dominates the daily pattern. This means that forest habitats are unlikely to act as shelters for grassland species under a scenario of rising temperature.     

城市景观多样性的空间尺度分析——以上海市外环线以内区域为例

景观生态学研究的就是某一空间尺度范围内的景观格局与生态过程。因为景观格局与生态过程中存在的尺度多样性 ,导致尺度成为理解景观格局和生态过程相互作用的关键 ,其已经成为景观生态学的一个重要概念 ,但是由于理论和方法的限制 ,对景观生态学的尺度研究还不够 ,特别是景观格局综合性指标在不同幅度上的变化特征和效应。在 GIS与 RS技术支持下 ,采用基准分辨率为 5 m的 SPOT遥感图像作为数据源 ,对不同幅度下的城市景观多样性的空间分布格局进行了分析 ,并进一步利用半变异函数对其空间异质性进行定量描述。结论揭示 :随着空间尺度的增加 ,景观多样性程度也不断增加 ,另外多样性的空间分布格局也具有显著变化 ,由于受城市发展历史和目前城市扩展方向的影响 ,多样性在总体上是不平衡的 ,尺度越大 ,不平衡越明显 ;不同尺度下景观多样性空间格局的变化 ,与城市景观的特点和城市景观的功能息息相关 ,不过其受经济效益和社会文化效益的影响更大 ;随着尺度增加由于掩盖了更小尺度上的变异 ,导致块金效应增强 ,空间自相关部分对系统总的变异则明显下降 ;景观多样性具有尺度依赖性 ,可以说景观多样性也是尺度的函数 ,在不同的尺度上 ,结果差异显著 ,所以在景观生态学的研究中绝对不能忽略尺度对格局的影响     

荒漠植被植物种多样性对空间尺度的依赖

物种多样性与空间尺度的关系是植物生态学的一个研究热点。传统植物生态学研究认为种面积曲线方程中 Z值是个近似常数 ,但近期对森林和草原群落的研究表明 Z是随尺度变化的。在荒漠带选择了 10个样地 ,每个样地包括 1m2 到 1km2 的 6个空间尺度样方 ,研究荒漠地区物种多样性与空间尺度的关系。结果表明 :荒漠植被物种多样性随空间尺度的增大空间依赖性减弱 ,Z也是随尺度变化的。对荒漠植被种面积曲线 Z的研究结果支持了 Z随尺度变化的结论 ,但 Z是随尺度增加而减小 ,斜率 z值从 0 .37降至 0 .0 35 ,与草原和森林群落 Z值随尺度增加而增加的结论是相反的。     

中国壳斗科植物属的空间多样性格局及其指标研究

通过植物专业网站及已发表的论文论著,查找每一种壳斗科植物在中国的具体分布地点(县),并采用地理信息系统技术,以县为空间数据的基本单元,以壳斗科植物为研究对象,从空间上获取多样性格局指标,定量研究中国壳斗科植物的属、类型的空间多样性格局。结果表明:(1)中国壳斗科植物中青冈属、栎属、锥属、柯属的斑块丰富度、多样性指数、斑块总数、总形状指数明显高于三棱栎属、栗属、水青冈属,而三棱栎属因只有一个斑块,属与种的空间多样性格局相同,与其他属明显不同。(2)中国壳斗科植物中属的空间多样性格局指标之间有一定的相关性,斑块丰富度、多样性指数、斑块总数、总形状指数相互之间、总面积与斑块总数、多样性指数、总形状指数之间呈显著正相关关系,总的最大斑块指数与均度指数之间呈显著负相关关系。(3)除三棱栎属外,其他属的斑块类型所占面积、占属面积的比例、斑块数目、最大斑块指数、形状指数各指标,基本上均随所在属斑块类型值的增加其相应指标依次降低,斑块类型与其他指标呈显著负相关关系。(4)中国壳斗科植物在青冈属、栎属、锥属、柯属中,每一个属种数为1~7的斑块类型所占面积之和、斑块数目之和分别占其属对应总指标的值均高于80%,表明种数较少的斑块类型构成了属的主要分布区,而种数较多的斑块类型,其各指标值均较低,分布范围很狭窄,但物种多样性高。     

The latitudinal gradient of species diversity among North American grasshoppers (Acrididae) within a single habitat: a test of the spatial heterogeneity hypothesis

Abstract. The spatial heterogeneity hypothesis predicts a positive relationship between habitat complexity and species diversity: the greater the heterogeneity of a habitat, the greater the number of species in that habitat. On a regional scale, this hypothesis has been proposed to explain the increases in species diversity from the poles to the tropics: the tropics are more diverse because they contain more habitats. On the local scale, the spatial heterogeneity hypothesis suggests that the tropics are more diverse because they contain more microhabitats. The positive relationship between habitat heterogeneity and species diversity, on the local scale, is well documented. In this paper, we test whether habitat heterogeneity on the local scale can explain the latitudinal gradient of species diversity on the regional scale. We determined the latitudinal gradient of species diversity of 305 species of North American grasshoppers using published distribution maps. We compared the slope of this multihabitat (regional-scale) gradient with the slope of a within-habitat (local-scale) gradient in the prairie grasslands. Our results show no significant difference between the slopes at the two scales. We tested the generality of our results by comparing multi- and within-habitat latitudinal gradients of species diversity for ants, scorpions and mammals using data from the literature. These results are in accordance with those from grasshoppers. We can therefore reject the local-scale spatial heterogeneity hypothesis as a mechanism explaining the regional-scale latitudinal gradient of species diversity. We discuss alternative mechanisms that produce this gradient.     

福建中亚热带常绿阔叶林物种多样性的空间格局

对福建中亚热带不同区域、不同海拔梯度的常绿阔叶林群落进行物种多样性测定 ,结果表明 :(1 )在 6个区域中 ,乔木层的物种多样性指数平均值高于灌木层的平均值 ;对丰富度指数 ,太平乔、灌木层 (R1、R2 )最高 ,茂地 (R1、R2 )最低 ;对多样性指数 ,乔木层夏道 (D1、H1)最高 ,土堡 (D1)、茂地 (H1)分别最低 ,灌木层峡阳(D2 )、大洋 (H2 )分别最高 ,太平 (D2 、H2 )最低 ;对均匀度指数 ,乔木层中茂地 (E1、J1)最高 ,土堡 (E1、J1)最低 ,灌木层峡阳 (E2 )、大洋 (J2 )分别最高 ,太平 (E2 、J2 )最低 ;不同区域乔木层的物种多样性指数曲线变化比灌木层缓和 ;(2 )在 6个海拔梯度群落 ,对乔木层物种数和丰富度指数在海拔 2 0 0～ 40 0m(S1、R1)最高 ,对灌木层在海拔 60 0～ 80 0m(S1、R1)最高 ;对乔、灌木层物种数和丰富度指数在海拔 1 0 0 0～ 1 2 0 0m(S1、S2 、R1、R2 )最低 ;对多样性指数 ,在乔木层中在海拔 2 0 0～ 40 0m(D1、H1)最高 ,在海拔 80 0～ 1 0 0 0m(D1、H1)最低 ,在灌木层中在海拔 60 0～ 80 0m(D2 、H2 )最高 ,海拔 80 0～ 1 0 0 0m(D2 、H2 )最低 ;对均匀度指数 ,乔木层中在海拔 10 0 0～ 1 2 0 0m(E1、J1)最高 ,在海拔 80 0～ 1 0 0 0m(E1、J1)最低 ,灌木层中在海拔 1 0 0 0～ 1 2 0 0m(E2 )     

西双版纳热带雨林树种多样性的尺度效应

基于西双版纳20hm2森林动态监测样地内直径≥1cm的树种资料,分析了该样地树种香农多样性指数和辛普森多样性指数及其方差和变异系数在7个取样尺度(5m×5m、10m×10m、20m×20m、25m×25m、50m×50m、100m×100m、200m×250m)的变化规律,结果表明:(1)香农指数-面积曲线在尺度100m×100m有一个峰值,而辛普森指数-面积曲线在尺度为20m×20m有一个峰值。(2)香农指数和辛普森指数的方差随尺度的增加而减小,其中香农指数的方差在尺度100m×100m上最小,辛普森指数在尺度20m×20m方差最小,表明香农多样性指数在100m×100m的尺度上所获得的多样性信息比较可靠,而辛普森指数在20m×20m的尺度上所获得信息比较可靠。(3)多样性指数的方差和变异系数远大于随机模型拟合的数值,说明样地内树种不是随机分布。     

天目山物种多样性尺度依赖及其与空间格局关系的多重分形

以浙江省天目山国家级自然保护区为例,采用多尺度分析思想,利用多重分形分析方法,研究了不同尺度下物种多样性的变化、空间分布格局以及多样性与空间格局之间的关系。研究主要得到3方面的结论：（1）物种多样性具有尺度依赖性,随着空间尺度的增大,Shannon-Wiener多样性指数Ⅳ增大,Margalef多样性指数足和均匀度指数E减小;（2）多重分形参数αmin。多重分形谱的变化范围SR等能够定量反映物种的空间分布特征,空间大尺度越大,物种越聚集,空间分布越不均匀;（3）物种多样性与空间格局存在线性或幂函数关系。研究表明多重分形分析定量描述物种空间格局是有效性的,多重分形参数与生物多样性之间的定量关系为研究物种空间格局、生态属性与尺度之间的关系奠定了基础。因此,分形结合传统方法,在生物多样性方面的研究将有很大的潜在价值。     

Spatial scale dependence of the species diversityin Tianmu Mountain and its relationship with spatial patterns by using multifractal analysis

This study took the Tianmu Mountain National Natural Preservation Area in western Zhejiang Province as an example 1) to quantify the species diversity with selected species indices including Shannon-Wiener index (H), Margalef index (K) and Evenness index (E) at different spatial scales, 2) to analyze the spatial distribution patterns of the species diversity by multifractal parameters such as the singularity index α, its fractal dimension f(α), the f(α)–α spectrum range (SR) and its symmetry (Dist) using the multifractal theory, and 3) to determine their relationships. Results of nonlinear regression analysis with power functions showed that increasing spatial scale resulted in increasing H but decreasing E and K, indicating that the scale dependence of species diversity existed. By using the multifractal method, it was indicated that species spatial distribution had multifractal features. Moreover, strong linear relationships of the diversity indices H, E and K with α_min and clear nonlinear associations of the diversity indices H, E and K with power functions for SR and Dist were found. Since interactions of the species diversity and the spatial characteristics are very complex, the above mentioned relationships need further validation along with precise explanations of any correlations among their ecological processes.     

Spatial scale dependence of the species diversityin Tianmu Mountain and its relationship with spatial patterns by using multifractal analysis

This study took the Tianmu Mountain National Natural Preservation Area in western Zhejiang Province as an example 1) to quantify the species diversity with selected species indices including Shannon-Wiener index (H), Margalef index (K) and Evenness index (E) at different spatial scales, 2) to analyze the spatial distribution patterns of the species diversity by multifractal parameters such as the singularity index α, its fractal dimension f(α), the f(α)–α spectrum range (SR) and its symmetry (Dist) using the multifractal theory, and 3) to determine their relationships. Results of nonlinear regression analysis with power functions showed that increasing spatial scale resulted in increasing H but decreasing E and K, indicating that the scale dependence of species diversity existed. By using the multifractal method, it was indicated that species spatial distribution had multifractal features. Moreover, strong linear relationships of the diversity indices H, E and K with α_min and clear nonlinear associations of the diversity indices H, E and K with power functions for SR and Dist were found. Since interactions of the species diversity and the spatial characteristics are very complex, the above mentioned relationships need further validation along with precise explanations of any correlations among their ecological processes.     

Spatial structure leads to ecological breakdown and loss of diversity

Spatial structure has been identified as a major contributor to the maintenance of diversity. Here, we show that the impact of spatial structure on diversity is strongly affected by the ecological mechanisms maintaining diversity. In well-mixed, unstructured environments, microbial populations can diversify by production of metabolites during growth, providing additional resources for novel specialists. By contrast, spatially structured environments potentially limit such facilitation due to reduced metabolite diffusion. Using replicate microcosms containing the bacterium Escherichia coli, we predicted the loss of diversity during an environmental shift from a spatially unstructured environment to spatially structured conditions. Although spatial structure is frequently observed to be a major promoter of diversity, our results indicate that it can also have negative impacts on diversity.     

Entomological surveillance,spatial distribution,and diversity of Culicidae (Diptera) immatures in a rural area of the Atlantic Forest biome,State of São Paulo,Brazil

Because of the high adaptive capacity of mosquitoes, studies that focus on transitional environments become very important, such as those in rural areas, which are considered as bridges between wild diseases and human populations of urban areas. In this study, a survey of the existing species of mosquitoes was performed in an Atlantic Forest area of the city of Santa Bárbara d'Oeste, São Paulo state, Brazil, using traps for immatures and analyzing the frequency and distribution of these insects over the sampling months. Five mosquito species were found: Aedes albopictus (the most frequent species), Aedes aegypti, Aedes fluviatilis, Culex quinquefasciatus, and Toxorhynchites theobaldi. The 4,524 eggs collected in ovitraps showed the presence of the tribe Aedini. Aedes aegypti and Ae. albopictus were identified after larval hatching in the laboratory, with different spatial distributions: the first of which coincides with the area of greatest diversity calculated using the Simpson index, while the second does not. The association of ecological analysis of spatial diversity with simple methods of data collection enables the identification of possible epidemiological risk situations and is a strategy that may be implemented to monitor ecological processes resulting from the interaction among different species of mosquitoes.     

山东省工业生态系统多样性

工业多样性是工业生态学关注和研究的重点,但其含义复杂,指标多种多样。选择了13个工业多样性指标,包括直接从生物多样性指数移植过来的4个指数,和根据特定目的专门构造出来的9个指数,以山东省140个县级行政单位2010年的四位码产业类型工业总产值和企业个数为统计单位,分析了山东省工业生态系统多样性的空间分布格局;采用探索性空间数据分析方法,解析了各县之间工业生态系统多样性的空间关联性。研究发现,13个工业多样性指标对山东省140个县的排序结果基本一致;2010年山东省各县工业发展很不平衡,不同县域工业发展水平有明显的差异,工业多样性高的县主要分布在青岛市、淄博市、烟台市、潍坊市、威海市、济南市、德州市、济宁市、临沂市、泰安市、枣庄市等11个地级市;各县之间工业多样性整体上表现为显著正相关的空间格局,即空间相似值的聚集分布,且以高-高聚集分布的县为主,呈现工业发展高地和洼地这种两极分化现象,其中工业发展核心区的县主要分布在青岛市、淄博市、泰安市、济南市、威海市、烟台市,工业发展洼地的县主要分布在滨州市、青岛市、枣庄市和东营市。此外,日照市、菏泽市、枣庄市存在工业发展不均衡的地区,与周边县的工业多样性空间差异较大。