Structure of a metacommunity of urban bees: Species diversity and spatio-temporal modularity

IF 3 2区环境科学与生态学 Q2 ECOLOGY Basic and Applied Ecology Pub Date : 2024-04-15 DOI:10.1016/j.baae.2024.04.004

Yoko L. Dupont , Mette Balslev Greve , Henning Bang Madsen , Claus Rasmussen , Sérgio Timóteo , Jens M. Olesen

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Abstract

As the globe gets more urbanised, the question about how natural biodiversity is structured in cities becomes increasingly pertinent. To contribute to an answer, we studied species richness and spatio-temporal structure of bees in a North European metropolitan area. A gradient of 13 sites in the city of Aarhus, Denmark, was censused from April to September 2016. Forty species, i.e. 29 solitary species (40 % of all individuals), ten Bombus species (28 %), and Apis mellifera (32 %), were sampled monthly in pan traps. (i) Information about species traits was extracted from the literature, and trait values were correlated and used to characterize the fauna. Most were soil-nesters, pollen generalists, and common. (ii) Habitat diversity within five concentric circles with trap at the centre and radii from 50 m to 1000 m was related to bee α diversity. The relationship was significant only within 1,000 m for all bees and for bumblebees. Solitary bee diversity was uncorrelated with habitat diversity at all spatial levels. (iii) Spatio-temporal structure was analysed as two networks, one for bees linked to sites, and one for bees linked to months. Link patterns were analysed for levels of nestedness, modularity, and spatio-temporal β diversity. The two networks were weakly and non-significantly nested, but strongly modular, being composed of five and four modules of co-occurring bees, respectively. (iv) Finally, we studied total β diversity, β_TOTAL, being the sum of species turnover, β_TURN, and species loss/gain or nestedness, β_NEST. For both site and season, β_TURN was higher than β_NEST, and site β_TOTAL was higher than season β_TOTAL. One reason for this metacommunity structure may be a high spatio-temporal habitat patchiness, sustaining a rich biodiversity. Thus, a few large areas may not compensate for the loss of several small patches. Consequently, establishment of many green, even small habitats is recommended.

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城市蜜蜂元群落的结构：物种多样性和时空模块化

随着全球城市化进程的加快，城市中自然生物多样性的结构问题变得越来越重要。为了找到答案，我们研究了北欧都市地区蜜蜂的物种丰富度和时空结构。2016年4月至9月，我们对丹麦奥胡斯市的13个地点进行了梯度普查。每月在盘式诱捕器中采样 40 个物种，即 29 个独居物种（占所有个体的 40%）、10 个 Bombus 种类（28%）和 Apis mellifera（32%）。(i) 从文献中提取了有关物种特征的信息，并将特征值相关联，用于描述动物群的特征。大多数为土壤筑巢动物、花粉通食动物和常见动物。(ii) 以诱捕器为中心，半径从 50 米到 1000 米的五个同心圆内的生境多样性与蜜蜂 α 多样性有关。只有在 1 000 米范围内，所有蜜蜂和熊蜂的α多样性才有明显关系。在所有空间水平上，独居蜂的多样性与生境多样性都不相关。(iii) 时空结构作为两个网络进行分析，一个是蜜蜂与地点的联系，另一个是蜜蜂与月份的联系。对链接模式的嵌套程度、模块化程度和时空 β 多样性进行了分析。这两个网络的嵌套程度较弱且不显著，但模块化程度较高，分别由五个和四个共同出现的蜜蜂模块组成。(iv) 最后，我们研究了总β多样性（βTOTAL），即物种更替（βTURN）和物种损益或嵌套性（βNEST）的总和。在研究地点和研究季节，βTURN 都高于 βNEST，研究地点的 βTOTAL 也高于研究季节的 βTOTAL。造成这种元群落结构的原因之一可能是栖息地的时空错落性较高，维持了丰富的生物多样性。因此，几大块区域可能无法弥补几小块区域的损失。因此，建议建立许多绿色甚至小型的栖息地。

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来源期刊

Basic and Applied Ecology 环境科学-生态学

CiteScore

6.90

自引率

5.30%

发文量

103

审稿时长

10.6 weeks

期刊介绍： Basic and Applied Ecology provides a forum in which significant advances and ideas can be rapidly communicated to a wide audience. Basic and Applied Ecology publishes original contributions, perspectives and reviews from all areas of basic and applied ecology. Ecologists from all countries are invited to publish ecological research of international interest in its pages. There is no bias with regard to taxon or geographical area.