Diverse effects of degree of urbanisation and forest size on species richness and functional diversity of plants, and ground surface-active ants and spiders.

Ramona Laila Melliger,Bruno Baur,Brigitte Braschler,Hans-Peter Rusterholz,Petr Heneberg

doi:10.1371/journal.pone.0199245

Ramona Laila Melliger, Bruno Baur + Show 3 more

Open Access

https://doi.org/10.1371/journal.pone.0199245

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Journal: PloS one	Publication Date: Jun 19, 2018
Citations: 65	License type: CC BY 4.0

Affiliation: University of Basel

Abstract

Urbanisation is increasing worldwide and is regarded a major driver of environmental change altering local species assemblages in urban green areas. Forests are one of the most frequent habitat types in urban landscapes harbouring many native species and providing important ecosystem services. By using a multi-taxa approach covering a range of trophic ranks, we examined the influence of degree of urbanisation and forest size on the species richness and functional diversity of plants, and ground surface-active ants and spiders. We conducted field surveys in twenty-six forests in the urban region of Basel, Switzerland. We found that a species’ response to urbanisation varied depending on trophic rank, habitat specificity and the diversity indices used. In plants, species richness decreased with degree of urbanisation, whereas that of both arthropod groups was not affected. However, ants and spiders at higher trophic rank showed greater shifts in species composition with increasing degree of urbanisation, and the percentage of forest specialists in both arthropod groups increased with forest size. Local abiotic site characteristics were also crucial for plant species diversity and species composition, while the structural diversity of both leaf litter and vegetation was important for the diversity of ants and spiders. Our results highlight that even small urban forests can harbour a considerable biodiversity including habitat specialists. Nonetheless, urbanisation directly and indirectly caused major shifts in species composition. Therefore, special consideration needs to be given to vulnerable species, including those with special habitat requirements. Locally adapted management practices could be a step forward to enhance habitat quality in a way to maximize diversity of forest species and thus ensure forest ecosystem functioning; albeit large-scale factors also remain important.

Highlights

Urbanisation is increasing globally and is considered a main driver of environmental change [1]
We considered the degree of urbanisation and forest size either as continuous variables or as factors in the statistical analyses to examine their potential effects on species diversity
When we grouped species according to their habitat specificity, we observed a reduction in the percentage of forest specialist species with decreasing forest size in both arthropod groups

Summary

Introduction

Urbanisation is increasing globally and is considered a main driver of environmental change [1]. Several studies along urbanisation gradients reported alterations in abiotic conditions in the remaining habitat patches caused by increases in temperature, precipitation and N deposition from the rural surroundings to the city centre [1, 4, 5]. These changes influence habitat quality and, the species richness, species composition and functional diversity of plants and animals [3, 6, 7], which in turn affect the functioning of ecosystems [8]. Urban areas can harbour remarkably high species richness [12], in some cases exceeding that of their rural surroundings [6, 13]

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