Response of bats and nocturnal insects to urban green areas in Europe

Lucía Villarroya-Villalba,Joan Casanelles-Abella,Marco Moretti,Pedro Pinho,Roeland Samson,Anskje Van Mensel,François Chiron,Florian Zellweger,Martin K Obrist

doi:10.1016/j.baae.2021.01.006

Abstract

Animal biodiversity in cities is generally expected to be uniformly reduced, but recent studies show that this is modulated by the composition and configuration of Urban Green Areas (UGAs). UGAs represent a heterogeneous network of vegetated spaces in urban settings that have repeatedly shown to support a significant part of native diurnal animal biodiversity. However, nocturnal taxa have so far been understudied, constraining our understanding of the role of UGAs on maintaining ecological connectivity and enhancing overall biodiversity. We present a well-replicated multi-city study on the factors driving bat and nocturnal insect biodiversity in three European cities. To achieve this, we sampled bats with ultrasound recorders and flying insects with light traps during the summer of 2018. Results showed a greater abundance and diversity of bats and nocturnal insects in the city of Zurich, followed by Antwerp and Paris. We identified artificial lighting in the UGA to lower bat diversity by probably filtering out light-sensitive species. We also found a negative correlation between both bat activity and diversity and insect abundance, suggesting a top-down control. An in-depth analysis of the Zurich data revealed divergent responses of the nocturnal fauna to landscape variables, while pointing out a bottom-up control of insect diversity on bats. Thus, to effectively preserve biodiversity in urban environments, UGAs management decisions should take into account the combined ecological needs of bats and nocturnal insects and consider the specific spatial topology of UGAs in each city.

Highlights

Urbanisation is a heterogeneous, worldwide phenomenon imposing important challenges to wildlife conservation
Around 91% of the bat calls belonged to Pipistrellus pipistrellus, while long-range echolocators (LRE) and short-range echolocators (SRE) accounted for 5% and 4% of the bat calls, respectively
In Antwerp and Paris bat diversity was strongly reduced with increasing values of artificial light at night (ALAN) RGB, despite having a different range of illumination

Summary

Introduction

Urbanisation is a heterogeneous, worldwide phenomenon imposing important challenges to wildlife conservation. In Europe, most cities have developed in former agricultural lands sharing similar environmental histories. They are still heterogeneous in their cityscape. This heterogeneity has been noticed previously (Ramalho & Hobbs, 2012), most urban ecology studies still follow a single-city approach hampering the extrapolation of the results to other cities (Beninde et al, 2015). Despite urbanisation reducing the amount of available habitat, cities contain a network of urban green areas (UGAs) that have been shown to be a key factor enhancing biodiversity (McIntyre, Rango, Fagan & Faeth, 2001; Sattler, Duelli, Obrist, Arlettaz & Moretti, 2010)

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