Comparing acoustic and radar deterrence methods as mitigation measures to reduce human-bat impacts and conservation conflicts

Where humans and wildlife co-exist, mitigation is often needed to alleviate potential conflicts and impacts. Deterrence methods can be used to reduce impacts of human structures or activities on wildlife, or to resolve conservation conflicts in areas where animals may be regarded as a nuisance or po...

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Veröffentlicht in:	PloS one 2020-02, Vol.15 (2), p.e0228668
Hauptverfasser:	Gilmour, Lia R V, Holderied, Marc W, Pickering, Simon P C, Jones, Gareth
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics Animal behavior Animals Bats Biology and Life Sciences Cameras Chiroptera Chiroptera - physiology Conservation Conservation of Natural Resources Deterrents Ecology and Environmental Sciences Engineering and Technology Environmental protection Exterior lighting Fatalities Habitats Health hazards Historic buildings & sites Humans Infrared cameras Infrared Rays Linear Models Measurement methods Methods Mitigation Mortality Noise pollution Physical Sciences Pipistrellus pipistrellus Pipistrellus pygmaeus Public buildings Radar Reduction Research and Analysis Methods Social Sciences Sound Species Species Specificity Test procedures Ultrasonic imaging Ultrasonic processing Ultrasonics Urine Wildlife Wildlife conservation
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creator	Gilmour, Lia R V Holderied, Marc W Pickering, Simon P C Jones, Gareth
description	Where humans and wildlife co-exist, mitigation is often needed to alleviate potential conflicts and impacts. Deterrence methods can be used to reduce impacts of human structures or activities on wildlife, or to resolve conservation conflicts in areas where animals may be regarded as a nuisance or pose a health hazard. Here we test two methods (acoustic and radar) that have shown potential for deterring bats away from areas where they forage and/or roost. Using both infrared video and acoustic methods for counting bat passes, we show that ultrasonic speakers were effective as bat deterrents at foraging sites, but radar was not. Ultrasonic deterrents decreased overall bat activity (filmed on infrared cameras) by ~80% when deployed alone and in combination with radar. However, radar alone had no effect on bat activity when video or acoustic data were analysed using generalised linear mixed effect models. Feeding buzzes of all species were reduced by 79% and 69% in the ultrasound only treatment when compared to the control and radar treatments, but only the ultrasound treatment was significant in post-hoc tests. Species responded differently to the ultrasound treatments and we recorded a deterrent effect on both Pipistrellus pipistrellus (~40-80% reduction in activity) and P. pygmaeus (~30-60% reduction), but not on Myotis species. However, only the ultrasound and radar treatment was significant (when compared to control and radar) in post-hoc tests for P. pipistrellus. Deterrent treatment was marginally non-significant for P. pygmaeus, but the ultrasound only treatment was significant when compared to radar in post-hoc tests. We therefore suggest that acoustic, but not radar methods are explored further as deterrents for bats. The use of acoustic deterrence should always be assessed on a case-by-case basis, with a focus on bat conservation.
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subjects	Acoustics Animal behavior Animals Bats Biology and Life Sciences Cameras Chiroptera Chiroptera - physiology Conservation Conservation of Natural Resources Deterrents Ecology and Environmental Sciences Engineering and Technology Environmental protection Exterior lighting Fatalities Habitats Health hazards Historic buildings & sites Humans Infrared cameras Infrared Rays Linear Models Measurement methods Methods Mitigation Mortality Noise pollution Physical Sciences Pipistrellus pipistrellus Pipistrellus pygmaeus Public buildings Radar Reduction Research and Analysis Methods Social Sciences Sound Species Species Specificity Test procedures Ultrasonic imaging Ultrasonic processing Ultrasonics Urine Wildlife Wildlife conservation
title	Comparing acoustic and radar deterrence methods as mitigation measures to reduce human-bat impacts and conservation conflicts
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