Great Himalayan Leaf-Nosed Bats Produce Different Territorial Calls to Respond to Sympatric Species and Non-Living Objects.

Hexuan Qin,Xin Zhao,Congnan Sun,Lei Feng,Tinglei Jiang,Jiang Feng

doi:10.3390/ani10112040

Abstract

Simple SummaryMany animals produce keep-out signals to keep intruders from entering their territories. Studies have shown that bats produce territorial calls to defend the conspecifics intrusion. However, it remains unknown whether bats can adjust their territorial calls in response to different types of intruders, such as heterospecifics or non-living objects. We simulated the process of territory defense in male great Himalayan leaf-nosed bats toward two sympatric species and four non-living objects to investigate their acoustic responses. Bats displayed different acoustic responses for different types of intruders, suggesting that territorial calls of male great Himalayan leaf-nosed bats may convey emotional state information when the bats respond to invasion by sympatric species or non-living objects. Our results are valuable for understanding animal cognition and interactions among bat species from an acoustic perspective.Territorial signals are important for reducing the cost of territory defense. Normally, male animals will produce keep-out signals to repel intruders from entering their territory. However, there is currently no evidence that bats can adjust their territorial calls to respond differently to sympatric species or non-living objects. In this study, we simulated the process of territory defense in male Great Himalayan leaf-nosed bats (Hipposideros armiger) toward two sympatric species (Hipposideros pratti and Rhinolophus sinicus) and four different non-living objects (a fur specimen of H. armiger, a bat model, a speaker, and a speaker with playback of H. armiger echolocation calls) to investigate their acoustic responses. There were significant differences in the territorial call complexity, syllable rate, and syllable ratio produced by H. armiger under the different experimental conditions. Our results confirmed that bats can adjust their territorial calls to respond to different sympatric species and non-living objects. The results will further our understanding of animal cognition and interactions among bat species from an acoustic perspective.

Highlights

A territory is defined as an area that animals exclusively occupy and actively defend [1]
There were a total of 2039 territorial calls produced by the nine H. armiger included in this study that were selected for analysis
We found that diversity index (DI), syllable rates, and syllable ratios of territorial calls were significantly different when H. armiger responded to conspecifics and two sympatric species, and the observed classification success among the three bat species was significantly higher than expected from random chance, supporting our first prediction

Summary

Introduction

A territory is defined as an area that animals exclusively occupy and actively defend [1]. Many animals such as bats, starlings, sparrows, and domestic pigeons own and defend a private territory in Animals 2020, 10, 2040; doi:10.3390/ani10112040 www.mdpi.com/journal/animals. Animals 2020, 10, 2040 order to obtain better rest (including sleep) or shelter [2]. Rest and sleep occupy most of the daily life of animals relative to other activities. The quality of roost territory can affect the quality of rest, which indirectly affects the individual’s physiological state, immunity, metabolism, and cognitive memory. Acoustic signals are widely used to defend against possible intruders during territorial conflicts High-quality rest is helpful for maximizing survival and reproductive potential [3,4].

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