Acoustically eavesdropping bat predators take longer to capture katydid prey signalling in aggregation

Prakash, Harish; Greif, Stefan; Yovel, Yossi; Balakrishnan, Rohini

doi:10.1242/jeb.233262

Cited by 12 publications

(9 citation statements)

References 51 publications

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“…Maintaining a continuous sing-along but extending their signaling for several hours also comes with its downsides, which require further adaptations in response to visual predators, as we will discuss later. Previous works have described how katydid aggregation in space can lower the effectiveness of bat captures ( Prakash et al, 2021 ). Although we did not test the relationship between acoustic frequency and duration of the diel calling activity, our preliminary analysis suggests that species with lower dominant frequencies tend to call for shorter periods ( e.g ., Cricket1 vs Katydid5; Fig.…”

Section: Discussionmentioning

confidence: 99%

Satellite remote sensing of environmental variables can predict acoustic activity of an orthopteran assemblage

Gomez-Morales

Acevedo‐Charry

2022

PeerJ

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Passive acoustic monitoring (PAM) is a promising method for biodiversity assessment, which allows for longer and less intrusive sampling when compared to traditional methods (e.g., collecting specimens), by using sound recordings as the primary data source. Insects have great potential as models for the study and monitoring of acoustic assemblages due to their sensitivity to environmental changes. Nevertheless, ecoacoustic studies focused on insects are still scarce when compared to more charismatic groups. Insects’ acoustic activity patterns respond to environmental factors, like temperature, moonlight, and precipitation, but community acoustic perspectives have been barely explored. Here, we provide an example of the usefulness of PAM to track temporal patterns of acoustic activity for a nocturnal assemblage of insects (Orthoptera). We integrate satellite remote sensing and astronomically measured environmental factors at a local scale in an Andean Forest of Colombia and evaluate the acoustic response of orthopterans through automated model detections of their songs for nine weeks (March and April of 2020). We describe the acoustic frequency range and diel period for the calling song of each representative species. Three species overlapped in frequency and diel acoustics but inhabit different strata: canopy, understory, and ground surface level. Based on the acoustic frequency and activity, we identified three trends: (i) both sampled cricket species call at lower frequency for shorter periods of time (dusk); (ii) all sampled katydid species call at higher frequency for longer time periods, including later hours at night; and (iii) the diel acoustic activity span window seems to increase proportionally with dominant acoustic frequency, but further research is required. We also identified a dusk chorus in which all the species sing at the same time. To quantify the acoustic response to environmental factors, we calculated a beta regression with the singing activity as a response variable and moon phase, surface temperature and daily precipitation as explanatory variables. The response to the moon phase was significant for the katydids but not for the crickets, possibly due to differences in diel activity periods. Crickets are active during dusk, thus the effects of moonlight on acoustic activity are negligible. The response to precipitation was significant for the two crickets and not for the katydids, possibly because of higher likelihood of rain interrupting crickets’ shorter diel activity period. Our study shows how the local survey of orthopteran acoustic assemblages, with a species taxonomic resolution coupled with remote-sensing environmental measurements can reveal responses to environmental factors. In addition, we demonstrate how satellite data might prove to be a useful alternative source of environmental data for community studies with geographical, financial, or other constraints.

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Section: Discussionmentioning

confidence: 99%

Satellite remote sensing of environmental variables can predict acoustic activity of an orthopteran assemblage

Gomez-Morales

Acevedo‐Charry

2022

PeerJ

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“…Similar to other substrate-gleaning bats, M. spasma may opportunistically use different prey cues in different scenarios [38][39][40], with flight providing a powerful cue, possibly detected by echolocation, since they do not approach flight sounds [23]. Unlike Micronycteris microtis, M. spasma rarely approach silent, motionless, walking or tremulating prey even in the absence of vegetation cover [40,41]. It is likely that future studies might reveal similar hierarchies of risk across predatory bat and katydid prey species, with flight being the most risky behaviour, given that acoustic call cessation and synchrony are successful anti-predator strategies against eavesdropping bats [41,42].…”

Section: Discussionmentioning

confidence: 99%

“…Unlike Micronycteris microtis, M. spasma rarely approach silent, motionless, walking or tremulating prey even in the absence of vegetation cover [40,41]. It is likely that future studies might reveal similar hierarchies of risk across predatory bat and katydid prey species, with flight being the most risky behaviour, given that acoustic call cessation and synchrony are successful anti-predator strategies against eavesdropping bats [41,42]. Thus, selection against flight in prey species is likely to be widespread and perhaps stronger than selection against signalling.…”

Section: Discussionmentioning

confidence: 99%

Multimodal duetting in katydids under bat predation risk: a winning strategy for both sexes

2023

Self Cite

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Duetting is a behaviour observed in some animal species, in which both males and females participate in signalling to find mates. It may have evolved as an adaptation to reduce the costs associated with mate-finding behaviours, such as predation risk. Duetting systems allow estimation of sex-specific predation risks of signalling and searching in the same species, giving insights into the selective forces acting on these behaviours. Using an acoustic–vibratory duetting katydid, Onomarchus uninotatus , and its bat predator, Megaderma spasma , we estimated the sex-specific predation costs of different mate-finding behaviours, such as walking, flying and signalling, by conducting experiments with untethered live katydids and bats. We found that acoustic–vibratory duetting benefits both the sexes as a low-risk mate-finding strategy.

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“…One hypothesis is that singers that synchronize are less vulnerable to phonotactic predators and parasitoid flies, which find it more difficult to locate a single singer within the chorus. Some support for this idea has been found in Mecopoda (Prakash et al, 2021), where acoustically orienting bats take longer to capture an individual singing in a chorus than one singing alone.…”

Section: Evolution Of Chorusesmentioning

confidence: 97%

Acoustic signalling in Orthoptera

Hall

Robinson

2021

Advances in Insect Physiology

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Acoustic communication is one of the most well-known behavioural traits of the Orthoptera. Orthopteran insects and the sounds they produce are both extremely diverse, and speciesspecific sounds are an extremely important tool in orthopteran taxonomy and systematics. For most species, acoustic signalling is the most important means of communication. It plays a vital role in mating, mate choice, intrasexual competition, interspecific interactions with predators and parasitoids, and the divergence of populations and species. The enormous diversity of the orthopterans has provided researchers with a wealth of model systems for studying anatomy, physiology, neurobiology, bioacoustics, communication, life-history traits, behaviour, evolutionary ecology, and speciation, all areas in which acoustic communication is important. We first reviewed orthopteran sound signalling nearly 20 years ago (Robinson and Hall, 2002), since when there has been an enormous amount of further work. This second review will look mainly at research published since that first review.

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Acoustically eavesdropping bat predators take longer to capture katydid prey signalling in aggregation

Cited by 12 publications

References 51 publications

Satellite remote sensing of environmental variables can predict acoustic activity of an orthopteran assemblage

Satellite remote sensing of environmental variables can predict acoustic activity of an orthopteran assemblage

Multimodal duetting in katydids under bat predation risk: a winning strategy for both sexes

Acoustic signalling in Orthoptera

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