Condition dependence in the sexual communication system of the Tungara frog
Data files
Dec 05, 2023 version files 147.47 KB
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ConditionDependenceSexualCommunicationTungaraFrog_WilhiteRyan.xlsx
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README.md
Abstract
Sexual selection can result in the evolution of extreme armaments and ornaments, and the development and maintenance of these traits can come at a considerable cost. These costs have been implicated in enforcing an upper limit on trait divergence and promoting condition-dependent traits such that only individuals in sufficiently high condition can effectively wield these armaments and advertise these ornaments. Numerous studies demonstrate the condition-dependence of sexually selected traits, especially those used by males to advertise to females. In this study, we investigated condition-dependent mating calls in the túngara frog Physalaemus (Engystomops) pustulosus. We manipulated male condition in the laboratory over a nine-day period by restricting food availability. We then documented the relationship between male condition (the relative change in body mass from night 1 to night 9) and acoustic parameters of his mating call; how male condition influenced the male’s responses to call playbacks; and finally, if male condition influenced the attractiveness of the male’s calls to females. Males who were not fed during this period showed significant changes to acoustic parameters relating to frequency, duration, and amplitude. In response to playbacks, unfed males called less, and made fewer complex calls. Finally, in phonotaxis experiments, females were more attracted to the calls of unfed males on night 1 to the calls of the same males on night 9. Fed males, on the other hand, showed no significant differences between nights 1 and 9 in call parameters, calling effort, and call attractiveness. This study shows the pervasive effects of condition on three aspects of sexual communication: signal parameters, behavioral response to vocal competition, and mating call attractiveness.
README: Condition Dependence in the Sexual Communication System of the Tungara frog
https://doi.org/10.5061/dryad.2ngf1vhw8
Give a brief summary of dataset contents, contextualized in experimental procedures and results.
Description of the data and file structure
DurW - duration of the whine
AmpW - amplitude of the whine
DomFreqStartW - dominant frequency at the start of the whine
DomFreqEndW - dominant frequency at the end of the whine
DomFreqW - dominant frequency for the entire call
ToneAmp - Amplitude of the calibrated tone
Amp.Tone - Amplitude of the calibrated tone in dB
LOG Call/Tone - log difference accounting for difference in distance for absolute amplitude
ABS.AmpW - absolute amplitude of the whine
LOG.chuck - log difference accounting for difference in distance for absolute amplitude of the chuck
ABS.AmpC - absolute amplitude of the chuck
RiseTime - time from start of the call to peak amplitude
FallTime - time from peak amplitude to end of call
DurC - duration of the chuck
AmpC - amplitude of the chuck
DomFreqC - dominant frequency of the chuck
BeginTime - start time of the call in the file
PeakTime - the time when call reaches peak amplitude
DelTW - change in time between peak amplitude and end of call duration of the whine (calculate fall time)
DelTC - change in time between peak amplitude and end of chuck duration (not used for calculations)
MinAmpW - minimum amplitude of the whine
MinAmpC - minimum amplitude of the chuck
MaxAmpW - max amplitude of the whine
MaxAmpC - max amplitude of the chuck
ToneMinAmp - minimum amplitude of the calibration tone
ToneMaxAmp - maximum amplitude of the calibration tone
ANY EMPTY/YELLOW HIGHLIGHTED CELL - data was unavailable for that parameter of the call or was not used for calculation (meaning the parameter was measured manually). No collected data has been omitted.
Code/Software
RStudio 2023.09.0 Build 463
Packages Used
tidyverse
lme4
lmerTest
cowplot
ggsignif
ggfortify
factoextra
factoMiner
Rmisc