Call Properties (call + property)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Individual Male Calling Pattern and Male Mating Success in the European Treefrog (Hyla arborea): Is there Evidence for Directional or Stabilizing Selection on Male Calling Behaviour?

ETHOLOGY, Issue 2 2006
Thomas W.P. Friedl
In anurans, call properties are commonly classified based on within-male variability as being either static or dynamic. Numerous playback experiments in the laboratory have indicated that female preferences based on dynamic call properties are usually strongly directional, while female preferences based on static call properties are often stabilizing or weakly directional. However, there are only few studies demonstrating that female preferences for high values of dynamic call properties indeed exert directional selection on male calling behaviour in natural populations. Moreover, field studies investigating whether female preferences for values of static call properties around the mean of the population lead to currently operating stabilizing selection on male calling patterns in natural populations are completely lacking. Here I investigate for two consecutive breeding seasons male calling patterns and male mating success in a population of individually marked European treefrogs (Hyla arborea), a hylid frog with prolonged breeding season and a lek mating system. Individual male calling pattern as analysed in terms of seven temporal and spectral call properties did not differ between males that survived from one breeding season to the next and those not surviving. None of the seven call properties investigated differed significantly between mated and unmated males, indicating that there is no strong directional selection on male calling behaviour in the study population. However, in one study season males that produced calls with a number of pulses around the mean of the population were significantly more likely to obtain matings than males that produced calls with a number of pulses at the low or high end of the distribution. Thus, this study provides preliminary evidence for the operation of stabilizing selection on a static call property (i.e. the number of pulses per call) in a natural population of an anuran amphibian. [source]

Temporal and Geographic Variation in the Advertisement Call of the Booroolong Frog (Litoria booroolongensis: Anura: Hylidae)

ETHOLOGY, Issue 12 2005
Michael J. Smith
The mechanisms that underlie sexual selection rely upon within- and among-individual variability in the targeted traits. In this study, we examined variation in the advertisement call of the booroolong frog (Litoria booroolongensis) at several different levels: between populations, between breeding seasons in the same population, among males within a population, within males between nights and within males in a single calling bout. The call of L. booroolongensis has multiple notes with a pulsed structure. We detected considerable variation in advertisement call structure between breeding seasons and between populations. The measured call properties ranged from static to dynamic; however, most properties were intermediate between the criteria that have been traditionally used to define call traits as static or dynamic (,5 and ,12% respectively). We compared actual and relative repeatabilities and found that the temporal call properties associated with the structure of the note had the highest values, suggesting that these characters in particular may respond to selection. We argue that relative repeatabilities are a particularly useful measure of the potential for evolutionary response to selection as they account for an individual's relative performance during the period of assessment in an ever-changing breeding arena. [source]

Call Structure Variability and Field Survival among Bushcrickets Exposed to Phonotactic Parasitoids

ETHOLOGY, Issue 5 2000
Geoff R. Allen
Calling adult males of the univoltine bushcricket Sciarasaga quadrata are subject to significant mortality from the phonotactic parasitoid fly Homotrixa alleni. These flies kill their host within 14d and act as a constant ,filter' on the survival of male bushcrickets. In this study, I investigate both short-term and lifetime variability in male call structure and compare the call properties of collections of males made over a 3-mo calling season to establish whether there are any significant differences in the call properties of males surviving the length of the calling season. Call frequency, chirp length, interchirp length, chirp rate, file teeth used to make a chirp and duty cycle all showed good differentiation among males and significant repeatability: (1) within a calling bout (0.57,0.88), (2) between successive nights (0.27,0.83), and (3) over a male's lifetime (0.15,0.43). Frequency and to a lesser extent chirp length showed low variability within and among males whereas interchirp length was the most flexible and dynamic call property. As males aged, chirp length, which is produced by one wing closure, and its correlate, teeth per chirp, significantly increased and chirp rate significantly decreased. Over the calling season chirp length and teeth per chirp showed strong directional shifts. Shorter chirp males were lost from the calling population, indicating that flies may use chirp length as a cue in host location. The implications of this result are discussed in relation to the reproductive fitness of male S. quadrata and within the context of host location and sensory bias in phontotactic parasitoids. [source]

EXPERIMENTAL EVIDENCE FOR MULTIVARIATE STABILIZING SEXUAL SELECTION

EVOLUTION, Issue 4 2005
Robert Brooks
Abstract Stabilizing selection is a fundamental concept in evolutionary biology. In the presence of a single intermediate optimum phenotype (fitness peak) on the fitness surface, stabilizing selection should cause the population to evolve toward such a peak. This prediction has seldom been tested, particularly for suites of correlated traits. The lack of tests for an evolutionary match between population means and adaptive peaks may be due, at least in part, to problems associated with empirically detecting multivariate stabilizing selection and with testing whether population means are at the peak of multivariate fitness surfaces. Here we show how canonical analysis of the fitness surface, combined with the estimation of confidence regions for stationary points on quadratic response surfaces, may be used to define multivariate stabilizing selection on a suite of traits and to establish whether natural populations reside on the multivariate peak. We manufactured artificial advertisement calls of the male cricket Teleogryllus commodus and played them back to females in laboratory phonotaxis trials to estimate the linear and nonlinear sexual selection that female phonotactic choice imposes on male call structure. Significant nonlinear selection on the major axes of the fitness surface was convex in nature and displayed an intermediate optimum, indicating multivariate stabilizing selection. The mean phenotypes of four independent samples of males, from the same population as the females used in phonotaxis trials, were within the 95% confidence region for the fitness peak. These experiments indicate that stabilizing sexual selection may play an important role in the evolution of male call properties in natural populations of T. commodus. [source]

Individual Male Calling Pattern and Male Mating Success in the European Treefrog (Hyla arborea): Is there Evidence for Directional or Stabilizing Selection on Male Calling Behaviour?

ETHOLOGY, Issue 2 2006
Thomas W.P. Friedl
In anurans, call properties are commonly classified based on within-male variability as being either static or dynamic. Numerous playback experiments in the laboratory have indicated that female preferences based on dynamic call properties are usually strongly directional, while female preferences based on static call properties are often stabilizing or weakly directional. However, there are only few studies demonstrating that female preferences for high values of dynamic call properties indeed exert directional selection on male calling behaviour in natural populations. Moreover, field studies investigating whether female preferences for values of static call properties around the mean of the population lead to currently operating stabilizing selection on male calling patterns in natural populations are completely lacking. Here I investigate for two consecutive breeding seasons male calling patterns and male mating success in a population of individually marked European treefrogs (Hyla arborea), a hylid frog with prolonged breeding season and a lek mating system. Individual male calling pattern as analysed in terms of seven temporal and spectral call properties did not differ between males that survived from one breeding season to the next and those not surviving. None of the seven call properties investigated differed significantly between mated and unmated males, indicating that there is no strong directional selection on male calling behaviour in the study population. However, in one study season males that produced calls with a number of pulses around the mean of the population were significantly more likely to obtain matings than males that produced calls with a number of pulses at the low or high end of the distribution. Thus, this study provides preliminary evidence for the operation of stabilizing selection on a static call property (i.e. the number of pulses per call) in a natural population of an anuran amphibian. [source]

Call Structure Variability and Field Survival among Bushcrickets Exposed to Phonotactic Parasitoids

ETHOLOGY, Issue 5 2000
Geoff R. Allen
Calling adult males of the univoltine bushcricket Sciarasaga quadrata are subject to significant mortality from the phonotactic parasitoid fly Homotrixa alleni. These flies kill their host within 14d and act as a constant ,filter' on the survival of male bushcrickets. In this study, I investigate both short-term and lifetime variability in male call structure and compare the call properties of collections of males made over a 3-mo calling season to establish whether there are any significant differences in the call properties of males surviving the length of the calling season. Call frequency, chirp length, interchirp length, chirp rate, file teeth used to make a chirp and duty cycle all showed good differentiation among males and significant repeatability: (1) within a calling bout (0.57,0.88), (2) between successive nights (0.27,0.83), and (3) over a male's lifetime (0.15,0.43). Frequency and to a lesser extent chirp length showed low variability within and among males whereas interchirp length was the most flexible and dynamic call property. As males aged, chirp length, which is produced by one wing closure, and its correlate, teeth per chirp, significantly increased and chirp rate significantly decreased. Over the calling season chirp length and teeth per chirp showed strong directional shifts. Shorter chirp males were lost from the calling population, indicating that flies may use chirp length as a cue in host location. The implications of this result are discussed in relation to the reproductive fitness of male S. quadrata and within the context of host location and sensory bias in phontotactic parasitoids. [source]