Carotenoid-based plumage ornaments are typically consideredto be sexually selected traits, functioning as honest condition-dependentsignals of phenotypic quality, but few studies have addressedthe function of carotenoid color variation in male contestcompetition. Using two experiments, we investigated the statussignaling function of the variable (ranging from yellow tored) carotenoid throat patch (collar) in the polygynous, sexually
dimorphic red-collared widowbird (Euplectes ardens). First,we tested if the red collar functions as a dominance signalby painting spectrometrically controlled collar patches ontothe brown plumage of nonbreeding males and staging dyadic malecontests over food resources. Red-collared males dominatedorange males, which in turn dominated the control brown andnovel blue collars. Red dominance persisted when the collar
manipulations were reversed within dyads and also when testedagainst testosterone implanted males. In the second experimentthe collar size and color of breeding males were manipulatedin the field before and after territories were established.All males with enlarged red and most with enlarged orange orreduced red collars obtained territories, whereas most maleswith reduced orange and all with blackened (removed) collarsfailed to establish or retain territories. In addition, amongthe territorial males, those with reduced signals defendedsmaller territories, received more intrusions, and spent moretime in aggressive interactions. Redness and, to a lesser extent,size of the carotenoid ornament both seem to independently
indicate male dominance status or fighting ability in male contest
competition. 相似文献
The western white butterfly, Pontia occidentalis, has distinctly different wing phenotypes during spring and summer generations as a result of phenotypic plasticity (seasonal polyphenism). We experimentally generated different seasonal phenotypes in the lab by altering photoperiodic conditions during rearing, and released the resulting butterflies in the field. Mark-recapture studies were then used to estimate the effects of the polyphenism on activity patterns and adult survival in both late-spring (one study) and summer (two studies) conditions. There were no significant effects of rearing treatment on temporal patterns of behavioral activity during either the late-spring or the summer field studies. Recapture probabilities were consistently higher for males than females in all three field studies; in the summer 1992 study, recapture probabilities were higher for long-day (LD) than for short-day (SD) treatment groups. During the late-spring 1992 study, there were no significant differences between LD and SD treatment groups for survival probabilities. In the two summer studies, there were significant effects of photoperiodic treatment on survival probabilities; in the summer 1992 study, LD individuals consistently had higher survival probabilities than SD individuals; in the summer 1991 study, there was a significant interaction between treatment and time period on survival probabilities, such that survival probabilities were higher for LD than for SD individuals in two of four time periods. The consistent differences in survival probabilities between treatment groups in the summer 1992 study can be accounted for by the differences in wing traits between the treatment groups. Micrometeorological data from the study site showed that midday ambient temperatures averaged ~3°C hotter during the 1992 than the 1991 summer study and that ambient conditions during the late-spring 1992 study were relatively warm and sunny for the season. These results document the varying relationships between phenotype and fitness in the temporally fluctuating environments experienced by this population. 相似文献
1. 1. Spectral integral reflectance, transmittance and the resulting absorption of intact and descaled butterfly wings of the black-winged Pachliopta aristolochiae (Papilionidae), the white-winged Pieris brassicae (Pieridae), and the yellow-winged Gonepteryx rhamni (Pieridae) were determined between 350 and 800 nm.
2. 2. Whereas in the black forewing of the dorsal basking Pachliopta almost all incident light is absorbed nearly independent of the wavelength and thus converted into heat, the white forewing of the body basking Pieris absorbs less than 20% in the visible range of the spectrum.
3. 3. The yellow hindwing of the lateral basking Gonepteryx absorbs to a higher degree than the Pierid wing, but—due to the sparsely arranged scales—transmittance is clearly increased (40–50% between 525 and 800 nm).
4. 4. The varying thermal characteristics of the different wings with reference to the color and arrangement of the scales and the different basking strategies of the butterflies are discussed.