Acoustic signals sometimes act as premating isolating barriers between animal species, but we know little about the circumstances that dictate the presence and strength of these barriers. Among insects, barriers to backcrossing are strengthened by acoustic signals that are under genetic control. Hybrid signals tend to be intermediate to parental signals, and signals are recognized only by like-types, which results in reinforced species boundaries. This is not typically the case in avian taxa. Instead, acoustic signal transmission is controlled by some combination of genes and learning, and perhaps as a consequence of this variation, vocalizations play a diversity of roles in avian hybrid zones. I used California and Gambel's quail (Callipepla californica and C. gambelii), hybridizing birds that do not learn to vocalize, to explore whether genetically determined vocalizations function as a species barrier. Using spectral analysis, I measured temporal features of calls of uniquely colour-banded quail that were recorded across one area of the California and Gambel's quail hybrid zone. Species discrimination is known to occur under captive conditions, though its basis is unexplored. Here I show that differences in the calls of parental species are likely great enough to permit species discrimination. Hybrid call components were intermediate to those of the parental species and covaried with genetic traits, as assessed with seven highly polymorphic microsatellite loci. Contrary to expectation, males as frequently called in response to unlike- as like-type females who had initiated antiphonal calling, which is a courtship call between a female and a male. Furthermore, paired males and females did not share like-type assembly calls, nor was there a correlation between the female's genetic or plumage traits and her mate's advertisement call. Based on these results, I conclude that California and Gambel's quail recognize each other and hybrids as potential mates and backcrossing occurs frequently. Thus, compatible mating signals could contribute to increased mixing of gene pools and slow the rate of speciation. I suggest that selection to respond to wide signal variation within species and imprinting on calls of mixed-species coveys may cause mating signal compatibility between classes within the area of hybridization. © 2005 The Linnean Society of London.
CITATION STYLE
Gee, J. M. (2005). No species barrier by call in an avian hybrid zone between California and Gambel’s quail (Callipepla californica and C. gambelii). Biological Journal of the Linnean Society, 86(2), 253–264. https://doi.org/10.1111/j.1095-8312.2005.00538.x
Mendeley helps you to discover research relevant for your work.