Darwin’s theory of sexual selection by female choice has become a standard explanation for exaggerated sexually dimorphic traits, such as the peacock’s (Pavo cristatus) long tail. Eyespot beauty-based female choice requires genetic variation in female preference and the number of eyespots, as well as a genetic correlation between the two. However, little genetic variation has been documented in either of these traits in natural and feral peacock populations. We examined the anatomical plan underlying feather development and discovered that eyespot feather follicles originate in alternating rows of 10/11, which uniquely determines the train’s feather complexity, bilateral symmetry, and eyespot arrangement and beauty. This pattern precludes intrinsic variation in eyespot number, resulting in a fixed number of total eyespots in fully mature individuals. Since number of eyespots and tail length are independent traits and function of the age of the animal, the only variation available in these trats is also function of age. We propose an alternate, male drive, hypothesis in which females choose males based on their overall dominance (size, vigour, call, courting), and beauty of the train may (or may not) be a factor in female choice but it cannot affect the train length. This hypothesis can explain all known results.
Collected from museum specimens of peacock's tail.
Missing data values (indicated by "-" sign) are due to poor quality of the specimen.
Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada, Award: RSS245