Even though female fence lizards with blue markings are more common than those without, the males seem to find the unmarked females more attractive, a new study shows.
The results of the research, which offers a snapshot into the evolution of male-female differences, appears in the early online edition of Biology Letters.
Male fence lizards of the species Sceloporus undulatus have bright blue “badges” outlined in black on both sides of their throats and abdomens, and previous studies have shown that testosterone drives the production of these badges, which are highly visible during the animal’s courtship rituals and other behavioral displays.
However, many females also have this blue ornamentation, although it is less vibrant and covers a smaller area.
“Just as some human females have male-pattern facial hair, albeit less pronounced than in males, some female fence lizards display the typically-male blue markings,” says Tracy Langkilde, an associate professor of biology at Penn State.
“However, whereas in human females the masculine characteristics are less common within the population, in fence lizards, we see the opposite pattern: About three quarters of the females are so-called ‘bearded ladies,’ making masculinized females much more common than their counterparts with little or no blue ornamentation.”
Using a combination of field observations and laboratory manipulations, Langkilde and graduate student Lindsey Swierk designed experiments to determine whether male lizards preferred the more-masculine bearded ladies or their more-feminine sisters.
“We found that, although males do not say ‘no’ to bearded ladies, they clearly discriminate against blue-ornamented females, opting more often to court females without coloring,” Swierk says. “The question is ‘why’? Is it possible the males mistake the bearded ladies for fellow males? Or are bearded ladies somehow less fit and, therefore, less attractive to males?”
Lighter, later babies
To answer this last question, the team members studied the differences between the reproductive output of bearded ladies and the less-common females without male-pattern coloring.
They found that, compared to their more-feminine counterparts, bearded ladies laid clutches that weighed less. In addition, they laid their eggs about 13 days later in the mating season. “The lower mass may indicate that the eggs have smaller yolks and so the embryos don’t have as many available nutrients,” Langkilde says.
“As for the timing, the 13-day difference is significant. It means that the bearded ladies’ offspring hatch later, so they have less time to gather food and to prepare for overwinter hibernation, which is a tough period that few babies survive.
“As a result, females with less blue coloration may have an evolutionary advantage with regard to the fitness of their offspring. This might explain why males tend to prefer them.”
Langkilde and Swierk hypothesize that, although bearded ladies currently are more common in many fence-lizard populations, the evolutionary tide might be turning. “What we might be observing is a gradual trend toward more sexual dimorphism within this species,” Swierk says.
Sexual dimorphism is defined as the difference in color, shape, size, or structure between males and females of the same species. For example, human males tend to be larger than human females and they also have other distinguishing characteristics such as stronger brow ridges and more facial and body hair.
Signs of fitness
Darwin and others have suggested that one of the major factors driving these differences is sexual selection—the theory that an animal chooses a member of the opposite sex based on some observable feature that signals good health and superior genes.
Although the classic example of this phenomenon involves selection of males by females—namely, the male peacock’s elaborate and calorically expensive tail attracting the female peahen—sexual selection likely also explains why males are more attracted to females with certain “fitness-signaling” traits.
“It is possible that, over the course of several generations, we will see the more-feminine lizards winning out over their bearded-lady sisters,” Langkilde adds. “In time, the percentage of bearded ladies could dwindle and the balance could shift. However, another possibility is that bearded ladies have some other evolutionary advantage that keeps their numbers high within populations.”
That other evolutionary advantage, the team members explain, could be behavioral. For example, bearded ladies, which likely have higher levels of testosterone, might be more aggressive and thus better able to fight off predators or competitors when compared to the more-feminine females.
“Bearded ladies also may be more sexually aggressive so, although the males don’t prefer them, they may initiate more of the courtship and mating and produce as many or more offspring for this reason,” Langkilde says. “Another possibility,” she adds, “is that bearded ladies may benefit by having especially sexy sons.”
The team’s previous research has shown that females prefer really blue males and so, “if these bearded ladies pass their vivid coloration on to their sons, this could give them an advantage by ensuring they have lots of grandchildren,” Langkilde says.
The National Science Foundation, a Gaylord Donnelley Environmental Fellowship, the National Geographic Society, and the Eppley Foundation for Research funded the research.
Source: Penn State