Friday, February 16, 2007

Regressive Evolution in Cavefish

Regressive Evolution in the Mexican Cave Tetra, Astyanax mexicanus. 2007. M. Protas et al. Current Biology
"Regressive evolution," or the reduction of traits over time, is the result of either natural selection or genetic drift, according to new a study on cavefish.
From the press release:

Previously, scientists could not determine which forces contributed to regressive evolution in cave-adapted species, and many doubt the role of natural selection in this process. Darwin himself, who famously questioned the role of natural selection in eye loss in cave fishes, said, "As it is difficult to imagine that eyes, although useless, could be in any way injurious to animals living in darkness, I attribute their loss wholly to disuse."

Cave adaptations have evolved in many species independently, and each cave species can be considered a replicate of the same evolutionary experiment that asks how species change in perpetual darkness. This makes cavefish a rich source for the examination of the evolutionary process.

Their results suggest that eyes and pigmentation regressed through different mechanisms. Mutations in cave populations that affected eye or lens size invariably caused size reductions. This observation is consistent with evolution by natural selection and inconsistent with evolution by genetic drift. By contrast, mutations in cave populations that affected pigmentation sometimes caused increases instead of decreases in pigment cell density, consistent with evolution by random processes and genetic drift.

Allaying Darwin's doubts about the role of natural selection in eye loss, the researchers suggest that the high metabolic cost of maintaining the retina is the source of selection against eyes in the cave. By contrast, no such great cost is associated with pigmentation—thus, the two traits regress for different reasons.