Bat & whale echolocation genetic convergence

In Bats and Whales, Convergence in Echolocation Ability Runs Deep:

..."However, it is generally assumed that most of these so-called convergent traits have arisen by different genes or different mutations. Our study shows that a complex trait -- echolocation -- has in fact evolved by identical genetic changes in bats and dolphins."

A hearing gene known as prestin in both bats and dolphins (a toothed whale) has picked up many of the same mutations over time, the studies show. As a result, if you draw a phylogenetic tree of bats, whales, and a few other mammals based on similarities in the prestin sequence alone, the echolocating bats and whales come out together rather than with their rightful evolutionary cousins.

Both research teams also have evidence showing that those changes to prestin were selected for, suggesting that they must be critical for the animals' echolocation for reasons the researchers don't yet fully understand.

"The results imply that there are very limited ways, if not only one way, for a mammal to hear high-frequency sounds," said Jianzhi Zhang of the University of Michigan, who led the other study. "The sequence convergence occurred because the amino acid changes in prestin that result in high-frequency selection and sensitivity were strongly favored in echolocating mammals and because there are [apparently] very limited ways in which prestin can acquire this ability." Prestin is found in outer hair cells that serve as an amplifier in the inner ear, refining the sensitivity and frequency selectivity of the mechanical vibrations of the cochlea, Zhang explained.

This obviously plays into the arguments about contingency and inevitability. On the one hand the convergence across these two taxa suggest that this trait seems to result in an inevitable genetic architecture. But perhaps only for mammals. So inevitability might be a contingent aspect of evolution here. Reminds me a bit of opsins and vision.

Citation:

  1. Yang Liu, James A. Cotton, Bin Shen, Xiuqun Han, Stephen J. Rossiter, Shuyi Zhang. Convergent sequence evolution between echolocating bats and dolphins. Current Biology, 2010; DOI: 10.1016/j.cub.2009.11.058
  2. Ying Li, Zhen Liu, Peng Shi, Jianzhi Zhang. The hearing gene Prestin unites echolocating bats and whales. Current Biology, 2010; DOI: 10.1016/j.cub.2009.11.042

More like this

Millions of years before humans invented sonar, bats and toothed whales had mastered the biological version of the same trick - echolocation. By timing the echoes of their calls, one group effortlessly flies through the darkest of skies and the other swims through the murkiest of waters. It's…
Echolocation - or biological sonar - can be thought of as an auditory imaging system that is used by organisms in environments where vision is ineffective. It involves the emission of vocalizations by the animal, and the detection of the echoes of those sounds, which are used to produce three-…
The state of China has 1/5 of humanity within its borders, so it's genetic structure is of interest. It is obviously important for medical reasons to clarify issues of population structure so that disease susceptibility among the Han is well characterized, in particular with the heightened medical…
Many of my SciBlings have been doing posts on "basic concepts" in their fields of expertise. As I am studying hair cell regeneration as a therapy for hearing impairment, I thought I might do a 'basic concepts post' on what hearing is, how humans hear, and why we lose it sometimes. The most…

Awesome. I wonder if conferring the ability to detect high frequencies was the initial step in developing an echolocation sense. It will be interesting to see if other aspects (e.g. cortical) of the ability are convergent. This plays to both sides...the massive contingency involved in expanding the auditory spectrum in the first place, but maybe followed by the near-certainty that the utility of high-frequency sound for echolocation will be exploited once it is there.