September 29, 2016 by Iqbal
Pittalwala
How do key innovations in the
animal kingdom arise? To explore this question, gecko expert Timothy Higham, an
associate professor of biology at the University of California, Riverside, led
a team of evolutionary biologists to study Gonatodes, a genus of dwarf geckos.
In the process, the researchers found a gecko, Gonatodes humeralis, that they
posit offers a "snapshot" into the evolution of adhesion in geckos.
"The gecko adhesive
apparatus, one of the most spectacular innovations displayed by vertebrates, has
been intensively studied for the last 16 years and is of considerable interest
to nanotechnologists and biomimeticists,"
Higham said. "But almost nothing is known about the origin of this
adhesive capability. G. humeralis, found in South America, shows how the
adhesive capabilities of geckos may
have come about. Our integrative analysis of this gecko shows that unexpectedly
it has microscopic hairs, called setae, underneath its toes, which allow it to
do something dramatically different than all other geckos in the Gonatodes
genus: cling to smooth surfaces such as leaves. It does this without all of the
complex structure of the toes that typify the geckos that we are more familiar
with. In the lab, this gecko
can climb smooth vertical surfaces using its incipient adhesive
system."
Higham explained that the setae
interact with surfaces through attractive van der Waals forces. The relatively
simple expression of setae on the digits of G. humeralis thus provide an
enormous advantage in sectors of the habitat typified by smooth, low-friction,
inclined surfaces, such as leaves and slippery stems, allowing G. humeralis to
avoid predators by occupying habitat that other members of the genus cannot.
While it can securely attach to vertical bamboo shoots, for example, other
species in the Gonatodes genus generally scale rough tree trunks, rocks, fallen
palm trees and move on the ground – areas where their predators abound.
"The relatively simple
adhesive system of the G. humeralis is indicative that slight modifications in
form can dramatically influence functional outcomes and the ecological niches
that can be exploited," Higham said. "This ostensibly padless gecko
offers us a snapshot – a crucial intermediate stage – of the evolution of the
adhesion apparatus. It's telling us, 'Look, this is how pad-bearing geckos
started to acquire adhesion.'"
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