Date: August 16, 2016
Source: Molecular Biology and
Evolution (Oxford University Press)
Snakes have adapted their vision
to hunt their prey day or night. For example, snakes that need good eyesight to
hunt during the day have eye lenses that act as sunglasses, filtering out
ultraviolet light and sharpening their vision while nocturnal snakes have
lenses that allow ultraviolet light through, helping them to see in the dark.
New insights into the
relationship between ultraviolet (UV) filters and hunting methods in snakes is
one of the findings of the first major study of visual pigment genes and lenses
in snakes -- published in the advanced online edition of Molecular Biology
and Evolution.
The new research was an
international collaboration between snake biologists and vision experts led by
the David Gower and included fellow Natural History Museum researchers Bruno
Simões and Filipa Sampaio. Much of the research, including most of the DNA
analyses, was carried out in the Museum's laboratories.
Scientists have long known that
snakes have highly variable sets of rods and cones -- the specialised cells in
the retina that an animal uses to detect light. But until now, most modern
studies of vision in vertebrates (animals with a backbone) have concentrated on
mammals, birds and fish.
To see in different colors,
animals use visual pigments in their rods and cones that are sensitive to
different wavelengths of light. The researchers examined the genes involved in
producing the pigments from a broad genomic survey of 69 different species of
snakes. What they found was as the genes vary from species to species so does
the exact molecular structure of the pigments and the wavelengths of light they
absorb.
The new research discovered that
most snakes possess three visual pigments and are likely dichromatic in
daylight -- seeing two primary colours rather than the three that most humans
see.
However, it also discovered that
snake visual pigment genes have undergone a great amount of adaptation,
including many changes to the wavelengths of light that the pigments are
sensitive to, in order to suit the diversity of lifestyles that snakes have
evolved.
Most snakes examined in the new
study are sensitive to UV light, which likely allows them to see well in low
light conditions. For light to reach the retina and be absorbed by the
pigments, it first travels through the lens of the eye. Snakes with
UV-sensitive visual pigments therefore have lenses that let UV light though.
No comments:
Post a Comment
You only need to enter your comment once! Comments will appear once they have been moderated. This is so as to stop the would-be comedian who has been spamming the comments here with inane and often offensive remarks. You know who you are!