How animals see their world: understanding how animals see better using polarized light
Can you imagine how ultra violet patterns on flowers appear to birds? Or how insects view the polarization patterns in the sky as a navigation compass. As humans we are often not aware of all the visual information that is in our natural environment, and especially how it is used by many different species.
The polarization of light is an important source of information from insects, fish, crustaceans and cephalopods. Whilst we know most about how insects use the polarization of light to navigate, many other aquatic animals use polarization for secret channels of communication, a way of breaking camouflage and for seeing further in scattering visual environments.
We are currently offering a fully funded PhD place starting Oct 2015 to study how and why crustaceans (crabs and stomatopods) see and use polarized light. Ultimately we would like to understand the role polarization plays for these animals and discover when polarization information provides an animal an advantage. The PhD will consist of lab based behavioural ecology experiments, light and electron microscopy, and fieldwork both in the UK and possibly at the Lizard Island research station, Great Barrier Reef, Australia.
Funding: This PhD is funded through the Engineering and Physical Sciences Research Council (EPSRC) CASE conversion scheme. The CASE partner is DSTL and is restricted to only UK students.
The successful candidate could have a background in either sensory biology or even computer vision and image processing with a strong interest in biology. If you are a student (MSc or final year Undergraduate) with an excellent academic track record from a top-rank institution, and would like more information, please email email@example.com or check more on our website http://www.ecologyofvision.com
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We HAVE NOT SET A CLOSING DATE for this application - applications are encouraged as soon as possible.