Natural Anti-freeze: How Arthropods Survive The Cold
- Date:
- April 3, 2007
- Source:
- Society for Experimental Biology
- Summary:
- Given the choice, many of us would opt for warmer climes during the bleak midwinter. However, most of us cannot afford to move abroad for a few months, so instead we pile on extra layers of clothing to keep warm. Arthropods face much the same dilemma, as they cannot migrate long distances to avoid low winter temperatures -- so why are they not killed off by the cold?
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Given the choice, many of us would opt for warmer climes during the bleak midwinter. However, most of us cannot afford to move abroad for a few months, so instead we pile on extra layers of clothing to keep warm. Arthropods face much the same dilemma, as they cannot migrate long distances to avoid low winter temperatures -- so why are they not killed off by the cold?
Dr Melody Clark, from the British Antarctic Survey, presented data on the fascinating ways two species of these animals combat the cold 3rd April at the Society for Experimental Biology's Annual Meeting in Glasgow.
Onychiurus arcticus (from the Arctic) uses protective dehydration to survive harsh Arctic winters. This means that water is lost from the body across a diffusion gradient between the animals' super-cooled body fluids and ice in the surroundings. "During this process the body loses all its water and you end up with a normal looking head, and a body which looks like a crumpled up crisp packet when it is fully dehydrated. But add a drop of water and it all goes back to normal!" explains Dr Clark. Scientists examined the different stages of this process to see which genes were activated.
Cryptopygus antarcticus lives in the Antarctic and uses a different mechanism to survive cold temperatures. These creatures accumulate anti-freeze compounds which lower the temperature at which their bodies freeze, meaning they can withstand temperatures as low as minus 30°C. Within this population there is a clear divide into less- and more-cold hardened animals, which has been a puzzle to researchers. However, by looking for differences in gene expression levels between the two populations, scientists think that there could be a link to moulting (this is the process by which arthropods shed their exoskelton).
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