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/ Technology News / 2008 / August 2008 / August 29, 2008 Fish loses armour to survive in freshwater lake |
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A new study by researchers from the University of British Columbia in Canada (UBC) has indicated that by shedding its bony armour, the stickleback fish has managed to thrive in freshwater and outsize its marine ancestor, a find which supports Charles Darwins natural selection theory.
Ottawa, August 29 : A new study by researchers from the University of British Columbia in Canada (UBC) has indicated that by shedding its bony "armour", the stickleback fish has managed to thrive in freshwater and outsize its marine ancestor, a find which supports Charles Darwin's natural selection theory.
Measuring three to 10 centimeters long, stickleback fish originated in the ocean but began populating freshwater lakes and streams following the last ice age.
Over the past 20,000 years - a relatively short time span in evolutionary terms - freshwater sticklebacks have lost their bony lateral plates, or "armour," in these new environments.
"Scientists have identified a mutant form of a gene, or allele, that prohibits the growth of armour," said UBC Zoology student Rowan Barrett.
Found in less than one per cent of marine sticklebacks, this allele is very common in freshwater populations.
Barrett and co-authors UBC post-doctoral fellow Sean Rogers and Professor Dolph Schluter set out to investigate whether the armour gene may have helped sticklebacks "invade" freshwater environments.
They relocated 200 marine sticklebacks with the rare armour reduction allele to freshwater experimental ponds.
"By documenting the physical traits and genetic makeup of the offspring produced by these marine sticklebacks in freshwater, we were able to track how natural selection operates on this gene," said Rogers.
"We found a significant increase in the frequency of this allele in their offspring, evidence that natural selection favours reduced armour in freshwater," said Barrett.
Barrett and Rogers also found that offspring carrying the allele are significantly larger in size.
"It leads us to believe that the genetic expression is also tied to increased growth rate," said Barrett.
"If the fish aren't expending resources growing bones - which may be significantly more difficult in freshwater due to its lack of ions - they can devote more energy to increasing biomass," he said.
"This in turn allows them to breed earlier and improves over-winter survival rate," he added.
"This study provides further evidence for Darwin's theory of natural selection by showing that environmental conditions can directly impact genes controlling physical traits that affect the survival of species," said Barrett.
ANI
