Well, this isn't bad news, crime news, destructive weather news ... just good ol' penguin news ... I think it's good news???


Shifting Icebergs May Have Forced Penguin Evolution
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Reuters Photo: Adelie penguins make there way to the water in the Cape Evans region of Antarctica...

The breakup of giant icebergs may have forced minor evolutionary changes in penguins over the past 6,000 years, a new study suggests.

The Antarctic iceberg chunks, which break off the continent now and then, are thought to have blocked the swim paths of Adelie penguins returning home to their colonies. Some of the penguins were forced to become immigrants in other colonies, where they established new homes and interbred with the locals.

As a result, genetic changes that might otherwise have remained isolated became widespread among the different colonies. The result is what scientist call microevolution.


Other examples

Microevolution involves small-scale genetic changes in a species over time. The classic example is a color change undergone by British pepper moths in response to changing levels of air pollution. The acquisition of antibiotic resistance by bacteria and the trend towards tusk-less elephants in Africa are also examples of microevolution at work.

Because it is so well documented, even people who don't believe that evolution can lead to the creation of new species accept that microevolution occurs.

Microevolution involves small-scale genetic changes in a species over time. The classic example is a color change undergone by British pepper moths in response to changing levels of air pollution. The acquisition of antibiotic resistance by bacteria and the trend towards tusk-less elephants in Africa are also examples of microevolution at work.


Because it is so well documented, even people who don't believe that evolution can lead to the creation of new species accept that microevolution occurs.

Most microevolution studies involve change over very short time periods, on the order of decades or a few hundred years. The detection of microevolutionary changes over longer time periods has been difficult because it requires that ancient DNA deposits be found together with samples from modern populations of the same species.

Adelie penguins may be the ideal candidates for such research. The penguins often live, breed and die in the same colonies where they were born and where their ancestors before them lived. And the remains of ancestor birds are well preserved in distinct layers of the frigid terrain, making fossil dating relatively easy.

For the study, the researchers extracted DNA from the bones of 6,000-year-old penguins and compared them to the DNA of their modern descendents. In particular, they looked at various genes made up of short stretches of repeat DNA sequences, called "microsatellite DNA."

Comparisons between the ancient and modern sequences revealed that the DNA sequences for some of the genes had gotten longer over time. The frequency of some of the different genes had changed as well: New variations had come into existence while others had been phased out.

More: http://news.yahoo.com/s/space/200511...nguinevolution