Thursday, August 23, 2012

Tiny mudsnail spreading across the planet

The New Zealand mudsnail is tiny, about the size of a pencil point, but it is colonizing the planet. The snail has spread far from its home, throughout rivers, lakes and streams in Europe, Australia, Asia and America. In the United States, where it has no natural predators or parasites, it outcompetes native snails and insects for food and is considered an invasive species.

What makes this mudsnail, Potamopyrgus antipodarum, such a good invader ? The answer lies partly in the species' ability to reproduce quickly and amass in high densities. (Females can produce offspring ? up to 230 per year ? without males.) Now, research has found the New Zealand mudsnail can also survive without water for up to two days, meaning it could latch on to birds, fishing tools or land animals to hitch a ride to a new home.

Spanish researchers ?lvaro Alonso and Pilar Castro-D?ez from the University of Alcal? exposed the snails to different dehydration periods in lab experiments to see how long most survived. Even after 48 hours in dry conditions, the snails would still spring back to life when put back in water, the researchers reported in a paper published Monday in the journal NeoBiota.

  1. Science news from NBCNews.com

    1. Cast a vote for your favorite robots

      Science editor Alan Boyle's blog: For the past nine years, the Robot Hall of Fame has relied solely on expert judges to dole out its honors ? but this time, the people will get their say.

    2. 'Baywatch' star ends Noah's Ark search
    3. Eww! Newly discovered rat has no back teeth
    4. Archaeologist digs into Nazi death camp

With this information, the scientists recommended some tactics to prevent the spread of mudsnails.

First, they wrote that fishing tools and other instruments should be given a drying treatment (namely, exposing them to air for at least 50 hours) if they are going to be used in different aquatic ecosystems repeatedly.

Second, the researchers recommend using physical barriers or other mechanisms (such as scarecrows for waterfowl) to keep wild and domestic animals from accessing infected waters.

Follow LiveScience on Twitter @livescience. We're also on Facebook? and Google+.

? 2012 LiveScience.com. All rights reserved.

Source: http://www.msnbc.msn.com/id/48754555/ns/technology_and_science-science/

sun flare love hewitt new ipad solar flare joseph kony 2012 arian foster dennis kucinich

No comments:

Post a Comment

Note: Only a member of this blog may post a comment.