Extreme cave fish with ‘alien’ appetites
 
TEXAS A&M (US) — Could life exist on planets  less hospitable than our own? 
Scientists studying a tiny Mexican fish say it’s  quite possible.

The fish we study are extremophiles, meaning they are adapted to life at  
the edge of biological tolerance,” says Katherine Roach, a graduate student 
at  _Texas A&M  University_ 
(http://agrilife.org/today/2011/10/04/texas-am-scientists-study-mexican-fish-with-an-‘alien’
-appetite/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed:+AgrilifeToday+(AgriLife+Today))
  in the 
wildlife and fisheries sciences  department.  
Roach, together with Kirk Winemiller and collaborator Michael Tobler,  
recently authored a paper on the fish published  in the journal _Ecology._ 
(http://www.esajournals.org/doi/abs/10.1890/11-0276.1?prevSearch=[AllField:+Poecil
ia+mexicana]+and+[Contrib:+Roach]&searchHistoryKey=)   The small fish they 
studied is Poecilia mexicana found in the Cueva del Azufre  or the “cave of 
sulfur” located in Tabasco state, Mexico. 
 
_Read the original study_ 
(http://www.esajournals.org/doi/abs/10.1890/11-0276.1?prevSearch=[AllField:+Poecilia+mexicana]+and+[Contrib:+Roach]&searchHist
oryKey=)  
The small (about 2.5 inches at maturity), almost blind fish live in  total 
darkness swimming in oxygen-starved water with hydrogen sulfide  
concentrations so toxic they would kill most other life forms, according to  
Roach.
“Our research shows that organic carbon produced by sulfur bacteria 
oxidizing  dissolved hydrogen sulfide, a process called chemoautotrophy, is the 
main food  source for the fish,” Roach says. “Though it is known that simpler 
life forms  flourish by feeding through this process, ours is the first 
study to actually  document a fish, a true vertebrate, directly receiving its 
sustenance through  bacteria performing chemoautotrophy. 
“Their ecosystem in the cave is basically self-sustaining without much 
input  from plants at the surface. As a result, our research has implications 
for  discovering life outside the earth. If these complex vertebrates can 
thrive on  sulfur bacteria, why couldn’t similar, more evolutionary derived 
organisms be  supported by chemoautotrophic bacteria on other moons or planets 
such as Europa,  one of Jupiter’s moons? It may not be altogether impossible.”
 
Roach explains that most of the earth’s ecosystems have food chains 
supported  by organic carbon produced from the fixation of atmospheric carbon 
dioxide by  plants using sunlight. These, in turn, release breathable oxygen 
into 
the  atmosphere. 
Roach says another study in Movile Cave in Romania a few years ago examined 
a  population of macroinvertebrates that have been isolated in the cave for 
some  5.5 million years, which also feed on chemoautotrophic bacteria. She 
says that  study generated enough public interest to warrant its own 
_Wikipedia page_ (http://en.wikipedia.org/wiki/Movile%20Cave)  and notes that 
author E.O.  Wilson highlights this case study in his book The Future of Life. 
“What makes our study so exciting is that we’re the first to actually  
document a fish, a relatively large and complex vertebrate, that is able to  
thrive by being solely supported by chemoautotrophic-processed hydrogen 
sulfide  bacteria,” Roach says. 
_http://www.futurity.org/science-technology/extreme-cave-fish-with-%E2%80%98
alien%E2%80%99-appetites/_ 
(http://www.futurity.org/science-technology/extreme-cave-fish-with-‘alien’-appetites/)

Reply via email to