Support our Kickstarter

NASA's New Life

Chris Kaplan
4221425231_93fc885d3c_b.jpg

On December 2nd, NASA held a press conference to reveal a major new discovery from their research in astrobiology.

Felisa Wolfe-Simon's team discovered a microbe in California's Mono Lake that substituted an essential building block of life, phosphorous, with a toxic arsenic. Though there is a small amount of phosphorous within the microbe cells, the amount is "just too little," as Wolfe-Simon adamantly expressed, and the normal cell continued to grow and live with arsenic as its foundation for life.

What they have discovered is a completely different branch of life--one that shatters the perception of what is commonly perceived as the fundamental materials for organic lifeforms, creating a new expanse where further research (both on and off of Planet Earth) can begin in entirely unfathomed environments.

It is unsure how exactly arsenic is being substituted, but the implications are staggering. Most exciting are the new innovations this can bring to the sphere of bio-energy. As James Elser of ASU discussed during the live release, a microorganism that doesn't need phosphorous to live will not exhaust the fertilizing nutrients that become a large cost-effective roadblock in our search for alternative fuels in a fast depleting bio-sphere.

Furthermore the ability to live without phosphorous, swapped with a toxic chemical can point in a new direction for dealing with toxic waste. And more importantly, since this microbe is metabolically the same as other life forms, it can be used to enhance, or work with current phosphorous based life, while at the same time be immune to invading bacteria and infection that could nullify the bio-organism's effectiveness because of its absence of phosphorous.

Dr. Wolfe-Simon is expected an additional paper adding to this groundbreaking research in February 2011.

"Mono Lake, CA, USA" by TerData on Flickr courtesy of Creative Commons Licensing

Tags:

Comments

High School Assembly

Submitted by Leon Night on Sun, 12/05/2010 - 10:01.

      It seemed to me to have had the atmosphere of a High School Assembly instead of the energy you'd expect when you consider the hype NASA had given it; one that I would have had the pleasure of sleeping through after double periods of gym. It's just another example of how the hype that precedes such a discovery far outshines the discovery itself.

      The answer to the question regarding how long this microbe had been in existence mad me laugh. How is it that humans get so excited, and take so much credit, when finding something that was never lost?

      Hey, lets all get excited about something that might, or might not, have any impact on humans for the next several hundred years, while our hopelessly polarized society continues to disintegrate before our very eyes. I'm not arguing against scientific research, I'm just begging for some needed perspective!

 

Have to Agree

Submitted by Chris Kaplan on Tue, 12/07/2010 - 17:12.
I would have to agree with you on that one, especially the panel discussion. Those felt rather dumbed-down, epsecially in responses to the questions from the reporters, answers being either superflouous, or rather dodged answers. Wolfe-Simon did mention a follow up paper that will explore more of her theories, but they definitely toyed with the public a bit on this one, and it feels like they are holding back on something, like they are assuming their audience is stupid, which is a great mistake.

Importance of complexity and emergence

Submitted by stephenneujahr on Fri, 12/10/2010 - 12:06.

This discovery is just one more finding that shows how important it is for us to understand complexity and emergence.

Without understanding the science of complexity we end up with class systems and top down organizing government.  Without an understanding of emergence we will never see what makes our lives so sad beyond political happenings.