10-Centimeter Single-Celled Organisms Photographed 6 Miles Underwater 134
New submitter roat35 tips news that researchers from the Scripps Institution of Oceanography have used Dropcam — a relatively small, glass-walled device containing an HD camera — to make videos of lifeforms that exist in the Mariana Trench, more than six miles below the surface of the Pacific Ocean. One of the more interesting organisms at those depths is the Xenophyophore, a creature which, despite being single-celled, can grow to be over 10 centimeters wide.
"Scientists say xenophyophores are the largest individual cells in existence. Recent studies indicate that by trapping particles from the water, xenophyophores can concentrate high levels of lead, uranium and mercury and are thus likely highly resistant to large doses of heavy metals. They also are well suited to a life of darkness, low temperature and high pressure in the deep sea."
Re:Heavy metals? (Score:5, Insightful)
I can't be the only one thinking that an organism that is simple and can absorb heavy metals sounds almost too good to be true. Sounds like something that *could* be easy (in relative terms) to genetically modify for cleaning up toxic areas.
Yes, I know, what could possibly go wrong...
There are actually lots of microbes that metabolize and break down toxic wastes. Typically they are found simply by digging into a pile of hazardous waste and seeing what is growing there. The problem is that these organisms don't have to be particularly fast or efficient to defend their niche, they just need to survive where other's can't, so in their natural state they will not make a significant difference on the timescales convenient to us (i.e. a 1,000 year cleanup). So we need to at least understand enough to genetically engineer a yugo into a porche, and that isn't exactly easy.
The second catch here is that deep sea life also typically has extremely slow metabolisms to begin with compared to terrestrial organisms. You can't spend energy faster than you take it in, and that's very slow indeed on the ocean floor. Fish down there are adapted to months inbetween feedings and can live for many decades, I can only imagine how slowly these 10 cm blobs eat and reproduce.