POTTY MOUTH
Microbes are often used to break down
wasteatsewagetreatmentplants.
Brocadia anammoxidanscan survive
without oxygen and loves nothing better
than to lunch on ammonia and nitrate in
human waste, producing a fuel that could,
theoretically, be used for space probes.
MICROBES
2 LIFE ON THE EDGE
These metal-munching microbes are just some
of the many tiny, super-powered organisms
living in extreme environments on Earth.
So-called ‘extremophiles’ can survive in
conditions that are hostile to other life. Take the
case of the Aquifex genus of bacteria, which
lives in hot springs in Yellowstone National
Park, where temperatures can reach a toasty
96°C. Or the salt-loving Halobacterium
halobium, which survives in sediments that are
10 times saltier than seawater. And then there is
‘The Daddy’ of all extremophiles – Conan the
Bacterium (aka Deinococcus radiodurans),
which can withstand acid baths, radiation doses
and huge extremes of temperatures.
But El-Naggar and his team are intent on
finding out more about the electron-eating
microbes in particular. They’ve already made
some astounding discoveries about their
anatomy. One day when filming Shewanella
under a microscope, it dawned on the team that
seemingly innocuous hair-like appendages were
vital to the electron transfer system. Electrons
were travelling along these ‘nanowires’ to the
mineral substrate. And El-Naggar believes that
when microbes are piled one on top of another
in sediment, the nanowires act a bit like straws,
so that the microbes at the bottom of the pile can
still transfer electrons.
Until a couple of years ago, the team studied
the microbes in a lab setting, because they
wa nted to use physical elect rodes in place of
the electron donors or acceptors that these
organisms interact with in nature.“Electrodes
give a huge advantage since they don’t get
consumed and allow physical interrogations of
the mechanisms by changing electric potentials
and so on,” says El-Naggar.
Recently, the team put their electrode-reactor
in the gold mine of the Sanford Underground PHOTOS: ALAMY, SCIENCE PHOTO LIBRARY ILLUSTRATION: JAMES OLSTEIN
A MARVELLOUS
MICROBIAL MENU
The strange eating habits of some
of the world’s most bizarre bugs
PLASTIC SURGERY
Around 300,000 tonnes of plastic swirl
around the planet’s oceans at any one
time. That is one giant plastic problem.
The good news is that a team of Japanese
scientists has discovered a bacterium
(Ideonella sakaiensis) that eats the
plastic found in most disposable bottles.
SLICK SOLUTION
In April 2010, the Deepwater Horizon oil
rig burst into flames, spilling almost five
million barrels of oil. Genetically
modified Alcanivorax borkumensis
microbes were brought in to help with
the clean-up operation by breaking
down the oil’s molecular structure.
NUKED!
In 2014, a team from the University of
Manchester discovered that various
microbes can degrade the organic
material found in nuclear waste. The
microbes use the waste as a source of
food and energy, and prevent radioactive
elements leaking into the environment.
SMARTY PANTS
Stinky underwear can be a problem on
any long journey – particularly if you’re
aboard the International Space Station.
The solution? In the 1990s, Russian
scientists tried using various bacteria to
degrade soiled underwear and turn the
resulting methane into biofuel.