We
have a continuing effort aimed at somehow exploiting cellulose. It
is a difficult problem not from a lack of chemical pathways but
rather for lack of a cost effective pathway. This is obviously
continuing and we are really no further ahead than were five years
ago when I first pointed this out.
I do
think that it will still be solved sooner or later. This is not zero
energy or perpetual motion. It is a case of tricky biochemical
pathways been developed that are highly productive.
Certainly
doing anything clever with wood chips would be exceedingly welcome.
The default there is natural rotting and mushroom production in order
to shape the woodland or carbonizing to produce fuel or biochar.
Both fuel a long term beneficiation of the managed woodland and that
is still ok. Food on the other hand is readily converted into high
quality foodstuff.
Still
too soon to get excited.
Let Them Eat Wood!
(If It's Turned Into Starch)
by ELIZA BARCLAY
June 05, 2013
For Percival
Zhang, growing up in China meant learning to appreciate just how
critical a stable food supply is to avoiding social unrest and
disasters like famine.
When he became an
associate professor of biological systems engineering at Virginia
Tech, he got to thinking just how risky growing food has become
because of the finite resources it requires: land, water, seeds and
fertilizer.
Plenty of other plants
on Earth, on the other hand, aren't so demanding.
"Wood,
bushes, grasses — they don't need special attention, and
in nature, there's more than 100 times more of this nonfood biomass
than the starch we currently grow as food," he tells The Salt.
So he got an idea:
What if we could convert the cellulose in this plentiful biomass to
edible starch, which makes up 50 to 60 percent of the human diet?
Maybe a technology like that could feed people while reducing the
environmental impact of agriculture.
In a study published
this spring with colleagues in the Proceedings of the National
Academy of Sciences, Zhang explains a process he developed to
transform solid cellulose — which could come from wood, grass or
crop residue (like corn husks) — into a carbohydrate called
amylose.
The process is a form
of synthetic biology and relies on enzymes to break down
the cellulose into smaller units and then restitch the molecules into
starch. That means the final, edible food product — a powder
that Zhang says tastes sweet — is completely synthetic but
resembles other complex carbohydrates like corn starch.
Zhang is far from the
only one to entertain this zany-sounding idea. Even astrobiologists
at NASA are interested in transforming inedible parts of
plants into food. They say astronauts may want to grow plants for
food on long-term missions, and it would be handy if they could
utilize the cellulose in the plants.
Cellulose also
contains glucose, so why not just turn wood or corn husks into sugar?
Zhang says he wanted to create a healthier food product that wouldn't
cause blood sugar levels to rise and fall.
"We need a
slow-metabolized sugar like starch so that humans can keep blood
glucose levels nearly constant," he says. That's especially
important these days, given that the modern diet, high in sugar, is
contributing to the risk of developing diabetes and other chronic
diseases.
One
company, Ingredion, which has developed all kinds of products
from corn, tapioca, wheat, potatoes and other raw materials, is
already turning the cellulose in the husks of genetically modified
corn into edible products. But Zhang says his process is unique
because he can use any kind of biomass, and he can convert it
efficiently.
In the short term, he
thinks his starch might be useful as a low-calorie, easily digestible
coating to transform the texture of other food products. For example,
Zhang says, his powder could be subbed in for bread crumbs to coat
and fry chicken. But in the long term, he hopes that this kind of
technology will allow humans to turn to cellulose as a food source if
and when traditional agriculture is up against more severe resource
limitations.
So will we be seeing
starch made from wood or corn husks in the near future? Not likely —
for now, the production cost is too high. Enzymes, in particular, are
expensive and unstable, though Zhang says he's confident that the
cost will come down.
But if this technology
does eventually make it to market, it wouldn't be the first time that
many of us would have eaten products derived from cellulose. Turns
out, the food industry has already figured out that you don't even
need to convert cellulose into starch to eat it.
Cellulose products are
commonly used as an additive in processed foods to improve
consistency and mouth feel and to add bulk in products such as salad
dressings and ice cream. But unlike Zhang's invention, this cellulose
doesn't provide useful nutrients — it just passes through the body.
Just check out this list compiled by TheStreet.com, which shows
cellulose's prominence in fast food and processed food, including
Wendy's Frosty milkshakes and KFC popcorn chicken.
Like fat, cellulose
can also help keep food moist, making it a popular substitute for oil
or butter in low-fat baked goods, according to the Mayo
Clinic.
No comments:
Post a Comment