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Imagine you are a part
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of a crew of astronauts
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traveling to Mars or some distant planet.
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The travel time could take a year,
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or even longer.
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The space on board and the resources
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would be limited.
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So you and the crew would have
to figure out how to produce food
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with minimal inputs.
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What if you could bring with you
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just a few packets of seeds,
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and grow crops in a matter of hours,
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and what if those crops would then
make more seeds,
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enabling you to feed the entire crew
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with just those few packets of seeds
for the duration of the trip?
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Well, the scientists at NASA actually
figured out a way to do this.
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What they came up with
was actually quite interesting,
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and it involved microorganisms,
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which are single-celled organisms.
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And they also used hydrogen from water.
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The types of microbes that they used
were called hydrogenotropes,
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and with these hydrogenotropes,
you can create a virtuous carbon cycle
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that would sustain life
on board a spacecraft.
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Astronauts would breathe out
carbon dioxide.
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That carbon dioxide would then
be captured by the microbes
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and converted into a nutritious,
carbon-rich crop.
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The astronauts would then eat
that carbon-rich crop,
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and exhale the carbon out
in the form of carbon dioxide,
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which would then be captured
by the microbes
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to create a nutritious crop,
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which then would be exhaled
in the form of carbon dioxide
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by the astronauts.
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So in this way, a closed loop
carbon cycle is created.
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So why is this important?
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We need carbon to survive as humans,
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and we get our carbon from food.
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On a long space journey,
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you simply wouldn't be able to pick up
any carbon along the way.
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So you'd have to figure out
how to recycle it on board.
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This is a clever solution, right?
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But the thing is, that research
didn't really go anywhere.
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We haven't yet gone to Mars.
We haven't yet gone to another planet.
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And this was actually done
in the '60s and '70s.
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So a colleague of mine,
Dr. John Reed, and I,
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we were interested actually
in carbon recycling here on Earth.
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We wanted to come up
with technical solutions
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to address climate change.
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And we discovered this research
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by reading some papers published
in the '60s, 1967 and later articles
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about this work,
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and we thought it was a really good idea.
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And so we said, well,
Earth is actually like a spaceship.
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We have limited space
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and limited resources,
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and on Earth we really do need
to figure out how to recycle
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our carbon better.
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So we had the idea,
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can we take some of these NASA-type ideas
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and apply them to our carbon problem
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here on Earth?
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Could we cultivate
these NASA-type microbes
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in order to make valuable products
here on Earth.
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And we started a company to do it,
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and in that company,
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we actually discovered that these
hydrogenotropes,
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which I'll actually call nature's
supercharged carbon recyclers,
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we found that they are
a powerful class of microbes
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that had been largely overlooked
and understudied,
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and that they could make
some really valuable products.
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And so we began cultivating
these products, these microbes in our lab.
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We found that we can make
essential amino acids
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from carbon dioxide using these microbes,
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and we even made a protein-rich meal
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that has an amino acid profile
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that's similar to what you might find
in some animal proteins.
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And we began cultivating
them even further,
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and we found that we can make oil.
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And oils are used to manufacture
many products.
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We made an oil that was similar
to a citrus oil,
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which can be used for flavoring
and for fragrances,
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but it also can be used
as a biodegradable cleaner
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or even as a jet fuel.
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And we made an oil
that's similar to palm oil.
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And palm oil is used to manufacture
a wide range of consumer
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and industrial goods.
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So we began working with manufacturers
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to scale up this technology,
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and we are currently working with them
to bring some of these products to market.
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We believe that this type of technology
can indeed help us
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profitably recycle carbon dioxide
into valuable products,
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something that's beneficial for the planet
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but also beneficial for business.
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But that's what we're doing today,
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but tomorrow, this type of technology
and using these types of microbes
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actually could help us
do something even greater,
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if we take it to the next level.
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So we believe that this type of technology
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can actually help us address
an issue with agriculture,
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and allow us to create
a type of agriculture that's sustainable,
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that will allow us to scale
to meet the demands of tomorrow.
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And why might we need
a sustainable agriculture?
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Well actually, it is estimated
that the population will reach
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about 10 billion by 2050,
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and we're projecting that we will need
to increase food production
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by 70 percent.
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In addition, we will need many more
resources and raw materials
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to make consumer goods
and industrial goods.
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So how will we scale to meet that demand?
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Well, modern agriculture simply cannot
sustainable scale to meet that demand,
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and there are a number of reasons why,
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and one of them is that modern agriculture
is one of the largest emitters
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of greenhouse gases.
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In fact, it emits more greenhouse gases
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than our cars, our trucks, our planes,
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and our trains combined.
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Another reason is that modern ag
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simply takes up a whole lot of land.
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We have cleared 19.4 million square miles
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for crops and for livestock.
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What does that look like?
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Well, that's roughly the size
of South america and Africa combined.
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And let me give you a specific example.
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In Indonesia, an amount
of virgin rainforest
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was cleared totaling the size
of approximately Ireland
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between 2000 and 2012.
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Just think of all of the species,
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the diversity, that was removed
in the process,
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whether plant life, insects,
or animal life.
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And a natural carbon sink
was also removed.
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And so let me make this real for you.
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This clearing happened primarily
to make room for palm plantations.
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And as I mentioned before,
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palm oil is used
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to manufacture many products.
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In fact, it is estimated
that over 50 percent of consumer products
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are manufactured using palm oil.
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And that includes things like ice cream,
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cookies.
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It includes cooking oils.
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It also includes detergents,
lotions, soaps.
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So you and I both
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probably have numerous items
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in our kitchens and our bathrooms
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that were manufactured using palm oil.
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So you and I are direct beneficiaries
of removed rainforest.
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So modern ag has some problems,
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and we need solutions
if we want to scale sustainably.
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So I believe that microbes
can be a part of the answer,
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and specifically these super-charged
carbon recyclers.
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These super-charged carbon recyclers,
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like plants, serve as
the natural recyclers
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in their ecosystems where they thrive,
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and they thrive in exotic places on Earth
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like hydrothermal vents and hot springs.
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And in those ecosystems,
they take carbon and they recycle it
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into the nutrients needed
for those ecosystems.
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And they're rich in nutrients,
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such as oils and proteins, minerals,
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and carbohydrates.
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And actually, microbes are already
an integral part of our everyday lives.
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So if you enjoy a glass of pinot noir
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on a Friday night
after a long, hard work week,
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then you are enjoying
a product of microbes.
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If you enjoy a beer
from your local microbrewery,
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a product of microbes.
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Or bread, or cheese, or yogurt.
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These are all products of microbes.
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But the beauty and the power
associated with these super-charged
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carbon recyclers
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lies in the fact that they can actually
produce in a matter of hours
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versus months,
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so that means we can make crops
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much faster than we're making them today.
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They grow in the dark,
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so they can grow in any season
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and in any geography and any location.
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And they can grow in containers
that require minimal space.
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And we can get to a type
of vertical agriculture,
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instead of our traditional
horizontal agriculture
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that requires so much land.
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We can scale vertically,
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and as a result produce much more product
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per area.
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If we implement this type of approach
and use these carbon recyclers,
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then we wouldn't have to remove
any more rainforests
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to make the food and the goods
that we consume.
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Because, at a large scale,
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you can actually make
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10,000 time more output per land area
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than you could, for instance,
if you used soybeans,
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if you planted soybeans
on that same are of land
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over a period of a year.
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Ten thousand times
over a period of a year.
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So this is what I mean
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by a new type of agriculture,
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and this is what I mean
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by developing a system
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that allows us to sustainably scale
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to meet the demands of 10 billion.
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And what would be the products
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of this new type of agriculture?
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Well, we've already made a protein meal,
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so you can imagine something
similar to a soybean meal,
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or even cornmeal, or wheat flour.
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We've already made oils,
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so you can imagine something similar to
coconut oil or olive oil or soybean oil.
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So this type of crop
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can actually produce the nutrients
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that would give us pasta and bread,
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cakes, nutritional items of many sorts.
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And furthermore, since oil
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is actually used to manufacture
multiple other goods,
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industrial products,
and consumer products,
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you can imagine being able to make
detergents, soaps, lotions, etc.
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using these types of crops.
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So not only are we running out space,
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but if we continue to operate
under the status quo
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with modern agriculture,
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we run the risk of robbing our progeny
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of a beautiful planet.
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But it doesn't have to be this way.
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We can imagine a future of abundance.
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Let us create systems that
keep planet Earth, our spaceship,
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not only from not crashing,
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but let us also develop systems
and ways of living
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that will be beneficial
to the lives of ourselves
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and the 10 billion that will be
on this planet by 2050.
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Thank you very much.
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(Applause)
closed TED
