Snack Time with NASA: Chips & Dip
Narration:
Transcript:
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We use satellite data to track.
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Hello, my name is Jocelyn
Argueta, and this is Snacktime
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with NASA. Today we're making a
big favorite in my house chips
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and dip. We are NASA, though, so
this isn't going to be your
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run-of-the-mill dip. This will
be a seven-layer cropland dip.
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Stick with me here.
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Did you know that NASA plays a
big part in the food you eat? We
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use data from space to monitor
agriculture and track food
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security. So coincidentally, we
have some of the crops that we
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keep an eye on, get it now,
seven-layer cropland dip. So we
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can send a rover to Mars, but
now the question is, can we make
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a tasty dip. But before we get
started, I want to welcome Dr.
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Inbal Becker-Reshef, who's here
to tell us all about NASA's
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connection to the food we eat.
Hi Inbal, how are you doing
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today?
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Hi, Jocelyn. Great. How are you?
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Awesome. It's great to have you.
So first things first, are you a
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fan of chips and dip?
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I love chips. Yes.
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Oh, good. Good. Good to hear. So
as the director of NASA's
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Agriculture and Food Security
program, can you tell us a
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little bit about why NASA
studies agriculture in the first
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place when we're known more for
space exploration then cooking.
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As we all know, our planet Earth
is also a planet. And so NASA
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has satellites that are pointing
out into space. But it also has
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a lot of Earth Observing
satellites pointing here down at
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Earth. And of course, that's
really critical because we live
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here. And that's important for
us to track and understand how
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we're changing our planet, how
our planet is responding. And in
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particular, tracking
agriculture, which is what we're
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concerned with here. Food
Security and agriculture are one
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of the biggest challenges we
face in this century. And NASA
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satellite data since actually
going back to the early days of
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satellite monitoring, there has
always been a large focus on
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agriculture, agriculture covers
a huge part of our land system.
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And what that does is that helps
us to get an accurate and timely
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understanding of potential
shortfalls, or surplus of crops
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and for production around the
world.
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So it sounds like everything is
connected much like different
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ingredients in a larger dish.
And I've just laid down the
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first layer here of our dip,
which are refried black beans.
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And it sounds like Earth
Observations work in a similar
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way where things connect
together. So how do these
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observations help us better
understand food security and
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food production, especially in
the face of climate change?
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As we said food security is one
of the most important and
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critical challenges that we
face. And so therefore having
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information about where food is
being grown, how much of it is
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being grown, how it's changing
over time, how it responds to
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different climatic factors to
extreme weather events, which of
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course, as you've said, under
climate change, in a warming
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climate, we're seeing more and
more erratic weather impacting
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our food production. And so we
have various satellites, going
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up above and turning around us
all the time that are helping to
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monitor different aspects of the
agriculture of our agricultural
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system. And whether it is for
helping us to distinguish where
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for example, corn is being grown
around the world, how it's
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developing how it compares this
year versus last year, for
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example, in the Corn Belt in the
United States. And so being able
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to provide us that information
in a timely matter, on a global
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scale, is really critical for
understanding and making
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decisions relevant both for food
security and for sustainability.
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And we do have corn here as one
of our layers. We also have
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rice, we have avocado and the
guacamole. Can we see any of
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these staple foods being grown
in the US?
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Absolutely. And that's a large
focus both of USDA, for example,
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and that NASA is partnered with
very closely for many years now.
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And what they're focused on is,
is utilizing satellite data for
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being able to monitor the extent
of products of where corn is
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being grown versus soybeans
versus wheat. And as we know, if
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a farmer plants corn this year,
he might plant soybeans the next
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year. So it's very important in
the US, and USDA has a large
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focus on that. But also given
that our food system is so
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interconnected, being able to
monitor both inside the US and
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globally. And satellites enable
us to do that.
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So you can monitor crops all
over the world. But who ends up
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using this data? And how exactly
does it help? Is it whole
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governments that rely on it or
do small scale farmers and land
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managers use it?
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That's a great question. And in
fact, it's it's everybody. It's
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ministries of agriculture, its
statistical departments who are
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trying to estimate how much
production they're going to have
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of different crops. It's the
early warning community and
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humanitarian community who are
trying to assess where there are
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going to be food shortages, and
where there there will need to
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be either food aid or other
mitigation activities. And it's
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of course, also farmers. And one
example is is the the crop
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monitor program under GEOglam.
This provides information at the
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global scale on a monthly basis
operationally really targeted
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more at policy makers who need
to have a very quick way of
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understanding what our global
crop conditions. And so we've
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been working with that policy
community for a long time to
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develop products that provide us
a good global picture of crop
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conditions and food supplies
across the world.
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So we're moving along here, we
have corn next. And it sounds
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like a lot of the information
you've talked about could help
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forecast events like food
shortages, is that right?
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Yeah, that's absolutely right.
And so what we try to do is use
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the satellite data to give us an
early warning as soon as
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possible. And really, we start
to monitor crops as soon as
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they're in the ground and
growing, and trying to put an
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alert as early as possible if we
start to see, for example, the
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impact of of a drought
developing and track that
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through the season. And this
information, as early as
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possible is really critical for
policymakers, for governments to
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be able to take mitigation
actions to prevent food
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shortages, or to prevent the
biggest impacts of food
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shortages, and implement
mitigation strategies well ahead
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And I know that NASA works with
the USDA. And so why is it
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of time.
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important that agencies like
NASA and USDA work together?
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USDA is the United States
Department of Agriculture, they
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are responsible for providing
global information on a monthly
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basis on crop production and
their forecasts set the gold
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standard to which agricultural
commodity markets react to so as
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soon as those numbers come out
every month, you can see the
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reaction and the response in
international markets. And so it
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makes a lot of sense for for
NASA to be working very closely
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with USDA to ensure that they're
able to take up the best
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technology and analytics to
inform their forecasting and,
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and their policy development and
decisions ultimately.
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It sounds like it's such an
important and exciting time now
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for agriculture monitoring.
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Yeah, it really is an exciting
time for agricultural monitoring
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and for its potential to help
inform both our food security
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and sustainability decisions and
to help get us towards the SDG
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goal of zero hunger, increasing
food supplies, and at the same
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time doing that in a sustainable
manner.
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Yeah, absolutely.
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That's amazing. And what's also
amazing is our dip here, which
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s almost complete, but I think
e can all agree that what would
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ake it perfect, is a healthy
ayer of cheese. Delicious. Th
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re we go. Thanks so much for
oining us today Inbal for shar
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ng all this really great infor
ation. And thanks every
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ne for watching. Happy snacking!