28 | New Scientist | 19 February 2022
Views Columnist
W
HEN we think about
space launches, we tend
to picture telescopes
and astronauts. We don’t tend
to think about farming. Yet on
1 March, a satellite is due to lift
off from Cape Canaveral in Florida,
and one of its main contributions
will be to help farmers work their
land more efficiently.
The Geostationary Operational
Environmental Satellite-T
(GOES-T, aka “ghost”), operated
by the US National Oceanic and
Atmospheric Administration
(NOAA), is the latest in a long line
of probes designed not to look out
to deep space, but back at Earth.
In this case, it is designed to better
understand how our atmosphere
works and how its activity is
shifting due to climate change.
Farmers will use the data
returned, for example, to figure
out precisely how much water
their crops need. The new satellite
will offer detailed information
about a phenomenon called
evapotranspiration, the process
through which water evaporates
from soil and plants and enters the
atmosphere. Seeing how much
evapotranspiration is occurring
on their land and comparing this
with the amount of water they
gave their crops, farmers can
calculate how much water those
plants used. The result is that
farmers can reduce water waste.
Of course, farmers aren’t
the only ones interested in the
weather. These days, we are all
getting used to increasingly
extreme weather events. Here
in New Hampshire, we don’t get
snow when we used to, and when
we do get it, it isn’t nearly as much
as in decades past. Oddly, the folks
south of us, where it is typically
warmer, are getting our snow.
Climate change is so dramatic
that we are all witnessing it in real
time, and I find what I’m seeingstressful. Of course, our own
individual observations are
largely anecdotal. Our systematic
understanding of climate change
is coming from Indigenous
people, who know their local
ecosystems best, and from
scientific researchers who
study our global ecosystems.
Necessarily, this kind of
research not only uses ground-
based observations, but also
snapshots of the big picture from
space. GOES-T is ultimately a next-
generation weather satellite that
will orbit Earth at the same speed
that our planet rotates on its axis,
allowing it to remain stationaryrelative to the surface and
continuously observe the Western
hemisphere. It is the latest in the
GOES-R series of satellites, which
creatively is comprised of GOES-R,
GOES-S, GOES-T, GOES-U. When it
comes to monitoring conditions
on Earth, all four satellites are
specifically equipped with the
capacity to take images in the
visible and infrared. This allows
NOAA, with the support of NASA,
to track major events such as
hurricanes, tornadoes, floods,
fires and volcanic eruptions like
the one that recently caused a
disastrous tsunami in Tonga.
But Earth’s weather isn’t the
only weather GOES-T will be
tracking. All satellites in the
GOES-R series are also able
to take images of the sun and
monitor space weather, which
is what we call the collection
of phenomena that impact
conditions in our solar system.For example, the sun has
powerful magnetic fields that
can, ultimately, affect technology
here on Earth. Solar flares
associated with these fields, and
mass ejections that are often
associated with them, can be
seriously disruptive, damaging
power supplies, GPS and radio
communications. They are also
a risk to space facilities such as
the International Space Station.
Earlier this month, the orbits
of around 40 Starlink satellites,
which provide internet access,
failed because of the impact of
space weather on the atmosphere.
The sun also spits out high-energy
particles known as the solar wind,
which, when they interact with
Earth’s magnetic field, produce
beautiful night sky colours. These
dancing glows are the auroras
that can be seen near the poles.
GOES-T’s specialised
instruments help us track all
these phenomena. Here at the
University of New Hampshire,
my colleague James Connell, a
professor in the department of
physics and in our world-class
Space Science Center, is heavily
involved in the development of
the GOES-T Energetic Heavy Ion
Sensor. This will measure heavy
ions flung out by the sun that fly
through Earth’s magnetic field and
will contribute to getting a global
picture of the energetic particle
climate that envelops our world
and affects both our spacecraft
and life on the ground.
This sort of work doesn’t tend
to get much attention, and yet it
is important because it is only by
developing these instruments that
we can gather the information
we need. The painstaking work
behind these kinds of craft, as
much as the headline-grabbing
launches of the rockets that carry
the satellites, is critical to living
well here on Earth. ❚“ We can track
major events,
such as hurricanes,
tornadoes, floods,
fires and volcanic
eruptions”Do look down We shouldn’t only celebrate spacecraft staring
out at the universe, but also those turned on Earth, helping us live
better on our own planet, says Chanda Prescod-WeinsteinField notes from space-time
This column appears
monthly. Up next week:
Graham LawtonWhat I’m reading
Jessica Hernandez’s Fresh
Banana Leaves: Healing
Indigenous landscapes
through Indigenous
science is an important
intervention.What I’m watching
We are pretty into The
Gilded Age right now.What I’m working on
I just wrapped up
edits on the paperback
edition of my book The
Disordered Cosmos.Chanda’s week
Chanda Prescod-Weinstein
is an assistant professor
of physics and astronomy,
and a core faculty member
in women’s studies at the
University of New Hampshire.
Her research in theoretical
physics focuses on cosmology,
neutron stars and particles
beyond the standard model