Investigating
the Enigma of Clouds and Climate Change
Clouds
perform an important function in cooling the planet as they reflect solar
energy back into space. Yet clouds also intensify warming by trapping the
planet’s heat and radiating it back to earth. As fossil fuel emissions continue to warm the planet, how will this dual role played by clouds change, and will clouds ultimately exacerbate or moderate global warming?
Kate Marvel,
a physicist at Columbia University and a researcher at NASA’s Goddard Institute
for Space Studies, is investigating the mysteries of clouds and climate change.
And while she and her colleagues would like to offer definitive answers on this subject, the fact is that few now exist.
And while she and her colleagues would like to offer definitive answers on this subject, the fact is that few now exist.
In
an interview with Yale Environment 360, Marvel discusses what is
known about the behavior of clouds in a warming world (they are migrating more
toward the poles), explains why strict controls need to be imposed on
geoengineering experiments with clouds, and talks about why she is confident
that science and human ingenuity will ultimately overcome the challenge of
climate change.
“The
fact that we understand how the planet actually works and we keep continuing to
ask these questions — that makes me optimistic about the future of our
species,” says Marvel.
Yale Environment 360: Why are clouds such a challenge when it comes to accounting for them in climate change models?
Kate
Marvel:
It turns out that clouds are really important to the climate. They kind of
explain why different climate models predict different possible futures. Some
climate models are saying it’s going to get really hot, and some climate models
are saying it’s going to get hot, but not as hot. And it turns out that
differences in cloud changes, predicted by the models, are kind of the main
reason for that.
And
clouds are hard to model because they’re simultaneously large and small. When
you think about how clouds form, they’re the result of microscopic water
droplets, or ice crystals, coalescing like grains of sand. But at the same
time, they cover 75 percent of the Earth’s surface. So it’s really hard for a climate
model, which is fundamentally large scale, to get those really small-scale
processes right. So we know that climate models don’t handle clouds very well.
We’ve known that for a while. But clouds are also very important in regulating
the climate. They block a lot of sunlight, but they also trap a lot of heat
coming up from the Earth’s surface.
e360: So it’s opposing
effects. What dictates which effect a cloud will have?
Marvel: It depends on
several aspects; what the cloud’s made of is very important. So clouds that are
made of ice particles are less reflective, they reflect less sunlight than
juicier clouds made of liquid water droplets. Something else that’s really
important is cloud height. If you look up on a clear, summer day, and you
see kind of wispy, cirrus clouds, those obviously are not very good at blocking
sunlight; they let that sunlight stream through. But they’re very good at
trapping the heat from the planet’s surface. So, high clouds in general have a
warming effect, but, low, thick clouds — the kind that you see on a cloudy,
gloomy day — those are really good at blocking sunlight, so those have a
cooling effect.
e360: Researchers have
gained a deeper understanding of cloud behavior in a warming world. Talk a bit
about what we’ve learned.
Marvel: We had
a paper in the Journal of Climate that
showed clouds are moving in the way that we would expect them to. So if you
think about those low clouds that block sunlight, they are going to be much
more effective in the tropics, where there’s kind of more sunlight, than there
is further toward the poles, where the sun’s less intense. And climate change
is predicted to alter atmospheric circulation patterns. It’s predicted to push
everything poleward. What we’ve seen is that clouds are following that
particular trajectory. If you look at the sort of large-scale patterns of
clouds, they are moving toward the poles.
e360: A Nature paper
published after yours found an upward motion to clouds. Did you also find that?
Marvel: We found
hints of it; in the Nature paper it’s much clearer because
they made corrections that accounted for the fact that the satellite records
are really patchy and they were able to really observe clearly that high cloud
shift. And there have been other studies that have observed that when it’s
warmer, high clouds shift upwards. That’s an effect that we think we understand
fairly well.
e360: What are the
consequences of this poleward and upward motion of clouds?
Marvel: Both of
them give rise to what I think is the most confusing part of climate jargon. We
call it a positive feedback, and you think “positive feedback” — that sounds
great. I like getting positive feedback. But when climate scientists talk about
a positive feedback, we mean some process that changes in response to warming,
that accelerates that warming. So both of those changes are what we would call a
positive feedback, meaning it enhances the warming.
e360: And is this
trend, poleward and upward, something that the models say will continue under a
business-as-usual scenario?
Marvel: Yes, we
think so.
e360: There was some
discussion when these studies came out regarding whether this was a consequence
of global warming or that these movements were a consequence of recovery from
major volcanic activity. Where do things stand with that at this point?
Marvel: That’s a
really good point. You have to be careful about attributing things to natural
external forces versus human-caused external influences. We’re currently
working on a project that’s trying to sort of tease out those influences. But I
don’t think there’s been a study published that really definitively attributes
the observed changes to one particular external sourcing.
e360: Of course,
climate deniers can grab hold of something like that and say, “See, they don’t
really know.”
Marvel: I think
that’s one of the greatest things about science is that in science, we can say
we don’t know, or we don’t know yet. I’m really suspicious of people who come
along and say, “I have all the answers.” I think there’s this real tendency to
say that, “Oh, well if you don’t know everything, you don’t know anything.” And
I think that’s totally wrong. You know, the continued existence of science does
not invalidate science. The fact that we’re still asking questions doesn’t mean
that the method we’re using to answer those questions is wrong.
e360: Most of our
cloud observations come from weather satellites. However, there was a NASA
satellite in the planning stage that was designed to look at cloud behavior. President
Trump’s proposed budget zeroes out that mission. Should NASA projects that deal
with climate change be a priority in the upcoming budget?
Marvel: I
certainly think so. I don’t really understand why on earth we wouldn’t want to
look at our own home. We have this amazing satellite technology. We can observe
all of us from space. We can measure things that we never dreamed we could
measure and that’s kind of a miracle, I think. I also think it’s extremely
cost-effective. Why would we not want to do it? I started my career as an
astrophysicist, and then I realized that nowhere else in the universe is as
good as here, right? This is the best planet. And I think it’s part of NASA’s
mission to look at other worlds, but we also want to look down at our world as
well.
e360: In a
recent commentary, a group of researchers, including two from the University of
Washington, made the case for conducting small scale experiments using a
geo-engineering technique known as cloud brightening. They want to spray saltwater
into marine clouds making them more reflective of sunlight as a possible way of
reducing global warming. What’s your take on such experiments?
Marvel: With
geoengineering, I’m always very concerned because if I want to do an experiment
on human subjects, as a university researcher, I have to go in front of a
review board and convince them that all of my human subjects have given
informed consent to participate in this experiment. And with a lot of
geo-engineering experiments, I worry about how that consent is going to be
obtained. There are starting to be organizations thinking about this;
there’s something called the Climate Geoengineering Governance Project, that’s
starting to think about how would we design an international law regime to
actually regulate this. And I think that’s something worth thinking
about.
e360: You’ve written
that when it comes to climate change, “I refuse to give in to despair. I just
don’t have time for that. I’m too busy doing science.” Tell me more about the
roll-up-your-sleeves attitude you’ve got.
Marvel: People ask
me, “Aren’t you just depressed all the time? How do you keep going in the face
of this?” We’re all going to die. You know, there’s not a lot of good news
there. But we all manage to find happiness and fun in our lives anyway. And I
do have hope, I do think that we are an amazing species; and we do a lot of
terrible things, but we also do a lot of very good things. I do have hope in
human ingenuity. I don’t think we peaked with the internal combustion engine.
So that gives me hope.
Going
back to your question about NASA satellites, the fact that we as a species can
look at our planet from above, that’s amazing. The fact that we understand how
the planet actually works, and we keep continuing to ask these questions — that
gives me hope. That makes me optimistic about the future of our species.
Diane Toomey is an award-winning public radio journalist
who has worked at Marketplace,
the World Vision Report,
and Living on Earth, where
she was the science editor. Her reporting has won numerous awards, including
the American Institute of Biological Sciences' Media Award. She is a regular
contributor to Yale e360 and
currently is an associate researcher at the PBS science show NOVA.
