Short Wave - Deer Are Expanding North. That Could Hurt Some Species Like Boreal Caribou
Episode Date: May 3, 2024Wildlife ecologists have seen white-tailed deer expanding their range in North America over many decades. And since the early-2000s these deer have moved north into the boreal forests of western Canad...a. These forests are full of spruce and pine trees, sandy soil and freezing winters with lots of snow. They can be a harsh winter wonderland. And ecologists haven't known whether a warmer climate in these forests or human land development might be driving the deer north. A recent study tries to disentangle these factors – and finds that a warming climate seems to play the most significant role in the movement of deer. Read more in the journal Global Change Biology. Curious about more wildlife news? Email us at shortwave@npr.org. See pcm.adswizz.com for information about our collection and use of personal data for sponsorship and to manage your podcast sponsorship preferences.NPR Privacy Policy
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You're listening to Shortwave from NPR.
Hey, shortwavers.
Emily Kwong here with two beloved colleagues for our regular roundup of science news.
We got Juana Summers with us. Hello.
Hey, thanks for having me back.
Hey, and News Roundup, veteran champion MVP, Regina Barber.
Thank you, yes.
We bowed down.
Okay, as you both know, we're going to share three science stories in the news that have caught our attention recently.
I have heard one of the stories is about growing food in Mars.
Yes.
We have another about how to build a plastic that can break itself down.
And lastly, we have a story about white-tailed deer and how they're expanding throughout Canada.
All that on this episode of Shortwave, the science podcast from NPR.
All right, Wana, as our guest, which topic do you want to start with?
What speaks to you the most?
I mean, as a good steward of the environment, I feel like I've got to hear about these plastics.
It sounds a little too good to be true.
Okay, just fair warning.
This is just a pilot study.
It was published in the journal Nature Communications this week.
But it is exciting because plastics are a global problem.
want to, right? Like, according to the EPA, less than 10% of U.S. plastic waste has been recycled.
Ouch. Plastics also take decades to decompose. Like, they never truly go away. They just break down
into smaller and smaller pieces. And if I remember correctly, these are called microplastics.
Right. So what if I told you that there are these researchers that found a way to embed something
special in the plastic to help break it down more quickly? Guess what it is? I really should have paid more
attention in science class. You got to tell me. Well, yeah, it's microbes. Microbes that love
to eat this kind of plastic called polyurethanes that are found in all kinds of things, watchbands,
phone cases, and footwear. Okay, go on. And to break down this polyurethane, the researchers identified
a strain of bacteria, which they then engineered to withstand extreme high temperatures so that the
bacteria could survive the manufacturing process. And the final product, this microbes plus plastic
construction, it looked kind of like linguine pasta when it came out. It was this like long,
yellowish strip, and the researchers then put it directly into compost, causing the microbes to
wake up and do their thing. To eat the plastic? Yes. And after only five months, more than 90%
of the plastic had degraded. Wow. Adam Ficer, researcher on the study, was pretty pleased
with that result. As our consumption of plastic sky rockets and is expected to continue to do so,
really need to think about, you know, effective life cycles of these polymers, you know, what that time of
use is and then what the time of, you know, breakdown is. That's really interesting. So
here's a question. Am I going to be seeing microplastic in my shoes anytime soon?
Not anytime soon. Plastics experts I spoke to had a lot of follow-up questions for these
researchers. They wanted to know things like, would a product like this break down in a landfill,
as easily as it did in a lab? Or is this microplastic better than, say, plant-based alternatives
already on the market? Still, it is promising. The team wants to do more tests, applying this,
methodology to other kinds of plastic to ultimately tackle the global plastic pollution problem.
Worthy goal for sure. But speaking of innovation, Gina, I understand you've got a story about growing
crops in space. Yes, I do. And growing food in space is like really crucial to future
space exploration because bringing cargo from Earth is way too expensive. So scientists like Rebecca
Gonzalez are looking at growing tomatoes, peas and carrots in Mars-like soil called Mars
Regolith right here on Earth. We don't need to wait until
there's actual colony on Mars to start researching with actual Mars regolith.
Like we can get there with, you know, like 90% of the way done already.
Okay, hold up a second.
Earth does not have Martian soil, at least that I'm aware of.
So how exactly did they grow these plants?
Yeah, so scientists know from Mars rovers what Mars soil is like,
and they mixed up a simulation of that using materials from Hawaiian volcanoes and the Mojave Desert.
And like the Martian soil, this regalith soil doesn't have a lot of nutrients that plants need.
It doesn't have any water.
It doesn't have any organic material for them to feed on.
Sounds like some pretty sad soils.
Mars is harsh.
Okay, so tell us, what did they do with the soil?
Well, we already know that we can grow stuff in this regolith.
And they experimented with this technique called intercropping, which is an ideal growing
method when resources are limited.
The ancient Maya used it to grow the three sisters, corn, beans, and squash.
The corn providing a structure for the beans and the bottom, there was squash where leaves
would provide shade to the roots to help maintain soil moisture.
Okay, so using this intercropping technique for the study, what did they find?
Yeah, so in this Martian-like soil, intercropping did help. It helped the tomatoes grow better
when they were grown with peas and carrots. Unfortunately, though, the peas and carrots didn't do
as well. The study was published in Plus 1 this week. Helpful for me, I like tomatoes better
anyway. Tomatoes salads on Mars. Here we go. Love it. So, I mean, this technique seems to help with some
crops, but aren't there a whole lot of other variables to consider when you're growing stuff in space,
say, like, I don't know, lower gravity?
Well, Rebecca isn't worried about lower gravity specifically because, like, tomatoes are
already grown in microgravity in the International Space Station.
But Amy Grunden, another microbiologist, not on this study, mentioned there are other growth
and safety factors that need to be looked at, like metals and other toxins in the Mars surface.
But she thinks this study has a lot of promise.
Interesting.
All right.
Let's move on to our last story. I've heard that deer are moving north. Tell me what that's about.
Yeah. So wildlife ecologists have seen whitetail deer expanding their range in North America over many decades. And since the early 2000s, they've moved north into the boreal forest of Western Canada. And these forests are full of like spruce and pine trees, sandy soil, freezing winters with a lot of snow. So living there can be like really harsh.
I don't know about y'all, but that does not exactly sound like a place I want to live. So why are these deer moving there?
It's kind of like a mystery because is it the warmer climate in these forests that's happening recently or is it human development that might be pushing them up?
So Melanie Dickey, a wildlife biologist at the University of British Columbia, Okinaaga, and she tried to disentangle these two things by hiding 300 cameras in Western Canada.
And she collected data for five years.
And then her team used these images to estimate the number of white-tailed deer there.
Now, the beauty of this setup, Juana, is that the team placed these cameras along two axes.
Some were north to south, where the winters got more intense as you move north.
Some of the cameras were east to west, where the further you move west, the more human disturbance there is.
So they were able to look at both factors.
And what do they find?
Well, they found that, like, a warming climate seemed to play the most significant role in the movement of deer,
although human land use was a smaller factor.
And they published all of these results last week in the journal Global,
change biology. Okay. And I don't want to be a hater here, but why does it matter if the deer are moving
into these new areas? No, fair question. Fair question. Okay. Melanie described these deer as an invasive
species. With the deer come more predators like wolves. And while the deer are able to cope with the
wolves other species like the boreal caribou are not. So Melanie says these caribus, they have evolved to
mostly just avoid areas with a lot of predators. They're not equipped to handle these wolves at all.
And she also says that the deer is just like one piece of the puzzle for caribou, but having like more information about what exactly is driving the deer expansion will help her and other researchers find out like where to start when it comes to restoring land and protecting wildlife like caribou.
Juana, thank you so much for hanging out.
Thank you.
You can also catch Juana on Consider This and Pira's afternoon news podcast.
Before we head out, a quick shout out to our shortwave plus.
listeners. We appreciate you, and we thank you for being a subscriber.
Shortwave Plus honestly helps support our show, so if you're a regular listener, we would
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Find out more at plus.npr.org slash shortwave.
This episode was produced by Kai McNamee and Rachel Carlson. It was edited by Rebecca
Ramirez and Christopher Entelliatta.
Me, Regina, and Rachel Carlson checked the facts, and the audio engineers were Ted Meebain
and Patrick Murray. I'm Emily Kwong and I'm Regina Barber. Thank you for listening to Shortwave
from NPR.
