Short Wave - Alive Or Not Alive... Is A Tricky Question
Episode Date: August 15, 2025In this Back To School episode we consider the "List of Life": the criteria that define what it is to be a living thing. Some are easy calls: A kitten is alive. A grain of salt is not.But what about t...he tricky cases, like a virus? Or, more importantly, what about futuristic android robots?As part of our Black History Month celebration, developmental biologist Crystal Rogers and Short Wave co-host Regina G. Barber dig into what makes something alive, and wade into a Star-Trek-themed debate.Listen to Short Wave on Spotify and Apple Podcasts.Is there something you'd like us to cover? 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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Hey, short waivers, Regina Barbara here.
Today, we're going back to school.
It's been a while since we've done one of these episodes
where we revisit a science topic you may have learned about
and go a little deeper with it.
You might remember a list of life,
a set of bullet points that are the criteria for being alive.
They include things like being highly organized,
like the machinery inside a cell,
using energy and responding to the environment.
So something that could reproduce itself, they have to be able to have a metabolism, also growth.
That's developmental biologist Crystal Rogers at University of California Davis.
And she thinks about life a lot.
So my lab studies how embryos develop from a single cell into a complex organism.
And she says even though we have this list, defining life is not that straightforward.
Can we boil it down to like some one thing?
I don't think so.
because I think all of us have our different perspectives on life.
And even though it's a tricky question, Crystal thinks life is worth defining.
There are things we would do to non-living things, like use them for resources, build a house
out of a tree, which is alive, and then we've now killed it, and now it's just a thing, right?
Whether a rock is alive, I don't think so, but the bacteria that's living on it is probably alive.
So I don't know if I have an answer to your question, except for the idea it's important to
understand what life is so that we don't destroy it and so we can protect it.
Today on the show, what is life? The standard criteria, but also why defining it is so hard.
Plus, we get a little sci-fi by imagining what life might look like outside of Earth and ask,
is the Star Trek character Data, who is an android, alive. I'm Regina Barber, and you're listening
to Shortwave, the science podcast from NPR. Okay, Crystal, so the classic items on the so-class
called List of Life are having an organized structure, reproduction, growth and development,
using energy, trying to maintain homeostasis, responding to environment and adaptation.
Okay, let's dig into a few of these.
So for me, as a developmental biologist, growth is a big part of what we study.
The concept is based on an organism that changes in space and time, meaning you are a single
cell, egg gets fertilized, and now there's me. I'm a very complex organism in my own opinion.
But, you know, that required growth. It required patterning and change and response to the environment
and the use of energy. Oh, does it use energy? I mean, a lot of things, even viruses use energy,
right? Well, they use this. I mean, they're using the cell's machinery, so they don't really have
their own ability to process things. They don't have a metabolism. They're just like a sack filled
with information. So viruses aren't alive then? Some folks believe that viruses are life. I'm still of the
old school. I think that if you can't reproduce yourself and if you need to invade somebody else,
like a living animal cell to reproduce and to survive, then I don't think they're alive,
but that's an opinion. So going back to this idea of metabolism that you mentioned,
that's another bullet point on the list. Can you talk about that one? So something where they use
energy sources to do things. So in our case, each and every one of the cells in our body is constantly
using energy to continue whatever its process is. So your entire digestive tract is constantly
using energy to make enzymes and break down food and all of that requires energy. What about
maintaining balance with your environment? Homeostasis. Homiosstasis. So that's part of responding to
environmental changes. So for us, you know, if it's cold out, we shiver. And that helps to create warmth
or if it's hot, we sweat.
Those are really simple, simple versions of environmental response,
but that is something that even a single-celled organism can do but can a virus.
So is this list of life, like, do you think it comes from the idea of what life actually is,
or does it come from describing what we have already decided is alive?
So I think it gets to, it's the latter.
I think that scientists over multiple years have been defining,
what we already think it's alive. And this is why it's so difficult to then look at things that don't
fit in this list to ask or define whether or not they live. So it's hard because if you have somebody
who has been trained, say, as a biologist, they might look at a cell and say, well, obviously,
it has to maintain its homeostasis. It is alive. We know that it has to do that because if it doesn't,
it will die or pop or something. But are we going to be able to apply this list to
extraterrestrial species if they aren't exactly like this.
So have you imagined what life would look like outside of Earth?
When I imagine it, I am completely biased based on what I've seen on TV and in movies,
and I'm always thinking, oh, it's going to be these, you know, these big-headed bald creatures
that can speak without using their mouths.
It doesn't seem to make any sense, because why would that necessarily evolve?
What does the need for that?
I think more...
Yeah, well, so if we go at it from a scientific perspective,
I think that we should look at the kinds of creatures that have thrived on our earth.
And so, for example, looking at bacteria,
so you can imagine there might be some sort of single cell type of organism elsewhere,
or...
And this part is like my nightmare because I'm an arachnaphob and I'm an insectifob.
But honestly, there are more insects on earth than there are any type of vertebrate organism.
And I do think that there's something to that, you know, or animals on our earth who have survived all this time.
Cockroaches.
Scorpions.
Scorpions.
Scroaches are indestructible.
Scorpions.
Sharks.
Sharks were here before trees, apparently.
And so you have these animals who have this really long-term success.
And so I imagine that we probably, humans are, like, no offense, but we're the stupidest creature in terms of how we're built.
Like, all of our organs are just presented.
we stand upright, which is really not very effective for like traveling.
We come out premature because our brains are so big that if we continue,
we have to be taken care of.
We're completely useless for like a year and a half or more.
And so I don't think that this is something that would necessarily evolve elsewhere
because it was the perfect storm that got us where we are.
Can you talk about why you think it's so hard for science to define what life is then?
Well, I do think that a lot of that gets into our biases.
When we think about life, most of us think about human life first or animal life.
And it's hard to consider what that actually means and it differs based on our belief systems.
And so when we extend that net out to other organisms or thinking about, you know, is a virus life, for example, it's really hard to get past that.
None of us are in our own echo chamber and we aren't affected by, you know, outside things.
And so I don't know.
I think that we all form our beliefs of what life is based on what we've learned
and what we've been, what we've experienced.
So if we're talking about the Star Trek Android crew member data.
Commander, what are you?
An android?
Which is?
Webster's 24th century dictionary fifth edition defined an android as an automaton
made to resemble a human being.
Is he alive?
He definitely evolved.
I know.
Okay.
So this was really hard.
hard because watching data evolve over the seasons into this this creature who was humanoid,
it seemed like he was developing feelings or, you know, he had like relationships.
Totally did.
Totally did.
That got weird.
I'm not going to lie.
That got a little weird.
Okay.
Let's actually take data and let's go through the list.
Okay.
So like, okay, he's highly organized.
That's definitely.
He's a check.
He can.
Does he charge?
Is there a metabolism there?
I don't know that they ever addressed whether he is using, like, how he gets charged.
He does use energy.
I think he has some sort of battery source that's like limitless or something.
He does reproduce, not successfully, but he has.
Right.
He does grow and develop.
Let's see here.
I don't know that he grows physically.
Okay, he doesn't grow physically.
Well, maybe his biological, the skin portion maybe actually functions as skin, which would be then
a tissue, which would be multiple cells dividing and maintaining homeostasis, right?
Okay.
Okay.
And does he respond to his environment?
Definitely.
Definitely.
So is data alive?
That was the whole list.
Multiple seasons.
It was the whole question about data.
Is he alive?
I think that the crew on Star Trek Enterprise would tell you that, yes, data is alive.
I'm going to say he's alive.
I don't disagree.
I am a biologist because I find life of.
amazing. That's the thing that really got me into this. I thought I wanted to be a physician,
and I went to graduate school, and I watched a frog embryo develop from a single cell into a
froglet, which is basically like a mid-metamorphosis stage frog. And to me, that was it. I am a
developmental biologist because we get to watch life become life, and it's the coolest thing ever.
So I think if more of us appreciated the beauty of life and how it happens, maybe we would be kinder to each other.
I love that.
I'm going to try to be more patient and love life more because of you, Dr. Rogers.
Why, thank you.
That's amazing.
Crystal Rogers is a developmental biologist at UC Davis.
If you have a science question, send us an email at shortwave at npr.org.
Today's episode was produced by Burley McCoy, edited by Gabriel Spitzer and fact-checked by Anil Oza.
The audio engineer was Josh Noem.
I'm Regina Barber.
Thanks for listening to Shortwave from NPR.