Science Friday - The secret powers of flowers
Episode Date: March 24, 2026Flowers peeking up through the soil are a welcome sight after a long cold winter—and are one of the first markers of spring. Biologist David George Haskell argues that flowers aren’t just beautifu...l: They’re also critical to most ecosystems and the diversity of life as we know it. Flowering plants also make up a large part of human diets (rice, maize, and wheat are all flowers). And homing in on orchids, Haskell says, can help us understand the complex relationship between flowers and pollinators. Guest: Dr. David George Haskell is a biologist and author of: “How Flowers Made Our World: The Story of Nature’s Revolutionaries” Transcripts for each episode are available within 1-3 days at sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.
Transcript
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Hi, it's Ira Flato, and you're listening to Science Friday.
We're waiting impatiently for a signs of spring beneath the melting snow.
I mean, I'm looking for you crocuses and daffodils.
These colorful blossoms would surely brighten all of our moods.
But my next guest argues that flowers are not just beautiful.
They are critical to the diversity of life as we know it, and to food and agriculture.
Let's learn all about that with Dr. David, George Haskell, biologist and author of How Flowers Made Our World,
the story of Nature's Revolutionaries.
He's based in Atlanta, Georgia.
Welcome to Science Friday.
Thank you, Ira.
It's a delight to be with you to chat about the world-changing power of flowers.
One of my favorite topics, because I grow a lot of them, so let's get right into this,
because when I think about the evolution of life on Earth, flowers are not typically front
and center in my mind. So tell me what we have been getting wrong all these years.
Yes, we think of Earth's evolution often. We're thinking about Tyrannosaurus and animals
and maybe microbial revolutions billions of years ago. And I think flowers belong in that
pantheon of revolutionaries because they were late arrivals on planet Earth. They evolved maybe
130 million years ago. After they evolved, they swiftly took over most of the
habitats on the planet, and are the foundation of most rainforests, prairies, seagrass meadows,
mangroves, all over the world now.
So they truly are revolutionaries.
They opened opportunities for other animals and created most of the most productive ecosystems
on the planet.
So we think of them as ephemeral and merely ornamental, but in fact, flowers are extraordinarily
powerful world changes.
Let's talk about that because I'm wondering, does the fact that,
flowers are pretty and they smell good, does it distract us from seeing them as evolutionary powerhouses?
Perhaps, I mean, there's nothing wrong with enjoying flowers as pretty, as ornamental, as enjoying
their aromas. It's an important part of our individual and cultural expression. And those aromas
and the colors that we're so attracted to are also the source of much of flowering plants,
world-changing power. It was through experiences of beauty connecting to bee aesthetics and butterflies and
beetles and so on that flowers drew other species into cooperative networks and through that
cooperation then revolutionize the world. So in a way, you know, we think about revolutions in a
human context, often through violence and domination, authoritarianism. Flowers offer an alternative
view of how the world can be changed and transformed, and that is through interconnection,
often mediated by interspecies experiences of beauty.
Now, if I remember correctly from my biology, non-flowering plants came first, right, like ferns.
So that raises the question, why did flowers emerge? And when did flowers first come
on to the scene? What happened? Yeah, absolutely. I mean, mosses, ferns, psychics.
there are lots of non-flowering plants,
and they were around building the earth's forests
and creating habitats for hundreds of millions of years
before flowers came along.
What flowers did was there was a convergence of innovations.
Some of them were about attracting pollinators
into the flower itself, using petals and aroma as visual signals,
combining male and female into the same flower,
which is a much more efficient way of pollinating the flower,
transferring pollen from one flower to another. But they also revolutionized botanical motherhood by enclosing their seeds inside fruits. Some of those fruits are fleshy. Some are protective. Some are wing-like to catch the wind. And so through a series of different innovations, flowers quickly became some of the dominant creatures on the planet. And by some estimates, it only took a handful of million years after they evolved.
for them to become the dominant vegetation around much of the planet,
and then they catalyze the evolution of whole new animal groups,
like bees and butterflies and later grazing mammals,
and even humans, we wouldn't be here without flowering plants.
So was this evolution quite rapid?
Yes, they exploded onto the scene,
and in a Darwin back in the 19th century,
called it an abominable mystery how flowers appeared
so late and so explosively in the...
fossil record. Now, of course, Darwin didn't know anything about modern genetics, and so we have
some insight now that he didn't, that flowers have these genetic superpowers there, especially
genetically nimble within themselves, that allowed them to diversify very, very rapidly,
and the earth changed from a planet covered mostly in cycads and mosses and various
forms of ferns and other non-flowering plants into one where, first, the understores.
and then the overstory of most forests were dominated by flaring plants.
And that's still the world we live in today before flaring plants.
There were no rainforests, prairies, steppes, or mangroves.
So flowering plants were not only innovative,
they were, to use some jargon from human economics,
they were disruptors.
They came along and overturned many ecosystems
and created enormous opportunities for other creatures.
reaches. One really interesting idea I learned from your book is that grasses are considered flowers. I
didn't think I ever thought of my lawn as a sea of flowers. Yes. So, you know, lawns are kept in a state
of perpetual youth. We erase all signs of sex and death from them, creating this ecological
illusion, which of course, you go out into a forest, mostly what you see is sex and death. And so
a lawn is a strange, strange thing.
of parts of our psyche maybe. But if you were to not mow your lawn or go out to a natural area
where the grasses are free to grow, of course later in the season, the grass would send up
flowering stalks. And grasses are pollinated by the wind, not generally by bees or other
insects. So they have very inconspicuous small flowers, but anyone with hay fever knows
the grasses can make quite a lot of pollen. That pollen drifts through the air and is received.
by other flowers. And then the amazing thing with grasses is that after fertilization,
the little embryo grows and the mother grass supplies an enormous amount of food that goes along
with the embryo, which is why grass seeds when you plant them, whether it's grass for your lawn
or wheat or maize or rice, can explode. It's like rocket ships taking off from the soil because
they've got these amazing storehouses of food.
And that's another innovation of flowering plants,
is to give many of their embryos,
little food hampers to give them a boost as they start off their lives.
After the break, the integral role of grasses to human evolution.
Don't go away.
So grasses play this huge role in human evolution.
And because we're talking about rice, which is a flower,
which I didn't really think about,
and wheat is their grasses?
Yes, these are, right?
If you count up all the calories that humans eat worldwide,
two-thirds of those calories come from just three species of grass.
Wheat, maize, and rice.
And a lot of the rest of the calories come from sugarcane and oats and barley and millet.
And then if we're eating grass-fed beef, for example,
well, that cow is also made from grass.
All flesh is grass, the sort of the secret text tell us.
And that's the sort of an ecological truth.
as well as having some theological overtones.
And so in the present day, we are sustained by grasses,
but our evolution was also catalyzed by grasses,
because why did we or our ancestors come down from the trees?
Our ancestors were living happy lives up in the trees in tropical forests,
and a few of them decided to come down from the trees
and become bipedal primates in grasslands.
So without the grasslands and the savannas,
there would have been no incentive for early pre-human hominins to evolve.
And then the diet of those pre-human ancestors was also mostly grass-based, either eating the
grass and grass seed directly or eating a lot of the animals that were feeding on that grass.
So yes, we are grass apes, homo poesiae, if we were to name ourselves for the family of plants
that sustain and created us.
That is really interesting.
You know, I'm a big fan of orchids, and I know you devoted a large chunk of your book to orchids.
I grow them on my windowsill.
What can they tell us about the relationship between flower and pollinator?
Absolutely.
Orchids are the sort of the apex of the complexity of relationships with pollinators.
Of course, and we're attracted to them.
I mean, you keep them on your window cell.
I've got a whole load on my window sill here.
orchids have magnificently often very large and conspicuous displays with their petals and their sepals.
Some of them are aromatic, but the sexual parts are actually miniaturized.
They only produce a tiny little piece, a bit of pollen, and the egg is buried right in the center of the flower there,
and the stigma receives the pollen from other orchids.
And orchids lure and manipulate and bribe all sorts of different insects to come.
and pollinate them. If you think about the orchids on your window sill, that usually there's a
central portion, which is often tube-like or a little bulbous lip that encourages the bee or other
pollinator to pass in and receive the pollen. Now, some orchids are doing this, quote-unquote,
honestly, by offering nectar rewards to reciprocate with the pollinator. But others are a lot more
devious. Some orchids look like they've got pollen and nectar, but in fact have none. Others look and smell
and feel just like female insects. There's one, the bee orchid that looks and feels and smells just like
a female wasp. So amorous male wasps try to mate with these orchid flowers and of course just get
a little dab of pollen put on their head, complete waste of time for the male wasps. But the orchids are
pollinated. So orchids take a deliciously varied approach to pollination, and it's often very
specific to individual pollinators, which then leads to sort of a powder keg for evolution.
When you get specificity between a pollinator and a flower, a slight genetic change in the
flower of a pollinator could cause that species to split, which is why there are tens of thousands
of species of orchids around the world, often with very small...
More than any other flower, I think.
Yeah, it depends how you count it, either them or the sunflowers.
You know, you talked about specific pollinators and specifically about the orchid.
I remember getting an orchid.
I think it was called Darwin's orchids.
Yeah.
Because it had a huge bowl but the bottom, you know what I'm talking about?
And there had to be a moth that could stick its nose all the way into the bottom.
Yes, this is an orchid from Madagascar that at first, Western scientists,
only knew about the flower and it had this big long spur with nectar in the end. But no one
knew what pollinated. And Charles Darwin said, I predict that there is a moth out there with a
proboscis of exactly the right length to fit into this flower. And of course, this was after he died.
He never lived to hear the end of the story. But 20 years after he died, Western scientists found
the moth, described the moth, and there was an almost perfect match between the moth and the orchid.
which at the time was sort of a triumph for the predictive power of evolution,
because there was some creationists who at the time were arguing,
look, this moth disproves Darwinian evolution,
and of course Darwin had the last laugh on that one.
Right.
So, I mean to be so specific for a pollinator that there could only be one pollinator
just as an amazing thing.
Yeah, and it's extremely efficient.
It means that the orchid is not giving neck.
to pollinators that aren't going to be diligent and faithful couriers of its pollen.
But it's also very, you know, it's a risky strategy in terms of long-term evolution.
Because if your pollinator goes extinct or the habitat changes and your aroma doesn't carry
quite so well, you've put yourself at risk compared to a flower like, say, a magnolia flower
or rose that welcomes all kinds of pollinators.
To wrap up and looking toward the future, is it silly to ask if flowers are endangered by climate change or changing world?
Not at all. 50% of orchids, 50% of magnolias, as far as we can tell, are threatened with extinction.
And then on the other hand, there are flowering plants that are extremely nimble and are adapting to the various changes, whether it's climate or salty soils or increasing.
drought so that, as flowering plants always have done, they've adapted, but we are having
such an extraordinarily powerful effect on the planet that we are indeed pushing many
flowers towards extinction, which is improvident, to say the least, because flowers made our
world, created the most productive habitats on the planet, including human agriculture.
And so to cause so many of them to become threatened and endangered is not treading a very
cautious path. By partnering with flowers, we can find solutions, and that's the great genius
of flowers is to draw animals into cooperative partnerships. We have been, and we can be even more,
one of those cooperators working towards a better future with flowering plants.
Last question. Do you have a favorite flower? Oh, I've got lots of favorite flowers. I mean,
one that really in writing is... Like you're asking about your children, right? Yeah, no,
that really shocked me, I learned a lot about in writing this book with the seagrasses.
These, they look very inconspicuous, unremarkable. These are flowering plants that flower
literally under the water in the seawater. And they are in, oh, kidding. They're incredible
at storing carbon, storing sediment, stabilizing the edges of continents, providing habitat
for marine animals to breed in and to feed in. And until recently, we knew very little about
sea grasses, and they too are also in danger. Their populations are in decline, but there are some
amazingly inspiring stories about restoration of seagrasses. So I like them because they're obscure,
they're not very conspicuous, and they have this great story about humans working with flowering
plants to solve some of the problems that we've created. So they're one of my many favorites.
I'm glad I asked. You know, I learned so much today, Dr. Haskell.
Thank you for taking time to be with us today.
Thank you.
Always a pleasure to chat.
Thank you.
Dr. David George Haskell, biologist,
and author of How Flowers Made Our World,
the story of Nature's Revolutionaries.
He's based in Atlanta, Georgia.
If you like flowers, you'll love this book.
Even if you don't like flowers.
Shoshana Bucksbaum produced this episode.
I'm Ira Flato.
We'll see you again.