-
For the past few years,
-
I've been spending my summers
in the marine biological laboratory
-
in Woods Hole, Massachusetts.
-
And there,
-
what I've been doing
is essentially renting a boat.
-
What I would like to do
-
is to ask you to come
on a boat ride with me tonight.
-
So, we ride off from Eel Pond
into Vineyard Sound,
-
right off the coast of Martha's Vineyard,
-
equipped with a drone
to identify potential spots
-
from which to peer into the Atlantic.
-
Earlier, I was going to say
into the depths of the Atlantic,
-
but we don't have to go too deep
to reach the unknown.
-
Here,
-
barely two miles away
-
from what is arguably the greatest
marine biology lab in the world,
-
we lower a simple
plankton net into the water,
-
and bring up to the surface
-
things that humanity rarely
pays any attention to,
-
and oftentimes has never seen before.
-
Here's one of the organisms
that we caught in our net.
-
This is a jellyfish.
-
But look closely,
-
and living inside of this animal
is another organism
-
that is very likely
entirely new to science.
-
A complete new species.
-
Or how about this other
transparent beauty
-
with a beating heart,
-
asexually growing,
-
on top of its head,
-
progeny that will move on
to reproduce sexually.
-
Let me say that again.
-
This animal is growing asexually,
-
on top of its head,
-
progeny that is going to reproduce
sexually in the next generation.
-
A weird jellyfish?
-
Not quite.
-
This is an ascidian.
-
This is a group of animals
-
that now we know we share
extensive genomic ancestry with,
-
and it is perhaps the closest
invertebrate species to our own.
-
Meet your cousin,
-
Thalia democratica.
-
(Laughter)
-
So, I'm pretty sure you didn't save a spot
at your last family reunion for Thalia,
-
but let me tell you,
-
these animals are profoundly related to us
-
in ways that we're just
beginning to understand.
-
So, next time you hear anybody
derisively telling you
-
that this type of research
is a simple fishing expedition,
-
I hope that you'll remember
the trip that we just took.
-
Today, many of the biological
sciences only see value
-
in studying deeper
what we already know --
-
in mapping already discovered continents.
-
But some of us are much more
interested in the unknown.
-
We want to discover
completely new continents,
-
and gaze at magnificent
[...] of ignorance.
-
We craved experience
of being completely baffled
-
by something we've never seen before.
-
And yes,
-
I agree there's a lot of little
ego satisfaction in being able to say,
-
"Hey, I was the first one
to discover that."
-
But this is not a self-
aggrandizing enterprise,
-
because in this type
of discovery research,
-
if you don't feel like a complete
idiot most of the time,
-
you're just not sciencing hard enough.
-
(Laughter)
-
So, every summer I bring onto the deck
of this little boat of ours
-
more and more things
that we know very little about.
-
I would like tonight
to tell you a story about life
-
that rarely gets told
in an environment like this.
-
From the vantage point of our
21st-century biological laboratories,
-
we have begun to illuminate many
mysteries of life with knowledge.
-
We sense that after centuries
of scientific research,
-
we're beginning to make
significant inroads
-
into understanding some of the most
fundamental principles of life.
-
Our collective optimism is reflected
by the growth of biotechnology
-
across the globe,
-
striving to utilize scientific knowledge
to cure human diseases.
-
Things like cancer, aging,
degenerative diseases;
-
these are but some
of the undesirables we wish to tame.
-
What I often wonder:
-
why is it that we are having
so much trouble
-
trying to solve the problem of cancer?
-
Is it that we're trying to solve
the problem of cancer,
-
and not trying to understand life?
-
Life on this planet
shares a common origin,
-
and I can summarize 3.5 billion years
of the history of life on this planet
-
in a single slide.
-
What you see here are representatives
of all known species in our planet.
-
In this immensity of life
and biodiversity,
-
we occupy a rather unremarkable position.
-
(Laughter)
-
Homo sapiens.
-
The last of our kind.
-
And though I don't really want
to disparage at all
-
the accomplishments of our species,
-
as much as we wish it to be so --
-
and often pretend that is so --
-
we are not the measure of all things.
-
We are however the measurers
of many things.
-
We relentlessly quantify,
analyze and compare,
-
and some of this absolutely invaluable,
-
and indeed necessary.
-
But this emphasis today on forcing
biological research to specialize
-
and to produce practical outcomes
-
is actually restricting our ability
to interrogate life [--]
-
to unacceptably narrow confines
and unsatisfying depths.
-
We are measuring an astonishingly
narrow sliver of life,
-
and hoping that those numbers
will save all of our lives.
-
How narrow do you ask?
-
Well, let me give you a number.
-
The National Oceanic and Atmospheric
Administration recently estimated
-
that about 95 percent of our
oceans remain unexplored.
-
Now, let that sink in for a second.
-
95 percent of our oceans
remain unexplored.
-
I think it's very safe to say
-
that we don't even know
how much of a life we do not know.
-
So, it's not surprising
that every week in my field
-
we begin to see the addition
of more and more new species
-
to this amazing tree of life.
-
This one for example --
-
discovered earlier this summer,
-
new to science,
-
and now occupying its lonely
branch in a family tree.
-
What is even more tragic
-
is that we know about a bunch
of other species of animals out there,
-
but their biology remains
sorely under studied.
-
I'm sure some of you
have heard about the fact
-
that a starfish can actually
regenerate its arm after its lost,
-
but some of you might not know
-
that the arm itself can actually
regenerate a complete starfish.
-
And there are animals out there
that do truly astounding things.
-
I'm almost willing to bet
-
that many of you have never heard
of the flatworm, Schmidtea mediterranea.
-
This little guy right here
-
does things that essentially
just blow my mind.
-
You can grab one of these animals
and cut it into 18 different fragments,
-
and each and every one of those fragments
-
will go on to regenerate
a complete animal in under two weeks.
-
18 heads, 18 bodies, 18 mysteries.
-
For the past decade-and-a-half or so,
-
I've been trying to figure out how
these little dudes do what they do,
-
and how they pull this magic trick off.
-
But like all good magicians,
-
they're not really releasing
their secrets readily to me.
-
(Laughter)
-
So, here we are
-
after 20 years of essentially
studying these animals,
-
genome mapping,
-
chin-scratching,
-
and thousands of amputations,
-
and thousands of regenerations,
-
we still don't fully understand
how these animals do what they do.
-
Each planarian an ocean unto itself ...
-
full of unknowns.
-
One of the common characteristics
-
of all of these animals
I've been talking to you about
-
is that they did not appear
to have received the memo
-
that they need to behave
according to the rules
-
that we have derived from a handful
of randomly selected animals
-
that currently populate the vast majority
-
of biomedical laboratories
across the world.
-
Meet our Nobel Prize winners.
-
Seven species essentially,
-
that have produced for us the brunt
of our understanding
-
of biological behavior today.
-
This little guy right here --
-
three Nobel Prizes in 12 years.
-
And yet,
-
after all the attention
they have garnered,
-
and all the knowledge they have generated,
-
as well as the lion's share
of the funding,
-
here we are standing in front of the same
litany of intractable problems
-
and many new challenges.
-
And that's because,
-
unfortunately,
-
these seven animals essentially correspond
-
to 0.00009 percent of all of the species
-
that inhabit the planet.
-
So, I'm beginning to suspect
-
that our specialization is beginning
to impede our progress at best,
-
and at worst,
-
leading us astray.
-
That's because life
on this planet and its history
-
is the history of rule breakers.
-
Life started on the face of this planet
as single-cell organisms,
-
swimming for millions
of years in the ocean
-
until one of those creatures decided
"I'm going to do things differently today;
-
today I would like to invent
something called multicellularity,
-
and I'm going to do this."
-
And I'm sure it wasn't a popular
decision at the time --
-
(Laughter)
-
but somehow it managed to do it.
-
And then,
-
multicellular organisms began to populate
all the [sensational] oceans,
-
and they thrived --
-
and we have them here today.
-
Land masses began to emerge
from the surface of the oceans,
-
and then other creatures thought,
-
"Hey, that looks like a really
nice piece of real estate,
-
I'd like to move over there."
-
"Are you crazy?
-
You're going to desiccate out there,
-
nothing can live out of water."
-
But life found a way,
-
and there are organisms now
of course that live on land.
-
Once on land,
-
they may have looked up into the sky
-
and said, "Hey, it would be nice
to go to the clouds,
-
I'm going to fly."
-
"You can't break the law of gravity,
-
there's no way you can fly."
-
And yet, nature has invented --
-
multiple and independent times --
-
ways to fly.
-
I love to study these animals
that break the rules,
-
because every time they break a rule,
-
they invent something new
-
that made it possible for us
to be able to here today.
-
These animals did not get the memo.
-
They break the rules.
-
So, if we're going to study
animals that break the rules,
-
shouldn't how we study them
also break the rules?
-
I think that we need to renew
our spirit of exploration.
-
Rather than bringing nature
into our laboratories
-
and interrogating there,
-
we need to bring our science into
the majestic laboratory that is nature.
-
And there,
-
with our modern,
technological armamentarium,
-
interrogate every new
form of life we find,
-
and any new biological attribute
that we may find.
-
We actually need to bring
all of our intelligence
-
to becoming stupid again --
-
clueless in front of
the immensity of the unknown.
-
Because after all,
-
science is not really about knowledge.
-
Science is about ignorance.
-
That's what we do.
-
Once, Antoine de Saint-Exupéry wrote,
-
"If you want to build a ship,
-
don't drum up people to collect wood
-
and don't assign them tasks and work,
-
but rather teach them to long
for the endless immensity of the sea."
-
As a scientist and a teacher,
-
I like to paraphrase this to read
-
that we scientists need
to teach our students
-
to long for the endless
immensity of the sea ...
-
that is our ignorance.
-
We Homo sapiens are the only
species we know of
-
that is driven to scientific inquiry.
-
We, like all other species on this planet,
-
are inextricably woven
into the history of life on this planet.
-
And I think I'm little wrong when
I say that life is a mystery,
-
because I think that life
is actually an open secret
-
that has been beckoning our species
for millennia to understand it.
-
So, I ask you:
-
aren't we the best chance
that life has to know itself?
-
And if so,
-
what the heck are we waiting for?
-
Thank you.
-
(Applause)
closed TED
