StarTalk Radio - StarTalk Live! Water World (Part 1)
Episode Date: January 24, 2015Dive into the world of water, on Earth and in the cosmos, when Neil deGrasse Tyson and Eugene Mirman host Robert F. Kennedy Jr., The Gyalwang Drukpa, Dr. Tess Russo and Jason Sudeikis at the Beacon Th...eater. Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
Transcript
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Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
Welcome to StarTalk Live, as promised!
It is my incredibly great pleasure to bring out your host,
our nation's greatest science communicator,
and director of the Hayden Planetarium,
and host of Cosmos, ladies and gentlemen,
the incredibly wonderful Neil deGrasse Tyson!
Thank you.
Very warm welcome, Beacon Theatre, thank you.
Tonight is all about water.
Water in the universe, water on Earth.
Is it clean? Is it dirty? Who's drinking it?
Who has it? Who doesn't have it?
What to do about it?
And to start off that conversation,
I have a hydrogeologist who will be joining this panel.
And she is a professor in the geosciences department at Penn State University.
Give a warm New York welcome to Dr. Tess Rousseau.
To join us in this discussion about water I thought I'd bring a comedian who is on television and in movies and is 60% water as we all are
ladies and gentlemen the incredible the wonderful Jason Sudeikis
I'm Neil.
Nice to meet you.
Hello.
So I want to lead off just to make sure we're all on the same aquatic page.
So Earth has water.
It's a water world.
What percentage of our surface is water?
Oh, I don't know that.
Okay, sorry.
You should ask.
What percentage of our surface is water?
About 70%. 70%. But most of it, it's water, water all around and not a drop to drink. Exactly. So how of our surface is water? About 70%. 70%?
But most of it, it's water, water all around and not a drop to drink.
Exactly.
So how much is there to drink?
About 3% of the water on Earth is fresh water.
But most of that water is locked up in glaciers, in ice.
So we should melt the glaciers and get more.
We are. We are.
All right, so 3% is fresh water.
What percent is in glaciers?
Two-thirds.
Two-thirds of that.
So we are one-third of 3% of the total fresh water in the world is available to us to drink.
More or less.
So the other third, most of that is underground.
Oh, so you're talking about surface water.
A lot of fractions.
How much water do we have?
Yeah, yeah.
Sorry.
One-third of a third of a half? That sounds like a test.
What's the least common multiple?
It's small.
It's.3% of 2.5%.
Oh, like what I tip?
Yeah.
I got it.
So that's just the lakes and rivers.
The lakes and rivers. Because that comes from rainwater, and rainwater is drinkable most of the time.
Usually, yeah.
When is it not drinkable?
When it's been contaminated.
Okay, I could have figured that out.
So, like, when you throw up in it?
That's one, yeah.
That's one.
What's a second example of contamination?
Yeah.
Other than people constantly throwing up in our water supply.
All right, water comes out of my faucet. That repository of drinking water, you're saying it's
a really tiny, vanishingly small percent of the total clean water in the world. Yes. But it's not
enough. No, it is. It is enough. But there are people who don't have clean water. Yes. So what
do we do about that? Get rid of those people. No, no. That's not right. That can't be right.
Is it?
Is it right?
With a slow-acting poison.
Okay.
Or pollution.
So let me back up a minute.
I'll put a little physics in this.
Water, as we know, comes in three phases.
We have liquid water, with which we are most familiar.
As correctly noted, we are two-thirds water. Life is two-thirds liquid water, with which we are most familiar. As correctly noted, we are two-thirds water.
Life is two-thirds liquid water.
And liquid water has some fascinating properties,
because normally when something changes state to become solid,
as water becomes ice, normally it shrinks.
Cold things get smaller.
So the properties of the water molecule are such that when it becomes solid,
it freezes in such a way where there are gaps between the molecules
where there weren't previously gaps when it was liquid.
And those gaps make frozen water less dense than liquid water,
creating what we all take for granted,
the fact that ice floats.
It's one of my favorite things about it.
Ice floats.
So, for example, in the wintertime,
it gets cold, you have a lake,
the top surface gets cold.
Cold water is denser than warmer water.
We got that.
That cold water will drop to the bottom.
But the top water will drop to the bottom. But the
top water will freeze and not drop, thereby insulating the water below,
protecting the fishes through the winter months. Ain't that some shit?
You know? Yeah. It's a remarkable feature of water. Yeah. Well and it's really
important for life.
For ice fishing.
Yeah.
Yeah, there would be no such thing as ice fishing if ice sank.
Yeah.
Or it would be boring.
Right.
You would swim to the bottom of a lake, drill, and die.
So another interesting fact here, if you want to freeze water, it will expand.
If you want to compress ice, you can't do it.
The only way the ice can take up a smaller volume is if it becomes water again.
So you can take ice below freezing, squeeze it so hard,
you can liquefy it from the act of squeezing it.
And in fact, that is what enables ice skating.
You are skating not on ice.
Your blade is cut in such a way that your weight on top of that thin blade edge
creates pressure on the frozen ice that the act of putting that high pressure melts it.
So you are actually gliding on a smooth bead of water when you ice-squeeze.
I can't wait till you're on TV insisting it should be called ice squeezing.
So what else goes on? Water can become gaseous. Clouds are really water vapor.
When we think of gash you want to think of a change of state and that would be
steam. So these are three phases of water. Why can't you have water plasma? Clouds are really water vapor when we think of gash you want to think of a change of state and that would be steam
So these are three phases of water. Why can't you have a water plasma? Yeah
Slush yeah, probably a terrible question
Did I just say no yeah
In its steam state you will know if you've been to mountaintops that you have to adjust cooking times.
Because the water boils at a lower temperature at high altitudes than it does at sea level.
So it's not as hot.
So if you're boiling an egg, you have to boil it longer.
Because the boiling water is not as hot on a mountain as it is at sea level.
Now, here's what's interesting. If you keep
ascending in altitude, the boiling point of water continues to drop. There is an atmospheric
pressure at which the boiling point is the same as the freezing point. And you can sustain simultaneously ice steam and liquid water all in one
pool at the same time it's called the triple point of water and on Mars if you
put water there you could sustain steam water and ice in the same bucket at the
same time Mars is in many places on its surface at the triple point of water.
The same water is all three states
or it's all just hanging out?
No, so you can put an ice cube in it, it's happy.
The water around the ice cube is boiling.
Steam rises up, it's happy sitting right above the surface.
Everybody is happy.
Wow, sounds like a solution for the Middle East.
We could just make them all into water.
So there was talk that maybe the water on Earth came from comets.
We didn't know for sure.
By the way, there's no shortage of water in the universe.
So the issue is not how do you get water.
The issue is of all the ways we could get water, what's the most likely?
Now, Tess is a geologist.
There's water coming out of volcanoes all the time, right?
Yeah, so...
Do the geologists think that we made all our oceans
from water coming out of volcanoes?
I don't know, but I'm gonna guess no.
Okay, you need some of our comets.
I think that's a great idea.
Okay, good.
We checked some comets, and we noticed
the water in those comets doesn't match
the water that's in our oceans and that got us worried
that's some csi stuff right there yeah right this is a problem for actors yeah yeah to solve
not all water is created equal so it has to do with this what we call an isotope of hydrogen
called deuterium you can make water out of a kind of hydrogen that's different
from the water we're accustomed to drinking,
and it's still water.
And some of these comets have excess amounts of this.
It doesn't matter.
Could you drink that water?
You could.
You would slow down, though.
Really?
Sounds fine.
Yeah.
You wouldn't die.
The water is more massive, so the water
moving through your circulatory system
would just be a little slower.
Viscous?
Have they tested that?
No, it's suspected. Well, surely there are some mice who know the answer to that
question is my guess but then we did find a couple of comments that did match
the oceans but the jury is still out just so you know what is the origin of
Earth's water we know at least some came from volcanoes we're pretty sure there's
a class of comet that did not supply the water and other classes of comets that might. By the way, if you're common and you hit the earth, all your water vaporizes
on contact. So you would become steam and would have to condense back out later. Why is it that
if it rains fresh water in the ocean, that the ocean is salty? Yeah. So the rain comes from
evaporated water. When you evaporate water, it leaves the salt behind.
It only picks up the fresh water.
So then when it rains, you're raining fresh water back down onto this salty reservoir, salty pool.
Okay, so it doesn't do any good if it rains in the ocean.
You want the evaporated ocean, which has been purified of its salt,
to then slide over onto land and rain there.
Isn't it possible for a lake to become salty eventually?
Yeah.
So how does that happen?
Well, so there can be salts from the rocks that the lake is sitting on.
Okay.
So it just leaches it out of the rocks.
Sure.
It can be the minerals that it's sitting on.
And then as you evaporate the fresh water out of that lake, it's like the same thing
in the oceans.
You're leaving behind the salty water, like the Dead Sea,
as it's evaporating and evaporating, it's becoming saltier and saltier.
So a lake that's big and old will be likely to be more salty
than one that is small and recent.
Sure.
Okay.
Just checking.
Is the Dead Sea really a lake?
Be honest.
Yeah.
Like it has rope swings and you can jump into it.
It's like a proper lake with pontoon boats.
What would be cool is if we got hit by comets all the time.
And whatever comet hit.
Oh, sorry.
No.
No, no.
No.
If a comet hit, it would just make a puddle of fresh water.
You could market that.
So one person would be selling Perrier.
Another person would be selling Halley's Comet. People would definitely buy water from Haley's Comet.
That's what I'm thinking.
I'm one of those people.
A recent comet a few years ago, Comet Hale-Bopp, yes that was the name of a comet,
named after its two discoverers, Alan Hale and I forgot Bopp's first name, but it's an
odd Hale-Bopp to have your comet named that. That actually set a record for the comet that was visible to the naked eye for longer in the sky than any other comet in recorded history.
So it was a special comet.
We all knew about it.
I even saw that comet.
It was bright enough to see from Times Square, New York.
Wow.
It was kicking comet butt among comet visibility.
It was very bright.
But we checked that comet, and we saw that doesn't have the kind of water that matches our oceans.
How are you checking these things?
Yeah, be honest.
Yeah.
And don't say you're just in the Ferris wheel at the Toys R Us in Times Square,
and you look up and you're like, yeah, not the same.
What you do is, the comet, as it nears the sun, the heat from the sun evaporates the
ice and it grows a tail, among other things that evaporates.
It bites water, ammonia, this sort of thing.
So as it evaporates out, you can wait for light to pass through it from the sun and
see what those gases do to the sunlight.
And if there's water there, it will grab certain light out of the Sun's spectrum and leave gaps in the spectrum
that you analyze back here on Earth.
You say, that's a water gap.
That gap can only have been left by water.
There's another gap that can be left by cyanogen.
In fact, Halley's Comet in 1910
was the first discovery of cyanogen in the tail of a comet.
And we knew that Earth would be passing through the tail of the comet.
And at the time, the gas chamber used cyanogen-derived gases.
And people said, we're all going to die.
The whole Earth is going to die at the same time because we are going to plow through the tail of Halley's Comet. So what we had was charlatans selling comet pills
to protect you from this gas.
You say charlatans, but we're all alive.
That's how science works, right?
Exactly.
So we had the comet pills, and people bought them,
and some people got rich.
But here's the problem.
If you take all the gas of a comet's tail, which is in some cases 100 million miles long,
and made it into kind of atmospheric density, because it's very thin and tenuous, but compress
it down to just regular air, 100 million mile long tail, it would fill a few suitcases.
I don't know how big your suitcases
but it sounds like you mean small suitcases small suitcases that humans would use so no we clearly
survived but you can measure water getting back to your question jason yeah yeah you see the water
now if the water is a little heavier it will leave features that are shifted slightly from regular
water and you say there's the odd water.
Gotcha.
Yeah. And it's deuterium. So it's called heavy water. So could you take us into the water cycle?
What is that? And how does it work?
Energy from the sun evaporates water off the ocean. It rises, forms clouds, sometimes moves
onto land. Then precipitation rains out of those clouds, and that water can contribute to rivers
and streams and becomes that tiny fraction of surface water that we know and see, or it can
infiltrate into the ground, seeping down into the dirt and becoming aquifer water, groundwater.
Okay, so when we drink water, we draw it from aquifers and from rivers. Typically, yeah.
And when we have farms, we irrigate, maybe.
Yeah.
Okay, and why can't we use salt?
Plants don't like salt water, I guess.
Not too salty.
So there's a lot of research now on can we use treated wastewater?
Can we use brackish water to irrigate?
Like, what are the other options?
Brackish is salty.
Brackish is kind of salty.
It's mixed.
It's not as salty as the ocean, but it's not freshwater. That's why it's brackish is kind of salty it's mixed it's it's not as salty as the ocean but it's not
fresh water that's why it's brackish yeah it's where fresh water and salt water meet to throw
a party so water is good for life necessary excuse me yes it's necessary for life but in fact we
might word that sentence in reverse it's not that water is good for life, it's that life is good for water.
Yeah, there you go. Because it's not like we had life and said, gee, how can we improve it? Let's
get some liquid water in us. No. We rose up, evolved, knowing that there's water available
to move nutrients through our body, to help our circulatory system, to move nutrients through our body to help our circulatory system to
move through the foods that we eat a water world is ripe for life as we know
it because life requires liquid water now you know we got other places with
water in the solar system Mars no water on the surface we think there's water
hidden below in aquifer yeah so we got people want to go check for microbial life there. Europa? Europa. I love me some Europa.
Europa.
Europa Cafe?
You got to check out Pret.
If you like Europa, you'll love Pret.
What is Europa?
Okay.
Jupiter, of its many moons, one of them is Europa. It is well outside of the Goldilocks zone of our planetary system, our solar system.
The Goldilocks zone is where water left to its own devices would remain in a liquid state.
Not too hot, not too close to the home star, it would evaporate.
Not too far away, it would freeze.
So Europa and Jupiter are outside of the Goldilocks zone. But Jupiter's gravity pulses the physical body of that moon in such a way
that it's pumping energy into it, melting that ice.
And there's an upper layer of ice, but beneath ice floats.
Beneath it is an ocean of liquid water that's been liquid for billions of years.
Yeah.
I want to go ice fishing on Europa.
Yeah.
And I always joke about this
but I'm mostly serious
if you find life on Europa
you'd have to call it European
right?
and we would have to destroy what we now call Europe
or not
I don't see another option
but flooding regular Europe
to not have one word mean two things
it would be confusing.
It would be.
I'm from Kansas City, and there's a Kansas City, Kansas, Kansas City, Missouri.
It's a nightmare.
Yeah.
So, Tess, let me ask you.
So we hear that water is a universal solvent.
Now, that sounds dangerous, that we just drink solvent, right?
Uh-huh, yes.
So what does that mean?
So the solvent is the word that describes the liquid or the matrix that something can dissolve into.
So when you stir salt or sugar into water, the salt and the sugar is the solute and the water is the solvent.
And many things dissolve in water because it has this polar structure because of hydrogen bonding.
Are we going to talk about hydrogen
bonding? We can talk bonding. Have a hydrogen bond with someone. That's a good bond.
We don't mind.
So you're saying hydrogen has the capacity to bond in ways that will grab more than one kind
of thing into it so that you can dissolve more things in water than in most other liquids.
Right.
Which makes it a good cleansing thing.
Yes.
Because I got something here and I don't want it there.
I want to put it in the water, send water across it.
It jumps into the water and you wash it away.
Okay.
So surely there are other solvents though.
How about ammonia?
I clean my windows with ammonia.
So why isn't life based on ammonia?
I don't know.
I don't study life.
You don't study?
Oh, you study rocks.
Yeah, sorry, sorry, sorry.
Water.
Okay.
But I know the answer, actually.
It would sting.
It tastes weird, and it would sting.
Yeah.
So ammonia dissolves.
So does turpentine.
Can you imagine life based on turpentine?
I can.
All done.
It's eight feet tall.
How about in the lab, in the bio lab, they have organs stored in formaldehyde.
Right.
These are other sort of liquids that exist in nature, but we're based on water.
Maybe it has something to do with redox conditions.
Redox conditions.
Redox conditions.
Well, redox conditions, as you guys know, and I know, is a scientific thing that you
guys...
Yeah, wait, wait, wait.
It's a kind of dog.
I don't really know what it is.
It's where, in the presence of some thing, you actually remove oxygen atoms from what's
there.
Yep.
The opposite is what happens when iron rusts, right?
You're adding oxygen to it. But what I'd say, though, is water is one of the most common
three-atom molecules in the universe.
And because hydrogen is common, oxygen is common.
And so when we say we're going to search for life as we know it,
such as what NASA does, NASA follows the water,
you might say, that's kind of limiting.
Maybe there's life based on,
you know, methane or something else. But water is abundant everywhere in the universe.
What are the other two most common?
The CO2 is very common. That's a three atom.
Good.
Carbon and oxygen, very common in the universe.
Okay. Just curious.
Except CO2 is a byproduct of our
metabolism yeah, and of our civilization
More on co2 being a byproduct of our civilization disrupting the water cycle
When we return in our second segment of StarTalk live beacon theater Give it up! On the subject of water, it's not only ever about science.
It's the interplay of what we know as scientists regarding water,
and then the efforts of people who are deeply committed to making water available to us all.
And we have as a special guest this evening,
a person who has committed his life, basically, to humanitarian causes,
including in this long list of humanitarian causes, is what to do about water. Rivers that
have been polluted, we need to clean them. Lakes that are dead, we need to fix them. People who
don't have fresh water to drink, we need to supply it. Give a warm Beacon Theatre New York City welcome to Robert Kennedy Jr.
Our next guest is another person deeply committed to the human condition around the world.
We all take access to clean water and fresh air for granted.
So much of the world cannot.
And in this effort, we have brought with us to this stage His Holiness the Gyalwang Drupalama.
His Holiness. So this stage is now sanctified, I think, by your presence here.
Thank you for joining us, both of you.
It's almost a lost art.
I grew up in an era where sort of humanitarian
causes led all political discussion, all UN conversations, and it's refreshing to see that
such an effort is still alive with whatever struggles it may require in modern times.
I just want to applaud what is an extraordinary legacy that you're creating and the continuation of what your entire family lineage
has been all about. So I just want to give a thank you.
So Bobby, can I call you Bobby? Yeah, good, good. Thank you. Can you just tell me what your
Waterkeepers Alliance is? It sounds audacious.
The first Water Keeper was started by a kind of a blue-collar coalition of commercial and recreational fishermen
who mobilized on the Hudson River back in the early 60s.
They saw that pollution was destroying their livelihood.
They had been to the government agencies.
They were supposed to protect us from pollution,
and they came to the conclusion that government was in cahoots with the polluters.
They launched a boat on the river.
They began suing polluters and collecting bounties.
They discovered an old law, an ancient navigational statute called the 1888 Rivers and Harbors Act.
1888?
It was a navigational statute that was written when people in New York were constructing the first large buildings,
and they were taking the cellar dirt and dumping it into the water. They were also dumping dead
horses and other things into the water that impeded navigation. Wait, wait. So the urge to
protect the river wasn't to keep it clean, just to keep it unobstructed by dead horses. Well,
that's right. Just so I understand. When were they dumping horses in the 60s?
No, no, no.
That was the 1860s.
This was 1888.
That's fine.
Actually, the reason that we ultimately saved the Adirondack Mountains
was not because people cared that much about the mountains,
but when they found out when they cut down the forest
that the sediment was running off the ground.
And His Holiness now has 150 river keepers
in Nepal and northern India.
But he planted more trees than any other person in the world.
And it was because...
But the reason the state legislature here in New York preserved the Adirondacks is because
they found when they cut the trees, the sediment was washing off the Adirondacks, landing in
the Hudson River, and impeding navigation.
So it was the Carnegies, and it was the Rockefellas, and it was the Whitney's, and the powerful
families, the Livingstons, that controlled the navigation on the Hudson.
They were able to influence the New York State Legislature to finally protect the river.
So not all protect nature causes have noble origins. Well usually our successes
are driven by alliances with powerful economic interests and today the battle
for example to transition to clean energy economy, it's a battle against the incumbents, coal, oil, carbon cronies, and big nuke.
But it's abetted by companies that are like General Electric, Siemens, Vestas,
very, very big, powerful economic entities
that see that they have an opportunity to make money,
and NRG, which is the biggest energy producer in our country, which see that we can actually produce electrons cheaper from wind and solar
and renewables. And that if we have a level marketplace, that they can actually make a
lot of money in that market, displacing the incumbent. So we have them on our side. And
that's one of the reasons that we're winning incrementally, bit by bit, this battle to transition to clean energy.
Is that a change in tactics?
Because there was a day when all corporations were enemies and flower children were the future.
But you've gotten kind of practical over the years then.
If you're saying, make an alliance with powerful people and get them to understand the cause, and then stuff can happen like that.
people and get them to understand the cause, and then stuff can happen like that.
You know, I think one of the things that environmentalists and people in the business community have come to realize that good environmental policy is identical to good
economic policy. If you talk to the big polluters, the Koch brothers and
their indentured servants in our political process. They'll tell you that we have to choose between economic prosperity on the one hand and environmental
protection on the other, and that's a false choice.
These are people who want to say that a good economy is a creative world where we can treat
the planet as if it were business and liquidation and convert our natural resources to cash, make a few people billionaires by impoverishing
the rest of us.
And that's not good economy for anybody.
I want to stick to water because there's a whole world we could get into here.
But I noticed you're a senior attorney for the Natural Resources Defense Council,
and it says you're the chief prosecuting attorney
for the Hudson Riverkeeper.
So if anybody messes with the Hudson,
you're all over them.
Right.
We are always on the side of the water
against the guys who are trying to pollute it.
You know, there's only one of the five boroughs of New York
that are connected to the mainland of the United States.
The rest of them...
The Bronx?
Yes.
The rest of them are islands in the Hudson River, and we are a maritime city.
We're here because this was the greatest port in the world.
And for many years, we couldn't use the water because it was so polluted.
I grew up in that time.
Tires would
float up. And I knew I was in a different world as in the late 70s, early 80s, where I saw people
fishing in the Hudson and keeping the fish that they fished out of it. I thought that was weird.
And I didn't know you had been at it that whole time. Now, I'm intrigued by this tree cutting
in the Adirondacks and that then affecting the fresh water because
His Holiness your tree planting campaign which my records show made it into the
Guinness Book of World Records I didn't even know that was a record that could
be made so could you tell me what that record was the tree planting record it
was I think the most tree was planted. I mean,
the 100,000 something over tree was planted in that particular sort of short period, and by
10,000 people, something like that. So it was kind of an amazing achievement for everybody. But of
course, for me, it was very exciting to see because we were
planting this tree in the desert, actually. And it was then more exciting is the next year.
It was growing very nicely. Then it become like a bush and the forest.
You created a forest? Yeah, just a forest.
Did you ask anybody? Is that allowed? Can you just create a forest? Can we do it again?
Yeah. Here? A hundred thousand and one. Yes. Yeah. Can we pick like a restaurant
and just plant a hundred thousand trees? You know, His Holiness has 30 million followers.
On Twitter? A lot of them are bots.
On Twitter?
A lot of them are bots.
Person.
Person.
People, yes.
He comes from the section of the Himalayas, northern India, and Nepal.
It's the headwaters for most of the freshwater in Asia. And the rivers, the Yangtze and the Ganges, that flow out of his homeland.
So if it's most of the fresh water for Asia,
Asia is a fourth of the population?
By some estimates, his water goes to 4.5 billion people in the world.
I've heard His Holiness speak very movingly of the moral obligation that he has and that his followers have
to make sure that that water makes it to those agricultural areas
and makes it to the sea and feeds the fisheries. Just to clarify, this water would be melted glacial water from the
Himalayas, right? So some of it's melted glacier water and some of it's monsoon water. So just
straight precipitation that runs off into the rivers and then flows downstream. Okay. And so
these trees are not only just a good thing, because more trees are better
than fewer trees, but did that also protect the soil erosion? Is that a secondary goal here? Yes,
yes. Everything is circulating, you know. So the tree gives oxygen, and oxygen somehow brings the,
you know better than I do, actually. But of course, then it gives water and all these things.
So of course the tree is very badly needed for the human being and for everybody to survive because of the oxygen.
Oxygen is very much needed for us to sort of have a life.
Okay, did you know that some other team of people beat your Guinness record?
Did you know this?
I didn't know.
Yeah, yeah, so now you've
got to do it again. Never-ending. That's good. So then I'll be beating them next. Yeah, see,
it's one of those things. And then somebody will beat me also. Exactly. It's not like the hot dog
eating winner. You know, there are a lot of weird things in the Guinness book.
They get much less noble than what you're describing.
So I also noticed that in many of the areas where this fresh water supplies,
it's primarily women who retrieve the water from where it comes.
Is that correct?
And so that creates a gender separation of tasks.
So you're trying to combat that as well, is that correct? No, a woman knows much better about the
water, and the man knows maybe better about the trees and a little bit like a more sort of other
things. So the water, speaking about the water, the woman knows much better. Why? Because the
women always collect the water from the whales and then use.
So women know, women have much more passion about the water and with the water.
The water is very heavy.
Heavy.
These are strong women, right?
Yes, right.
Right.
Okay.
Now, is it true that you taught kung fu to nuns?
That they're kung fu nuns?
That's what-
How do I become a kung fu nun?
Isn't that where we get nunchucks?
Yeah.
Oh!
Let me throw this out there.
Willing to carry water.
So what was the motivation there to teach martial arts?
To create an army of super nuns. Yeah.
One of the main sort of target that I was doing
was gender equality.
So, of course, gender equality
Thank you. Thank you. Apparently, I only heard women applaud that.
Let's try that again. Say, gender equality.
I am very proud of myself to be able to do that actually and also to hear your clapping. So this is the reason the Kung Fu came into this and Kung Fu can give the confident and
the defense not to harm others of. That is not my main aim.
But to defense them.
But that's just the benefit of what you teach.
Is that you could harm others.
But that's not the main...
Yeah, you could.
Cool? Still into it?
Still want to be a Kung Fu nun?
So this is an extraordinary statement.
Cultural statement that you have made.
So did you find resistance?
Cultural revolution.
Revolution. I understated it. Yes.
So did you find resistance from men who didn't want to get their butt kicked by the women?
Excuse me. I don't do your holiness. I'm just saying, the progress of women in the world has not come easily
because you have men who are resistant to giving up the power they have,
one of which is the power of might over them.
And so was there resistance here?
I could feel some resistance and some discomfort.
But of course now they have to get used to it because, you know,
But of course now they have to get used to it because, you know, because I will not give it up.
Anyway, I'll keep on doing it and I will keep on dedicating my life for gender equality,
you know.
There is no...
So the water keepers, they named you the guardian of the Himalayas.
Could you explain that?
Me?
Sure, Bobby.
We have water keepers now all over the world, and we license each new keeper.
They have to live on the waterway, and they have to be willing to defend it.
Could I be the water keeper of Park Slope?
I'm not far from the Kiwanis.
You already have one.
Oh, there you go.
I tried the Kiwanis.
And His Holiness had demonstrated a very, very strong devotion.
There are some other religions that have taken this on
and some great religious leaders.
In fact, there's a convocation on the Black Sea every year
where Patriarch Bartholomew of the Greek Orthodox Church
who said this is the moral issue that faces our generation. But his holiness, who has led these
pilgrimages all across India, cleaning up the environment where people pick up trash,
plant trees, and he's really made it the theme of his lifetime. And the water was an important
part of that. And because the water is so important
to all of Asia, he's really, even by people who are not among his direct followers, he is regarded
as one of the great spiritual leaders in the world. And he has consistently made water the
centerpiece of his moral cosmology. So in speaking with His Holiness before we came on here, I asked at what elevation
he lives in the Himalayas, and the elevation is? 5,000 meter. Yeah, 5,000. This is America,
so I have to translate. 19 Denvers.
Is that even close?
Is that even close?
5,000, you know, 15,000 feet or so.
That's very high, right?
Is it a walk-up?
A walk-up.
Probably not, right?
Yeah, yeah.
You have the literal and figurative high ground and that's a good place to be because no one really
has any other place to make an argument against what you're saying everything
you were too far away for them to read let's go get them wait where does he
live So here's a fact that we dug up for this program.
fact that we dug up for this program. United States residents, on average, use 150 gallons of water per day for our domestic and municipal purposes. 150 gallons a day. That's highest in
the world. Compare that with the UK, which uses 30 gallons per day. And then I said, how do you get that?
And then I was reminded that in America we bathe more often than in many other countries.
That's not the explanation.
That's not the explanation.
We don't bathe five times a day.
But what it tells me is that different countries have different needs or wants, and if there's
ever a redistribution of access to water, that could cause some conflict.
So Your Holiness, could you comment on ways, either historically or from what you have
seen today, where there has been unrest regionally because of access to water?
Normally, I always say that the people have to be educated more.
People have to be more careful about preserving the water.
Also, polluting water less.
I think the people can do a lot of contribution if they're really educated and if they were
told nicely in the school and also the parents need to be teaching them nicely and precisely
and you know like fully so that every youngsters and next generations will be very cautious
about and be happy to sort of serve the whole world.
Not only the whole world, but the generations and generations.
They will be able to serve and they will be able to do a good thing.
Otherwise, they'll mess up.
They'll mess up the whole world.
Right.
Now, in terms of the use of the fresh water in our first segment,
we were discussing where is the fresh water of the world.
And, okay, we might in America use 150 gallons, but that's not the bulk of the water that gets used.
What's the number here?
Seventy percent is used by agriculture just to grow the food that we eat.
Is that the same fraction of the number all around the world?
So, Tess, we use a lot, we irrigate, but other parts of the world, what fraction of fresh water do they use for agriculture?
So it's actually more in developing countries compared to developed countries.
The U.S. uses less than 70%.
Less than 70%.
Yeah.
So we're using 60-ish.
But if you go to India or parts of China, they're using over 90.
Over 90% of all of their available fresh water for agriculture?
No, 90% of the total water used goes to agriculture.
And why do they use more water than we do?
Do they have plumper melons?
No, it's just that they're using less for industry.
So the U.S. has developed its industry, and we use a lot of water.
We wash a lot of cars.
They mostly make apples.
That's basically it.
And it takes less for apples.
Apple's not the best example, but car is a great example.
So what you're saying is there are fewer other things they use their fresh water for
relative to their agriculture
compared with us.
Right, because they're just trying to get food security.
That's the first priority.
Because they've got 1.3 billion people.
Right.
They need to eat.
Okay.
So, Bobby, how do you distribute your energies versus where people use their fresh water?
Are you primarily concerned about drinking water or agriculture as well?
How does that balance out in your portfolio? By the way, just so I say it, you've got a book here, The River Keepers,
written with James Cronin, activists fight to reclaim the environment as a basic human right.
So you're just at this at all angles. And so how do you budget your effort?
Well, let me just answer the question that you asked a little bit earlier about the relationship between global and civil conflict and water shortages, most geopolitical analysts agree, for example,
that the conflict now, the civil war in Syria, was triggered by a massive water shortage that
was associated with global warming. Between 2006 and 2011, they had the biggest drought in the northeastern part of Syria in history.
Almost 100% of the farmers were affected.
Three and a half million farmers lost 100% of their production.
A million of those farmers migrated to the cities.
And that's what triggered the civil strife.
But also, throughout the Arab Spring in Tunisia and in Egypt, the bread prices were driven high,
which is what triggered the revolutions in those countries.
There was a lot of causes to those revolutions.
And by the way, not all those causes, I made it into the news cycles.
No, and the water shortage now is making it in as one of the primary triggers for those
revolutions.
When you hear people on Capitol Hill saying, where's global warming?
Where does it affect us? There are millions of environmental refugees every year throughout the world who are
driven off their land and who are creating civil strife and political strife and security problems
that affect the United States because of water shortages. Now, in answer to your other question,
the philosophy that kind of unites all the keepers is really an ancient philosophy, which is the water is part of the commons.
Commons are those things, those assets that cannot be reduced to private property ownership,
but by their nature are the assets of the whole community.
The air, the water, the wildlife, the fisheries, the public lands, the wandering animals,
and of course,
waters and shorelines. And since ancient times, the Code of Justinian, the Magna Carta,
and every state constitution, including here in New York, has a provision in it called the Public Trust Doctrine that comes to us from those ancient constitutions. And that doctrine says that
water belongs to everybody. It doesn't
belong to Congress, the Senate, big corporations. It belongs to all of us. Everybody has a right
to use it. Nobody has a right to use it in a way that will diminish or injure its use
and enjoyment by others. So everybody can use their share. Nobody can take more than
their share. But every child in New York City, whether they're black or white, rich or poor, young or old,
has a right to go down to the 79th Street boat basin or to go down to the East River on the FDR Drive,
throw in a plug, bring out a striped bass, bring it home and feed it to their family
with the security they're not going to poison somebody
and with the security that the fish are going to be there.
Are you telling me there's striped bass in the East River?
There are a lot of striped bass in the East River, and there are a lot of mackerel, and
there's shad, and sturgeon, and herring.
There's shad in the East River that weigh 1,100 pounds, and they have 200 pounds of
caviar in them.
Can I walk into a bodega and grab a smart water and go, don't even try it, dude.
This is mine.
Is my smart water? go, don't even try it, dude. This is mine. This is my smart water.
Probably not, right?
You can't just steal water from the bodega.
But you can steal it from the river.
You can take some from the river, but I wouldn't advise it.
Don't do it.
I'm drinking.
Right.
Okay, so Bobby, I think what you described in some cases
is a little oversimplified because we have state boundaries
and there are some aquifers, if I understand correctly, in some cases is a little oversimplified because we have state boundaries and
there are some aquifers if I understand correctly that cross county boundaries
and state boundaries and you have multiple municipalities now competing in
a sense for one repository of water the water doesn't know the political
boundaries but people do and so that would surely create strife if somebody's draining
water faster than somebody else is. Well, here's the problem. The law is the same in the East.
If there's water that flows from New Jersey to here, there are compacts between the states
about how to allocate that according to the public trust doctrine. The problem is the big
place where you see water problems. We got a lot of water in the
east. We don't have water shortages here. There's water shortages in the western states and the
western states water was allocated the way that they allocate the water in Syria where the
governments wanted to get white men to move out into the western states to settle the states to
take it away from the Mexicans and the Indians.
And so what they did is they said, if you come out here, you can own the water, and as much as you
can use, you own it. And so there are very, very irrational laws out west that incentivize people
to use as much water as they can to grow rice in the desert, to grow alfalfa in the desert,
and to grow cities like Las Vegas and Scottsdale.
You know, and now as a result of that, of course, the Colorado River dries up in the desert and
never makes it to the sea. Another point to be made is it's one thing to pollute water and not
make it available. It's another thing for climate change to redefine what regions have water and
what don't, or what now gets too much water or
what now gets too little because we developed our civilizations based on
some expectations of what kind of water supply would be available so let us
bring this segment the second of three segments to a close we're live at the
beacon theater The Beacon Theatre.