We need to track the worlds water like we track the weather Sonaar Luthra

We need to build
a weather service for water.

Yet, until we collectively
demand accountability,

the incentives to fund it will not exist.

The first time I spoke at a conference
was here at TED, eight years ago.

Fresh out of grad school,
little did I know

that in those few minutes onstage,

I was framing the questions
I was going to be asked

for the next decade.

And, like too many 20-somethings,

I expected to solve
the world’s problems –

more specifically,
the world’s water problems –

with my technology.

I had a lot to learn.

It was seductive,

believing that our biggest
water quality problems persist

because they’re so hard to identify.

And I presumed

that we just needed simpler, faster
and more affordable sensors.

I was wrong.

While it’s true that
managing tomorrow’s water risk

is going to require better data
and more technology,

today we’re barely using
the little water data that we have.

Our biggest water problems persist
because of what we don’t do

and the problems we fail to acknowledge.

There’s actually little question

about what today’s water data
is telling us to do as a species:

we need to conserve more,

and we need to pollute less.

But today’s data is not going to help us
forecast the emerging risks

facing businesses and markets.

It’s rapidly becoming useless for that.

It used to carry more value,

but it’s never actually told us
with any real accuracy

how much water we have

or what’s in it.

Let’s consider the past decade
of water usage statistics

from each of the G20 nations.

Now, what these numbers do not tell you

is that none of these countries
directly measures how much water they use.

These are all estimates,

and they’re based on outdated models

that don’t consider the climate crisis,

nor do they consider its impact on water.

In 2015, Chennai,
India’s sixth-largest city,

was hit with the worst floods
it had seen in a century.

Today, its water reservoirs
are nearly dry.

It took three years to get here,

three years of subaverage rainfall.

Now, that’s faster than most nations
tabulate their national water data,

including the US.

And although there were forecasts

that predicted severe shortages
of water in Chennai,

none of them could actually help us
pinpoint exactly when or where

this was going to happen.

This is a new type of water problem,

because the rate at which
every aspect of our water cycle changes

is accelerating.

As a recent UN warning
this month revealed,

we are now facing one new
climate emergency every single week.

There are greater uncertainties
ahead for water quality.

It’s rare in most countries
for most water bodies to be tested

for more than a handful
of contaminants in a year.

Instead of testing, we use
what’s called the “dilution model”

to manage pollution.

Now, imagine I took
an Olympic-sized swimming pool,

I filled it with fresh water
and I added one drop of mercury.

That would dilute down
to one part per billion mercury,

which is well within what
the World Health Organization

considers safe.

But if there was any unforeseen drop
in how much water was available –

less groundwater, less stream flow,
less water in the pool –

less dilution would take place,

and things would get more toxic.

So this is how most countries
are managing pollution.

They use this model to tell them
how much pollution is safe.

And it has clear weaknesses,

but it worked well enough
when we had abundant water

and consistent weather patterns.

Now that we don’t, we’re going to need
to invest and develop

new data-collection strategies.

But before we do that, we have to start
acting on the data we already have.

This is a jet fuel fire.

As many of you may be aware,

jet fuel emissions play
an enormous role in climate change.

What you might not be aware of
is that the US Department of Defense

is the world’s largest
consumer of jet fuel.

And when they consume jet fuel,

they mandate the use
of the firefighting foam pictured here,

which contains a class
of chemicals called PFAS.

Nobody uses more of this foam
than the US Department of Defense,

and every time it’s used, PFAS
finds its way into our water systems.

Globally, militaries have been using
this foam since the 1970s.

We know PFAS causes cancer, birth defects,

and it’s now so pervasive
in the environment

that we seem to find it in nearly
every living thing we test,

including us.

But so far, the US Department of Defense
has not been held accountable

for PFAS contamination,

nor has it been held liable.

And although there’s an effort underway
to phase out these firefighting foams,

they’re not embracing safer,
effective alternatives.

They’re actually using
other PFAS molecules,

which may, for all we know,
carry worse health consequences.

So today, government accountability
is eroding to the point of elimination,

and the risk of liability
from water pollution is vanishing.

What types of incentives does this create
for investing in our water future?

Over the past decade, the average
early stage global investment

in early stage water technology companies

has totaled less than
30 million dollars every year.

That’s 0.12 percent of global
venture capital for early stage companies.

And public spending is not going up
nearly fast enough.

And a closer look at it reveals
that water is not a priority.

In 2014, the US federal government
was spending 11 dollars per citizen

on water infrastructure,

versus 251 dollars on IT infrastructure.

So when we don’t use the data we have,

we don’t encourage investment
in new technologies,

we don’t encourage more data collection

and we certainly don’t encourage
investment in securing a water future.

So are we doomed?

Part of what I’m still learning

is how to balance the doom
and the urgency with things we can do,

because Greta Thunberg
and the Extinction Rebellion

don’t want our hope –
they want us to act.

So what can we do?

It’s hard to imagine life
without a weather service,

but before modern weather forecasting,

we had no commercial air travel,

it was common for ships to be lost at sea,

and a single storm could produce
a food shortage.

Once we had radio and telegraph networks,

all that was necessary
to solve these problems

was tracking the movement of storms.

And that laid the foundation
for a global data collection effort,

one that every household
and every business depends upon today.

And this was as much the result of
coordinated and consistent data collection

as it was the result of producing
a culture that saw greater value

in openly assessing and sharing everything
that it could find out and discover

about the risks we face.

A global weather service for water
would help us forecast water shortages.

It could help us implement rationing
well before reservoirs run dry.

It could help us detect
contamination before it spreads.

It could protect our supply chains,

secure our food supplies,

and, perhaps most importantly,

it would enable
the precise estimation of risk

necessary to insure against it.

We know we can do this because
we’ve already done it with weather.

But it’s going to require resources.

We need to encourage
greater investment in water.

Investors, venture capitalists:

a portion of your funds and portfolios
should be dedicated to water.

Nothing is more valuable

and, after all, businesses are going
to need to understand water risks

in order to remain competitive
in the world we are entering.

Aside from venture capital,

there are also lots of promising
government programs

that encourage economic development
through tax incentives.

A new option in the US
that my company is using

is called “opportunity zones.”

They offer favorable tax treatment
for investing capital gains

in designated distressed
and low-income areas.

Now, these are areas

that are also facing
staggering water risk,

so this creates crucial incentives
to work directly with the communities

who need help most.

And if you’re not looking
to make this type of investment

but you own land in the US,

did you know that
you can leverage your land

to conserve water quality permanently

with a conservation easement?

You can assign the perpetual right
to a local land trust

to conserve your land

and set specific water quality goals.

And if you meet those goals,

you can be rewarded with
a substantial tax discount every year.

How many areas could
our global community protect

through these and other programs?

They’re powerful because they offer
the access to real property

necessary to lay the foundation
for a global weather service for water.

But this can only work if we use
these programs as they are intended

and not as mere vehicles for tax evasion.

When the conservation easement
was established,

nobody could anticipate how ingrained
in environmental movements

corporate polluters would become.

And we’ve become accustomed to companies
talking about the climate crisis

while doing nothing about it.

This has undermined the legacy
and the impact of these programs,

but it also makes them
ripe for reclamation.

Why not use conservation easements
as they were intended,

to set and reach
ambitious conservation goals?

Why not create opportunities
in opportunity zones?

Because fundamentally,
water security requires accountability.

Accountability is not corporate polluters
sponsoring environmental groups

and museums.

Those are conflicts of interest.

(Applause)

Accountability is:

making the risk of liability too expensive

to continue polluting
and wasting our water.

We can’t keep settling for words.
It’s time to act.

And where better to start
than with our biggest polluters,

particularly the US Department
of Defense, which is taxpayer-funded.

Who and what are we protecting
when US soldiers, their families

and the people who live near
US military bases abroad

are all drinking toxic water?

Global security can no longer remain
at odds with protecting our planet

or our collective health.

Our survival depends on it.

Similarly,

agriculture in most countries
depends on taxpayer-funded subsidies

that are paid to farmers to secure
and stabilize food supplies.

These incentives are
a crucial leverage point for us,

because agriculture is responsible
for consuming 70 percent

of all the water we use every year.

Fertilizer and pesticide runoff

are the two biggest sources
of water pollution.

Let’s restructure these subsidies
to demand better water efficiency

and less pollution.

(Applause)

Finally:

we can’t expect progress

if we’re unwilling to confront
the conflicts of interest

that suppress science,

that undermine innovation

and that discourage transparency.

It is in the public interest

to measure and to share everything
we can learn and discover

about the risks we face in water.

Reality does not exist
until it’s measured.

It doesn’t just take
technology to measure it.

It takes our collective will.

Thank you.

(Applause)

我们需要
为水建立一个气象服务。

然而,在我们集体
要求问责之前,

资助它的动机将不存在。

八年前,我第一次在会议上发言
是在 TED。

刚从研究生院毕业,
我几乎不

知道在舞台上的那几分钟里,

我正在构思

下一个十年将要被问到的问题。

而且,就像许多 20 多岁的人一样,

我希望用我的技术
解决世界的问题——

更具体地说
,世界的水问题

我有很多东西要学。

这很诱人,

相信我们最大的
水质问题仍然存在,

因为它们很难识别。

认为我们只需要更简单、更快
、更实惠的传感器。

我错了。

虽然
管理明天的水风险

确实需要更好的数据
和更多的技术,但

今天我们几乎没有
使用我们拥有的少量水数据。

我们最大的水问题仍然存在,
因为我们没有做什么

以及我们没有承认的问题。

对于今天的水
数据告诉我们作为一个物种应该做什么,实际上几乎没有问题:

我们需要保护更多

,我们需要减少污染。

但今天的数据并不能帮助我们
预测

企业和市场面临的新兴风险。

它正在迅速变得无用。

它曾经带来更多价值,

但它从来没有真正准确地告诉我们

我们有多少水

或里面有什么。

让我们考虑一下 G20 每个国家过去十年
的用水量统计数据

现在,这些数字没有告诉你的

是,这些国家都没有
直接衡量他们使用了多少水。

这些都是估计

,它们基于过时的模型

,没有考虑气候危机,

也没有考虑它对水的影响。

2015 年,
印度第六大城市钦奈

遭受了百年来最严重的洪水袭击

今天,它的
水库几乎干涸。

到这里花了三年时间,

三年降雨量低于平均水平。

现在,这比包括美国在内的大多数国家将
其国家水资源数据制成表格的速度还要快

尽管有

预测预测钦奈将严重
缺水,

但它们都无法真正帮助我们
准确确定何时

何地会发生这种情况。

这是一种新型的水问题,

因为
我们水循环各个方面的变化

速度都在加快。

正如本月联合国最近发出的警告所
揭示的那样,

我们现在每周都面临一个新的
气候紧急情况。

未来水质的不确定性更大

在大多数国家
,大多数水体在一年内

检测超过少数污染物的情况很少见

我们没有进行测试,而是使用
所谓的“稀释模型”

来管理污染。

现在,想象一下我拿了
一个奥林匹克大小的游泳池,

我把它装满了淡水
,我加了一滴水银。

这将稀释
到十亿分之一的汞,

这完全
在世界卫生组织

认为安全的范围内。

但是,如果可用水量出现任何不可预见的
下降——

地下水减少、溪流
减少、池中的水

减少——稀释就会减少

,事情就会变得更加有毒。

这就是大多数
国家管理污染的方式。

他们使用这个模型来告诉他们
多少污染是安全的。

它有明显的弱点,

但当我们有充足的水

和一致的天气模式时,它就足够好用了。

既然我们不这样做,我们将
需要投资和开发

新的数据收集策略。

但在我们这样做之前,我们必须开始
对我们已有的数据采取行动。

这是喷气燃料火灾。

你们中的许多人可能都知道,

喷气燃料排放
在气候变化中发挥着巨大的作用。

您可能不知道的
是,美国国防部

是世界上最大
的喷气燃料消费国。

当他们消耗喷气燃料时,

他们要求使用
图中所示的消防泡沫,

其中包含一类
称为 PFAS 的化学物质。

没有人比美国国防部使用更多这种泡沫

而且每次使用时,
PFAS 都会进入我们的供水系统。

在全球范围内,军队
自 1970 年代以来一直在使用这种泡沫。

我们知道 PFAS 会导致癌症、出生缺陷,

而且它现在
在环境

中如此普遍,以至于我们似乎在
我们测试的几乎所有生物中都发现了它,

包括我们自己。

但迄今为止,美国国防部
并未就

PFAS污染问题追究责任,

也未追究其责任。

尽管正在
努力逐步淘汰这些消防泡沫,

但它们并没有采用更安全、
有效的替代品。

他们实际上正在使用
其他 PFAS 分子,据

我们所知,这可能会
带来更糟糕的健康后果。

所以今天,政府责任
正在逐渐消失

,水污染责任的风险
正在消失。


为投资我们的水资源未来创造了哪些类型的激励措施?

过去十年,
全球

对早期水务技术公司

的平均投资总额
每年不到 3000 万美元。

这是
早期公司全球风险投资的 0.12%。

公共支出的增长速度还不
够快。

仔细观察它会
发现水不是优先事项。

2014 年,美国联邦政府
在水利基础设施上为每位公民花费了 11 美元

而在 IT 基础设施上花费了 251 美元。

因此,当我们不使用我们拥有的数据时,

我们不鼓励
对新技术的投资,

我们不鼓励更多的数据收集

,我们当然也不鼓励
投资以确保水的未来。

那么我们注定要失败了吗?

我仍在学习的部分内容

是如何平衡厄运
和紧迫性与我们可以做的事情,

因为 Greta Thunberg
和灭绝叛乱

不想要我们的希望——
他们希望我们采取行动。

所以,我们能做些什么?

很难想象
没有气象服务的生活,

但在现代天气预报之前,

我们没有商业航空旅行,

船只在海上迷失是很常见的

,一场风暴就可能
导致粮食短缺。

一旦我们有了无线电和电报网络,

解决这些问题所需要做的

就是跟踪风暴的运动。


为全球数据收集工作奠定了基础,

这是当今每个家庭
和每个企业都依赖的工作。


既是协调一致的数据收集

的结果,也是产生一种文化的结果,
这种文化认为

在公开评估和分享
一切可能发现和发现的

有关我们面临的风险方面具有更大的价值。

全球水资源气象服务
将帮助我们预测水资源短缺。

它可以帮助我们
在水库干涸之前很好地实施配给。

它可以帮助我们在
污染扩散之前检测到污染。

它可以保护我们的供应链,

保障我们的食品供应,

而且,也许最重要的是,


可以准确地估计

投保所需的风险。

我们知道我们可以做到这一点,因为
我们已经在天气方面做到了。

但这需要资源。

我们需要鼓励
加大对水的投资。

投资者、风险投资家:

你的一部分资金和投资组合
应该专门用于水。

没有什么比这更有价值了

,毕竟,
企业需要了解水风险

,才能
在我们正在进入的世界中保持竞争力。

除了风险投资外,

还有许多有前途的
政府计划通过税收优惠

来鼓励经济发展

我的公司在美国使用

的一个新选项称为“机会区”。

它们为

在指定的陷入困境
和低收入地区投资资本收益提供优惠的税收待遇。

现在,这些

地区也面临着
惊人的水风险,

因此这
为直接与

最需要帮助的社区合作创造了重要的激励措施。

如果您不
打算进行此类投资,

但您在美国拥有土地

,您是否知道
您可以通过保护地役权利用您的土地

来永久保护水质

您可以将永久权利分配
给当地土地信托,

以保护您的土地

并设定特定的水质目标。

如果你达到了这些目标,


每年都可以获得大量的税收折扣。

我们的全球社区可以

通过这些计划和其他计划保护多少地区?

它们之所以强大,是因为它们提供
了为全球水气象服务

奠定基础所必需的不动产

但这只有在我们
按照预期使用这些程序

而不是仅仅作为逃税工具的情况下才能奏效。

当保护地役
权建立时,

没有人能预料到企业污染者会
在环境运动中

变得多么根深蒂固。

而且我们已经习惯了公司
谈论气候危机

而无所作为。

这破坏
了这些计划的遗产和影响,

但也使它们
成熟,可以回收。

为什么不按原意使用保护地役权

来设定和实现
雄心勃勃的保护目标?

为什么
不在机会区创造机会?

因为从根本上说,
水安全需要问责制。

问责制不是企业污染者
赞助环保团体

和博物馆。

这些都是利益冲突。

(掌声)

问责制是:

承担责任的风险太高,

不能继续污染
和浪费我们的水。

我们不能一直满足于言语。
是时候行动了。

最好
从我们最大的污染者开始,

尤其
是由纳税人资助的美国国防部。

当美国士兵、他们的家人

和居住在美国海外军事基地附近的人们

都在喝有毒的水时,我们在保护谁和保护什么?

全球安全不能再
与保护我们的星球

或我们的集体健康相冲突。

我们的生存取决于它。

同样,

大多数国家的农业
依赖于纳税人资助的补贴

,这些补贴支付给农民以确保
和稳定粮食供应。

这些激励措施
对我们来说是一个重要的杠杆点,

因为农业
消耗

了我们每年使用的所有水的 70%。

化肥和农药径流

是水污染的两大来源

让我们重新调整这些补贴,
以要求更好的用水效率

和更少的污染。

(掌声)

最后:

如果我们不愿意

面对压制科学

、破坏创新

和阻碍透明度的利益冲突,我们就不能期待进步。

衡量和分享
我们可以了解和发现的

有关我们在水中面临的风险的所有信息符合公众利益。

在被测量之前,现实并不存在。

它不仅需要
技术来衡量它。

这需要我们的集体意志。

谢谢你。

(掌声)