Are we running out of clean water

我们是否要用完洁净的水了

来源视频

From space, our planet appears to be more ocean than Earth.

But despite the water covering 71% of the planet’s surface,

more than half the world’s population endures extreme water scarcity

for at least one month a year.

And current estimates predict that by 2040,

up to 20 more countries could be  experiencing water shortages.

Taken together, these bleak statistics raise a startling question:

are we running out of clean water?

Well yes, and no.

从外太空看，我们的星球上 海洋比土地更多。

尽管地球表面的71%覆盖着水，

世界上超过一半人口

每年至少有一个月要经受严重缺水。

以目前预计，到了2040年

会新增20个国家陷入用水短缺。

总的说来，这些冰冷的统计数据 带来了一个骇人的问题：

我们将会用尽仅有的净水吗？

At a planetary scale, Earth can’t run out  of freshwater thanks to the water cycle,

a system that continuously produces  and recycles water,

morphing it from vapour, to liquid,  to ice as it circulates around the globe.

So this isn’t really a question of  how much water there is,

but of how much of it  is accessible to us.

嗯，也是，也不是。

就行星而言，地球不会用完淡水

得益于水循环系统不断地产生和回收水，

将其形态不断汽化、液化、固化， 并在全球循环往复。

所以问题并不在于水有多少，

而是我们能得到多少水。

97% of earth’s liquid is saltwater,

too loaded with minerals for humans to drink or use in agriculture.

Of the remaining 3% of potentially  usable freshwater,

more than two-thirds is frozen in ice caps and glaciers.

That leaves less than 1% available  for sustaining all life on Earth,

spread across our planet in rivers, lakes,

underground aquifers, ground ice and permafrost.

It’s these sources of water that are being rapidly depleted by humans,

but slowly replenished  by rain and snowfall.

地球上97%的水是海水，

对人类来说矿物质太多了， 不合适饮用或灌溉。

在剩下3%的淡水中，

三分之二以上都封存于冰盖和冰川之中。

只有不到1%的水可以 维持地球上所有生命，

而这些净水遍布于江河、湖泊、

地下蓄水层、地下冰和永冻层。

人类正在快速地消耗着这些水源，

而雨雪的补充却很慢。

And this limited supply isn’t distributed evenly around the globe.

Diverse climates and geography provide some regions

with more rainfall and natural water sources, while other areas have geographic features

that make transporting water  much more difficult.

And supplying the infrastructure  and energy it would take

to move water across these  regions is extremely expensive.

In many of these water-poor areas, as well as some with greater access to water,

humanity is guzzling up the local water supply faster than it can be replenished.

这些有限的水源在全球的 分布不是平均的，

不同的气候和地理为某些地区

带来不绝的雨水和自然水资源，

其他地区的地理因素令引水艰难。

这些地区的引水工程和能源消耗

费用极为昂贵。

在很多缺水的地方和 水资源充裕的地方，

人类的用水量都超越了 自然补充的速率。

And when more quickly renewed  sources can’t meet the demand,

we start pumping it out of our  finite underground reserves.

Of Earth’s 37 major underground reservoirs, 21 are on track to be irreversibly emptied.

So while it’s true that our planet  isn’t actually losing water,

we are depleting the water sources we rely on at an unsustainable pace.

This might seem surprising –

after all, on average, people only drink  about two liters of water a day.

当快速补水资源不再满足需求时，

我们开始抽取有限的地下水储备。

全球37个主要的天然地下水库当中， 有21正在被耗尽。

虽然地球确实不会失去水，

我们正以不可持续的方式 消耗着赖以生存的水源。

出人意外的是——

平均每人一天毕竟只需饮用2升水。

But water plays a hidden role in our daily lives, and in that same 24 hours,

most people will actually consume an estimated 3000 liters of water.

In fact, household water – which we use to drink, cook, and clean –

accounts for only 3.6% of humanity’s water consumption.

Another 4.4% goes to the wide  range of factories

which make the products we buy each day.

But the remaining 92% of our water consumption is all spent on a single industry:

agriculture.

但是水在日常生活中的作用是潜在的，

同样的24小时中， 多数人其实要消耗3000升水。

事实上，家庭用水—— 饮用、做饭、清洗等等——

只是人类用水的3.6%。

另外有4.4%的水用于广泛的工厂中

用以制造出我们的日常用品。

而剩下的92%的水都是用在一件事上：

农业。

Our farms drain the equivalent of 3.3 billion

Olympic-sized swimming pools every year,

all of it swallowed up by  crops and livestock

to feed Earth’s growing population.

Agriculture currently covers 37% of Earth’s land area,

posing the biggest threat to our  regional water supplies.

And yet, it’s also a necessity.

每年，农场消耗的淡水足以填满

33亿个奥运标准泳池。

全都用于农作物和畜牧业

用以养活全球不断增长的人口。

目前农业用地占全球陆地面积的37%，

对地区供水是最大的威胁。

话说回来，这是必须的。

So how do we limit agriculture’s thirst while still feeding those who rely on it?

Farmers are already finding ingenious ways to reduce their impact,

like using special irrigation techniques  to grow “more crop per drop”,

and breeding new crops  that are less thirsty.

Other industries are following suit,

adopting production processes  that reuse and recycle water.

我们能否控制农业的渴求， 同时也能满足其他的用水需求呢？

农民们想出了创造性的方法 来降低他们的影响，

比如采用特殊的灌溉技术 让每滴水养更多作物，

以及种植耐旱的新作物。

其他工业也从善如流，

采用的生产过程可以循环用水

On a personal level, reducing food waste  is the first step to reducing water use,

since one-third of the food that leaves  farms is currently wasted or thrown away.

You might also want to consider  eating less water-intensive foods

like shelled nuts and red meat.

Adopting a vegetarian lifestyle  could reduce

up to one third of your water footprint.

对个人来说，减少食物浪费是 降低用水的第一步，

因为种出来的食物有三分之一是 浪费掉或扔掉的。

你也可以考虑少吃耗水的食物，

比如脱壳坚果和牛羊肉。

素食的生活方式可以减少

三分之一的广义用水。

Our planet may never run out of water,

but it doesn’t have to for  individuals to go thirsty.

Solving this local problem  requires a global solution,

and small day-to-day decisions can  affect reservoirs around the world.

我们的星球永远不会缺水，

但她不必为了人类而变得干涸。

这样的区域性问题需要 全球性的解决方案，

日常的每个改变可以 影响全世界的水资源。

（以下为字幕缺失部分，仅供参考）

So where will this global solutions come from，

and how can we humans famously set in our ways, make sure these changes stick.

 Lucky for us, a generation of young people is already committed to a cleaner, greener future，

and many of them are sharing their innovative ideas through TEDEd student voice program.

Sign up to gain access to our free curriculum, 

 and learn how to fine-tune your idea and share it with the world.

那么这种全球解决方案将来自哪里，

人类又该如何以自己的方式行事，并确保这些更改保持不变。

幸运的是，一代年轻人已经致力于一个更清洁，更绿色的未来，

他们中的许多人通过TEDEd学生语音计划分享他们的创新想法。

注册以访问我们的免费课程，

并学习如何微调您的想法并与世界分享。

最后一段里本听成是 set on our way ,但查询出来的基本都是set in our way，下面是找到的一些定义，仅供有兴趣的朋友参考