Whats so great about the Great Lakes Cheri Dobbs and Jennifer Gabrys

What’s so great about the Great Lakes?

They’re known as America’s inland seas.

The North American Great Lakes

Huron,

Ontario,

Michigan,

Erie,

and Superior

are so massive
that they border eight states

and contain 23 quadrillion
liters of water.

That’s enough to cover the land area
of the contiguous United States

three meters deep.

These vast bodies of water span forest,

grassland,

and wetland habitats,

supporting a region that’s home to over
3,500 species.

But how did such a vast and unique
geological feature come to be?

The story begins near the end
of the last ice age over 10,000 years ago,

a time when the climate was warming

and the glaciers that cloaked the Earth’s
surface began their slow retreat.

These immense ice sheets carved out
a series of basins.

Those basins filled with water
as the ice began to melt,

creating the world’s largest area
of freshwater lakes.

Over time, channels developed between
these basins,

and water began to flow in
an ongoing exchange

that persists to this day.

In fact, today,
the interconnected Great Lakes

contain almost 20% of the world’s supply
of fresh surface water.

The water’s journey begins in
the far north of Lake Superior,

which is the deepest, coldest,
and clearest of the lakes,

containing half the system’s water.

Lake Superior sinks to depths
of 406 meters,

creating a unique and diverse ecosystem
that includes more that 80 fish species.

A given drop of water spends on average
200 years in this lake

before flowing into Lake Michigan
or Lake Huron.

Linked by the Straits of Mackinac,
these two lakes are technically one.

To the west lies Lake Michigan,

the third largest of the lakes
by surface area.

Water slowly moves through
its cul-de-sac shape

and encounters the world’s largest
freshwater dunes,

many wildlife species,

and unique fossilized coral.

To the east is Lake Huron,
which has the longest shoreline.

It’s sparsely populated,
but heavily forested,

including 7,000-year-old petrified trees.

Below them, water continues to flow
southeastwards

from Lake Huron into Lake Erie.

This lake’s status as the warmest
and shallowest of the five

has ensured an abundance of animal life,
including millions of migrating birds.

Finally, the water reaches its last stop
by dramatically plunging

more than 50 meters down
the thundering Niagara Falls

into Lake Ontario, the smallest lake
by surface area.

From there, some of this well-traveled
water enters the St. Lawrence River,

eventually reaching the Atlantic Ocean.

In addition to being a natural wonder,

the perpetually flowing Great Lakes
bring us multiple benefits.

They provide natural water filtration,

flood control,

and nutrients cycling.

By moving water across
more than 3,200 kilometers,

the Great Lakes also provide drinking
water for upward of 40 million people

and 212 billion liters a day
for the industries and farms

that line their banks.

But our dependence on the system is
having a range of negative impacts, too.

The Great Lakes coastal habitats are being
degraded and increasingly populated,

exposing the once pristine waters

to industrial, urban,
and agricultural pollutants.

Because less than 1% of the water
leaves the Lake’s system annually,

decades-old pollutants still lurk
in its waters.

Humans have also inadvertently introduced

more than 100 non-native
and invasive species into the lakes,

such as zebra and quagga mussels,
and sea lampreys

that have decimated some indigenous
fish populations.

On a larger scale, climate change
is causing the waters to warm,

thus reducing water levels and changing
the distribution of aquatic life.

Luckily, in recent years, governments have
started to recognize the immense value

of this natural resource.

Partnerships between the United States and
Canada are underway to reduce pollution,

protect coastal habitats,

and halt the spread of invasive species.

Protecting something as massive
as the Great Lakes system

will require the collaboration
of many organizations,

but the effort is critical

if we can preserve the wonder
of this flowing inland sea.

五大湖有什么了不起的?

它们被称为美国的内海。

北美五大湖

休伦湖、

安大略湖、

密歇根

湖、伊利湖

和苏必利尔湖

非常庞大
,它们与八个州接壤

,含有 23 万亿
升水。

这足以覆盖
美国毗邻的

三米深的陆地区域。

这些广阔的水域横跨森林、

草原

和湿地栖息地,

支撑着一个拥有
3,500 多种物种的地区。

但如此庞大而独特的
地质特征是如何形成的呢?

故事开始于
10,000 多年前的最后一个冰河时代即将结束

,当时气候正在变暖

,覆盖地球表面的冰川
开始缓慢退缩。

这些巨大的冰盖形成
了一系列盆地。

随着冰开始融化,这些盆地充满了水,

形成了世界上最大
的淡水湖区。

随着时间的推移,
这些盆地之间形成了通道

,水开始
在持续的交换

中流动,一直持续到今天。

事实上,今天
,相互连接的五大湖

包含了世界近 20%
的新鲜地表水供应。

水的旅程始于
苏必利尔湖的最北部,

这是湖泊中最深、最冷、
最清澈的湖泊,

包含了系统一半的水。

苏必利尔湖沉入
406 米深,

形成了一个独特而多样的生态系统
,其中包括 80 多种鱼类。

一滴水

在流入密歇根
湖或休伦湖之前平均在这个湖中停留 200 年。 这两个湖

由麦基诺海峡相连,在
技术上是一体的。

西边是密歇根

湖,按表面积计算,它是湖泊中的第三大湖

水慢慢地穿过
它的死胡同

,遇到世界上最大的
淡水沙丘、

许多野生动物物种

和独特的珊瑚化石。

东面是休伦湖
,拥有最长的海岸线。

这里人烟稀少,
但森林茂密,

包括 7,000 年历史的石化树。

在它们下方,水继续

从休伦湖向东南流入伊利湖。

这个湖是五个湖中最温暖
和最浅的

一个,确保了丰富的动物生命,
包括数百万只候鸟。

最后,水流到达最后一站

从雷鸣般的尼亚加拉大瀑布下落 50 多米,

流入安大略湖,安大略湖是表面积最小的湖泊

从那里,一些经过良好旅行的
水进入圣劳伦斯河,

最终到达大西洋。

除了自然奇观之外

,源源不断的五大湖还为
我们带来了多重好处。

它们提供天然水过滤、

防洪

和养分循环。

通过将水流
过 3,200 多公里

,五大湖还
为超过 4,000 万人提供饮用水,

每天
为沿岸的工业和农场

提供 2,120 亿升水。

但我们对系统的依赖
也产生了一系列负面影响。

五大湖沿岸栖息地正在
退化,人口越来越多,

使曾经的原始水域暴露在

工业、城市
和农业污染物中。

因为每年只有不到 1% 的水
离开湖系统,所以

几十年前的污染物仍然潜伏
在湖水中。

人类还无意中将

100 多种非本地
和入侵物种引入了湖泊,

例如斑马和斑驴贻贝,
以及

使一些本地鱼类种群大量减少的海七鳃
鳗。

在更大范围内,气候变化
正在导致水域变暖,

从而降低水位并改变
水生生物的分布。

幸运的是,近年来,各国政府
开始认识到

这种自然资源的巨大价值。

美国和
加拿大之间正在建立伙伴关系,以减少污染、

保护沿海栖息地

并阻止入侵物种的传播。

保护像五大湖系统这样庞大的东西

需要
许多组织的合作,

如果我们能够保护
这片流动的内海的奇迹,这项努力至关重要。