From the top of the food chain down Rewilding our world George Monbiot

We all know about the dinosaurs

that once roamed the planet,

but long after they went extinct,

great beasts we call the megafauna

lived on every continent.

In the Americas, ground sloths the size of elephants

pulled down trees with their claws.

Saber-toothed cats the size of brown bears

hunted in packs,

but they were no match for short-faced bears,

which stood thirteen feet on their hind legs,

and are likely to have driven these cats

away from their prey.

There were armadillos as big as small cars,

an eight foot beaver,

and a bird with a 26 foot wingspan.

Almost everywhere, the world’s megafauna

were driven to extinction, often by human hunters.

Some species still survive in parts of Africa and Asia.

In other places, you can still see the legacy of these great beasts.

Most trees are able to resprout

where their trunk is broken

to withstand the loss of much of their bark

and to survive splitting, twisting and trampling,

partly because they evolved to survive attacks by elephants.

The American pronghorn can run so fast

because it evolved to escape the American cheetah.

The surviving animals live in ghost ecosystems

adapted to threats from species that no longer exist.

Today, it may be possible to resurrect those ghosts,

to bring back lost species using genetic material.

For instance, there’s been research in to

cloning woolly mammoths from frozen remains.

But even if it’s not possible,

we can still restore many of the ecosystems

the world has lost.

How? By making use of abandoned farms.

As the market for food is globalized,

infertile land becomes uncompetitive.

Farmers in barren places can’t compete

with people growing crops on better land elsewhere.

As a result, farming has started to retreat from many regions,

and trees have started to return.

One estimate claims that two-thirds of land in the US

that was once forested but was cleared for farming

has become forested again.

Another estimate suggests that by 2030,

an area in Europe the size of Poland

will be vaccated by farmers.

So even if we can’t use DNA to bring back

ground sloths and giant armadillos,

we can restore bears, wolves, pumas

lynx, moose and bison

to the places where they used to live.

Some of these animals can reshape their surroundings,

creating conditions that allow other species to thrive.

When wolves were reintroduced to

the Yellowstone National Park in 1995,

they quickly transformed the ecosystem.

Where they reduced the numbers of overpopulated deer,

vegetation began to recover.

The height of some trees quintupled in just six years.

As forests returned, so did songbirds.

Beavers, which eat trees, multiplied in the rivers,

and their dams provided homes

for otters, muskrats, ducks, frogs and fish.

The wolves killed coyotes, allowing rabbits

and mice to increase,

providing more food for hawks, weasels,

foxes and badgers.

Bald eagles and ravens fed on the carrion

that the wolves abandoned.

So did bears, which also ate the berries

on the returning shrubs.

Bison numbers rose as they browsed

the revitalized forests.

The wolves changed almost everything.

This is an example of a trophic cascade,

a change at the top of the food chain

that tumbles all the way to the bottom,

affecting every level.

The discovery of widespread trophic cascades

may be one of the most exciting scientific findings

of the past half century.

They tell us that ecosystems that have lost

just one or two species of large animals

can behave in radically different ways

from those that retain them.

All over the world, new movements are trying

to catalyze the restoration of nature

in a process called rewilding.

This means undoing some of the damage we’ve caused,

reestablishing species which have been driven out,

and then stepping back.

There is no attempt to create an ideal ecosystem,

to produce a heath, a rainforest or a coral reef.

Rewilding is about bringing back the species

that drive dynamic processes

and then letting nature take its course.

But it’s essential that rewilding must never be used

as an excuse to push people off the land.

It should happen only with the consent

and enthusiasm of the people who work there.

Imagine standing on a cliff in England,

watching sperm whales attacking shoals of herring

as they did within sight of the shore

until the 18th century.

By creating marine reserves

in which no commerical fishing takes place,

that can happen again.

Imagine a European Serengeti

full of the animals that used to live there:

hippos, rhinos, elephants, hyenas and lions.

What rewilding reintroduces,

alongside the missing animals and plants,

is that rare species called hope.

It tells us that ecological change

need not always proceed in the same direction.

The silent spring could be followed by a wild summer.

我们都

知道曾经在地球上漫游的恐龙,

但在它们灭绝很久之后,

我们称之为巨型动物的巨大野兽

生活在每个大陆上。

在美洲,大象大小的地懒

用爪子拉倒树木。

像棕熊那么大的剑齿猫成群结队地

捕猎,

但它们无法与短面熊匹敌,

后者的后腿有 13 英尺长

,很可能将这些猫

赶离猎物。

有小型汽车那么大的犰狳

、八英尺高的海狸

和翼展 26 英尺的鸟。

几乎在所有地方,世界上的巨型动物

都被驱赶到灭绝,通常是人类猎人。

一些物种仍然在非洲和亚洲的部分地区生存。

在其他地方,依然可以看到这些巨兽留下的遗产。

大多数树木能够

在树干被折断的地方重新发芽,

以承受大部分树皮的损失,

并在分裂、扭曲和践踏中幸存下来,

部分原因是它们进化为能够在大象的攻击中幸存下来。

美国叉角羚之所以能跑得如此之快,

是因为它进化为逃避美国猎豹。

幸存的动物生活在幽灵生态系统中,

适应了不再存在的物种的威胁。

今天,有可能复活那些鬼魂,

利用遗传物质带回失去的物种。

例如,有研究

从冷冻遗骸中克隆长毛象。

但即使不可能,

我们仍然可以恢复

世界上已经失去的许多生态系统。

如何? 通过利用废弃的农场。

随着食品市场的全球化,

贫瘠的土地变得没有竞争力。

贫瘠地区的农民无法

与在其他更好土地上种植庄稼的人竞争。

结果,许多地区的农业开始退缩

,树木开始回归。

一项估计称,美国三分之二

的曾经被森林覆盖但被砍伐用于耕作的土地

再次变成了森林。

另一项估计表明,到 2030 年

,欧洲面积相当于波兰的面积

将被农民腾空。

因此,即使我们不能使用 DNA 将

地懒和巨型犰狳带回来,

我们也可以将熊、狼、美洲狮、

猞猁、驼鹿和野牛

恢复到它们曾经生活过的地方。

其中一些动物可以重塑周围环境,

创造条件让其他物种茁壮成长。

当狼

在 1995 年被重新引入黄石国家公园时,

它们迅速改变了生态系统。

他们减少了人口过多的鹿的数量,

植被开始恢复。

一些树的高度在短短六年内翻了五倍。

随着森林回归,鸣禽也回归。

以树为食的海狸在河流中繁殖

,它们的水坝

为水獭、麝鼠、鸭子、青蛙和鱼提供了家园。

狼杀死了郊狼,让兔子

和老鼠增多,

为鹰、黄鼠狼、狐狸和獾提供了更多的食物

白头鹰和乌鸦以狼群遗弃的腐肉为食

熊也是如此,它们也吃掉

返回的灌木上的浆果。

当他们

浏览恢复活力的森林时,野牛的数量增加了。

狼几乎改变了一切。

这是营养级联的一个例子,

食物链顶端的变化

一直翻到底部,

影响到每一个层次。

发现广泛的营养级联

可能是过去半个世纪最令人兴奋的科学发现

之一。

他们告诉我们,

仅失去一两种大型动物的生态系统

的行为方式可能

与保留它们的生态系统截然不同。

在世界各地,新的运动正试图

在一个被称为“野化”的过程中促进自然的恢复。

这意味着消除我们造成的一些损害,

重建被驱逐的物种,

然后退后一步。

没有人试图创造一个理想的生态系统

,生产一片荒地、一片热带雨林或一片珊瑚礁。

野化是指带回

驱动动态过程的物种

,然后让自然顺其自然。

但至关重要的是,绝不能以野

化为借口将人们赶出土地。

只有在得到

在那里工作的人的同意和热情的情况下才会发生这种情况。

想象一下,站在英格兰的悬崖上,

观看抹香鲸攻击鲱鱼的浅滩,

就像 18 世纪之前它们在海岸的视线范围内所做的那样

通过建立

不进行商业捕鱼的海洋保护区,

这种情况可能会再次发生。

想象一下欧洲塞伦盖蒂

,那里到处都是曾经生活在那里的动物:

河马、犀牛、大象、鬣狗和狮子。

与失踪的动植物一起,野化重新引入的

是被称为希望的稀有物种。

它告诉我们,生态变化

不必总是朝着同一个方向进行。

寂静的春天之后可能是狂野的夏天。