The otherworldly creatures in the oceans deepest depths Lidia Lins

It’s easy to forget how vast and deep
the ocean really is.

About 60% of it is actually
a cold and dark region

known as the deep ocean.

And it reaches down to 11,000 meters.

Yet, this remote zone is also one
of the greatest habitats on Earth,

harboring a huge diversity of life,

from giant squids and goblin sharks

to minuscule animals
smaller than a millimeter.

How do so many species thrive
in this underwater world?

Over the decades, intrepid scientists
have ventured there to find out.

Traveling down through the water column,

pressure increases
and light begins to wane.

At 200 meters, photosynthesis stops

and temperature decreases
from surface temperatures

by up to 20 degrees Celsius.

By 1000 meters, normal sunlight
has disappeared altogether.

Without light, life as we know it
seems impossible.

That’s why in 1844, the naturalist
Edward Forbes

wrote his Azoic Theory,

Azoic, meaning without animals.

Forbes was sure that nothing could survive
below 600 meters

on account of the lack of light.

Of course, the discovery
of deep-sea species proved him wrong.

What Forbes failed to take into account
is something called marine snow,

which sounds much nicer than it is.

Marine snow is basically organic matter,

things like particles of dead algae,
plants, and animals,

drifting down into the depths

and acting as food for deep-sea animals.

Largely thanks to that,
abundant life forms exist in the darkness,

adapting to a harsh reality where only
the weird and wonderful can survive.

Fish with cavernous mouths,

spiky teeth jutting from their jaws,

and lamp-like structures
protruding from their heads,

like the anglerfish which entices prey
with its misleading glow.

Several sea creatures have perfected
this lightning technique

known as bioluminescence,

using it to lure prey,

distract predators,

or attract mates.

Some creatures use it for camoflauge.

In parts of the water column where
only faint blue light filters through,

animals bioluminesce to match the glow.

Predators or prey looking up
from below

are deceived by this camoflauge,

unable to see the creatures silhouette.

Such otherworldly adaptations also arise
from the need to locate

and snatch up food before it drifts away.

Some sea animals, like jellyfish,
comb jellies and salps

can migrate between depths

partially because
their 90% water consistency

allows them to withstand immense pressure.

But they’re the exception.

Most deep-sea creatures are confined
to a narrow range in the water column

where nutrients are scarce

since the food drifting downwards
from the surface

rapidly sinks to the sea floor.

Plunging all the way down,
we find more exotic creatures.

Some take on dwarfism,

a trait that transforms them
into miniature versions of animals

we see closer to the surface.

It’s thought that reduced
food availability causes the shrinkage.

Only a tiny fraction of the food produced
at the surface reaches the sea floor,

so being small gives animals
a low energy requirement

and an adaptive advantage.

And yet, the sea is also the land
of giants.

Here, gargantuan squids can reach
18 meters long.

Isopods scuttle around the sea floor
like enormous wood lice.

There are long-limbed
Japanese spider crabs,

and oarfish, whose bodies stretch
to 15 meters.

This trait is known as gigantism,
and it’s something of a mystery.

It’s thought that high oxygen levels
may drive extreme growth in some species,

while the colder temperatures promote
longer life spans,

giving animals the opportunity
to grow massive.

Many of these exotic sea beasts will never
experience sunlight.

Some will venture up through
the water column to feed,

and a few will actually break the waves,

reminding us at the surface

about the incredible survival skills
of the ocean’s deepest inhabitants.

Humans still have an astounding
95% of the ocean left to explore.

So those depths remain a great mystery.

What other untold wonders lie far below,
and which ones will we discover next?

人们很容易忘记海洋到底有多么广阔和
深邃。

其中大约 60% 实际上是
一个寒冷而黑暗的区域,

被称为深海。

它达到了11,000米。

然而,这个偏远地区也是
地球上最大的栖息地之一,

拥有丰富多样的生命,

从巨型乌贼和地精鲨鱼


小于一毫米的微小动物。

这么多物种如何
在这个海底世界繁衍生息?

几十年来,勇敢的科学家
们冒险前往那里寻找答案。

向下穿过水柱,

压力增加
,光线开始减弱。

在 200 米处,光合作用停止

,温度
从地表温度

下降高达 20 摄氏度。

到了1000米,正常的阳光
已经完全消失了。

没有光,我们所知道的生命
似乎是不可能的。

这就是为什么在 1844 年,博物学家
爱德华·福布斯(Edward Forbes)

写下了他的 Azoic 理论,

Azoic,意思是没有动物。

福布斯确信,由于光线不足,任何东西都无法
在 600 米以下生存

当然,
深海物种的发现证明他错了。

福布斯没有考虑到
一种叫做海洋雪的东西

,听起来比它好得多。

海洋雪基本上是有机物,

像死去的藻类、
植物和动物的颗粒,

漂流到深处

,作为深海动物的食物。

多亏了这一点,
黑暗中存在丰富的生命形式,

适应了
只有怪异和奇妙才能生存的严酷现实。

有海绵状的嘴巴、

尖尖的牙齿从下巴伸出、头顶突出

的灯状结构

的鱼,就像琵琶鱼一样
,以其误导性的光芒引诱猎物。

一些海洋生物已经完善了
这种

被称为生物发光的闪电技术,

用它来引诱猎物、

分散捕食者的注意力

或吸引配偶。

有些生物用它来伪装。


只有微弱蓝光通过的水柱部分中,

动物发出生物发光以匹配辉光。

捕食者或
从下

方向上看的猎物被这种伪装所欺骗,

无法看到生物的轮廓。

这种超凡脱俗的适应也
源于需要在

食物飘走之前找到并抢走食物。

一些海洋动物,如水母、
栉水母和鲑鱼

可以在深度之间迁移,

部分原因是
它们 90% 的水稠度

使它们能够承受巨大的压力。

但他们是例外。

大多数深海生物都被限制
在水柱中的一个狭窄范围内,

那里的营养物质稀缺,

因为从表面向下漂流的食物会

迅速沉入海底。

一路跌跌撞撞,
我们发现了更多奇特的生物。

有些人患有侏儒症,

这种特征将他们
变成了

我们在更接近地表的地方看到的动物的微型版本。

人们认为,
食物供应减少会导致萎缩。 地表

生产的食物只有一小部分
到达海底,

因此体积小使动物
的能量需求低

并具有适应性优势。

然而,大海
也是巨人之地。

在这里,巨大的鱿鱼可以长达
18 米。

等足类动物
像巨大的木虱一样在海底爬行。

有长肢的
日本蜘蛛蟹,

还有体长
可达15米的皇带鱼。

这种特征被称为巨人症
,这是一个谜。

人们认为,高氧水平
可能会推动某些物种的极端生长,

而较冷的温度会促进
更长的寿命,

使动物有
机会大量生长。

许多这些奇异的海兽永远不会
受到阳光照射。

有些人会冒险
穿过水柱觅食

,有些人会真正打破海浪,

在水面上提醒我们

海洋最深处居民令人难以置信的生存技能。

人类仍有惊人的
95% 的海洋有待探索。

所以这些深度仍然是一个很大的谜。

下方还有哪些不为人知的奇迹,
我们接下来会发现哪些奇迹?