1. Over sixty per cent of our planetCopy !req
2. is covered by ocean more than a mile deep.Copy !req
3. That, the deep sea is by far
the largest habitat on earthCopy !req
4. and it's largely unknown.Copy !req
5. Join us on a journey
to the very bottom of the deep sea,Copy !req
6. to an alien world never revealed before.Copy !req
7. It's home to some of the
strangest animals on earth.Copy !req
8. Fish flash in the darkness ...Copy !req
9. new species are discovered
on almost every dive.Copy !req
10. More people have travelled into space
than have ventured this deep.Copy !req
11. Come on a journey into the abyss.Copy !req
12. A sperm whale takes a breath,
its last for over an hour.Copy !req
13. It is about to leave the warm,Copy !req
14. well-lit surface waters and
dive far down into the cold,Copy !req
15. dark depths of the deep ocean.Copy !req
16. At the surface it took in air
at the same pressure as we breath it.Copy !req
17. But it's going to look for foodCopy !req
18. at more than a thousand metres down,Copy !req
19. where pressure is a hundred timesCopy !req
20. that on the surface,
crushing the whale's lungsCopy !req
21. to just one per cent of their volume.Copy !req
22. For us to follow the whale,Copy !req
23. we need the very latest submersible.Copy !req
24. A reinforced acrylic sphere,Copy !req
25. with walls 12 centimetres thick,Copy !req
26. protects a pilot and our cameramanCopy !req
27. from the enormous pressure belowCopy !req
28. and allows the submarine to dive toCopy !req
29. just over nine hundred metres.Copy !req
30. With every passing metre,
pressure increases and sunlight diminishesCopy !req
31. "One thousand feet ...Copy !req
32. By three hundred metres
it's already very darkCopy !req
33. and the temperature of the water
is dropping fast.Copy !req
34. We are entering the twilight zone ...Copy !req
35. a weird world of gloom, where many animalsCopy !req
36. have become completely transparent.Copy !req
37. In this twilight,
an animal needs to see andCopy !req
38. yet as far as possible
must avoid being seen.Copy !req
39. A giant amphipod, 12 centimetres longCopy !req
40. and almost perfectly transparent.Copy !req
41. Its head is completely filled
by two huge eyes,Copy !req
42. with which it strains to detect its prey.Copy !req
43. Another twilight monster, Phronima,Copy !req
44. the inspiration for the 'Alien' movies.Copy !req
45. She and her developing pink offspring liveCopy !req
46. like parasites in the stolen body
of a jelly.Copy !req
47. This impressive cutlery set
and its huge eyesCopy !req
48. make Phronima a powerful predator.Copy !req
49. Even really complex animals have
become transparent in the twilight zone.Copy !req
50. Squids are among the most
advanced of invertebrates,Copy !req
51. but this one never meets a hard surface
in its entire life,Copy !req
52. so its body need not be as robust
as that of its shallow water cousins.Copy !req
53. There's a rich variety of jellies that
live nowhere else but in the deep sea.Copy !req
54. Thousands of tiny cilia propel them
through a world without walls.Copy !req
55. Invisible in the gloom,Copy !req
56. they grope blindly for their prey.Copy !req
57. Comb jellies let out long sticky nets
to catch passing copepods.Copy !req
58. But the most extensive death trap
is set by siphonophores.Copy !req
59. This pulsating bell is the head of
a colonial jelly,Copy !req
60. that can be forty metres long.Copy !req
61. Millions of tiny stinging cells,
drifting through the sea.Copy !req
62. Five hundred metres downCopy !req
63. and in even the clearest
tropical waters onlyCopy !req
64. the faintest vestige
of the sunlight remains,Copy !req
65. so little that our eyes
can't detect it ... but others can.Copy !req
66. Survival in the twilight zoneCopy !req
67. is all about seeing, yet not being seen.Copy !req
68. Hatchet fish are masters
of the game of hide and seek.Copy !req
69. They have the large, sensitive eyesCopy !req
70. needed for seeking prey,
but their bodies are flat.Copy !req
71. And their sides are highly silvered.Copy !req
72. Head on, they are just visible,Copy !req
73. thin though they are,
but as soon as they turn ...Copy !req
74. their mirrored sides
reflect the remnantsCopy !req
75. of blue light from the surface
and they disappear into the gloom.Copy !req
76. Viewed from the side,
whole shoals can hide in this way.Copy !req
77. But what about from below?Copy !req
78. The tubular eyes of many of the predatorsCopy !req
79. even in this gloom are able
to distinguish their prey,Copy !req
80. silhouetted against the scarcely
detectable glimmer of light from above.Copy !req
81. Hatchet fish, however,
have a way of confusing any eyesCopy !req
82. that might be searching for them
from below.Copy !req
83. Their bellies carry rows of
light-producing cells called photophores.Copy !req
84. They can use these to exactly matchCopy !req
85. the changing colour of light
from the surface far above.Copy !req
86. This counter shading breaks up
their silhouette,Copy !req
87. making them almost invisible from below...Copy !req
88. almost.Copy !req
89. But these are no ordinary eyes.Copy !req
90. The enormous yellow lenses enableCopy !req
91. their owner to distinguish between lightCopy !req
92. produced by photophores and sunlight.Copy !req
93. So, one device for escape is countered byCopy !req
94. another equally subtle one for attack inCopy !req
95. an evolutionary arms race
that has been wagedCopy !req
96. for millions of years.Copy !req
97. Descend below a thousand metres andCopy !req
98. you enter the dark zone.Copy !req
99. No sunlight whatsoever penetrates
this deep.Copy !req
100. The temperature of the water has droppedCopy !req
101. below four degrees Centigrade.Copy !req
102. The pressure is more thanCopy !req
103. a hundred times that at the surface.Copy !req
104. Life becomes every more sparse.Copy !req
105. It's a dark, dangerous world.Copy !req
106. Relative to body size,
these are the largest teeth in the ocean,Copy !req
107. they are so big that their owner
can't even close its mouth.Copy !req
108. They belong to the Fang Tooth.Copy !req
109. Unlike most deep sea fish this has powerful
muscles and is an aggressive hunter.Copy !req
110. With food in such short supply
at this depth,Copy !req
111. dark zone predators have to be able to
deal with a meal of almost any size.Copy !req
112. Many animals here are dark red,
like this deep sea jelly.Copy !req
113. Caught in the lights of the submersible,Copy !req
114. it's a spectacular firework
display of colour.Copy !req
115. Normally,
no red light penetrates as deep as this,Copy !req
116. so animals with red pigmentCopy !req
117. appear completely black down here,
perfectly concealed.Copy !req
118. Predators here, however, don't just
rely on vision many have tiny eyes.Copy !req
119. Instead, their thin rod-like bodiesCopy !req
120. are lined with organs sensitive to tiny
movements in the water.Copy !req
121. This monster, half a metre across,
is a Hairy Angler.Copy !req
122. This is the first time it's been seen.Copy !req
123. It's covered
with hundreds of sensitive antennae,Copy !req
124. each capable of detecting the movementsCopy !req
125. of any prey careless enough to stray too
close to this motionless predator.Copy !req
126. But this, surely, must be the strangestCopy !req
127. of all the deep sea fish yet discovered.Copy !req
128. A highly sensitive metre
long tail hangs downCopy !req
129. from the head that makes up
a quarter of its body.Copy !req
130. Its eyes are tiny,
but its mouth is truly enormous.Copy !req
131. It's called the Gulper eel, because
it can engulf a meal of almost any size.Copy !req
132. Hanging motionless in midwater,
its enormous gape enables itCopy !req
133. to deal with passing prey,
whether it's small or large.Copy !req
134. Gulper eels can swallow prey
as big as themselves,Copy !req
135. which is very useful in a worldCopy !req
136. where you never know
when the next meal is coming along.Copy !req
137. Even in the dark zone,
there is some light.Copy !req
138. Turn off the submersible headlights
and you see a pyrotechnic display outside.Copy !req
139. These lights are created by animals.Copy !req
140. This is bioluminescence.Copy !req
141. A deep sea angler fish flashes
in the darkness.Copy !req
142. The light is generated by bacteriaCopy !req
143. that live permanently inside the lure,Copy !req
144. which attracts prey
to these murderous teeth.Copy !req
145. There are all sorts of lures out
in the darkness.Copy !req
146. Come into my mouth, little fish!Copy !req
147. And what is the purpose of this lure,Copy !req
148. suspended on a long rod, way below
its owner's terrifying set of teeth?Copy !req
149. It's difficult to be sure,Copy !req
150. but then this monster does
have another giant...Copy !req
151. flashing lure much closer to its mouth.Copy !req
152. These fish are called anglers because they
use their lures in much the same way asCopy !req
153. fly fishermen use their imitation flies.Copy !req
154. For a hunting squid, with huge eyes,Copy !req
155. this glimmer is intriguing.Copy !req
156. It might just be food.Copy !req
157. A satisfying meal for a fish
with a highly extendible stomach.Copy !req
158. Attracting a mate in this endless darkness
can be even harder than finding food.Copy !req
159. Flashing lures may be helpful
in doing this,Copy !req
160. certainly only female anglers have them.Copy !req
161. The tiny males are just a tenth
the size of the females.Copy !req
162. Their only purpose is somehow
to find a mate in the darkness.Copy !req
163. She releases chemicals into the water,Copy !req
164. which the males scent with a special
white organ in front of their eyes.Copy !req
165. Having found a partner,Copy !req
166. the male bites at her belly
with specially designed teeth.Copy !req
167. He needs to get permanently attached.Copy !req
168. Within a matter of weeks
the male is completely fused to the femaleCopy !req
169. and there he will stay
for the rest of his life.Copy !req
170. Her blood circulating in his bodyCopy !req
171. provides him
with all the sustenance he needs.Copy !req
172. In return, she gets a continuous,Copy !req
173. reliable supply of sperm
- a brilliant solutionCopy !req
174. to the problem of finding a mate
in the vast emptiness of the deep sea.Copy !req
175. To help in the constant battle between
predators and prey,Copy !req
176. some fish in the dark zone have
developed headlights.Copy !req
177. These light-producing photophores beneathCopy !req
178. their eyes may be used to
search out prey in the darkness.Copy !req
179. Most bioluminescence in the deep sea
is blue or greenish-blue,Copy !req
180. but a very few predatory fish
produce red light.Copy !req
181. With this,
red prey becomes obvious in the darkness.Copy !req
182. Red light is rare down hereCopy !req
183. and most animal eyes can't see it.Copy !req
184. Only these fish can do so.Copy !req
185. This gives them a sniper scope,
a headlight invisible to their targets.Copy !req
186. This copepod, un-alarmed,
takes no avoiding action.Copy !req
187. Bioluminescence is useful
in escape as well as attack.Copy !req
188. A shrimp senses a threat.Copy !req
189. It spins in the water,
releasing a bioluminescent glue.Copy !req
190. This acts like a burglar alarm,Copy !req
191. startling the attacking fish
and leaving itCopy !req
192. illuminated in the dark andCopy !req
193. vulnerable to its own predators.Copy !req
194. These twinkling lights in the darkness
are produced by copepods.Copy !req
195. They probably flash like this
to communicate with one anotherCopy !req
196. and confuse their predators.Copy !req
197. The most sensitive eyes in the oceanCopy !req
198. belong to an ostracod
called Gigantocypris.Copy !req
199. It's the size of a pea,
but that's enormous for an ostracod.Copy !req
200. Copepods are a favourite preyCopy !req
201. and it actively searches for
their flashes in the darkness.Copy !req
202. But this copepod has a way of
confusing a hunting Gigantocypris.Copy !req
203. It discharges a packet
of bioluminescent liquid.Copy !req
204. The flash is delayed, like a depth charge.Copy !req
205. Spinning, confused, in the water,Copy !req
206. Gigantocypris chases after the flashes.Copy !req
207. And the copepod slips away
unseen into the darkness.Copy !req
208. The ultimate bioluminescent
defence mechanismCopy !req
209. has to be the light show createdCopy !req
210. by the deep sea jellyfish, Periphylla.Copy !req
211. That, presumably,
is the way it scares away its enemies.Copy !req
212. These bright lights
are all produced by firefly squid.Copy !req
213. Normally, they live way down
at around three hundred metres,Copy !req
214. beyond the reach of these
Japanese fishermen's nets.Copy !req
215. But for a few months each Spring
they come to the surface every night.Copy !req
216. The brightest lights come fromCopy !req
217. the bioluminescent tips of
their two front tentacles.Copy !req
218. But it's only in the dark of the deep seaCopy !req
219. that you can really appreciate
the full complexity of their displays.Copy !req
220. It's not just their tentacles,Copy !req
221. but their whole bodies that are
covered in photophores.Copy !req
222. The exact function is not clear.Copy !req
223. The bright tentacle tips may be for
attracting mates or dazzling predators.Copy !req
224. The rest may be camouflageCopy !req
225. providing counter shading for the squid
as they journey up into the twilight zone.Copy !req
226. Every night in the seasonCopy !req
227. hundreds of thousands of squid journey up
into the shallow water to spawn.Copy !req
228. Before dawn,
they will return to the depthsCopy !req
229. leaving their eggs to develop
in the shallows.Copy !req
230. The daily cycle of the sun has a profoundCopy !req
231. influence on life in the deep ocean.Copy !req
232. As the sun sets, it triggers the largestCopy !req
233. migration of living organisms
on our planet.Copy !req
234. One thousand million tonnes of animalsCopy !req
235. travel up from the dark zone into richer,Copy !req
236. shallower water, every night.Copy !req
237. Tiny grazers are first upCopy !req
238. searching for the microscopic plants that
only grow in shallow sunlit waters.Copy !req
239. Predators follow the grazers.Copy !req
240. An enormous variety of
different animals join the convoyCopy !req
241. or feed off it as it passes.Copy !req
242. Many will travel up hundreds of metresCopy !req
243. towards the surface and then at dawnCopy !req
244. finding themselves at
greater risk from predatorsCopy !req
245. the visitors return to the safer
darkness of the depths.Copy !req
246. The sun's rays only have a direct effect
in the top hundred metres,Copy !req
247. or so, of the ocean.Copy !req
248. It's only here that photosynthesis can
take place and coral reefs can flourish.Copy !req
249. Leave this thin, rich slice of life andCopy !req
250. travel over the outer face of the reef andCopy !req
251. you quickly enter a far
more demanding world.Copy !req
252. Below a hundred and fifty metres
photosynthesis becomes impossible.Copy !req
253. You find no plants, just animals.Copy !req
254. Here, the animals are adapted to
catch marine snow,Copy !req
255. particles of dead animals and
plants that drift down from above.Copy !req
256. So they depend, second-hand,Copy !req
257. on the energy captured from the sunCopy !req
258. by organisms living in the surface waters.Copy !req
259. Travelling close to the sea floorCopy !req
260. we're going to take a journey to
the very bottom of the deep sea...Copy !req
261. to a world completely separate
from the midwater above.Copy !req
262. At around three hundred metres,Copy !req
263. the drop off levels out andCopy !req
264. we move out onto the Continental slope.Copy !req
265. This stretches for about a hundred andCopy !req
266. fifty miles from the coast,
sloping in the gentle gradientCopy !req
267. down to a maximum depth
of four thousand metres.Copy !req
268. Water temperatures down here drop
below 4 degrees centigrade andCopy !req
269. the pressure can reach up to 400 times
that of the surface.Copy !req
270. Without the lights of the submersible
it would be completely dark.Copy !req
271. The water is crystal clear becauseCopy !req
272. there's so little organic matter.Copy !req
273. Only three per cent
of the potential food in theCopy !req
274. surface waters reaches
the Continental slope.Copy !req
275. At first sight it
appears a lifeless desertCopy !req
276. but take a closer look and you notice
a network of tracks and trails.Copy !req
277. There is life even down here.Copy !req
278. These animals would die
immediately if broughtCopy !req
279. to the surface in nets,
so you can only see themCopy !req
280. behaving normally from submersibles.Copy !req
281. Many are new to science.Copy !req
282. The deep sea floor is dominated
by echinodermsCopy !req
283. sea cucumbers,
brittle stars and sea urchins.Copy !req
284. There are literally millions of themCopy !req
285. marching across the seabed,
hoovering up anyCopy !req
286. edible particles there
might be in the sediment.Copy !req
287. They come in all sorts of shapes and sizesCopy !req
288. and though they are very thinly spreadCopy !req
289. the deep ocean floor is so vast thatCopy !req
290. these are among the most numerous
animals on the planet.Copy !req
291. Their spikes are good for locomotion
and defenceCopy !req
292. but perhaps not quite so good
when it comes to mating.Copy !req
293. Finding a mate in this largely
empty sea floor could be a problemCopy !req
294. so some urchins stay together in herdsCopy !req
295. to be sure that they're never too
far from a potential partner.Copy !req
296. Rocky outcrops provide good anchorage
for animals that rely on foodCopy !req
297. that might drift past.Copy !req
298. These crinoids, or sea liliesCopy !req
299. look like plants, but are in fact animals.Copy !req
300. Their long stalks ensure
that their umbrellaCopy !req
301. of feeding tentacles are positionedCopy !req
302. to best effect in the current.Copy !req
303. Particles are swept onto the armsCopy !req
304. and carried down to a mouth
in the middle of the umbrella.Copy !req
305. These sudden movements swat
away tiny amphipodsCopy !req
306. that try to steal the sea lily's captures.Copy !req
307. Coral reefs are not supposed to exist
in total darknessCopy !req
308. but recently a new kind of coral
was found as deep as two thousand metres.Copy !req
309. In the cold waters of a Norwegian FjordCopy !req
310. there was a deep sea
reef thirty metres highCopy !req
311. and two hundred metres long.Copy !req
312. This coral gets no energy from the sunCopy !req
313. so it has to be very efficient
in catching food.Copy !req
314. Its polyps are far larger than
those of shallow water corals.Copy !req
315. These are, in fact,
the largest coral polyps in the ocean.Copy !req
316. They belong to the deep sea mushroom coralCopy !req
317. Their three centimetre long tentaclesCopy !req
318. can catch far larger prey than
other corals can.Copy !req
319. This necessity to capture
every particle of foodCopy !req
320. that comes within reach
in this near desertCopy !req
321. has radically changed many animals.Copy !req
322. Most Tunicates are filter feedersCopy !req
323. but this one, uniquely,
has become a predatorCopy !req
324. and it's greatly enlarged siphon
has been converted into a trap.Copy !req
325. Most sea cucumbers stay firmly
on the bottomCopy !req
326. but not this extraordinary
deep sea species.Copy !req
327. Its skirts of skin allow it to swimCopy !req
328. hundreds of metres above the sea floor.Copy !req
329. Eventually it will descend andCopy !req
330. with luck,
will land on fresh feeding grounds.Copy !req
331. This, though, has to be the mostCopy !req
332. extraordinary animal design of all.Copy !req
333. It's a polychaete worm and normallyCopy !req
334. you would expect the long pulsating body
to be stuck firmly in the sediment.Copy !req
335. This worm, alone in its groupCopy !req
336. swims in the open water.Copy !req
337. Propelling itself with its yellow frillCopy !req
338. it moves about
and so finds new sources of foodCopy !req
339. or maybe succeeds in escaping
from a predator.Copy !req
340. This is Chimaera, a close
relative of the sharksCopy !req
341. less than a metre long.Copy !req
342. Sensory pits on its chin help it huntCopy !req
343. prey on the bottom, while its surprisinglyCopy !req
344. large eyes may help it
spot bioluminescence.Copy !req
345. Large fish are rare down hereCopy !req
346. there's simply not enough
live prey to sustain them.Copy !req
347. Most have become scavengers.Copy !req
348. A dead tuna has attracted
a deep sea conger eel...Copy !req
349. and a six gilled shark.Copy !req
350. These monsters grow to eight metres long.Copy !req
351. Six gills are living fossils.Copy !req
352. For a hundred and fifty million yearsCopy !req
353. they have existed unchangedCopy !req
354. living in water as deep as two thousand
five hundred metres.Copy !req
355. Very few people have ever
been lucky enoughCopy !req
356. to glimpse these sharks from submersiblesCopy !req
357. and we know almost nothing
about their behaviour.Copy !req
358. The body of a tuna is a substantial mealCopy !req
359. but just occasionally a really giganticCopy !req
360. corpse drifts down to the deep sea floor.Copy !req
361. This is the freshly dead carcass of
a thirty ton Grey whale.Copy !req
362. It's resting on the sea floor a mile down.Copy !req
363. It's only been on the bottom for six weeksCopy !req
364. but already it has
attracted hundreds of hagfish.Copy !req
365. These ancient scavengers are nearly
always the first to discover a fallen bodyCopy !req
366. and are attracted from miles around.Copy !req
367. They lack jaws and rasp at the fleshCopy !req
368. with two rows of horny teeth
on either side ofCopy !req
369. their sucker-like mouths.Copy !req
370. Next to arrive, a sleeper sharkCopy !req
371. a real deep sea specialist.Copy !req
372. They grow to over seven metres longCopy !req
373. and have never been filmed
at such a depth before.Copy !req
374. The gaping wounds in the
whale's flank are its work.Copy !req
375. Unlike the hagfish, it has powerful jawsCopy !req
376. so is able to rip off huge chunks of meat.Copy !req
377. Sharks, hagfish and a whole succession ofCopy !req
378. different deep sea scavengers will feastCopy !req
379. on the carcass for years before
all its nutriment is gone.Copy !req
380. Eighteen months laterCopy !req
381. when we returned to this whaleCopy !req
382. all that was left was a perfect skeleton,
stripped bare.Copy !req
383. It was almost as if a museum specimenCopy !req
384. had been carefully laid out
on the sea floor.Copy !req
385. At first the skeleton seemed
totally abandonedCopy !req
386. but even after so long there was
still some flesh left in the head.Copy !req
387. Hagfish have a skeleton of cartilageCopy !req
388. and are so flexible that they can tieCopy !req
389. themselves into knots and so get a better
purchase on the flesh they feed on.Copy !req
390. But smaller organisms had fed here.Copy !req
391. A thick band of white bacteria had formedCopy !req
392. on the mud outlining the original
shape of the whale.Copy !req
393. And on the skeleton itselfCopy !req
394. colonies of specialised bacteriaCopy !req
395. were extracting energy
from the bones themselves.Copy !req
396. Most remarkably and in huge abundanceCopy !req
397. polychaete worms were collecting
the last edible fragments.Copy !req
398. These are a new species that so far haveCopy !req
399. only been found on the fallen bodies
of whales.Copy !req
400. Scientists have discovered 178 different
animals on a single whale vertebraCopy !req
401. most of which have been found nowhere elseCopy !req
402. This whale, lying over a mile downCopy !req
403. was not filmed from a submersible
with an acrylic sphere.Copy !req
404. Such craft can't go as deep as this.Copy !req
405. To withstand the pressure hereCopy !req
406. you need a far stronger submersible.Copy !req
407. This is Alvin, a two metre wide sphereCopy !req
408. with just enough room in it for
a pilot and two observers.Copy !req
409. Its walls are made of titanium,
the viewing ports have to be tiny.Copy !req
410. Any larger,
and the submersible would implode...Copy !req
411. under the enormous pressure down here.Copy !req
412. Alvin can dive to 4500 metres,
three miles below the surface.Copy !req
413. Around 3000 metres the Continental slope
finally flattens out...Copy !req
414. and joins the abyssal plain.Copy !req
415. This covers over half the earth's surface.Copy !req
416. Mostly it's completely flatCopy !req
417. but in places it's gashed
by massive trenchesCopy !req
418. hundreds of miles wide.Copy !req
419. The deepest of these is the Mariana trenchCopy !req
420. which drops to over seven miles
below sea level.Copy !req
421. There are just five manned submersiblesCopy !req
422. world-wide that can reach
the abyssal plainCopy !req
423. and between them, so far,Copy !req
424. they have explored less
than one per cent of it.Copy !req
425. There are a thousand times
fewer large animalsCopy !req
426. down here than on the Continental slope.Copy !req
427. But in places hundreds of brittle starsCopy !req
428. march over the sea bed in search of food.Copy !req
429. Fish have been found right downCopy !req
430. to the bottom of the deepest trenches.Copy !req
431. Most come from one family:
the aptly named rattails.Copy !req
432. They forage near the sea floorCopy !req
433. and use their battery of sensory pitsCopy !req
434. to follow odour trails
from rotting carcasses.Copy !req
435. Rattails can travel long distancesCopy !req
436. across the abyssal plain in search of foodCopy !req
437. but others down here
prefer to sit and wait.Copy !req
438. This is a tripod fish.Copy !req
439. It supports itself
on two specially adapted finCopy !req
440. rays and can sit motionless
for hour after hour.Copy !req
441. It does have tiny eyes,
but it's almost totally blind.Copy !req
442. It locates potential prey with a pair ofCopy !req
443. fins behind its head, which are sensitive
to even tiny movements.Copy !req
444. We know more about the surface of the moon
than we do about the abyssal plain.Copy !req
445. Every dive still produces
complete surprises.Copy !req
446. This deep sea octopus is about
the size of a beach ball...Copy !req
447. and has been nicknamed 'Dumbo'.Copy !req
448. An umbrella of skin between its tentaclesCopy !req
449. and its extraordinary
flapping ears allow DumboCopy !req
450. to hover effortlessly over the sea floor
as it searches for food.Copy !req
451. Right in the middle
of the abyssal plain lie theCopy !req
452. largest geological structures
on our planet...Copy !req
453. the mid ocean ridges.Copy !req
454. Rising almost two miles off the sea floorCopy !req
455. the ridges extend for
over twenty eight thousand milesCopy !req
456. the largest mountain chain on earth.Copy !req
457. When submersibles finally succeeded
in reaching the ridges...Copy !req
458. in the 1970's they foundCopy !req
459. an extraordinary world with mile upon mileCopy !req
460. of once molten rock that had welled up
from the deep in the past...Copy !req
461. and had now solidified.Copy !req
462. They discovered towering chimneys,
pouring out water as hot as molten lead.Copy !req
463. At the surface water becomes steam
at a hundred degrees CentigradeCopy !req
464. but down here under the
immense pressure of the oceanCopy !req
465. it remains liquid at temperatures
as hot as four hundred degrees Centigrade.Copy !req
466. The submersible has to move carefully.Copy !req
467. Disaster is very close when surrounded by
such enormous temperatures and pressures.Copy !req
468. And here, where the very water is loaded
with hydrogen sulphidesCopy !req
469. poisonous to normal life processes,
they found living creatures.Copy !req
470. Some of the chimneys were
encrusted with white tubes.Copy !req
471. The tubes were inhabited by
a new species of polychaete wormCopy !req
472. that was exposed to temperatures
as high as eighty degrees Centigrade.Copy !req
473. No other animal on earth was known
to tolerate such high temperaturesCopy !req
474. so the scientists called these
creatures Pompeii worms.Copy !req
475. But this was just the beginning.Copy !req
476. Nearby there were
chimneys completely covered...Copy !req
477. by whole communities
of different organisms.Copy !req
478. The bottom of the vent was
encrusted with large mussels.Copy !req
479. There were swarms of white crabs
and most spectacular of allCopy !req
480. dominating the chimney were
hundreds of bright red tube wormsCopy !req
481. each two metres long
and four centimetres wide.Copy !req
482. Until these creatures were discoveredCopy !req
483. all life on earth was thought
to be dependent on the sun.Copy !req
484. But here,
in the complete darkness of the deepCopy !req
485. they had discovered a rich density of lifeCopy !req
486. that clearly derived
no energy from the sun.Copy !req
487. So, what do they live on?Copy !req
488. The answer was found within
the tube worms themselves.Copy !req
489. They were packed full
of specialised bacteriaCopy !req
490. that are able to derive energy from the
sulphides that are pouring from the vents.Copy !req
491. The worms' plumes were bright redCopy !req
492. with haemoglobin that carries sulphidesCopy !req
493. and oxygen down to the bacteria.Copy !req
494. These bacterial colonies
are the primary source of energy...Copy !req
495. for all the life that lives here.Copy !req
496. The mussels were packed with themCopy !req
497. just as green plants are the basis of lifeCopy !req
498. for animals living in the sunCopy !req
499. so these bacteria and other microbesCopy !req
500. are at the foot of the food chain on
which over five hundred species depend.Copy !req
501. Crabs and shrimps
feed off bacteria and evenCopy !req
502. try to steal pieces of tube worm plumes.Copy !req
503. Since the vents were first visited byCopy !req
504. biologists in 1979 a new species
has been described every ten days.Copy !req
505. At the top of the food chain fishCopy !req
506. that never stray far from the vents.Copy !req
507. But they, or their descendants,
will have to move eventuallyCopy !req
508. for we now know that individual ventsCopy !req
509. are rarely active
for more than a few decades.Copy !req
510. Such a density of life,
living in such harsh conditionsCopy !req
511. in the middle of a vast and otherwiseCopy !req
512. barren abyssal plain astounded the
biologists who first saw it.Copy !req
513. It seemed to them
that here was evidence ofCopy !req
514. how life on this planet, which certainly
started in the sea, might have begun.Copy !req
515. Deep sea submersibles made an even more
extraordinary discovery in 1990.Copy !req
516. Over half a mile down at
the bottom of the Gulf of MexicoCopy !req
517. they came across what appeared
to be an underwater lakeCopy !req
518. over twenty metres long,
with its own sandy shore.Copy !req
519. Around its edge,
there even seemed to be a tide line.Copy !req
520. But this couldn't be, of course,
this was underwater.Copy !req
521. In fact, the lapping edge was created
by a thick soup of salty brineCopy !req
522. far heavier than the surrounding seawaterCopy !req
523. and the sand was made up of hundreds
of thousands of mussels.Copy !req
524. Once again, in the midst of
a totally barren seabedCopy !req
525. an extraordinarily rich oasis of lifeCopy !req
526. totally independent of the sun's energy.Copy !req
527. The source of energy
this time was not sulphidesCopy !req
528. but methane bubbling out of the sea bed.Copy !req
529. And once again, the mussels carriedCopy !req
530. special bacteria capable of
fixing the methane's energy.Copy !req
531. Just like the hot ventsCopy !req
532. a complete ecosystem had developed,
based on the bacteria.Copy !req
533. There was an enormous variety of
completely new species,Copy !req
534. shrimps, weird squat lobsters
and bright red polychaete worms.Copy !req
535. These oases were called cold seepsCopy !req
536. and were surprisingly similar
to the hot vents.Copy !req
537. The geological processes in the sea floorCopy !req
538. that produce methane also tend to resultCopy !req
539. in the release of hydrogen sulphides.Copy !req
540. It was hardly surprising thenCopy !req
541. when not far from the brine pool
they found tube worms ...Copy !req
542. extensive fields of tube wormsCopy !req
543. that stretch for hundreds of metres.Copy !req
544. This new species also uses bacteriaCopy !req
545. to fix energy from sulphidesCopy !req
546. but it extracts them directly
from the ground.Copy !req
547. Their beautiful gills are only used
to supply oxygen to the bacteria.Copy !req
548. Amazingly, these tube worms are
over two hundred years old.Copy !req
549. While hot vent tube worms
are thought to beCopy !req
550. the fastest growing invertebrates
in the seaCopy !req
551. these appear to be far slower.Copy !req
552. All the more reason to protect your gills
from biting amphipods.Copy !req
553. The energy sources exploited by the hot
vent animals may suddenly failCopy !req
554. but here life can enjoy a more
stable geological future.Copy !req
555. To discover within ten yearsCopy !req
556. two completely new ecosystems, both
totally independent of the sun's energyCopy !req
557. has been quite extraordinary.Copy !req
558. So far, we have explored just
one per cent of the deep ocean floor.Copy !req
559. Who knows what is still
out there to be discovered?Copy !req