How do fish make electricity? - Eleanor Nelsen
-
0:08 - 0:12In 1800, the explorer
Alexander von Humboldt -
0:12 - 0:16witnessed a swarm of electric eels
leap out of the water -
0:16 - 0:20to defend themselves
against oncoming horses. -
0:20 - 0:24Most people thought the story
so unusual that Humboldt made it up. -
0:24 - 0:29But fish using electricity is more common
than you might think; -
0:29 - 0:33and yes, electric eels are a type of fish.
-
0:33 - 0:35Underwater, where light is scarce,
-
0:35 - 0:38electrical signals offer ways
to communicate, -
0:38 - 0:39navigate,
-
0:39 - 0:44and find—plus, in rare cases, stun—prey.
-
0:44 - 0:49Nearly 350 species of fish
have specialized anatomical structures -
0:49 - 0:53that generate
and detect electrical signals. -
0:53 - 0:55These fish are divided into two groups,
-
0:55 - 0:59depending on how much
electricity they produce. -
0:59 - 1:04Scientists call the first group
the weakly electric fish. -
1:04 - 1:06Structures near their tails
called electric organs -
1:06 - 1:13produce up to a volt of electricity,
about two-thirds as much as a AA battery. -
1:13 - 1:15How does this work?
-
1:15 - 1:19The fish's brain sends a signal through
its nervous system to the electric organ, -
1:19 - 1:21which is filled with stacks of hundreds
-
1:21 - 1:27or thousands of disc-shaped
cells called electrocytes. -
1:27 - 1:31Normally, electrocytes pump out sodium
and potassium ions -
1:31 - 1:37to maintain a positive charge outside
and negative charge inside. -
1:37 - 1:40But when the nerve signal arrives
at the electrocyte, -
1:40 - 1:44it prompts the ion gates to open.
-
1:44 - 1:48Positively charged ions flow back in.
-
1:48 - 1:52Now, one face of the electrocyte
is negatively charged outside -
1:52 - 1:55and positively charged inside.
-
1:55 - 1:59But the far side
has the opposite charge pattern. -
1:59 - 2:01These alternating charges
can drive a current, -
2:01 - 2:06turning the electrocyte
into a biological battery. -
2:06 - 2:11The key to these fish's powers
is that nerve signals are coordinated -
2:11 - 2:15to arrive at each cell
at exactly the same time. -
2:15 - 2:21That makes the stacks of electrocytes
act like thousands of batteries in series. -
2:21 - 2:24The tiny charges from each one
add up to an electrical field -
2:24 - 2:27that can travel several meters.
-
2:27 - 2:30Cells called electroreceptors
buried in the skin -
2:30 - 2:33allow the fish to constantly sense
this field -
2:33 - 2:38and the changes to it caused
by the surroundings or other fish. -
2:38 - 2:40The Peter’s elephantnose fish,
for example, -
2:40 - 2:44has an elongated chin
called a schnauzenorgan -
2:44 - 2:46that's riddled in electroreceptors.
-
2:46 - 2:49That allows it to intercept signals
from other fish, -
2:49 - 2:51judge distances,
-
2:51 - 2:54detect the shape and size
of nearby objects, -
2:54 - 2:59and even determine whether
a buried insect is dead or alive. -
2:59 - 3:01But the elephantnose
and other weakly electric fish -
3:01 - 3:05don't produce enough electricity
to attack their prey. -
3:05 - 3:09That ability belongs
to the strongly electric fish, -
3:09 - 3:12of which there are only
a handful of species. -
3:12 - 3:16The most powerful strongly electric
fish is the electric knife fish, -
3:16 - 3:21more commonly known as the electric eel.
-
3:21 - 3:25Three electric organs span
almost its entire two-meter body. -
3:25 - 3:27Like the weakly electric fish,
-
3:27 - 3:31the electric eel uses its signals
to navigate and communicate, -
3:31 - 3:35but it reserves its strongest
electric discharges for hunting -
3:35 - 3:40using a two-phased attack that susses out
and then incapacitates its prey. -
3:40 - 3:44First, it emits two
or three strong pulses, -
3:44 - 3:46as much as 600 volts.
-
3:46 - 3:50These stimulate the prey's muscles,
sending it into spasms -
3:50 - 3:53and generating waves
that reveal its hiding place. -
3:53 - 3:56Then, a volley of fast,
high-voltage discharges -
3:56 - 3:59causes even more intense
muscle contractions. -
3:59 - 4:03The electric eel can also curl up
so that the electric fields -
4:03 - 4:07generated at each end
of the electric organ overlap. -
4:07 - 4:11The electrical storm eventually
exhausts and immobilizes the prey, -
4:11 - 4:15and the electric eel
can swallow its meal alive. -
4:15 - 4:19The other two strongly electric fish
are the electric catfish, -
4:19 - 4:21which can unleash 350 volts
-
4:21 - 4:24with an electric organ
that occupies most of its torso, -
4:24 - 4:29and the electric ray, with kidney-shaped
electric organs on either side of its head -
4:29 - 4:33that produce as much as 220 volts.
-
4:33 - 4:36There is one mystery in the world
of electric fish: -
4:36 - 4:39why don't they electrocute themselves?
-
4:39 - 4:42It may be that the size
of strongly electric fish -
4:42 - 4:45allows them to withstand their own shocks,
-
4:45 - 4:48or that the current passes out
of their bodies too quickly. -
4:48 - 4:53Some scientists think that special
proteins may shield the electric organs, -
4:53 - 4:58but the truth is, this is one mystery
science still hasn't illuminated.
- Title:
- How do fish make electricity? - Eleanor Nelsen
- Description:
-
more » « less
View full lesson: https://ed.ted.com/lessons/electric-fish-eleanor-nelsen
Lesson by Eleanor Nelsen, directed by TOTEM Studio.
- Video Language:
- English
- Team:
closed TED
- Project:
- TED-Ed
- Duration:
- 05:15
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Michelle Mehrtens edited English subtitles for How do fish make electricity? - Eleanor Nelsen | |
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Michelle Mehrtens edited English subtitles for How do fish make electricity? - Eleanor Nelsen | |
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Michelle Mehrtens edited English subtitles for How do fish make electricity? - Eleanor Nelsen | |
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Michelle Mehrtens approved English subtitles for How do fish make electricity? - Eleanor Nelsen | |
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Michelle Mehrtens accepted English subtitles for How do fish make electricity? - Eleanor Nelsen | |
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Michelle Mehrtens edited English subtitles for How do fish make electricity? - Eleanor Nelsen | |
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Jennifer Cody edited English subtitles for How do fish make electricity? - Eleanor Nelsen |