Deep Sea Gigantism (abyssal gigantism) is defined as the the tendency for deep-sea animals to grow to much larger sizes than their shallow water relatives.
Watch the newer version of this film: https://youtu.be/FmR14Yng9kI
Biologists still aren’t certain why it is that some abyssal creatures grow to these immense sizes, for we have still only scratched the surface of discovery in the deep. But there are many theories, which may help to shed light on this mystery of the oceanic deep.
A brilliant example to show that deep sea fauna does indeed follow this rule, is the mollusk group, gastropods, which includes slugs and snails. In the deep, many species that are near symmetrical to shallower varieties, grow to be huge. The deep sea isopod belongs to a group that rarely grows larger than a few inches in the shadows, but down here they can grow to half a metre in length, and weigh approximately 1.7 kilograms. This variety, the giant isopod, is found in the deep, cold waters of the Pacific Ocean, the Atlantic Ocean, and the Arctic Ocean.
#deepsea #wildlife #nature #animals #ocean #fish #science #biology
Find out more: http://naturalworldfacts.com/deep-sea-hub
0:00 Introduction
0:47 Deep Sea Gigantism
1:16 How Deep Sea Organisms Grow so Large
1:52 Kleiber’s Rule – Larger Animals are More Efficient
2:44 Bergman’s Rule – Sea Animals Grow Larger in Cold Climates
3:57 Gigantism in the Colossal Squid
4:13 The Island Rule
5:16 How the Deep Sea Mirrors the Island Rule
6:03 Gigantism in the Giant Isopod
6:40 Resources in the Deep Ocean
7:03 Conclusion
7:54 Outro
Resources:
https://www.zmescience.com/science/biology/deep-sea-giant-creature/
https://www.worldatlas.com/articles/what-is-deep-sea-gigantism.html
https://weather.com/science/news/what-polar-gigantism-exactly-what-it-sounds-20140422#:~:text=But%20in%20Antarctica%2C%20they%20experience,Montana%2C%20told%20weather.com.
Watch the newer version of this film: https://youtu.be/FmR14Yng9kI
Biologists still aren’t certain why it is that some abyssal creatures grow to these immense sizes, for we have still only scratched the surface of discovery in the deep. But there are many theories, which may help to shed light on this mystery of the oceanic deep.
A brilliant example to show that deep sea fauna does indeed follow this rule, is the mollusk group, gastropods, which includes slugs and snails. In the deep, many species that are near symmetrical to shallower varieties, grow to be huge. The deep sea isopod belongs to a group that rarely grows larger than a few inches in the shadows, but down here they can grow to half a metre in length, and weigh approximately 1.7 kilograms. This variety, the giant isopod, is found in the deep, cold waters of the Pacific Ocean, the Atlantic Ocean, and the Arctic Ocean.
#deepsea #wildlife #nature #animals #ocean #fish #science #biology
Find out more: http://naturalworldfacts.com/deep-sea-hub
0:00 Introduction
0:47 Deep Sea Gigantism
1:16 How Deep Sea Organisms Grow so Large
1:52 Kleiber’s Rule – Larger Animals are More Efficient
2:44 Bergman’s Rule – Sea Animals Grow Larger in Cold Climates
3:57 Gigantism in the Colossal Squid
4:13 The Island Rule
5:16 How the Deep Sea Mirrors the Island Rule
6:03 Gigantism in the Giant Isopod
6:40 Resources in the Deep Ocean
7:03 Conclusion
7:54 Outro
Resources:
https://www.zmescience.com/science/biology/deep-sea-giant-creature/
https://www.worldatlas.com/articles/what-is-deep-sea-gigantism.html
https://weather.com/science/news/what-polar-gigantism-exactly-what-it-sounds-20140422#:~:text=But%20in%20Antarctica%2C%20they%20experience,Montana%2C%20told%20weather.com.