Scaly-foot Gastropod: The Snail With an Armor of Iron | Amazing Images.
Deep
in the Indian Ocean, near extremely hot hydrothermal vents, where
scalding hot water erupts in tall, blacky columns, lives an
extraordinary species of snail called chrysomallon squamiferum,
commonly known as scaly-foot gastropod. The harsh environment has
caused the snail to develop a unique exoskeleton. Its outer shell is
covered with a layer of iron, and its soft fleshy foot that protrudes
from the under the shell is protected by hard mineralized scales made of
iron sulphides. Scaly-foot gastropod is the only animal on Earth known
to utilize iron in this way.Scaly-foot gastropod was first
discovered in 1999 at a depth of over two kilometers in central Indian
Ocean, deep within hydrothermal vent fields. The water in these vents
are high in sulfides and metals, which the snails have incorporated
into their shells. The entire animal is covered in iron compound,
mainly pyrite, also known as “Fool’s gold” and greigite. As greigite is
magnetic, the animal actually sticks to magnets.
The three known populations of Chrysomallon squamiferum: Kairei, Longqi, Solitaire (left to right). Photo credit
The gastropod’s shell is composed of three layers. The outer layer is about 30 μm thick, and is made of iron sulphides. The middle layer is equivalent to the organic periostracum, a thin protein coating found on other snail shells, and is also the thickest of the three (about 150 μm). The innermost layer is made of aragonite, a form of calcium carbonate that is commonly found both in the shells of molluscs and in various corals. Each layer appear to contribute to the effectiveness of the snail's defense in different ways. The outer layer of iron is designed to crack when hit, but in a way that absorbs energy, while also blunting and deforming the predators’ claws. The middle organic layer acts as padding to dissipate further the mechanical strain and energy generated by a squeezing attack, such as by the claws of a crab, making it less likely that the mollusc's brittle inner shell will crack.
The armor is so effective that the United States military is currently funding research on the armor of the snail in hopes of developing insights into new military armor designs.
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Scaly-foot gastropod is magnetic and sticks to magnets. Photo credit
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Sources: Wikipedia / New Scientist / ESA.org
The three known populations of Chrysomallon squamiferum: Kairei, Longqi, Solitaire (left to right). Photo credit
The gastropod’s shell is composed of three layers. The outer layer is about 30 μm thick, and is made of iron sulphides. The middle layer is equivalent to the organic periostracum, a thin protein coating found on other snail shells, and is also the thickest of the three (about 150 μm). The innermost layer is made of aragonite, a form of calcium carbonate that is commonly found both in the shells of molluscs and in various corals. Each layer appear to contribute to the effectiveness of the snail's defense in different ways. The outer layer of iron is designed to crack when hit, but in a way that absorbs energy, while also blunting and deforming the predators’ claws. The middle organic layer acts as padding to dissipate further the mechanical strain and energy generated by a squeezing attack, such as by the claws of a crab, making it less likely that the mollusc's brittle inner shell will crack.
The armor is so effective that the United States military is currently funding research on the armor of the snail in hopes of developing insights into new military armor designs.
Photo credit
Photo credit
Photo credit
Photo credit
Photo credit
Scaly-foot gastropod is magnetic and sticks to magnets. Photo credit
Photo credit
Sources: Wikipedia / New Scientist / ESA.org