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Unlike humans and deep-sea animals, our ambient air pressure is at a standard atmospheric pressure.
left and right, and the pressure on the seabed is up to a thousand times.
In such an environment, humans can instantly turn into a pile of pulp. But those deep-sea creatures are safe and sound, and the ability of these animals to withstand pressure.
It can be seen. Before learning about deep-sea animals, we went to the bottom of the sea. With the help of state-of-the-art equipment, the deepest man can dive into the ocean was the Mariana Trench in 1995.
Created at a depth of 10,970 meters. And on June 24, 2012, China's Jiaolong.
It dived to a depth of 7,020 meters in the Mariana Trench, which is currently the deepest depth record for a domestic submersible.
You must know that these deep-sea probes are made of high-strength synthetic steel and rare metals.
Manufactured special equipment.
Being able to dive to this depth is almost created by condensing all kinds of cutting-edge technologies of human beings. And in such a deep place, there are still fish to live, and their diving methods are many times better than terrestrial creatures.
Scientists have discovered that these fish are able to survive in the deep sea under such great pressure. It mainly relies on three points, the first of which is their musculature, the marine life of the deep waters.
The muscle tissue is softer and the fibrous tissue is more delicate than that of fish in shallow water. Of course, there are also some animals that will turn muscle tissue into colloids that are close to them, such as water drop fish.
Living at depths of 1,000 meters, the dripfish convert their muscles into a gelatinous tissue that balances the water pressure.
Secondly, deep-sea fish have very thin bones due to the fact that they live in an environment of huge water pressure for a long time, and they can bend at will, without worrying about being crushed by the huge water pressure. The most important point is that the skin tissue of deep-sea fish is basically a very thin membrane, which can fill the physiological tissues of the fish with water. Maintain a balance between the internal and external water pressures, so that they can not be flattened under enormous pressure conditions.
Creatures in nature have relied on their own evolution, coupled with the accumulation of time, to successfully overcome problems that humans have not solved for thousands of years. Such wisdom is enough for human beings to learn for hundreds of years.
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The cortex of these animals is very strong, and these animals often live in the ocean, so they will adjust their state in time, so they can adapt to the pressure of the seabed.
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Animals that live in the deep sea at a depth of thousands of meters have a particularly strong internal pressure, can resist the pressure of the deep sea, and have adapted to life in the deep sea.
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Relying on the muscle tissue of these animals, these animals can survive in the deep sea, and these animals have adapted to the pressure of the deep sea.
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Animals that live in the deep sea have a particularly strong internal pressure and have adapted to the environment of the deep sea.
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The deep sea is an extreme environment with a lack of light and nutrients, as well as high stress. It is difficult for ordinary creatures to survive in the deep sea, but deep-sea animals can adapt to such an environment. This is because their pure body structure and physiology are adapted to this extreme environment.
Deep-sea animals have a strong body tolerance for stress, usually with a rigid body, a strong exoskeleton, and a spherical or cylindrical body shape, all of which help them withstand the stresses of the deep-sea environment.
The cells of deep-sea animals are also able to adapt themselves to high-pressure environments, such as their stronger and more elastic membranes to protect the cells from damage. In addition, they contain special molecules that help them maintain the function of proteins and cell membranes.
The adaptability of deep-sea animals makes them unique in the deep sea. Their bodies and cellular adaptability help them survive and thrive in deep-sea environments that are not suitable for other organisms. At the same time, the unique characteristics of deep-sea animals can also be used in some applications, such as adapting to gravity environment, high-pressure engineering, etc.
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The internal and external pressures of deep-sea animals are the same, and the internal and external pressures of various tissues such as cell membranes can be transmitted within a certain range, just like a bottle, if the lid is not covered, no matter how deep the water is, it will not be deformed.
Of course, this pressure transmission has a certain range and speed, so most of the deep-sea animals die as soon as they come out of the water, and the opening from the inside is one of the reasons. Similarly, if it is suddenly sent into deeper water, it will also die.
Deep-sea animals have the same internal and external pressure, so they will not be fine, but they cannot survive in shallow water and low-pressure environments.
It's the same as if a person can survive in the air, but he will be squashed in reclaimed water.
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