How do deep-sea creatures thrive under extreme pressure? | – Times of India

How do deep-sea creatures thrive under extreme pressure? | – Times of India


Have you ever been curious to know how the deep sea creatures thrive to the extreme pressure in the ocean? The survival of deep-sea creatures in such extreme conditions is a testament to their incredible evolutionary adaptations, which enable them to endure and flourish in the abyssal depths of the ocean.
As the Earth’s oceans average about 4,000 metres deep, and anything below 200 metres is classified as deep sea.Deep-sea conditions present extreme challenges: the water is perpetually cold, devoid of natural light, and subjected to crushing pressure. At depths of 10,000 metres, the pressure reaches about one ton per square centimetre. Despite these harsh conditions, a diverse array of marine life not only survives but thrives in the abyss.

Deep sea creatures: Adaptations to extreme pressure

  • High unsaturated fatty acid content

Deep-sea creatures have cell membranes rich in unsaturated fatty acids, which keep the membranes flexible and resistant to the immense pressure of the deep sea. Unlike saturated fats, which would become rigid and brittle, unsaturated fatty acids maintain fluidity, preventing cellular damage.

  • Gelatinous body structure

Unlike their shallow-water counterparts, many deep-sea fish lack gas-filled swim bladders, which are prone to implosion under high pressure. Instead, these fish have bodies filled with a gelatinous substance that enhances buoyancy and mitigates the risk of physical damage.

TMAO (Trimethylamine Oxide) is a key compound that helps deep-sea creatures survive extreme depths. It stabilises proteins and enzymes, preventing them from collapsing under high pressure. The concentration of TMAO in a creature’s body correlates with its ability to inhabit greater depths, making it a crucial adaptation for deep-sea survival.

TMAO is also responsible for the “fishy” smell associated with marine life. The deeper the creature, the higher the TMAO concentration, leading to a stronger fishy odour. Snailfish, which live at the greatest depths, likely have the highest TMAO levels and, consequently, the most pronounced smell.

Human exploration vs. marine adaptations

The human body cannot withstand the extreme pressures of the deep sea. However, technological advancements like diving bells have allowed humans to explore depths of up to 10,000 metres. The world record for the deepest dive without a protective capsule is 333 metres, and it required 15 hours for the diver to equalise the pressure on ascent. This stark contrast between human and marine adaptation underscores the remarkable evolutionary strategies employed by deep-sea organisms to thrive in one of the planet’s most challenging environments.
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