Scientists have made a startling discovery at the bottom of the Red Sea.
A recent deep-sea exploration has revealed so-called “death pools,” or brine pools, which are so devoid of oxygen that any marine creature venturing too close is instantly stunned, often leading to death.
Scientists studying the depths of the Red Sea have located the pools on the seafloor that are lethal to most marine life.
Devoid of oxygen, they create inhospitable conditions for typical marine animals like shrimp, worms, and mollusks.
Creatures unlucky enough to wander too close are incapacitated, becoming easy prey for predators lurking at the edge, waiting to feed on the stunned or lifeless fish.
But not everything in these death pools perishes. Despite their extreme conditions, the pools are home to resilient “extremophile” microbes.
These organisms thrive where other forms of life cannot, offering scientists a unique opportunity to study how life might have developed on Earth under similar anoxic (oxygen-free) conditions billions of years ago.
According to Sam Purkis, professor and chair of the Department of Marine Geosciences at the University of Miami, these brine pools offer an unprecedented look into Earth’s ancient past and could even inform the search for life on other planets.
“Our current understanding is that life originated on Earth in the deep sea, almost certainly in anoxic conditions,” Purkis explained.
“Studying this community hence allows a glimpse into the sort of conditions where life first appeared on our planet, and might guide the search for life on other ‘water worlds’ in our solar system and beyond.”
The findings could have implications for astrobiology, the field of science that studies the potential for life on other planets.
Extremophiles, such as the microbes thriving in the Red Sea’s death pools, might resemble organisms that could live in the harsh, oxygen-poor environments found on moons like Europa or Enceladus, which have subsurface oceans.
The Red Sea, with its colorful coral reefs and diverse marine life, is a thriving ecosystem.
Its name is derived from seasonal blooms of red algae, which at times transform the sea’s blue-green hue into a reddish tint.
Beneath this colorful surface, however, lies a hidden world unlike anything else in the region’s clear, warm waters.