![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/rays-of-sunlight-into-the-underwater-cave-royalty-free-image-1665512420-e1675742010235.jpg\")
Some of the Most Extreme Creatures on Earth Live in the Deep Ocean<\/span><\/h2>\nNo plants can survive in water beyond the reach of the sun’s rays. Bacteria and other microorganisms make food using chemosynthesis, which converts chemicals into energy in the same way that photosynthesis produces energy from sunlight. Fish in the deep ocean have a high concentration of a special chemical called TMAO in their muscles to help withstand the bone-crushing pressure. Some deep sea creatures<\/a> are equipped with tiny bodies that preserve energy, enabling them to live on very little in waters where food is scarce. There’s even a tiny animal on the ocean floor that is the only known animal that can survive without oxygen. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/181116141137-sea-change-project-kelp-forest-e1675803851452.jpg\")
Sea Change Project<\/figcaption><\/figure>\nMore Than 80 Percent of the Ocean Is Completely Unexplored <\/span><\/h2>\n
Humans have uncovered almost every inch of the land masses on Earth, but the vast majority of the oceans have<\/span> never been explored<\/span><\/a>. The ocean is the largest ecosystem on our planet, covering around 71 percent of the Earth’s surface. Yet, according to the National Oceanic and Atmospheric Administration, humans have explored and mapped less than 20 percent of that expanse. That includes parts of the ocean that have only been explored with unmanned vehicles. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/deep-sea5_wide-127b6c6bd7e3e11ce74553cbf2eeb28ccdb04bc4.jpg\")
Mark Thiessen\/National Geographic<\/figcaption><\/figure>\nThe Ocean Is Over a Mile Deeper Than Mt. Everest Is Tall<\/span><\/h2>\n
Seven miles below the surface of the ocean is Challenger Deep, the deepest known point on Earth. Located inside the expansive <\/span>Mariana Trench<\/span><\/a> east of the Philippines in the Pacific Ocean, Challenger Deep is so deep that if you set Mt. Everest on its floor, the peak would be a mile underwater. Mariana Trench was created 180 million years ago when two massive plates of Earth’s crust slammed into each other, and one slipped underneath the other. The result is a trench that stretches 200 kilometers (124 miles), which is unlike any other place on Earth. Temperatures in the water range from very cold (hovering around 34 degrees Fahrenheit or 1 degree celsius) to extremely hot (but not boiling due to the high pressure). <\/span><\/p>\n
Mariana Trench was first discovered in 1875, and up until 2019, only three people had ever reached the bottom. (Fun fact: One of those three people is Avatar director <\/span>James Cameron<\/span><\/a>. The solo craft that he used can be seen in the picture above.) Since the launch of the submarine Limiting Factor, trips to Challenger Deep have become much more frequent. But, even now, fewer than 30 people have seen the natural wonder. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/webinferno_summit_2018_1400x893px-e1675746069272.jpg\")
D. Kelley, University of Washington\/NSF-OOI\/WHO<\/figcaption><\/figure>\nMassive Fields of Hydrothermal Vents Cover the Seafloor.<\/span><\/h2>\n
Far below the warmth of the sun, much of the ocean floor is unsurprisingly quite cold. So, it may surprise you to learn that some spots along the ocean floor reach scalding temperatures. In the 1970s, scientists discovered that the deep ocean houses vast fields of <\/span>hydrothermal vents<\/span><\/a> that spew scorching water and minerals from beneath the seafloor. Even more amazingly, these seemingly inhospitable vents support vibrant ecosystems of animals and microorganisms that have evolved to survive in one of the harshest environments on Earth. <\/span><\/p>\n
Similar to geysers, hydrothermal vents form on small cracks and gaps where water can filter down beneath the Earth’s crust to the magma. The magma heats the water and enriches it with minerals like zinc and iron before it rises back up through the surface. As a result, the vents are rich in minerals and other chemicals that microbes convert into energy in much the same way that plants convert sunlight to energy. Giant tubeworms and the <\/span>aptly named yeti crab<\/span><\/a> are some of the animals that make hydrothermal vents their home. The oldest life on Earth is believed to have lived in hydrothermal vents over four billion years ago.<\/span><\/p>\n
<\/div>\n![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/screenshot-2014-03-11-10.07.15-e1675908486869.png\")
PNAS<\/figcaption><\/figure>\nOne Fish Thrives at Over Five Miles Under the Sea<\/span><\/h2>\n
While most of the most well-known deep ocean creatures are horrifying to behold, the most extraordinary fish roaming the waters is actually pretty cute. First discovered in 2014 during a month-long expedition in the Mariana Trench, the <\/span>Mariana snailfish<\/span><\/a> is tiny, pink, slimy, and a bit transparent. It also lives deeper in the ocean than any fish on Earth, over 8 kilometers or 26,722 feet below the surface. That’s nearly half a kilometer deeper than the hadal snailfish discovered in the Japan Trench in 2008. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/230118113116-01-giant-squid-orig-e1675911304940.jpg\")
Yosuke Tanaka\/CNN<\/figcaption><\/figure>\nGiant, Mysterious Squids Roam the Deep Ocean.<\/span><\/h2>\n
For centuries, cultures around the world shared stories of a giant octopus-like beast that sank ships and haunted the seas. But it wasn’t until the mid-1800s that someone described the real-life creature behind the myths, <\/span>the giant squid<\/span><\/a>. Although many dead giant squids have washed up on shores worldwide, the first image of a live giant squid was only captured in 2005. Unlike their mythic counterparts, giant squids rarely come to the surface and are unlikely to attack any ships. But their size more than lives up to the legend. The largest giant squid on record was a whopping 43 feet long, and some researchers believe they could grow as large as 66 feet. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/deep-sea-dragonfish-1024x683-1-e1675805138834.webp\")
Solvin Zankl<\/figcaption><\/figure>\nThe Ocean’s Depths are Teeming With Terrifying Fish<\/span><\/h2>\n
The fish that live in the deep ocean are as resilient as they are <\/span>bizarre-looking<\/span><\/a>. With little to no light and limited availability of food, these fish have to get creative in their pursuit of prey. Take the anglerfish. Probably the most infamous deep-sea fish, the anglerfish has a glowing appendage growing right out of its head. The fish uses the light to lure unsuspecting fish straight into its mouth full of long, fang-like teeth. Similarly, the dragonfish has a small bioluminescent lure that hangs from its chin. While many deep sea fish are partially or totally translucent, the dragonfish’s stomach is thick enough to block the glow of its bioluminescent prey.<\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/149166-e1675805636793.webp\")
Gallipoli Historical Underwater Park<\/figcaption><\/figure>\nThe Ocean Floor Is Littered With Millions of Wrecked Ships. <\/span><\/h2>\n
There’s much more than sea life lurching in the ocean abyss. UNESCO<\/span> estimates<\/span><\/a> that the hollow remnants of over three million boats lay scattered across the sea floor. That includes ancient Greek and Roman trading vessels, Columbus’ famed<\/span> Santa Maria<\/span><\/i>, World War II submarines, and the ill-fated <\/span>Titanic<\/span><\/i>. These shipwrecks aren’t just a glimpse into the past. They also create <\/span>unique underwater ecosystems<\/span><\/a> bursting with diverse marine life. There’s even evidence that the presence of a shipwreck might permanently alter the surrounding environment, and not always in negative ways. One study found that ship wreckage increased biodiversity in the surrounding ecosystem.<\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/26tb-whalegenes-superjumbo-e1675911468964.webp\")
Francois Gohier\/VW Pics\/ Getty Images<\/figcaption><\/figure>\nThe Deep Sea Has Its Own Soundtrack.<\/span><\/h2>\n
The deep ocean may be vast and haunting, but it’s far from silent. The murky waters 1,000 meters below the surface are home to a symphony of underwater soundscapes. The sperm whale’s deafening clicks<\/a><\/span> are the loudest sound produced by any animal. The clicks ring in at 200 decibels underwater, only slightly quieter than the loudest sound ever recorded. Above the surface, the whale’s song sounds quieter but is still powerful enough to burst your eardrums. Tiny snapping shrimp close their claws with such force and speed (nearly 100 miles per hour) that it produces a crackling sound. The noise is so loud that it can interfere with other sea animals’ communication and even human sonar systems. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/ocean-microbes-min.png\")
Smithsonian Institution<\/figcaption><\/figure>\nAn Unfathomable Number of Microbes Live Under the Sea Floor. <\/span><\/h2>\n
Microscopic life under the sea floor is completely different from any known on Earth. Deep sea microbes must survive with no sunlight, limited nutrients, and few sources of energy. Recent research suggests that these microbes have adapted to survive in the environment by <\/span>barely living at all<\/span><\/a>. The traits that characterize living things, such as growth, reproduction, and the ability to adapt and respond to the environment, all require energy, which is in short supply deep under the ocean floor. So, deep sea microbes are mostly inactive, expending just enough energy to carry out only the most basic functions needed to stay alive.<\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/jpegpia11019-scaled-e1675809275263.jpg\")
NASA\/EarthKAM<\/figcaption><\/figure>\nUndersea Canyons Are Deeper Than the Grand Canyon. <\/span><\/h2>\n
The Mariana Trench isn’t the only depressions ocean floor. The deep ocean features some of Earth’s most mindblowing canyons and trenches, including some that are deeper than the Grand Canyon. The <\/span>Zhemchug Canyon<\/span><\/a>, located in the Bering Sea, is the largest known submarine canyon, stretching 2.6 kilometers (8,530 feet) down compared to the Grand Canyon’s 1.8-kilometer depth (8,530 feet). The Great Bahama submarine canyon is one of the deepest undersea cave systems in the world. These colossal underwater canyons are so large they can be seen from space. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/media2-2001-463-wormssiz-e1675912177417.jpg\")
Woods Hole Oceanographic Institution<\/figcaption><\/figure>\nCold Seeps Help Fuel Deep Sea Ecosystems.<\/span><\/h2>\n
Cold seeps, or cold vents, are areas on the deep ocean floor that release gases like methane into the surrounding water. Like hydrothermal vents, <\/span>cold seeps<\/span><\/a> support rich ecosystems by leaking gases that microbes convert into energy. However, while hydrothermal vents release metallic minerals, the gases that pour from cold seeps are carbon-based, meaning that they originated from organic, or living, matter millions of years ago. That means that cold seep areas are an important part of the global carbon cycle and are fueled by energy from the sun, even though they exist well beyond the reach of sunlight’s reach. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/alarcon-chimneys-d752-crop-e1675746386442.jpg\")
Monterey Bay Aquarium Research Institute<\/figcaption><\/figure>\n Black Smokers Are Ocean Chimneys Hot Enough to Melt Solid Metal. <\/span><\/h2>\n
All hydrothermal vents are hot. But <\/span>black smokers<\/span><\/a> take heat to the next level. These vents are formed when volcanic activity produces towering chimney-like structures that spew clouds of thick black fluid. Black smoker fluid can reach temperatures as high as 750 degrees Fahrenheit or 400 degrees Celsius. The clouds are packed with sulfur minerals that can be broken down by the microbes that live in and around black smokers. The vent’s emission gets its dark color from iron sulfide. The large sulfur deposits surrounding black smokers make them a target for deep-sea miners. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/vds-5909.0001cc-ret-hr3.jpg\")
The Stephen Low Company<\/figcaption><\/figure>\nThere Are Live Volcanoes on the Bottom of the Ocean.<\/span><\/h2>\n
Hydrothermal vents like black smokers don’t just spring up out of nowhere. The vents formed along massive <\/span>underwater volcano ridges<\/span><\/a> that contain an estimated one million volcanos. Although only a small fraction of these submarine volcanoes are active, they’re the source of far more volcanic activity than on land. Because these volcanoes give rise to hydrothermal vents, they are a big part of why life is possible in the deep ocean. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/chambered-nautilus-tr14-179.jpg\")
Monterey Bay Aquarium<\/figcaption><\/figure>\nLiving Fossils Are Right at Home in the Deep Ocean. <\/span><\/h2>\n
The earliest life on Earth lived deep in the ocean. So, it’s fitting that some of the oldest “<\/span>living fossils<\/span><\/a>” would still reside there. A living fossil is an organism that has existed in its current form for millions of years, outsurviving any near-relative species. The depths of the ocean are teeming with examples of these prehistoric creatures. The alien-like chambered nautilus appears to live just as it did over 400 million years ago, descending as deep as 2,600 feet (800 meters) to ensnare fish and small crustaceans in its tentacles. Frilled sharks, a closer relative of the long-extinct megalodon than modern sharks, have wide jaws adorned with 20 – 30 rows of razor-sharp teeth.<\/span><\/p>\n
Perhaps the most intriguing living fossil is the <\/span>coelacanth<\/span><\/a>. The large fish looks unremarkable at first glance, but it has fascinated scientists for decades for the insight it provides into evolution. The fish was believed to have been extinct millions of years ago until it was spotted in the 1930s. Researchers are still learning about the fish’s unique traits that have allowed the species to survive for over 360 million years. Coelacanths are massive, growing up to 6 and a half feet long and 200 pounds. They are the longest-living fish species on record, with lifespans of up to 84 years. The fish also grow extremely slowly, not reaching sexual maturity until their 40s or 50s. Coelacanths have four fins on the bottom of their body that move like land animals’ limbs and give birth to live offspring rather than eggs like other fish. <\/span><\/p>\n
![\"\"](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2023\/02\/5a5b4173563a6e0ad4fa79c8eac0112c-e1675912067188.jpeg\")
Natural World Facts\/YouTube<\/figcaption><\/figure>\nEven the Deepest Parts of the Sea Are Polluted<\/span><\/h2>\n
Unfortunately, there is no part of the planet that is safe from <\/span>human pollution<\/span><\/a>, not even the depths of the ocean. A 2017 study found chemicals that enter the water decades before are still present in deep-sea water. Even worse, the toxic chemicals had seeped into the tissue of some of the animals that make call the ocean home. And because these pollutants are biodegradable, they are likely to persist in the environment indefinitely, causing unknown harm to the ecosystem. <\/span><\/p>\n
Where Do We Find This Stuff? Here Are Our Sources:<\/strong><\/p>\n
Ten things you never knew about the ocean’s deepest places<\/span><\/a> <\/span><\/p>\n
Amazing Facts – Deep Sea Conservation Coalition<\/span><\/a> <\/span><\/p>\n
9 strange deep sea creatures you want to know<\/span><\/a><\/p>\n
The deepest-dwelling fish in the sea is small, pink and delicate<\/span><\/a> <\/span><\/p>\n
16 creatures from the bottom of the ocean that will give you nightmares<\/span><\/a> <\/span><\/p>\n
The Deep Sea | Smithsonian Ocean<\/span><\/a><\/p>\n\n","protected":false},"excerpt":{"rendered":"
More Than 80 Percent of the Ocean Is Completely Unexplored <\/span><\/h2>\n
Humans have uncovered almost every inch of the land masses on Earth, but the vast majority of the oceans have<\/span> never been explored<\/span><\/a>. The ocean is the largest ecosystem on our planet, covering around 71 percent of the Earth’s surface. Yet, according to the National Oceanic and Atmospheric Administration, humans have explored and mapped less than 20 percent of that expanse. That includes parts of the ocean that have only been explored with unmanned vehicles. <\/span><\/p>\n
The Ocean Is Over a Mile Deeper Than Mt. Everest Is Tall<\/span><\/h2>\n
Seven miles below the surface of the ocean is Challenger Deep, the deepest known point on Earth. Located inside the expansive <\/span>Mariana Trench<\/span><\/a> east of the Philippines in the Pacific Ocean, Challenger Deep is so deep that if you set Mt. Everest on its floor, the peak would be a mile underwater. Mariana Trench was created 180 million years ago when two massive plates of Earth’s crust slammed into each other, and one slipped underneath the other. The result is a trench that stretches 200 kilometers (124 miles), which is unlike any other place on Earth. Temperatures in the water range from very cold (hovering around 34 degrees Fahrenheit or 1 degree celsius) to extremely hot (but not boiling due to the high pressure). <\/span><\/p>\n
Mariana Trench was first discovered in 1875, and up until 2019, only three people had ever reached the bottom. (Fun fact: One of those three people is Avatar director <\/span>James Cameron<\/span><\/a>. The solo craft that he used can be seen in the picture above.) Since the launch of the submarine Limiting Factor, trips to Challenger Deep have become much more frequent. But, even now, fewer than 30 people have seen the natural wonder. <\/span><\/p>\n
Massive Fields of Hydrothermal Vents Cover the Seafloor.<\/span><\/h2>\n
Far below the warmth of the sun, much of the ocean floor is unsurprisingly quite cold. So, it may surprise you to learn that some spots along the ocean floor reach scalding temperatures. In the 1970s, scientists discovered that the deep ocean houses vast fields of <\/span>hydrothermal vents<\/span><\/a> that spew scorching water and minerals from beneath the seafloor. Even more amazingly, these seemingly inhospitable vents support vibrant ecosystems of animals and microorganisms that have evolved to survive in one of the harshest environments on Earth. <\/span><\/p>\n
Similar to geysers, hydrothermal vents form on small cracks and gaps where water can filter down beneath the Earth’s crust to the magma. The magma heats the water and enriches it with minerals like zinc and iron before it rises back up through the surface. As a result, the vents are rich in minerals and other chemicals that microbes convert into energy in much the same way that plants convert sunlight to energy. Giant tubeworms and the <\/span>aptly named yeti crab<\/span><\/a> are some of the animals that make hydrothermal vents their home. The oldest life on Earth is believed to have lived in hydrothermal vents over four billion years ago.<\/span><\/p>\n
One Fish Thrives at Over Five Miles Under the Sea<\/span><\/h2>\n
While most of the most well-known deep ocean creatures are horrifying to behold, the most extraordinary fish roaming the waters is actually pretty cute. First discovered in 2014 during a month-long expedition in the Mariana Trench, the <\/span>Mariana snailfish<\/span><\/a> is tiny, pink, slimy, and a bit transparent. It also lives deeper in the ocean than any fish on Earth, over 8 kilometers or 26,722 feet below the surface. That’s nearly half a kilometer deeper than the hadal snailfish discovered in the Japan Trench in 2008. <\/span><\/p>\n
Giant, Mysterious Squids Roam the Deep Ocean.<\/span><\/h2>\n
For centuries, cultures around the world shared stories of a giant octopus-like beast that sank ships and haunted the seas. But it wasn’t until the mid-1800s that someone described the real-life creature behind the myths, <\/span>the giant squid<\/span><\/a>. Although many dead giant squids have washed up on shores worldwide, the first image of a live giant squid was only captured in 2005. Unlike their mythic counterparts, giant squids rarely come to the surface and are unlikely to attack any ships. But their size more than lives up to the legend. The largest giant squid on record was a whopping 43 feet long, and some researchers believe they could grow as large as 66 feet. <\/span><\/p>\n
The Ocean’s Depths are Teeming With Terrifying Fish<\/span><\/h2>\n
The fish that live in the deep ocean are as resilient as they are <\/span>bizarre-looking<\/span><\/a>. With little to no light and limited availability of food, these fish have to get creative in their pursuit of prey. Take the anglerfish. Probably the most infamous deep-sea fish, the anglerfish has a glowing appendage growing right out of its head. The fish uses the light to lure unsuspecting fish straight into its mouth full of long, fang-like teeth. Similarly, the dragonfish has a small bioluminescent lure that hangs from its chin. While many deep sea fish are partially or totally translucent, the dragonfish’s stomach is thick enough to block the glow of its bioluminescent prey.<\/span><\/p>\n
The Ocean Floor Is Littered With Millions of Wrecked Ships. <\/span><\/h2>\n
There’s much more than sea life lurching in the ocean abyss. UNESCO<\/span> estimates<\/span><\/a> that the hollow remnants of over three million boats lay scattered across the sea floor. That includes ancient Greek and Roman trading vessels, Columbus’ famed<\/span> Santa Maria<\/span><\/i>, World War II submarines, and the ill-fated <\/span>Titanic<\/span><\/i>. These shipwrecks aren’t just a glimpse into the past. They also create <\/span>unique underwater ecosystems<\/span><\/a> bursting with diverse marine life. There’s even evidence that the presence of a shipwreck might permanently alter the surrounding environment, and not always in negative ways. One study found that ship wreckage increased biodiversity in the surrounding ecosystem.<\/span><\/p>\n
The Deep Sea Has Its Own Soundtrack.<\/span><\/h2>\n
The deep ocean may be vast and haunting, but it’s far from silent. The murky waters 1,000 meters below the surface are home to a symphony of underwater soundscapes. The sperm whale’s deafening clicks<\/a><\/span> are the loudest sound produced by any animal. The clicks ring in at 200 decibels underwater, only slightly quieter than the loudest sound ever recorded. Above the surface, the whale’s song sounds quieter but is still powerful enough to burst your eardrums. Tiny snapping shrimp close their claws with such force and speed (nearly 100 miles per hour) that it produces a crackling sound. The noise is so loud that it can interfere with other sea animals’ communication and even human sonar systems. <\/span><\/p>\n
An Unfathomable Number of Microbes Live Under the Sea Floor. <\/span><\/h2>\n
Microscopic life under the sea floor is completely different from any known on Earth. Deep sea microbes must survive with no sunlight, limited nutrients, and few sources of energy. Recent research suggests that these microbes have adapted to survive in the environment by <\/span>barely living at all<\/span><\/a>. The traits that characterize living things, such as growth, reproduction, and the ability to adapt and respond to the environment, all require energy, which is in short supply deep under the ocean floor. So, deep sea microbes are mostly inactive, expending just enough energy to carry out only the most basic functions needed to stay alive.<\/span><\/p>\n
Undersea Canyons Are Deeper Than the Grand Canyon. <\/span><\/h2>\n
The Mariana Trench isn’t the only depressions ocean floor. The deep ocean features some of Earth’s most mindblowing canyons and trenches, including some that are deeper than the Grand Canyon. The <\/span>Zhemchug Canyon<\/span><\/a>, located in the Bering Sea, is the largest known submarine canyon, stretching 2.6 kilometers (8,530 feet) down compared to the Grand Canyon’s 1.8-kilometer depth (8,530 feet). The Great Bahama submarine canyon is one of the deepest undersea cave systems in the world. These colossal underwater canyons are so large they can be seen from space. <\/span><\/p>\n
Cold Seeps Help Fuel Deep Sea Ecosystems.<\/span><\/h2>\n
Cold seeps, or cold vents, are areas on the deep ocean floor that release gases like methane into the surrounding water. Like hydrothermal vents, <\/span>cold seeps<\/span><\/a> support rich ecosystems by leaking gases that microbes convert into energy. However, while hydrothermal vents release metallic minerals, the gases that pour from cold seeps are carbon-based, meaning that they originated from organic, or living, matter millions of years ago. That means that cold seep areas are an important part of the global carbon cycle and are fueled by energy from the sun, even though they exist well beyond the reach of sunlight’s reach. <\/span><\/p>\n
Black Smokers Are Ocean Chimneys Hot Enough to Melt Solid Metal. <\/span><\/h2>\n
All hydrothermal vents are hot. But <\/span>black smokers<\/span><\/a> take heat to the next level. These vents are formed when volcanic activity produces towering chimney-like structures that spew clouds of thick black fluid. Black smoker fluid can reach temperatures as high as 750 degrees Fahrenheit or 400 degrees Celsius. The clouds are packed with sulfur minerals that can be broken down by the microbes that live in and around black smokers. The vent’s emission gets its dark color from iron sulfide. The large sulfur deposits surrounding black smokers make them a target for deep-sea miners. <\/span><\/p>\n
There Are Live Volcanoes on the Bottom of the Ocean.<\/span><\/h2>\n
Hydrothermal vents like black smokers don’t just spring up out of nowhere. The vents formed along massive <\/span>underwater volcano ridges<\/span><\/a> that contain an estimated one million volcanos. Although only a small fraction of these submarine volcanoes are active, they’re the source of far more volcanic activity than on land. Because these volcanoes give rise to hydrothermal vents, they are a big part of why life is possible in the deep ocean. <\/span><\/p>\n
Living Fossils Are Right at Home in the Deep Ocean. <\/span><\/h2>\n
The earliest life on Earth lived deep in the ocean. So, it’s fitting that some of the oldest “<\/span>living fossils<\/span><\/a>” would still reside there. A living fossil is an organism that has existed in its current form for millions of years, outsurviving any near-relative species. The depths of the ocean are teeming with examples of these prehistoric creatures. The alien-like chambered nautilus appears to live just as it did over 400 million years ago, descending as deep as 2,600 feet (800 meters) to ensnare fish and small crustaceans in its tentacles. Frilled sharks, a closer relative of the long-extinct megalodon than modern sharks, have wide jaws adorned with 20 – 30 rows of razor-sharp teeth.<\/span><\/p>\n
Perhaps the most intriguing living fossil is the <\/span>coelacanth<\/span><\/a>. The large fish looks unremarkable at first glance, but it has fascinated scientists for decades for the insight it provides into evolution. The fish was believed to have been extinct millions of years ago until it was spotted in the 1930s. Researchers are still learning about the fish’s unique traits that have allowed the species to survive for over 360 million years. Coelacanths are massive, growing up to 6 and a half feet long and 200 pounds. They are the longest-living fish species on record, with lifespans of up to 84 years. The fish also grow extremely slowly, not reaching sexual maturity until their 40s or 50s. Coelacanths have four fins on the bottom of their body that move like land animals’ limbs and give birth to live offspring rather than eggs like other fish. <\/span><\/p>\n
Even the Deepest Parts of the Sea Are Polluted<\/span><\/h2>\n
Unfortunately, there is no part of the planet that is safe from <\/span>human pollution<\/span><\/a>, not even the depths of the ocean. A 2017 study found chemicals that enter the water decades before are still present in deep-sea water. Even worse, the toxic chemicals had seeped into the tissue of some of the animals that make call the ocean home. And because these pollutants are biodegradable, they are likely to persist in the environment indefinitely, causing unknown harm to the ecosystem. <\/span><\/p>\n
Where Do We Find This Stuff? Here Are Our Sources:<\/strong><\/p>\n
Ten things you never knew about the ocean’s deepest places<\/span><\/a> <\/span><\/p>\n
Amazing Facts – Deep Sea Conservation Coalition<\/span><\/a> <\/span><\/p>\n
9 strange deep sea creatures you want to know<\/span><\/a><\/p>\n
The deepest-dwelling fish in the sea is small, pink and delicate<\/span><\/a> <\/span><\/p>\n
16 creatures from the bottom of the ocean that will give you nightmares<\/span><\/a> <\/span><\/p>\n
The Deep Sea | Smithsonian Ocean<\/span><\/a><\/p>\n\n","protected":false},"excerpt":{"rendered":"