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Deep Water Science
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Deep Sea Life
Deep within the world's seas and oceans is an area called the abyssal zone. It lies more than 6,000 feet (1,800 meters) below the surface of the water. It is totally dark there, and the water is almost motionless. Yet even in these conditions various forms of life survive. These range from tiny microorganisms to more complex animals such as fish and crustaceans.
Habitat
For a long time scientists believed that there could be no plants in the dark bottom of the ocean because plants need light. It was also thought that without plant life there could be no animal life. However, scientists descended to the bottom of the Atlantic Ocean's Puerto Rico Trench in 1964 and reported plenty of life even at the depth of 27,498 feet (8,381 meters).
In 1977 scientists discovered ocean-floor communities of previously unknown forms of life. They also discovered that these were grouped around fissures, or cracks, on the ocean floor. The cracks are gaps between two of the plates making up Earth's crust. When the plates separate, the volcanic activity underneath the crust is exposed and hot minerals are released into the ocean. The forms of life gathered around the cracks are known as rift communities. They are able to survive in the harsh environment of the bottom of the sea because of the nutrients and warmth that seeps through the cracks.
Forms of Life
Other than the rift communities, very little is known about the environment and behavior of most deep-sea species. It is difficult to observe and study animals at such depths. Several animal species in the deep-sea zone are related to groups that are found in shallower seas. Deep-sea species of squid, octopus, worm, and mollusk have been found in these regions. Many fish families are also found at extreme depths. Even some primitive types of fish still exist there.
The life forms around the rifts can be very large in size. Some clams are among the largest clams known, at more than 10 inches (25 centimeters) long. Tubeworms are another discovery. They are large red worms encased upright in white tubes anchored to the ocean floor. They measure up to 5 feet (1.5 meters) in length, and are typically found in colonies.
Adaptation
Animal life in the deep seas has adapted, or changed, in order to survive the harsh conditions. These conditions include constant cold, darkness, and strong pressure of the water.
Some fish that survive in the deep sea have small, soft bodies with few bones. Many deep-sea fishes are able to generate their own light. The ability of living organisms to generate light is called bioluminescence. Their light-producing organs attract both prey and potential mates. Deep-sea angler fish, for example, have a long, thin structure on their head that has a light at the end. The light dangles over the top of their head. Other fishes mistake the light for small prey and swim into the angler's enormous mouth, where they are quickly eaten by the angler.

Deep Sea Life
Deep within the world's seas and oceans is an area called the abyssal zone. It lies more than 6,000 feet (1,800 meters) below the surface of the water. It is totally dark there, and the water is almost motionless. Yet even in these conditions various forms of life survive. These range from tiny microorganisms to more complex animals such as fish and crustaceans.


Habitat
For a long time scientists believed that there could be no plants in the dark bottom of the ocean because plants need light. It was also thought that without plant life there could be no animal life. However, scientists descended to the bottom of the Atlantic Ocean's Puerto Rico Trench in 1964 and reported plenty of life even at the depth of 27,498 feet (8,381 meters).
In 1977 scientists discovered ocean-floor communities of previously unknown forms of life. They also discovered that these were grouped around fissures, or cracks, on the ocean floor. The cracks are gaps between two of the plates making up Earth's crust. When the plates separate, the volcanic activity underneath the crust is exposed and hot minerals are released into the ocean. The forms of life gathered around the cracks are known as rift communities. They are able to survive in the harsh environment of the bottom of the sea because of the nutrients and warmth that seeps through the cracks.


Forms of Life
Deep Sea StarfishOther than the rift communities, very little is known about the environment and behavior of most deep-sea species. It is difficult to observe and study animals at such depths. Several animal species in the deep-sea zone are related to groups that are found in shallower seas. Deep-sea species of squid, octopus, worm, and mollusk have been found in these regions. Many fish families are also found at extreme depths. Even some primitive types of fish still exist there.

The life forms around the rifts can be very large in size. Some clams are among the largest clams known, at more than 10 inches (25 centimeters) long. Tubeworms are another discovery. They are large red worms encased upright in white tubes anchored to the ocean floor. They measure up to 5 feet (1.5 meters) in length, and are typically found in colonies.
Adaptation
Animal life in the deep seas has adapted, or changed, in order to survive the harsh conditions. These conditions include constant cold, darkness, and strong pressure of the water.

Some fish that survive in the deep sea have small, soft bodies with few bones. Many deep-sea fishes are able to generate their own light. The ability of living organisms to generate light is called bioluminescence. Their light-producing organs attract both prey and potential mates. Deep-sea angler fish, for example, have a long, thin structure on their head that has a light at the end. The light dangles over the top of their head. Other fishes mistake the light for small prey and swim into the angler's enormous mouth, where they are quickly eaten by the angler.

"deep-sea life." Britannica Elementary EncyclopediaEncyclopædia Britannica Online School Edition. Encyclopædia Britannica, 2010. Web. 4 June 2010 

 
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Ocean Water: Pressure

Even though we do not feel it, 14.7 pounds per square inch (psi), or 1kg per square cm, of pressure are pushing down on our bodies as we rest at sea level. Our body compensates for this weight by pushing out with the same force.

Since water is much heavier than air, this pressure increases as we venture into the water. For every 33 feet down we travel, one more atmosphere (14.7 psi) pushes down on us. For example, at 66 feet, the pressure equals 44.1 psi, and at 99 feet, the pressure equals 58.8 psi.

To travel into this high-pressure environment we have to make some adjustments. Humans can travel three or four atmospheres and be OK. To go farther, submarines are needed.

Animals that live in this watery environment undergo large pressure changes in short amounts of time. Sperm whales make hour-long dives 7,380 feet (2,250 meters) down. This is a pressure change of more than 223 atmospheres! By studying and understanding how these animals are able to withstand great pressure changes, scientists will be able to build better tools for humans to make such journeys.

 

 


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