Deep seas, dark worlds: deep-sea vents create cozy homes for some of Earth's weirdest life forms.There's barely enough room for three people to fit. But marine scientists Richard Lutz and Peter Rona of Rutgers University Rutgers University, main campus at New Brunswick, N.J.; land-grant and state supported; coeducational except for Douglass College; chartered 1766 as Queen's College, opened 1771. Campuses and Facilities Rutgers maintains three campuses. crammed themselves into Alvin, a tiny submersible submersible, small, mobile undersea research vessel capable of functioning in the ocean depths. Development of a great variety of submersibles during the later 1950s and 1960s came about as a result of improved technology and in response to a demonstrated need for vehicle made for exploring the deep seafloor. Unlike scientists who boarded Alvin before them, Lutz and Rona weren't going on a research expedition to gather data on ocean life. Rather, they were guiding a camera crew in shooting the IMAX IMAX Noun a film projection process that produces an image ten times larger than standard movie Volcanoes of the Deep Sea. This is the first film ever to take an up-close look at deep-sea vents and their ecosystems (all of the living and nonliving things that interact in an environment). Five minutes after the sub began its long, chilly descent into the Pacific Ocean, its passengers were steeped in total darkness--no sunlight penetrates the water's opaque depths. The pilot and crew pulled on thick sweaters and warm socks as the temperature dipped to match that of the frigid water outside the vehicle--only 1.1[degrees]C (34[degrees]F), just above freezing. Besides the occasional glimmer of luminescent lu·mi·nes·cent adj. Capable of, suitable for, or exhibiting luminescence. [Latin l  men, l (glowing) sea creatures splashing against Alvin's portholes, there was no life to be seen. But two hour's later--and 3,600 meters (12,000 feet) deeper--Lutz and Rona round a surprising treasure among the otherwise barren waters. Alvin's blue-green headlights panned across a bizarre scene of red-tipped tube worms, shrimp, and fish crowded around a rocky column spewing smoky water. "It's like a little oasis in the middle of the desert," says Lutz. What was this towering plume? Peering through Alvin's 10-centimeter (4-inch) porthole, the scientists had spied a hydrothermal vent hydrothermal vent, crack along a rift or ridge in the deep ocean floor that spews out water heated to high temperatures by the magma under the earth's crust. , a hot spring on the seafloor that pumps out water superheated su·per·heat tr.v. su·per·heat·ed, su·per·heat·ing, su·per·heats 1. To heat excessively; overheat. 2. by volcanic activity from inside the earth. MONUMENTAL MOUNTAIN Most hydrothermal vents sit on top of the mid-ocean ridge mid-ocean ridge: see plate tectonics. , the longest continuous mountain range on the planet. "It's the largest geographic feature on Earth," says Rona. But that's not the only thing that sets this mountain range apart: The ridge snakes over more than 64,000 kilometers (35,000 miles)--along the bottom of each of the world's oceans. The ridge, which is made of solidified lava, is like a giant zipper zipper Device for binding the edges of an opening, as on a garment or a bag. A zipper consists of two strips of material with metal or plastic teeth along the edges, and a sliding piece that interlocks the teeth when moved in one direction and separates them again when moved being pulled open as two tectonic plates This is a list of tectonic plates on Earth. Tectonic plates are pieces of the Earth's crust and uppermost mantle, together referred to as the lithosphere. The plates are around 100 km (60 miles) thick and consist of two principal types of material: oceanic crust (also called (slowly moving, giant rock slabs that make up Earth's outer shell) spread apart. Molten material erupts through an opening in the ridge, pushing older rock to both sides of the mountain range. As the hot liquid lava meets cold seawater seawater Water that makes up the oceans and seas. Seawater is a complex mixture of 96.5% water, 2.5% salts, and small amounts of other substances. Much of the world's magnesium is recovered from seawater, as are large quantities of bromine. , it instantly solidifies into new crust. "It's like an engine pumping up new material from the earth. As it pumps lava up, it forces each wall of the mid-ocean ridge to move aside," explains Lutz. Because parts of the ridge are continually spreading and forming new sections of seafloor, scientists call these places seafloor spreading seafloor spreading, theory of lithospheric evolution that holds that the ocean floors are spreading outward from vast underwater ridges. First proposed in the early 1960s by the American geologist Harry H. centers. BIRTH OF A VENT Sometimes the scalding scalding plunging of pig or poultry carcasses into very hot water to facilitate scraping and dehairing and plucking. Chicken scalding water is 130°F for broilers (larger birds higher) applied for 1 to 2 minutes. Modern pig abattoirs use steam at 144 to 147°F for about 3 minutes. lava cracks as it solidifies. Cold, heavy seawater seeps into the cracks. As the water sinks several kilometers into Earth's interior, metals, minerals, and gases dissolve in the water. When this water comes into contact with molten rock under Earth's crust, it gets heated to temperatures as high as 400[degrees]C (750[degrees]F) hot enough to melt lead! The water's newfound heat makes it light and buoyant, causing it to rise. As it exits through another set of cracks, the seawater creates a new hydrothermal vent. The minerals and metals that had dissolved in the water crystallize crys·tal·lize also crys·tal·ize v. crys·tal·lized also crys·tal·ized, crys·tal·liz·ing also crys·tal·iz·ing, crys·tal·liz·es also crys·tal·iz·es v.tr. 1. around the vent, forming a tall tube called a chimney. The hydrothermal vent will continue to discharge hot, metal-rich water for decades. Eventually, it becomes clogged with minerals, topples over, or uses up the heat, Rona explains. PRIME REAL ESTATE Along with minerals and metals, hydrothermal vents also gush forth dissolved gases like hydrogen sulfide--toxic to humans, with a potent stench like rotten eggs. Not a great place to set up house--unless you're a hyperthermophile. These heat-loving microbes live on and around vents and use this nasty gas as an energy source to manufacture sugars and starches to nourish themselves. What's even stranger: The microscopic members of these unique underwater cities breathe the iron that was once locked beneath Earth's oceans but is now dissolved in the watery plumes. These chemosynthetic (chemical-using) microbes give rise to other life that normally couldn't live in the pitch-black deep sea. "These bacteria are the bottom of the food chain at the vents," says Lutz. After bacteria spread into a thick mat around a new vent, other creatures gradually set up colonies in a process called succession. These animals slowly crowd onto the tiny section of livable space, braving the surrounding sea's frigid temperatures and water pressure, which is strong enough to crush an army tank. Of the life that Lutz and Rona spotted on their underwater tour, the shrimp-like amphipods (AM-fih-pods) and copepods (COH-puh-pods) were likely among the first to drift down to graze on the vent's bacteria. The biologists suspect the snail-like limpets and shrimp arrived months later to dine on the amphipods and copepods. Next to follow? Tube worms with tops as red as lipstick. Lobsters, octopi oc·to·pi n. A plural of octopus. , mussels and clams are some of the last creatures to set up house at a vent. ALIEN LIFE Although a few deep-sea creatures are familiar, more than 95 percent of vent animals are completely unknown to science. Researchers find weird new species on almost every dive, including snails covered with plates of iron armor and shrimp with infrared light Noun 1. infrared light - electromagnetic radiation with wavelengths longer than visible light but shorter than radio waves infrared emission, infrared radiation, infrared detectors on their backs instead of eyes. Because these strange creatures can survive super-hot temperatures, high pressure, and darkness--conditions ton extreme for humans--Lutz and Rona say the vent's unique ecosystems may hold the key to finding life elsewhere in our solar system solar system, the sun and the surrounding planets, natural satellites, dwarf planets, asteroids, meteoroids, and comets that are bound by its gravity. The sun is by far the most massive part of the solar system, containing almost 99.9% of the system's total mass. . For example, many scientists believe that hydrothermal vents may exist under the icy surface of Europa, one of Jupiter's moons, and may harbor vent microbes similar to those on Earth. "These bacteria are the most primitive kinds of organisms that we know on Earth," says Lutz. "They're strong evidence that life might have started in the vents and that it could exist someplace some·place adv. & n. Somewhere: "I didn't care where I was from so long as it was someplace else" Garrison Keillor. See Usage Note at everyplace. else." Did You Know? * Scientists first discovered hydrothermal vents in 1977 near the Galapagos Islands in the Pacific Ocean. A team of geologists found them at a depth of 2,515 meters (8,250 feet) at the Galapagos Rift. Resources Visit the official site of the IMAX film Volcanoes of the Deep Sea. Besides information about hydrothermal vents and the making of the film, you can find and download an excellent teacher's guide. The guide includes mealy meal·y adj. meal·i·er, meal·i·est 1. Resembling meal in texture or consistency; granular: mealy potatoes. 2. a. Made of or containing meal. b. standards-based, easy-to-do classroom activities for middle school students. Check out: www.volcanoesofthedeepsea.com/ "Dawn in the Deep," by Richard A. Lutz. National Geographic, February 2003. For a great article on life trader the deep seas, read "Deep kinder the Sea, Boiling Founts of Life Itself." by William J. Broad, The New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of Times. September 9, 2003. National Oceanic and Atmospheric Administration's Pacific Marine Environmental Laboratory Vents Program examines the chemistry and geology of deep-sea hydrothermal vents. Visit: www.pmel.noaa.gov/vents/ RELATED ARTICLE: It's your choice. 1 What organisms are at the base of the food chain at a deep-sea vent? A. copepods B. chemosynthetic bacteria chemosynthetic bacteria Bacteria that make food by chemosynthesis. Nitrifying bacteria are a type of chemosynthetic bacteria, as are the bacteria that live around vents in the bottom of the ocean. C. amphipods D. lobsters 2 Why do many scientists believe that organisms similar to those found at Earth's deep-sea vents may exist on other planets? A. There are Earth-like oceans on many other planets. B. organisms at deep-sea vents need sunlight to survive. C. Deep-sea vents have been discovered on Mars. D. The deep-sea bacteria can survive in extreme conditions. 3 Chimneys along the mid-ocean ridge are formed by: A. minerals that crystallize from hot vent water. B. the build-up of clam shells. C. hardened lava. D. colonies of bacteria. 4 Which of the following best explains why the walls of the mid-ocean ridge spread apart? A. New lava pumps up into the ridge, forcing the walls apart? B. Sinking ocean water pushes against the rock walls. C. Minerals crystallize to build deep-sea vents along the ridge. D. Oceanic crust dissolves. 1. b 2. d 3. a 4. a RELATED ARTICLE: How hydrothermal vents form. At the mid-ocean ridge, molten lava rises to the top of the oceanic crust, Earth's outermost out·er·most adj. Most distant from the center or inside; outmost. outermost Adjective furthest from the centre or middle Adj. 1. layer of rock in the oceans. Cracks in the oceanic crust allow dense seawater to sink beneath the rock surface. During the descent, minerals dissolve into the water. The mineral-rich water then warms, rising back to the seafloor to form deep-sea vents. MID-OCEAN RIDGE Molten lava rises from underground magma chambers and pushes apart the two slices of oceanic crust. The lava hardens when it hits the cold ocean water and forms new seafloor. Deep-sea vents grow around these hot ridges. DEEP-SEA VENTS Water that's been heated deep beneath the earth spews out of deep-sea vents. Minerals crystallize out of the hot water to form tall chimney-shaped rock structures. [ILLUSTRATION OMITTED] |
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