Uncharted territory: ultraslow ridges hold new clues to crust's formation.At the top of the world in the late summer of 2001, the U.S. Coast Guard's icebreaker icebreaker, ship of special hull design and wide beam, with relatively flat bottom, designed to force its way through ice. When the icebreaker charges into the ice at full speed, its sharply inclined bow, meeting the edge of the ice, rises upon it, and the weight of Healy carved a slow path through the ice-covered Arctic Ocean Arctic Ocean, the smallest ocean, c.5,400,000 sq mi (13,986,000 sq km), located entirely within the Arctic Circle and occupying the region around the North Pole. . On board, marine geologist Henry Dick sent dredge after dredge through the ice to the seafloor, searching for telltale rocks that would help shed light on how Earth's crust forms. "People said, 'You'll never get a single rock off the seafloor,'" Dick says. "They said, 'You can't dredge in the ice.'" But in fact, Dick's team collected more than 200 rocks--many of which turned out to be pieces of Earth's mantle. Under the ice and 2 kilometers of water was a 1,800-km-long underwater mountain range known as the Gakkel Ridge The Gakkel Ridge is a mid-oceanic ridge located in the Arctic Ocean between Greenland and Siberia with a length of about 1,800 kilometers. It was discovered by a Soviet polar explorer Yakov Yakovlevich Gakkel and named after him in 1966. . The Healy's expedition, conducted in tandem Adv. 1. in tandem - one behind the other; "ride tandem on a bicycle built for two"; "riding horses down the path in tandem" tandem with the German icebreaker Polarstern, was the first exploration to that Arctic ridge to attempt to collect geological samples. The surprising discovery of mantle rocks indicated that Gakkel Ridge is one of only two places known on the planet where the 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 that make up Earth's hard outer crust slide apart and expose large slabs of the mantle on the seafloor. That mantle is normally buried under 6 km of crustal crust·al adj. Of or relating to a crust, especially that of the earth or the moon. Adj. 1. crustal - of or relating to or characteristic of the crust of the earth or moon rock. The other site, the 8,800-km-long Southwest Indian Ridge (SWIR SWIR Short Wavelength Infrared SWIR Software Inspection Report ), is on the far side of the world. Like the Gakkel Ridge, the SWIR is utterly remote. It's located beneath treacherous high seas high seas In maritime law, the waters lying outside the territorial waters of any and all states. In the Middle Ages, a number of maritime states asserted sovereignty over large portions of the high seas. . Oceanographers are only now beginning to explore these areas in detail. They have already made surprising geological finds, including the exposed mantle. They've also uncovered evidence at both ridges of hydrothermal vents, fissures in the seafloor through which circulating, magma-heated 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. escapes. Researchers say that these two ridges may represent a new class of tectonic boundary tectonic boundary In the theory of plate tectonics, a boundary between two or more plates. The plates can be moving toward each other (at convergent plate boundaries), away from each other (at divergent plate boundaries), or past each other (at transform , called an ultraslow-spreading ridge. The finding offers scientists the chance to explore new ideas about how Earth's crust forms and to study the rich ecosystems spawned by the vents. LAYER CAKE For 3 decades, oceanographers have been studying the undersea creation of 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. Still, "we don't understand the crust at all well," Dick says. "We know more about the moon than the ocean floor." The theory of plate tectonics is a blueprint for Earth's surface as it is continuously recycled. The crust is broken into plates that rest on a warm, soft layer in the mantle, the material that reaches all the way to Earth's core. Driven by heat from that underlying mantle, the plates shift, collide, and move apart. Where the plates pull away from each other, the crust is thinner and magma from the interior of the planet rises in response to lessened pressure from overlying overlying suffocation of piglets by the sow. The piglets may be weak from illness or malnutrition, the sow may be clumsy or ill, the pen may be inadequate in size or poorly designed so that piglets cannot escape. rock. Much of the rising magma collects and solidifies in a reservoir below the surface, but when enough pressure builds up, it erupts as lava through thousands of volcanoes on the seafloor, where it ultimately cools and forms new crust. This endless cycle of thinning crust, rising magma, and erupting lava occurs along the mid-ocean ridge system, a 55,000-km-long volcanic mountain chain that includes both Gakkel Ridge and SWIR. The system, divided by fault lines called transform faults that lie perpendicular to the ridge, circles the planet like a seam on a baseball. Midocean ridges are classified into two groups: fast- and slow-spreading. Each group has characteristic geological features. At fast-spreading ridges, such as the East Pacific Rise, the plates move apart at a rate of 100 to 200 millimeters per year and are rapidly supplied with hot magma. These ridges are narrow with a tentlike shape, formed by sheets of lava flowing from a hot, buoyant central peak. Slow-spreading ridges, such as the Mid-Atlantic Ridge, move at less than 55 mm per year and have a slower magma supply. Their topography is broader and rougher, with wide, deep rift valleys forming along the axis of the the diameter of the sphere which is perpendicular to the plane of the circle. See also: Axis ridge. Traditionally, scientists have envisioned most of the under ocean crust as a layer cake of three rock types. The layers correspond to different chemical stages of the magma as it emerges where the plates split and cool. Together, the layers provide a 6-to-7-km-thick covering over Earth's mantle. That well-established model began to be questioned 8 years ago, when researchers exploring some sections of the slow-spreading Mid-Atlantic Ridge found small, widely dispersed areas of exposed mantle rock on the seafloor. The absence of the layer cake was surprising, says marine geologist Jian Lin, a colleague of Dick's at the Woods Hole Oceanographic Institution Woods Hole Oceanographic Institution, at Woods Hole, Mass.; est. 1930. In addition to oceanographic research, it conducts important work in meteorology, biology, geology, and geophysics. (WHOI WHOI Woods Hole Oceanographic Institution ) in Massachusetts. The finding suggested a dearth of magma flow in those sections. It challenged the view that the ocean crust is ubiquitous. It also raised the possibility that different chemistries and mechanics of mantle and seafloor rocks might affect plate spreading. At the Mid-Atlantic Ridge sites, geologists discovered a rock called serpentinite serpentinite A metamorphic rock consisting almost entirely of minerals in the serpentine group. Serpentinite forms from the alteration of ferromagnesian silicate materials, such as olivine and pyroxene, during metamorphism. instead of the basalt basalt (bəsôlt`, băs`ôlt), fine-grained rock of volcanic origin, dark gray, dark green, brown, reddish, or black in color. Basalt is an igneous rock, i.e., one that has congealed from a molten state. found on the seafloor elsewhere. Seawater interacting with exposed mantle creates serpentinite, which is softer and mechanically weaker than basalt. Serpentinite is "very different in chemical composition, in mechanism, in biological character" from crustal rocks, Lin says. Another long-standing question is how the perpendicular transform faults develop. All the small, exposed areas of mantle rock were found at the ends of ridge segments, near the transform faults. That result suggests that the faults may be important for magma channeling. But, Lin says, "we don't know Don't know (DK, DKed) "Don't know the trade." A Street expression used whenever one party lacks knowledge of a trade or receives conflicting instructions from the other party. the mechanism yet of how they are formed at all." Perhaps, some researchers speculated, a ridge with an even lower magma supply than that at the exposed-mantle sites on the Mid-Atlantic Ridge might be the place to look for these answers. SOMETHING NEW If scientists want to know what happens at a ridge when the rate of spreading drops close to zero, Gakkel Ridge is the best bet, says marine geochemist and Healy cochief scientist Charles Langmuir of Harvard University. Nearly 20,000 km, or one-third, of the total midocean-ridge system is likely to fall into the new, ultraslow category, and Gakkel Ridge is "the slowest-spreading major portion," he says. There are hypotheses about the mantle "that can be tested there and nowhere else," Langmuir proposes. The Gakkel cruise, along with a series of voyages to the SWIR between 1997 and 2005, led researchers to the unexpected discovery that these ultraslow ridges were completely devoid of transform faults. Transform faults form only perpendicular to a ridge. Scientists had thought that the faults take up the stress between adjacent blocks of new seafloor and also fit together straight-edged ridge sections with curving plate boundaries. Researchers also thought that the faults might determine where the magma erupts along a ridge. Faults would create channels below the surface that focus magma into widely spaced volcanoes. But on the Gakkel, separate, scattered volcanoes were present even in the absence of faults, Langmuir says. Instead of transform faults, an entirely new plate-boundary structure is linking the volcanoes on ultraslow-spreading ridges, Dick says. Between the volcanoes, the crust fractures and solid mantle rock rises up to the seafloor. These fractures and the mantle rock filling them extend from the ridge at various angles. Another interesting feature of the ultraslow ridges is that they're much colder than even the slow-spreading ridges are. They ought to be brittler, Lin says, resulting in more earthquakes as the ridges strain to pull apart. But actually, there are fewer earthquakes recorded in the ultraslow-spreading areas. Perhaps earthquakes require transform faults, or the mechanically weak serpentinite might fill the cracks and lubricate lu·bri·cate v. lu·bri·cat·ed, lu·bri·cat·ing, lu·bri·cates v.tr. 1. To apply a lubricant to. 2. To make slippery or smooth. v.intr. To act as a lubricant. the plates, says Lin. He ponders the role of transform faults. "Are they not needed?" he wonders. "It's very exciting. When you are so close to the fundamental types of plate tectonics, your heart starts beating very fast." HOT SITES Beyond the unusual seafloor surface, expeditions to both Gakkel and SWIR brought an additional surprising discovery: cloudy, warm patches in the water column that contain unusually high concentrations of minerals. These plumes are considered evidence of hydrothermal vents. Until 2 decades ago, researchers had held that vents arise only on fast-spreading ridges, such as the East Pacific Rise, because slower-spreading ridges don't have enough heat. However, in 1985, a large hydrothermal vent field was discovered on the Mid-Atlantic Ridge. In early 2005, new vent fields turned up in slow-spreading parts of the ridge system in the Arctic and South Atlantic oceans. These finds are "flying in the face of the consensus," says Peter Rona, a marine geologist at Rutgers University in New Brunswick, N.J. Rona, along with his WHOI colleague Rob Reves-Sohn, organized one of three sessions dedicated to slow-spreading ridges and hydrothermal vents for the American Geophysical Union's December 2005 meeting. Just in the past 2 years, Rona says, research on hydrothermal vents at slow- and ultraslow-spreading ridges has taken off. Although vents haven't been observed in an ultraslow-spreading area, scientists have dredged up bits of hydrothermal hydrothermal, hydrothermic relating to the temperature effects of water, as in hot baths. deposits from the seafloor. An international race is on to find the vents. "It's an area of hot research,' Rona says. The first sign that such vents might exist at ultraslow ridges came in 1996, when WHOI marine geochemist Chris German, then at the Southampton Oceanography oceanography, study of the seas and oceans. The major divisions of oceanography include the geological study of the ocean floor (see plate tectonics) and features; physical oceanography, which is concerned with the physical attributes of the ocean water, such as Centre in England, found hydrothermal plumes at the SWIR. Though the data were scanty, they "proved the point that hydrothermal activity is there" German says. Lin, with Dick and fellow WHOI scientist Hans Schouten, traveled to the SWIR in December 2000 and found more plumes along the ridge. The cruise "set new expectations," Dick says. Then came the 2001 Gakkel cruise. Marine geochemist Hedy Edmonds of the University of Texas at Austin “University of Texas” redirects here. For other system schools, see University of Texas System. The University of Texas at Austin (often referred to as The University of Texas, UT Austin, UT, or Texas was invited on the off chance that evidence of hydrothermal vents would turn up. "The idea was that I would be really bored," she says. She attached a sensor that recorded temperature, pressure, and optical backscatter--which detects suspended sediment--to each dredge line cast from the Healy. Of the dredge casts, 82 percent showed evidence of hydrothermal plumes (SN: 1/18/03, p. 37). The hydrothermal vent activity was "astounding a·stound tr.v. a·stound·ed, a·stound·ing, a·stounds To astonish and bewilder. See Synonyms at surprise. [From Middle English astoned, past participle of astonen, ," Edmonds says. "It got to be a joke halfway through the cruise." In 2005, Lin returned to the SWIR as one of two U.S. scientists on the Chinese ship Da Yang Yi Hao hao n. pl. hao See Table at currency. [Vietnamese hào.] Noun 1. . He again detected hydrothermal plumes, including one that he calls particularly huge. "It's exciting because it's a very strong signal," Lin says. Lacking the equipment to scour scour, scours 1. the chemical and physical cleaning of fleece wool. 2. diarrhea. dietetic scour see dietary diarrhea. peat scour see secondary nutritional copper deficiency. the seafloor, the researchers were unable to locate the vent. "But we are going back," he says. Edmonds also plans to return to her site. "To me, the most exciting question is to go back and actually find [the vents]--and find out what's living there," she says. REMOTE SENSING The challenge of locating those vents is driving the development of the next generation of remote equipment. "It's going into the unmapped jungle and finding out new Things," Reves-Sohn says. "The real problem is [learning] how prevalent venting is on the seafloor. We make all these extrapolations based on some pretty heavy assumptions." At the moment, there are two ways to directly investigate the seafloor. Manned submersibles such as WHOI'S Alvin can take scientists down, but they are limited to 8-to-10-hour shifts. Furthermore, weather conditions on the surface frequently don't permit 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 use. The other approach is to drop sensors that are connected to the ship by long tethers. "A lot of the technology we've been using up to now was deployed with wires from the surface ship," German says. That doesn't lend itself to prolonged, precise searches on the seafloor, he adds. German and others are developing a new breed of robot, known as autonomous underwater vehicles, that isn't limited by wires and time (SN: 2/1/03, p. 75). One such vehicle, called the Autonomous Benthic ben·thos n. 1. The collection of organisms living on or in sea or lake bottoms. 2. The bottom of a sea or lake. [Greek. Explorer (ABE ABE Adult Basic Education ABE Allgemeine Betriebserlaubnis (German: general operating permit) ABE Advanced Book Exchange (Abebooks) ABE Association of Business Executives ABE Association of Building Engineers ), can be dropped into a plume, where it zooms around in the water column and maps a 5-km-square grid of the chemical signal. After constructing a second, more detailed grid of the region of highest mineral concentration, it can locate the source of the plume and dive down to the seafloor to take photographs. It's been used to locate and explore deep-sea vents on both the Mid-Atlantic Ridge and the East Pacific Rise but hasn't yet visited any ultraslow ridges. Another obstacle to ocean exploration is money. There are few suitably equipped ships, and the cost of a scientific cruise can be prohibitive, particularly for scientists whose target sites require expensive icebreakers such as the Healy. With the manned submersible Alvin, the unmanned ABE, and ongoing development of autonomous robots that can scan the seafloor in detail, the United States has the best tools, Reves-Sohn says. But "one of the stark realities is that it's going to be other countries that will discover a lot of vents. It would be nice if our country would get interested again in exploring the seafloor." Under a budget crunch, U.S. oceanographers are looking to international and interdisciplinary collaboration to get back to sea, such as Lin's 2005 cruise to the SWIR, a collaboration between Chinese, German, and U.S. scientists. The 2007-2008 International Polar Year The International Polar Year (or IPY) was a collaborative, international effort researching the polar regions. Karl Weyprecht, an Austro-Hungarian navy officer, motivated the endeavor, but died before it first occurred in 1882-1883. has plenty of prospects for cash-strapped geologists to piggyback piggyback 1. A broker trading in his or her personal account after trading in the same security for a customer. The broker may believe the customer has access to privileged information that will cause the transaction to be profitable. 2. on already-funded cruises, Lin says. "The Arctic Ocean is an ideal case," he notes. "It's a wonderful opportunity for geologists and biologists to tag along and sample hydrothermal vents or map ocean ridges while [other researchers] do climate change and ice coring." Overall, the new ridge--and hydrothermal-vent--discoveries have had something of a galvanizing galvanizing, process of coating a metal, usually iron or steel, with a protective covering of zinc. Galvanized iron is prepared either by dipping iron, from which rust has been removed by the action of sulfuric acid, into molten zinc so that a thin layer of the zinc impact on the global oceanography community. One bellwether is the excitement at the geology meeting last fall, where there was "a tremendous response" to the ridge sessions, Rona says. There is still debate over whether designating a new, distinct class of ultraslow ridges simply provides intriguing new avenues for researchers to study how the crust forms or whether it introduces a textbook-rewriting paradigm shift A dramatic change in methodology or practice. It often refers to a major change in thinking and planning, which ultimately changes the way projects are implemented. For example, accessing applications and data from the Web instead of from local servers is a paradigm shift. See paradigm. . Whatever the outcome, Dick asserts, "this is a significant change to plate tectonics theory." |
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