Ocean view: scientists are going 24-7 in their studies of the deep.The last weather ship in the world lies anchored in a severe and lonely place in the Norwegian Sea Norwegian Sea, part of the Atlantic Ocean, NW of Norway, between the Greenland Sea and the North Sea. It is separated from the Atlantic by a submarine ridge linking Iceland and the Faeroe Islands, and from the Arctic by the Jan Mayer Ridge. . Since 1948, its crews have taken water temperatures to produce the longest continuous set of deep-ocean data available. After about 4 decades, those data revealed a dramatic, persistent rise in the temperature 2,000 meters deep. Is it a sign of a fundamental change in deep-ocean circulation? Of global climate change? Uwe Send, an oceanographer at the University of Kiel The University of Kiel (German Christian-Albrechts-Universität zu Kiel, CAU) is a university in the city of Kiel, Germany. It was founded in 1665 as the Academia Holsatorum Chiloniensis in Germany, says no one knows. "The problem is, we don't have this information but in a very few places in the ocean," he says. Despite satellites that monitor ocean-surface conditions and recent advances in sensor technology, less than 5 percent of the world's ocean bottom has been explored, according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. a recent report from the U.S. Commission on Ocean Policy. At an October discussion in Washington, D.C., Send built his case for more thoroughly monitoring the open ocean--not with weather ships, but with a network of moored surface buoys laden with instruments that communicate with satellites. One-third of the proposed network of 50 buoys is already in place. Today, scientists are using a variety of unmanned, remote systems to view patches of the ocean. These observatories continuously monitor processes along the coast, in the open ocean, and at the seafloor. And oceanographers have applied for funding to build new, vast networks of sensors. John R. Delaney of the University of Washington in Seattle credits the pioneering scientists who are operating this growing collection of ocean observatories for the ambitious scale of new plans. "It is because those folks have been successful that we can now imagine doing something that is the Hubble Telescope See Hubble Space Telescope. ... of undersea work," he says. EARLY SUCCESSES Scientists generally agree that ocean observatories' shining accomplishment has been the prediction of El Ninos, the dramatic, periodic climate changes brought on by warming seas in the eastern Pacific Ocean. El Nino refers in Spanish to the baby Jesus--the phenomenon arrives in South America South America, fourth largest continent (1991 est. pop. 299,150,000), c.6,880,000 sq mi (17,819,000 sq km), the southern of the two continents of the Western Hemisphere. during the winter holiday season. Because El Ninos cause fish-population crashes, droughts, and flooding in many parts bf the world, scientists have long tried to forecast the weather pattern's arrival. In the late 1970s, they started using satellites to monitor ocean-surface temperature. In 1982, however, researchers learned that satellites could be fooled. Because dust from Mexico's El Chichon volcano obscured satellite images, the orbiters that year recorded too-low temperatures for the ocean surface. Oceanographers on the expedition ship Conrad in the tropical Pacific that autumn caught the error when they measured ocean temperatures directly. Nearly missing an El Nino provided an impetus for beefing up underwater and ocean-surface monitoring. In the early 1990s, scientists deployed an El Nino warning system made up of an array of 70 surface buoys that measure wind, air temperature, and water temperatures from the surface down to 500 m. The array covers a 2,000-kilometer-wide area from South America to New Guinea New Guinea (gĭn`ē), island, c.342,000 sq mi (885,780 sq km), SW Pacific, N of Australia; the world's second largest island after Greenland. . The buoys beam their data via satellite to oceanographers at the Seattle office of the National Oceanic and Atmospheric Administration Noun 1. National Oceanic and Atmospheric Administration - an agency in the Department of Commerce that maps the oceans and conserves their living resources; predicts changes to the earth's environment; provides weather reports and forecasts floods and hurricanes and (NOAA NOAA abbr. National Oceanic and Atmospheric Administration Noun 1. NOAA - an agency in the Department of Commerce that maps the oceans and conserves their living resources; predicts changes to the earth's environment; ). This network of buoys, known as the Tropical Atmosphere Ocean project, has forecast El Ninos for the past decade. In 1997, the buoys picked up telltale signs of the biggest El Nino of the century. Says Marcia McNutt Marcia Kemper McNutt is an American geophysicist. She is currently president and C.E.O. of the Monterey Bay Aquarium Research Institute, an oceanographic research center in the United States, and a professor of marine geophysics at the Stanford University School of Earth Sciences. , director of the Monterey Bay Aquarium Research Institute The Monterey Bay Aquarium Research Institute (MBARI) is a not-for-profit oceanographic research center in Moss Landing, California affiliated with the Monterey Bay Aquarium. It was founded in 1987 by David Packard of Hewlett-Packard fame. , "The impact it had on disaster preparedness was truly amazing." The system currently indicates that El Nino is here again, but at moderate strength, for the 2002 to 2003 winter season, reports NOAA. Other types of observatories are finding new features in coastal waters. An Atlantic Ocean Atlantic Ocean [Lat.,=of Atlas], second largest ocean (c.31,800,000 sq mi/82,362,000 sq km; c.36,000,000 sq mi/93,240,000 sq km with marginal seas). Physical Geography Extent and Seas facility completed in 1996 combines several high-tech data-collection methods. Rutgers University's Coastal Ocean Observation Lab in Tuckerton, N.J., collects information from satellites, land-based radar that tracks surface currents off the coast, occasional forays by instrumented underwater vehicles, and sensors on the sea floor attached to a 15-m-deep fiber optic cable Noun 1. fiber optic cable - a cable made of optical fibers that can transmit large amounts of information at the speed of light fibre optic cable transmission line, cable, line - a conductor for transmitting electrical or optical signals or electric power that runs 9 km out from shore. From a control room resembling that of a NASA NASA: see National Aeronautics and Space Administration. NASA in full National Aeronautics and Space Administration Independent U.S. space mission, scientists monitor information arriving from a 30-square-km swath of coastal ocean. This observatory, staffed with both biological and physical oceanographers, has already provided scientists with surprising underwater insights. For instance, it has suggested a cause for the summer episodes of depleted de·plete tr.v. de·plet·ed, de·plet·ing, de·pletes To decrease the fullness of; use up or empty out. [Latin d oxygen that can kill bottom-dwelling animals such as clams at the site. These ocean hypoxias aren't necessarily the result of pollution or freshwater flow from rivers, says Scott M. Glenn, codirector of Rutgers' ocean observatory. After analyzing a combination of satellite and radar data, the scientists sent ships and underwater robots into the coastal water. They detected a 10-m-deep, 4-km-wide current that hugs the coast and brings cold water and huge concentrations of phytoplankton phytoplankton Flora of freely floating, often minute organisms that drift with water currents. Like land vegetation, phytoplankton uses carbon dioxide, releases oxygen, and converts minerals to a form animals can use. from the north. As phytoplankton die and sink, bacteria feeding on them use up the oxygen in the bottom waters. "It's a very small feature that traditional 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 would have a hard time documenting," says Oscar Sehofield, codirector of Rutgers' ocean observatory. "Nobody knew [the current] was there." The Rutgers researchers plan to export their technology to Florida, so they and other scientists can track red tides. These toxic algal blooms, which kill marine life, occur without warning (SN: 11/30/02, p. $44). Rutgers also plans to expand its swath of monitored coastal ocean to 100 times its current coverage. This summer, the observatory's Web page was already getting 65,o00 hits a day from boaters, fishers, and beachgoers looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. the equivalent of the ocean's Weather Channel for the relatively small area covered. DEEP RUMBLINGS Several of the new generation of ocean observatories use sound to track events such as earthquakes and volcanoes (SN: 1/2/99, p. 15; 8/18/01, p. 102). Natural underwater temperature and pressure gradients create a corridor in which sound can travel for thousands of kilometers. The U.S. Navy uses permanently placed hydrophones to monitor this sound fixing and ranging channel, known as SOFAR, in the Pacific Ocean. Scientists now have access to those data and also eavesdrop eaves·drop intr.v. eaves·dropped, eaves·drop·ping, eaves·drops To listen secretly to the private conversation of others. on the ocean via portable hydrophones attached to buoys. Handling all that information would have been an impossible computer task just 10 years ago, says Christopher G. Fox, a marine geophysicist at NOAA'S Pacific Marine Environmental Laboratory in Newport, Ore. Fox says that eight researchers in his lab record 10 gigabytes of sound data every week from the Pacific Ocean. Listening to SOFAR sounds in the Pacific since 1991, the researchers have located tens of thousands of ocean-floor earthquakes and several volcanic eruptions volcanic eruptions discharging of fumes, dust and lava from volcanoes. They have damaging potential in addition to those of being physically overpowering by the lava flow or the ash or dust fallout. that weren't detected by land-based seismic monitors. They've also identified two distinct groups of blue whales based on their calls. Recently, the group took portable hydrophones to the Atlantic Ocean and for the first time recorded sounds of volcanic activity in the Mid-Atlantic Ridge Mid-Atlantic Ridge: see Atlantic Ocean. Mid-Atlantic Ridge Submarine ridge lying along the floor of the central Atlantic Ocean. It is a long mountain chain running about 10,000 mi (16,000 km) in a general but curving north-south direction from the . In this area, segments of the seafloor are slowly spreading apart and magma is rising into the seafloor. Fox says, "It has a whole lot of little bangs with sort of a background rumble to it." Strange new sounds are also being picked up by the Hawaii-2 Observatory, originally installed in 1998 to track earthquakes. Hawaii-2 is a seismograph and a set of hydrophones attached to an old telephone cable that broke 5,000 m below the Pacific's surface. The 1960s-era, sheathed copper-wire cable provides power for the station, which is midway between California and Hawaii. This coaxial cable also enables scientists in Hawaii to continuously receive data from the sensors. AT&T had offered the cable to a consortium of research institutions. The scientists seized the chance to fill a gap in the global earthquake-monitoring network. "Our expectation when they put the hydrophones there was they would hear local earthquakes ... or things coming up through the seafloor but they wouldn't hear anything propagating through the ocean," says Fox. But a magnitude 6.1 earthquake off the Oregon coast The Oregon Coast is a geographical term that is used to describe the coast of Oregon along the Pacific Ocean. Stretching 362 miles from Astoria to the California border, the Oregon Coast is unique in that the whole coastline is public land. 2,000 km away triggered sounds that "were so loud they literally almost went off scale," says Rhett Butler, a geophysicist at the consortium, Incorporated Research Institutions for Seismology seismology (sīzmŏl`əjē, sīs–), scientific study of earthquakes and related phenomena, including the propagation of waves and shocks on or within the earth by natural or artificially generated seismic signals. in Washington, D.C. Butler says that because Hawaii-2 Observatory sits nearly 1 km below the SOFAR channel in the area, he couldn't explain the long-traveling rumbles using standard theories about how sound propagates through water. In the October Geophysical Research Letters Geophysical Research Letters is a publication of the American Geophysical Union. GRL is the organization's only letters journal. Since its introduction in 1974, GRL has published only short research letters, typically 3-5 pages long, which focus on a specific discipline or , he and Cinna Lomnitz of the Geophysical Institute in Mexico City describe the sound as a new kind of wave that travels along the sediment-fluid interface at the bottom of the ocean. Fox says that the findings not only give researchers a new tool to use in monitoring underwater earthquakes but also have "implications for all of our models of acoustic interaction in the ocean." OCEANS ONLINE Telecommunication companies are donating more retired telephone cables for duty at ocean observatories. Next year, University of Hawaii (body, education) University of Hawaii - A University spread over 10 campuses on 4 islands throughout the state. http://hawaii.edu/uhinfo.html. See also Aloha, Aloha Net. researchers will move a retired coaxial cable 25 km to a site north of Hawaii that they have been monitoring with ships. More than 22,000 km of early fiber-optic cables are being retired from telecommunication, says Fred K. Duennebier of the University of Hawaii. This resource might become available to oceanographers, he says. Such cables would transmit physical and biological data--200 times faster than coaxial cables can--from the Atlantic and the Pacific to shore laboratories. But plans to wire the deep go beyond old telephone cables. In September, a California observatory received federal funding the first long run of high-bandwidth, fiber-optic cable from land to deep seafloor. The 60 km of cable will connect sensors resting 1,200 m below the Pacifies surface to the shore facility of the Monterey Accelerated Research System (MARS) ocean observatory. Canada announced this year that it plans to build the Victoria Experimental Network Under the Sea (VENUS). This cable-linked array of sensors will rest in the waters off Victoria and Vancouver, British Columbia. Both MARS and VENUS will test instruments for future projects. The most ambitious project planned so far is the North East Pacific Time-series Undersea Networked Experiments (NEPTUNE Neptune, in Roman religion and mythology Neptune, in Roman religion and mythology, god of water. He was presumably an indigenous god of fertility, but in later times he was identified with the Greek Poseidon, god of the sea. ). It will monitor the largest volume of ocean and seafloor of any observatory. A 3,000-km network of fiber-optic cables will connect myriad sensors across the Juan de Fuca Juan de Fu·ca , Strait of A strait between northwest Washington State and Vancouver Island, British Columbia, Canada, linking Puget Sound and the Strait of Georgia with the Pacific Ocean. tectonic plate off the coast of Washington State and British Colombia. While Canada recently committed $30 million to NEPTUNE, scientists in the United Sates anxiously await a decision by Congress next year about whether it will fund a 5-year, $200 million budget for building NEPTUNE and other new ocean observatories. This initiative is the biggest in oceanography since the ocean-drilling program was established in the 1980s. At the recent Washington, D.C., meeting to discuss the initiative, Robert S. Derrick of Woods Hole reminded his colleagues, "We are at a very important point ... as we switch from expeditionary work to a continual presence in the ocean." |
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