Shifting sands: dunes hold heaps of material--and climate clues, too.Scientists sometimes travel to the ends of Earth in search of clues about our planet's past climate. Hidden in the accumulated layers of arctic icepacks and seafloor sediments are subtle variations that track global temperature trends. Lately, researchers have been braving a different type of extreme environment--the desert--to garner evidence of ancient weather patterns. The shifting sands of dunes, the archetype archetype (är`kĭtīp') [Gr. arch=first, typos=mold], term whose earlier meaning, "original model," or "prototype," has been enlarged by C. G. Jung and by several contemporary literary critics. of transience, might seem an unlikely place to search for long-lasting records of environmental conditions. However, climate changes that stabilize dunes into more permanent geological formations essentially freeze them in time, transforming them into chronicles of the weather patterns that sculpted sculpt v. sculpt·ed, sculpt·ing, sculpts v.tr. 1. To sculpture (an object). 2. To shape, mold, or fashion especially with artistry or precision: their shape. For example, dune fields now trapped beneath grasses or other stabilizing vegetation speak of a drier past, a time when surface greenery was either sparse or nonexistent non·ex·is·tence n. 1. The condition of not existing. 2. Something that does not exist. non . Remnants of ancient soils buried within dunes can betray long-gone periods of wetter climate. The subtle signs of slumping sand, which indicate the direction of prevailing winds The prevailing winds are the trends in speed and direction of wind over a particular point on the earth's surface. A region's prevailing winds often show global patterns of movement in the earth's atmosphere. Prevailing winds are the causes of waves as they push the ocean. as surely as a modern wind vane wind vane: see weather vane. , became frozen in place when heat and pressure converted ancient dunes into sandstone. Sand dunes appear on all continents. They occur even in Antarctica, a continent that gets so little precipitation that almost the entire region is considered a desert. Overall, dunes cover 20 percent of the world's deserts, which in turn occupy about one-third of Earth's land surface. That figure doesn't include the myriad hidden dune fields now inactive beneath prairies, plains, and forests. From the high plains of North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. to the Arabian peninsula, scientists are reading the dunes. MASSIVE PILE-UP pile·up or pile-up n. 1. Informal A serious collision usually involving several motor vehicles. 2. An accumulation: "the pile-up of unsold autos" Only three things are needed to generate active sand dunes: a source of sand, winds strong enough to move that material, and a lack of stabilizing vegetation. A dearth of vegetation seems to be more important for dune formation than high winds, says Daniel R. Muhs, a geologist at the U.S. Geological Survey in Denver. That's bemuse be·muse tr.v. be·mused, be·mus·ing, be·mus·es 1. To cause to be bewildered; confuse. See Synonyms at daze. 2. To cause to be engrossed in thought. even breezes as slow as 16 kilometers per hour can move unanchored material, he notes. Mineral particles smaller than 0.2 millimeters across, such as dust, can be lofted by the wind and blown long distances-even across oceans (SN: 9/29/01, p. 200). Grains of mineral that are larger and heavier--that is, sand--are sometimes suspended in strong winds. In calmer breezes, they move only short distances as wind repeatedly lifts them a few centimeters off the ground and drops them again. This process, in which sand grains bounce downwind, is called saltation saltation /sal·ta·tion/ (sal-ta´shun) 1. the action of leaping. 2. the jerky dancing or leaping that sometimes occurs in chorea. 3. saltatory conduction. 4. . Upon impact, saltating particles can kick other grains of sand into the air. Particles too heavy to hop can nonetheless be pushed or rolled by the winds or bumped along by saltating sand. Once sand piles up, dunes begin to form. Sand grains are blown up the windward side of the heap and over the crest until the leeward side of the dune is so steep that it slumps under its own weight. Repeated cycles of sand migrating to the top of a dune and then slipping down the backside--also called the slip face--push the bulk of the dune in the direction of the prevailing wind. The spacing of small ripples that form on the windward face of a dune is related to the average distance that sand grains travel with each bounce. Different combinations of wind speed, sand availability, and vegetation yield different types of dune, says Muhs. When strong winds blow a relatively small amount of sand in the absence of vegetation, the long, straight crests of the resulting, so-called longitudinal dunes line up with the direction of the wind. When there's abundant sand and little or no plant cover, the crests of the so-called transverse dunes are perpendicular to the wind. Winds that blow in different directions at different rimes of the year, such as monsoon winds, can produce compound dunes that have a complicated shape. CHIC OF ARABY One place where dunes are helping researchers answer questions about climates long gone is in the Sultanate of Oman. Sediments from the bottom of the Arabian Sea include vast amounts of dust, a testament to the dry conditions on the continents nearby. However, the dust is so widespread in that part of the world that it's tough to infer the direction of the ancient winds that blew the material into the ocean. That's why scientists are studying samples of sandstone and two long cores of sediment drilled from the Wahiba Sands, a 16,000-square-kilometer sea of sand and dunes at the eastern tip of the Arabian peninsula. Some dunes in the Wahiba Sands stand 70 m tall, and others stretch as far as 100 km in a north-south direction--from the southern Omani coastline to the base of the Oman Mountains. Today, the Wahiba Sands region receives only 10 centimeters of rain each year, says Dirk Radies, a geologist at the University of Bern The University of Bern is a university in the Swiss capital of Bern. It was founded in 1834. As one of the German-speaking universities in Switzerland its official name is Universität Bern, although it is frequently referred to in the French form, Université de Berne. in Switzerland. Winter winds in the region are generally slow because a persistent area of high atmospheric pressure straddles the area. In the summer, monsoon winds already emptied of their moisture flow along the Intertropical Convergence Zone intertropical convergence zone A broad area of low atmospheric pressure located in the equatorial region where the northeasterly and southeasterly trade winds converge, extending approximately 10° north and south of the equator. (ITCZ ITCZ Intertropical Convergence Zone ) before they swerve north over the Wahiba Sands. The ITCZ is the meteorological me·te·or·ol·o·gy n. The science that deals with the phenomena of the atmosphere, especially weather and weather conditions. [French météorologie, from Greek boundary between tropical and temperate weather systems. Until recently, says Radies, most scientists believed that the Wahiba Sands dunes formed since the last ice age, which ended about 12,000 years ago. Furthermore, current climate models suggest that the ITCZ is pushed farther south during ice ages and that prevailing winds over the Wahiba Sands during those periods flow from the northwest. But the core samples--as long as a football field--drilled in the region suggest those climate models may be wrong. The angle of the layers of compacted sand observed in the core reveal that the winds blew toward the north during the last ice age, just as they do today. Radies and his colleagues reported their analyses in the June 14 Science. The chemical composition of dunes can often add valuable information (see box, this page), says Radies. Although much of the material in the Wahiba Sands dune field can be traced to the interior of the Arabian peninsula, which lies to the west and northwest, half of the dunes' material is composed of carbonate minerals that derived from organisms that lived in shallow water. The closest source of such carbonates would have been the continental shelf to the south of the dunes. This material would have dried up and blown north during the last ice age, when sea levels dropped to about 100 m below what they are today. MAINLY ON THE PLAINS The central portions of North America are also hot spots hot spots acute moist dermatitis. for dune researchers. This region is home to some of the continent's largest dune fields. The dune materials came from rocks pulverized pul·ver·ize v. pul·ver·ized, pul·ver·iz·ing, pul·ver·iz·es v.tr. 1. To pound, crush, or grind to a powder or dust. 2. To demolish. v.intr. beneath the ice sheets that smothered smoth·er v. smoth·ered, smoth·er·ing, smoth·ers v.tr. 1. a. To suffocate (another). b. To deprive (a fire) of the oxygen necessary for combustion. 2. most of Canada and sagged south past the Great Lakes during a series of ice ages, says Muhs. Each time the ice retreated northward, it left behind huge quantities of finely ground rock, much of it subsequently carried south by meltwater-fed streams. In the plains, the fine debris choked lakes and formed broad, thick river deltas. When this material dried out, the winds piled it into massive dunes. Many of these dune fields are now stabilized by vegetation, but their age and structure record snippets of information about how climate has changed during recent millennia. Boreal forests of spruce now cover sand dunes that once stretched across the northern regions of Alberta and Saskatchewan, says Stephen Wolfe of the Geological Survey of Canada in Ottawa. The rolling floor of today's forests reflects the shape of the dunes. That terrain indicates that when these dune fields were active, between 11,000 and 8,000 years ago, cold, fierce winds that roared off the dwindling dwin·dle v. dwin·dled, dwin·dling, dwin·dles v.intr. To become gradually less until little remains. v.tr. To cause to dwindle. See Synonyms at decrease. ice sheet drove sand toward the northwest. Farther from the ancient ice sheet and to the west, an older set of sand dunes lies preserved beneath the region's plains. Core samples from those dune fields,just north of Edmonton, Alberta, show no deep layers of soil. Therefore, the scientists conclude that the dunes were continuously active from 15,000 to 10,000 years ago. At that time, the prairie grasses moved in, and conditions since then have been moist enough to support vegetation, says Wolfe. In a region icefree for a longer period, the dunes just north of the U.S.-Canada border should be even older than those around Edmonton. However, cores of those sands suggest that the oldest layers were deposited only about 5,600 years ago. This apparent paradox arises because most evidence of earlier dune activity has been erased by a total reworking of the sand, says Wolfe. Numerous layers of soil within the prairie sands hint that this region's climate during the past 5 millennia has shifted back and forth between lengthy wet and dry periods. Yet farther south, ancient dune fields lie hidden beneath many parts of the Great Plains. The largest such area in North America, the Nebraska Sandhills Sandhills could be:
Sediment cores obtained throughout the region show that dune fields have been active over broad areas for several periods in the past 3,000 years. Muhs and his colleagues can't yet determine whether dunes in different parts of the region were active at the same times, but the cores plainly show that contrary to previous beliefs, the dunes haven't been frozen in place since the last ice age. Anything that would diminish vegetation in the region could remobilize the sands and scramble any messages about ancient climate that might have been present, says Muhs. These factors include a drop in rainfall, a warmer climate, overgrazing overgrazing see overstocking. , and some cultivation practices. For example, plowing fields after the fall harvest rather than just before the spring planting exposes the poor soil to a full season of winter's windy wrath. Extended droughts can remobilize sands and 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. away natural weather records, too. Core samples have shown that some North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. dune fields that scientists thought had been frozen since the last ice age actually have been on the move during the past few centuries. For example, a lengthy dry spell in the 1790s revived dunes on the Great Plains that stayed active long enough to frustrate westbound pioneers 5 decades later, says Muhs. The same drought reinvigorated dune fields in the Great Sand Hills region between Medicine Hat, Alberta Medicine Hat, known to locals as "The Hat", is a city located in the southeastern part of the province of Alberta, Canada. It is situated on the Trans-Canada Highway, the eastern terminus of the Crowsnest Highway, and the South Saskatchewan River. , and Swift Current, Saskatchewan Swift Current is a small city in Southwest Saskatchewan. It is situated along the Trans Canada Highway km ( mi) west from Moose Jaw, Saskatchewan and km ( mi) from Medicine Hat, Alberta. Swift Current grew 0. , notes Wolfe. The climate dues that those once-inactive dunes held, like the sand itself, are gone with the wind. RELATED ARTICLE: Whence the dunes? Source of sands in Arizona dunes identified. A series of low, now inactive dunes cover much of the arid plains near the town of Parker, Ariz. Many scientists thought the Parker dunes, just east of the Colorado River, were the eastern end of a chain of dune fields that stretch upwind into California's Mojave Desert. But new analyses strongly suggest that sand in the Parker dunes has come from another source altogether. The sand in dunes west of the Colorado River, including those in Kelso Dunes in the Mojave National Preserve Mojave National Preserve: see Mojave Desert; National Parks and Monuments (table). , is rich in feldspar feldspar (fĕl`spär, fĕld`–) or felspar (fĕl`spär), an abundant group of rock-forming minerals which constitute 60% of the earth's crust. . These aluminum silicate minerals eroded from the mountains surrounding the Kelso dune field, says Daniel R. Muhs, a geologist at the U.S. Geological Survey in Denver. Dunes to the southeast of the Kelso Dunes have the same mineral composition, suggesting that the sand was blown there from the northwest. Although the dunes near Parker seem to be an extension of this same sandflow path, Muhs says that saltation couldn't carry grains of sand across the Colorado River. The Parker dunes have two possible origins, either of which is a testament to drier climates in times gone by. Either the sand was carried from the Kelso Dunes in California to Arizona when the Colorado River's bed was dry, or the dunes east of the river derived from Colorado River sediments that desiccated des·ic·cate v. des·ic·cat·ed, des·ic·cat·ing, des·ic·cates v.tr. 1. To dry out thoroughly. 2. To preserve (foods) by removing the moisture. See Synonyms at dry. 3. and were blown into Arizona by the prevailing winds, says Muhs. One look at the Parker sands, which are low in feldspar and high in quartz, reveals that those dunes are distinct from those on the California side of the river. In fact, the dune material matches the composition of the river sediments. Muhs and his colleagues report their findings in an upcoming issue of Quaternary quaternary /qua·ter·nary/ (kwah´ter-nar?e) 1. fourth in order. 2. containing four elements or groups. qua·ter·nar·y adj. 1. Consisting of four; in fours. International. A more detailed chemical analysis of the sands backs up Muhs' contention. Samples of Mojave sands all have less than 79 percent quartz and greater than 10 percent aluminum oxide aluminum oxide: see alumina. , says James R. Zimbelman, a geologist at the Smithsonian's Center for Earth and Planetary Studies The Center for Earth and Planetary Studies (CEPS) conducts an active research program in planetary and terrestrial geology and geophysics using remote sensing data from Earth-orbiting satellites and manned and unmanned space missions. in Washington, D.C. Meanwhile, samples of sand from the Parker dunes all have greater than 81 percent quartz and less than 6 percent aluminum oxide. Those percentages are indistinguishable from those of sediments taken from the Colorado River. Also, grains of sand from the Parker dunes seem to be rounder and more weathered and therefore probably are older than the freshly eroded Mojave sands. Zimbelman and Steven H. Williams of Colorado Springs, Colo., published results of their analyses in the April Geological Society of America The Geological Society of America (or GSA) is a nonprofit organization dedicated to the advancement of the geosciences. The society was founded in New York in 1888 by James Hall, James D. Bulletin. In addition to pointing to drier times in the past, two remnants of ancient soils in the Parker dunes, each about 50 or 60 centimeters thick, testify to sustained periods of moister climate that would have supported vegetation. The organic carbon in the soils has been stripped away by wind or water, so scientists can't use carbon-14 dating to estimate when those wet spells might have occurred, says Muhs.--S.P. |
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