Baking dirt to predict erosion after a fire.During a forest fire, the temperature at ground level can range from 50[degrees]C to more than 1,500[degrees]C. Earth denuded of plant cover by fire becomes vulnerable to erosion, but the severity of that erosion depends on the particular high-temperature conditions that the soil experienced, says John A. Moody of the U.S. Geological Survey The term geological survey can be used to describe both the conduct of a survey for geological purposes and an institution holding geological information. A geological survey in Boulder, Colo. To quantify this relationship, Moody and his colleagues subjected lab-baked forest soils to flowing water. The researchers used soils derived from a variety of bedrock materials, including granite, sandstone sandstone, sedimentary rock formed by the cementing together of grains of sand. The usual cementing material in sandstone is calcium carbonate, iron oxides, or silica, and the hardness of sandstone varies according to the character of the cementing material; quartz , and volcanic ash See under Ashes. See also: Ash . In soils that had been heated to temperatures less than 175[degrees]C for an hour, erosion resistance was variable, depending on such particulars as the presence of tiny roots and rotted rot v. rot·ted, rot·ting, rots v.intr. 1. To undergo decomposition, especially organic decomposition; decay. 2. a. leaves, says Moody. When samples were baked at temperatures ranging from 175[degrees]C to 275[degrees]C, however, chemical bonds formed between clay particles and hardened the soil to an adobelike consistency, rendering its surface extremely resistant to erosion. Surprisingly, when roasted roast v. roast·ed, roast·ing, roasts v.tr. 1. To cook with dry heat, as in an oven or near hot coals. 2. To dry, brown, or parch by exposing to heat. 3. at temperatures above 275[degrees]C, samples became more prone to erosion. The higher temperatures apparently destroyed the chemical bonds that had formed at intermediate temperatures, says Moody. These results could be combined with readings of soil temperatures during or after a fire to forecast an area's vulnerability to erosion and even the mudslides that often follow fires, the researchers suggest. Moody and his colleagues report their findings in an upcoming Journal of Geophysical Research Journal of Geophysical Research is a publication of the American Geophysical Union. JGR was formerly titled Terrestrial Magnetism from its founding by the AGU's president Louis A. (Earth Surface).--S.P. |
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