The moon's tug stretches out the day.If the hours seem to streak by and each day ends too quickly, stop a moment and consider the tempo of time during the Proterozoic era Proterozoic era: see Precambrian era. , 900 million years ago. Earth revolved 30 percent faster back then, and the day lasted only 18.2 hours, 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 team of scientists studying ancient rock deposits that record lunar tides. Using theories of celestial mechanics celestial mechanics, the study of the motions of astronomical bodies as they move under the influence of their mutual gravitation. Celestial mechanics analyzes the orbital motions of planets, dwarf planets, comets, asteroids, and natural and artificial satellites , physicists long ago surmised that the day should be growing longer because tides raised principally by the moon put a brake on Earth's rotation The Earth's rotation is the rotation of the solid earth around its own axis, which is called Earth's axis or rotation axis. The earth rotates towards the east, which can be observed by orientation with a magnetic compass at sunrise. . By robbing Earth of momentum, the moon edges farther away, thus increasing its velocity through space. Modern measurements have verified part of the theory by showing that the moon is receding from Earth at 3.8 centimeters per year. But proving that the Earth has slowed down requires records from the distant past. Charles P. Sonett of the University of Arizona (body, education) University of Arizona - The University was founded in 1885 as a Land Grant institution with a three-fold mission of teaching, research and public service. in Tucson and his colleagues gleaned the history of Earth's spin from sedimentary stones known as tidal rhythmites. These rare rocks formed along prehistoric shorelines, where tides deposited alternating bands of dark- and light-colored silt and sand. The rhythmites display layers of varying thickness, reflecting the high spring tides and low neap tides the lowest tides of the lunar month, which occur in the second and fourth quarters of the moon; - opposed to See also: Neap that mark the lunar month lunar month n. The average time between successive new or full moons, equal to 29 days, 12 hours, 44 minutes. Also called synodic month. . By analyzing how the tidal cycles vary in thickness with the seasons, the scientists could count the number of lunar months per year. This enabled them to calculate how much momentum the moon had stolen from Earth. From that, they could figure ancient Earth's rate of rotation. Sonett's group examined four sets of tidal rhythmites, from Indiana, Alabama, Australia, and Utah, with ages ranging from 305 million to 900 million years. When the oldest rocks formed, each year had 481 days, the scientists report in the July 5 Science. Although simple in theory, the study of these deposits is complicated; ancient storms and other factors have erased some of the tidal layers. To work around these irregularities, Sonett's group analyzed the tidal record mathematically-by ranking the frequency of variations in the layers-to pull out the lunar cycles Same as See also: Lunar . "It's not an easy thing. It's taken us the last year to satisfy ourselves of these numbers," says Sonett. Previous reports of ancient astronomical cycles have run into trouble. In the 1960s and 1970s, paleontologists used bands in corals and clams to infer information about the number of days per year, but these studies drew a great deal of criticism and the field foundered, says paleontologist Gary D. Rosenberg of Indiana and Purdue Universities in Indianapolis. Skeptics charged that the counting of growth bands was subjective and that researchers had failed to account for uncertainties in their work. Tidal rhythmites provide more accurate records because they have fewer irregularities than corals and other organisms. Sonett and coauthor Erik Kvale of the Indiana Geolgical Survey in Bloomington have "really given new life to the field," says Rosenberg. Although previous studies have made use of tidal rhythmites, they have not included the Utah deposits, discovered 2 years ago (SN: 9/10/94, p. 165). "Sonett has analyzed the oldest recognized rhythmites, and he has clearly used the most sophisticated mathematical methods to date. For that reason, it is significant," comments Gregory Ojakangas, a space scientist at the University of Minnesota (body, education) University of Minnesota - The home of Gopher. http://umn.edu/. Address: Minneapolis, Minnesota, USA. in Duluth. Ojakangas cautions, however, that scientists will need to test this analysis against other tidal rhythmites and records of ancient algal algal pertaining to or caused by algae. algal infection is very rare but systemic and udder infections are recorded. See protothecosis. algal mastitis the algae Prototheca trispora and P. mounds. "There is a lot more data out there. Tidal rhythmites are being discovered in more and more places." In fact, he has recently found 2-billion-year-old rhythmites in Minnesota and is currently analyzing them. |
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