Meteoric wallop may have diversified life.Some 540 million years ago, life on Earth exploded in diversity. On the seafloor, some creatures acquired hard shells, and the direct ancestors of modern animals suddenly appeared. A new study suggests that this evolutionary Big Bang big bang Model of the origin of the universe, which holds that it emerged from a state of extremely high temperature and density in an explosive expansion 10 billion–15 billion years ago. blossomed about the time that cosmic debris began pummeling our planet at an increasing rate. The timing may not be mere coincidence, argue the geologists who found evidence for the revved-up impact rate. The researchers speculate that a spate of meteoroids battering Earth might have ferried in large amounts of the organic compounds vital to life, or the pummeling could have sparked diversity by forcing organisms to adapt to a new environment. Timothy S. Culler of the University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal and the Lawrence Berkeley (Calif.) National Laboratory (LBNL LBNL Lawrence Berkeley National Laboratory (Berkeley, CA) LBNL Last But Not Least ) and his colleagues derived this scenario from their analysis of lunar samples brought back in 1971 by the Apollo 14 spacecraft. Unlike Earth's surface Noun 1. Earth's surface - the outermost level of the land or sea; "earthquakes originate far below the surface"; "three quarters of the Earth's surface is covered by water" surface , which receives frequent facelifts from erosion and plate-tectonic activity, the pockmarked pock·mark n. 1. A pitlike scar left on the skin by smallpox or another eruptive disease. 2. A small pit on a surface: The gophers left the lawn covered with pockmarks. tr.v. lunar surface The lunar surface (or the surface of the moon) differs greatly from that of Earth. Different topography exists and soil composition and properties differ. Environmental factors affect the lunar surface. provides a nearly pristine record of the inner solar system's greatest hits. The researchers relied on radioactive dating to determine the ages of tiny glass beads in the soil samples. Such beads arise when bits of debris crash into the moon and heat rocks to their melting point. As the molten droplets fall back to the surface, they cool to form a glass. The geologists estimate that the 155 beads they analyzed came from 146 distinct impacts. As previous studies have indicated, the ages of the beads suggest that the rate at which debris battered the moon and Earth began to dwindle 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. about 3.5 billion years ago. At that time, the solar system was maturing and many stray objects--asteroids and comets--were swept up by the gravity of Jupiter and the sun. To the team's surprise, the study also revealed that after settling down to an all-time low some 500 to 600 million years ago, the impact rate rose nearly fourfold over the past 400 million years. The rate remains high today. "It's not surprising that the impacts tapered off about 3 billion years ago," notes study collaborator Richard A. Muller Richard A. Muller (January 6 1944 -) of San Francisco, California, U.S., is a physicist who works at the University of California, Berkeley and Lawrence Berkeley National Laboratory. Dr. of UC Berkeley and LBNL. "What is surprising is the reversion from a benign to a violent solar system about 500 million years ago." Culler, Muller, and their colleagues, including Paul R. Renne of UC Berkeley and the Berkeley Geochronology geochronology Dating and interpretation of geologic events in the history of the Earth. The classical technique of geochronology was stratigraphy, including faunal succession. Center, describe the work in the March 10 SCIENCE. In 1997, a team including Alfred S. McEwen, now at 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, analyzed craters on the moon's far side and suggested that the impact rate had doubled over the past 300 million years. The team has since questioned its own findings, but the new report "is entirely consistent with our 1997 results," McEwen says. He cautions that the California researchers have analyzed just 1 gram of lunar soil. "The assumption that this is representative of the cratering-history rate for the entire moon may be a giant leap," McEwen says. Renne subscribes to the notion that the increased impact rate seeded Earth with water and other compounds essential to life during the past 500 million years. This could have sparked the Cambrian, the brief era in which a profusion of animal life emerged. "Life already here would suddenly have a new stimulus, a greater need to evolve quickly, and more raw material to do it," says Renne. Muller maintains that the study supports his theory that the sun has an undetected stellar companion that periodically flings comets into the inner solar system. "I think it is a bit premature to draw any strong conclusions about the cratering record of the Earth-moon system and therefore about any implication for life," says Alan P. Boss of the Carnegie Institution of Washington  The introduction to this article may be too long. Please help improve the introduction by moving some material from it into the body of the article according to the suggestions at (D.C.). Nonetheless, the team has demonstrated "an extremely powerful technique" for addressing such questions, he says.
|
|
||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion