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The AAPG/Datapages Combined Publications Database
Houston Geological Society Bulletin
Abstract
Abstract: The Chicxulub Impact: A Cosmic Event that Changed
the Course of Life 65 Million Years Ago
By
Lunar and Planetary Institute
In 1980, Luis Alvarez and his geologist son, Walter, proposed that a giant asteroid or comet struck the Earth approximately 65 million years ago and directly caused the extinction of the dinosaurs and over 70% of all life on Earth. This bold proposition resulted from their discovery, near the medieval town of Gubbio, Italy, of a centimeter-thick clay layer among limestones at the Cretaceous-Tertiary (KT) boundary. The limestone directly beneath the clay layer abounds with planktonic forams of latest Cretaceous age, whereas the Tertiary limestone unit immediately above the clay layer showed only rare and poorly formed fossils. Thus the clay layer itself, the scientists reasoned, must be the event horizon that could hold clues to the duration and nature of the mysterious KT extinction event, one of the most dramatic calamities to afflict Earth's biosphere since the development of complex life over a billion years ago. They found that the clay contained high concentrations of the element iridium, extremely rare in Earth's crustal rocks but quite abundant in certain meteorites, and proposed that his clay was the altered remains of the dust cloud blasted around the world when a 10-km asteroid or comet struck the Earth. Fifteen years of research has upheld this idea, and now all indications are that the source crater has been found.
The collision occurred in the
Yucatan platform and is centered near
the port city of Progreso, Mexico. The
200-300 kilometer wide crater lies buried
beneath 1,100 meters of limestone
laid down in the intervening years, and
few clues of its presence remain at the
surface. Prominent circular anomalies
in geophysical
data gained the interest
of Petroleos Mexicanos, and in the early
1950s they began an exploration campaign
that included deep drilling to recover
samples of the subsurface rocks.
The buried features became known as
the Chicxulub (Cheek-shoo-lub) structure
after the name of the first well located
near the Mayan village by the
same name. Pemex drilling continued
throughout the early 1970s and by that
time, Mexican scientists realized that
the Chicxulub structure was something
quite unusual. Three wells near the center
had recovered silicate rocks with
igneous textures, initially mistaken for
volcanic rocks, and others, located between
140km and 210km from the center
of the structure recovered breccia
deposits hundreds of meters thick, indicating
catastrophic or explosive conditions.
By 1980 at least one scientist at
Pemex felt that the evidence pointed to
impact, although a volcanic origin for
the Chicxulub structure could not be
ruled out.
Beginning in 1990, samples from the Pemex wells were located in Mexico City, and teams of scientists from the United States and Mexico quickly developed an impressive case that the Chicxulub structure was indeed the KT's 'smoking gun'. Diagnostic mineral evidence of shock metamorphism, requiring pressures and strain rates considerably higher than those produced by terrestrial processes, indicated that the crystalline rocks within the basin were melt rocks formed by an impact event and not by volcanism. Biostratigraphic information indicates that the structure was formed in uppermost Cretaceous rocks, consistent with a KT age. Argon and uranium-lead age determinations reveal that the melt rocks and the associated breccias are the same age as the tiny spherules of impact glass found within KT boundary deposits in Haiti and Mexico and the unmelted granitic fragments found in KT boundary exposures throughout western North America. Isotopic analyses demonstrate that the Chicxulub melt rocks and the ejecta spherules originated from the same source rocks. Consequently, there is a clear chemical as well as temporal link between the Chicxulub structure and the KT boundary deposits.
Additional geological and geophysical
evidence collected over the
last few years now suggest that
Chicxulub could be the largest impact
basin to form on Earth in the last billion
years or so. Over 200 thousand
cubic kilometers of the Earth's crust
were instantly vaporized, melted, or
ejected from the crater. Continuing
studies of this structure through additional
scientific drill coring and seismic
profiling will shed valuable new light
on understanding the cratering process
and its geological implications.
This presentation will review recent discoveries at the Chicxulub structure that constrain its size and origin. In addition, the potential environmental and economic significance of the event that produced this basin will be explored.
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