Evidence from Central Mexico Supporting the Younger Dryas Extraterrestrial Impact Hypothesis

We report the discovery in Lake Cuitzeo in central Mexico of a black, carbon-rich, lacustrine layer, containing nanodiamonds, microspherules, and other unusual materials that date to the early Younger Dryas and are interpreted to result from an extraterrestrial impact. These proxies were found in a...

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Bibliographic Details
Main Authors: Israde-Alcantara, Isabel, Bischoff, James L, Dominguez-Vazquez, Gabriela, Li, Hong-Chun, DeCarli, Paul C, Bunch, Ted E, Wittke, James H, Weaver, James C, Firestone, Richard B, West, Allen
Other Authors: OREGON UNIV EUGENE
Format: Text
Language:English
Published: 2012
Subjects:
Geology
Geochemistry and Mineralogy
*BOUNDARY LAYER
*GEOLOGIC FORMATION
CARBON COMPOUNDS
GEOLOGIC AGE DETERMINATION
METEORITES
MEXICO
REPRINTS
COSMIC IMPACT
LATE QUATERNARY PERIOD
NANODIAMONDS
YOUNGER DRYAS
EXTRATERRESTRIAL IMPACT
BLACK MAT
LACUSTRINE LAYERS
Greenland
Online Access:http://www.dtic.mil/docs/citations/ADA557930
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA557930
Description
Summary:We report the discovery in Lake Cuitzeo in central Mexico of a black, carbon-rich, lacustrine layer, containing nanodiamonds, microspherules, and other unusual materials that date to the early Younger Dryas and are interpreted to result from an extraterrestrial impact. These proxies were found in a 27-m-long core as part of an interdisciplinary effort to extract a paleoclimate record back through the previous interglacial. Our attention focused early on an anomalous, 10-cm-thick, carbon-rich layer at a depth of 2.8 m that dates to 12.9 ka and coincides with a suite of anomalous coeval environmental and biotic changes independently recognized in other regional lake sequences. Collectively, these changes have produced the most distinctive boundary layer in the late Quaternary record. This layer contains a diverse, abundant assemblage of impact-related markers, including nanodiamonds, carbon spherules, and magnetic spherules with rapid melting/quenching textures, all reaching synchronous peaks immediately beneath a layer containing the largest peak of charcoal in the core. Analyses by multiple methods demonstrate the presence of three allotropes of nanodiamond: n-diamond, i-carbon, and hexagonal nanodiamond (lonsdaleite), in order of estimated relative abundance. This nanodiamond-rich layer is consistent with the Younger Dryas boundary layer found at numerous sites across North America, Greenland, and Western Europe. We have examined multiple hypotheses to account for these observations and find the evidence cannot be explained by any known terrestrial mechanism. It is, however, consistent with the Younger Dryas boundary impact hypothesis postulating a major extraterrestrial impact involving multiple airburst(s) and/or ground impact(s) at 12.9 ka. Proceedings of the National Academy of Sciences, 5 Mar 2012. Prepared in collaboration with US Geological Survey, Menlo Park, CA and Lawrence Berkeley National Laboratory, Berkeley, CA. Government or Federal Purpose Rights License. The original document contains color images.

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