期刊
AGU ADVANCES
卷 3, 期 5, 页码 -出版社
AMER GEOPHYSICAL UNION
DOI: 10.1029/2021AV000627
关键词
Chicxulub impact; impact; tsunami
资金
- US National Science Foundation [OCE-0968783, OCE-1351837]
- Research Experience for Undergraduates (REU) supplement [OCE-1351837]
- University of Michigan Associate Professor Support Fund - Margaret and Herman Sokol Faculty Awards
- NOAA's Science Collaboration Program
- UCAR's CPAESS [NA16NWS4620043, NA18NWS4620043B]
This study presents the first global simulation of the Chicxulub impact tsunami and finds that the energy of this tsunami surpassed the 2004 Indian Ocean tsunami. Flow velocities exceeding 20 cm/s were observed along shorelines worldwide as well as in various open-ocean regions.
The Chicxulub crater is the site of an asteroid impact linked with the Cretaceous-Paleogene (K-Pg) mass extinction at similar to 66 Ma. This asteroid struck in shallow water and caused a large tsunami. Here we present the first global simulation of the Chicxulub impact tsunami from initial contact of the projectile to global propagation. We use a hydrocode to model the displacement of water, sediment, and crust over the first 10 min, and a shallow-water ocean model from that point onwards. The impact tsunami was up to 30,000 times more energetic than the 26 December 2004 Indian Ocean tsunami, one of the largest tsunamis in the modern record. Flow velocities exceeded 20 cm/s along shorelines worldwide, as well as in open-ocean regions in the North Atlantic, equatorial South Atlantic, southern Pacific and the Central American Seaway, and therefore likely scoured the seafloor and disturbed sediments over 10,000 km from the impact origin. The distribution of erosion and hiatuses in the uppermost Cretaceous marine sediments are consistent with model results.
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