The formation of peak rings in large impact craters.

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RESEARCH PRODUCT

The formation of peak rings in large impact craters.

Cornelia Rasmussen Jaime Urrutia-fucugauchi Honami Sato Timothy J. Bralower Xiao Long Sonia M. Tikoo David A. Kring Douglas R. Schmitt Mario Rebolledo-vieyra Philippe Claeys C.l. Mellett Johanna Lofi W. Zylberman W. Zylberman Kosei E. Yamaguchi Kosei E. Yamaguchi Michael T. Whalen Sean P. S. Gulick Ludovic Ferrière Elise Chenot Gail L. Christeson Gareth S. Collins Kazuhisa Goto Ulrich Riller Rubén Ocampo-torres Naotaka Tomioka Annemarie E. Pickersgill Charles S. Cockell Joanna Morgan Axel Wittmann Ligia Pérez-cruz Heather L. Jones Erwan Le Ber Michael H. Poelchau Gordon R. Osinski Jan Smit Catalina Gebhardt Christopher M. Lowery Auriol S. P. Rae Marco J. L. Coolen

subject

Dike 010504 meteorology & atmospheric sciences General Science & Technology BASIN FORMATION Mineralogy [SDU.STU]Sciences of the Universe [physics]/Earth Sciences 010502 geochemistry & geophysics 01 natural sciences GRAVITY Impact crater Planet impact cratering Impact structure Petrology CRUSTAL STRUCTURE BASIN 0105 earth and related environmental sciences geography Science & Technology Multidisciplinary geography.geographical_feature_category Felsic Drilling Crust [ SDU.STU ] Sciences of the Universe [physics]/Earth Sciences terrestrial analog CHICXULUB CRATER Multidisciplinary Sciences MODEL 13. Climate action DENSITY ASYMMETRY Science & Technology - Other Topics QUARTZ Shear zone Geology

description

The Chicxulub impact crater, known for its link to the demise of the dinosaurs, also provides an opportunity to study rocks from a large impact structure. Large impact craters have “peak rings” that define a complex crater morphology. Morgan et al. looked at rocks from a drilling expedition through the peak rings of the Chicxulub impact crater (see the Perspective by Barton). The drill cores have features consistent with a model that postulates that a single over-heightened central peak collapsed into the multiple-peak-ring structure. The validity of this model has implications for far-ranging subjects, from how giant impacts alter the climate on Earth to the morphology of crater-dominated planetary surfaces.Science, this issue p. 878; see also p. 836Large impacts provide a mechanism for resurfacing planets through mixing near-surface rocks with deeper material. Central peaks are formed from the dynamic uplift of rocks during crater formation. As crater size increases, central peaks transition to peak rings. Without samples, debate surrounds the mechanics of peak-ring formation and their depth of origin. Chicxulub is the only known impact structure on Earth with an unequivocal peak ring, but it is buried and only accessible through drilling. Expedition 364 sampled the Chicxulub peak ring, which we found was formed from uplifted, fractured, shocked, felsic basement rocks. The peak-ring rocks are cross-cut by dikes and shear zones and have an unusually low density and seismic velocity. Large impacts therefore generate vertical fluxes and increase porosity in planetary crust.

year	journal	country	edition	language
2016-11-18

10.1126/science.aah6561 https://hal.archives-ouvertes.fr/hal-01399386