Probing the hydrothermal system of the Chicxulub impact crater

David A Kring; Sonia M Tikoo; Martin Schmieder; Ulrich Riller; Mario Rebolledo-Vieyra; Sarah L Simpson; Gordon R Osinski; Jérôme Gattacceca; Axel Wittmann; Christina M Verhagen; Charles S Cockell; Marco J L Coolen; Fred J Longstaffe; Sean P S Gulick; Joanna V Morgan; Timothy J Bralower; Elise Chenot; Gail L Christeson; Philippe Claeys; Ludovic Ferrière; Catalina Gebhardt; Kazuhisa Goto; Sophie L Green; Heather Jones; Johanna Lofi; Christopher M Lowery; Rubén Ocampo-Torres; Ligia Perez-Cruz; Annemarie E Pickersgill; Michael H Poelchau; Auriol S P Rae; Cornelia Rasmussen; Honami Sato; Jan Smit; Naotaka Tomioka; Jaime Urrutia-Fucugauchi; Michael T Whalen; Long Xiao; Kosei E Yamaguchi

doi:10.1126/sciadv.aaz3053

Probing the hydrothermal system of the Chicxulub impact crater

Sci Adv. 2020 May 29;6(22):eaaz3053. doi: 10.1126/sciadv.aaz3053. eCollection 2020 May.

Authors

David A Kring¹, Sonia M Tikoo², Martin Schmieder¹, Ulrich Riller³, Mario Rebolledo-Vieyra⁴, Sarah L Simpson⁵, Gordon R Osinski⁵, Jérôme Gattacceca⁶, Axel Wittmann⁷, Christina M Verhagen², Charles S Cockell⁸, Marco J L Coolen⁹, Fred J Longstaffe⁵, Sean P S Gulick¹⁰, Joanna V Morgan¹¹, Timothy J Bralower¹², Elise Chenot¹³, Gail L Christeson¹⁰, Philippe Claeys¹⁴, Ludovic Ferrière¹⁵, Catalina Gebhardt¹⁶, Kazuhisa Goto¹⁷, Sophie L Green¹⁸, Heather Jones¹², Johanna Lofi¹⁹, Christopher M Lowery¹⁰, Rubén Ocampo-Torres²⁰, Ligia Perez-Cruz²¹, Annemarie E Pickersgill²², Michael H Poelchau²³, Auriol S P Rae^{11

23}, Cornelia Rasmussen^{10

24}, Honami Sato²⁵, Jan Smit²⁶, Naotaka Tomioka²⁷, Jaime Urrutia-Fucugauchi²¹, Michael T Whalen²⁸, Long Xiao²⁹, Kosei E Yamaguchi³⁰

Affiliations

¹ Lunar and Planetary Institute, Universities Space Research Association, 3600 Bay Area Boulevard, Houston, TX 77058, USA.
² Department of Earth and Planetary Sciences, Rutgers University New Brunswick, Piscataway Township, NJ 08854, USA.
³ Institut für Geologie, Universität Hamburg, Bundesstraße 55, 20146 Hamburg, Germany.
⁴ Departamento de Recursos del Mar, CINVESTAV-MÉRIDA, Carret. Merida-Progreso, S/N, Merida, Yucatán 97215, México.
⁵ Institute for Earth and Space Exploration and Department of Earth Sciences, The University of Western Ontario, London, ON N6A 5B7, Canada.
⁶ Aix Marseille Université, CNRS, Institut pour la Recherche et le Développement, Coll France, INRA, CEREGE, Aix-en-Provence, France.
⁷ Eyring Materials Center, Arizona State University, Tempe, AZ 85287-8301, USA.
⁸ Centre for Astrobiology, School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3FD, UK.
⁹ School of Earth and Planetary Sciences, WA-Organic and Isotope Geochemistry Centre (WA-OIGC), Curtin University, Bentley, WA 6102, Australia.
¹⁰ Institute for Geophysics, Jackson School of Geosciences, University of Texas at Austin, Austin, TX 78758-4445, USA.
¹¹ Department of Earth Science and Engineering, Imperial College London, London, SW7 2AZ, UK.
¹² Department of Geosciences, Pennsylvania State University, University Park, PA 16802, USA.
¹³ GeoRessources, Université de Lorraine, CNRS, 54 500 Vandoeuvre-lès-Nancy, France.
¹⁴ Analytical, Environmental and Geo-Chemistry, Vrije Universiteit Brussel, Pleinlaan 2, Brussels 1050, Belgium.
¹⁵ Natural History Museum, Burgring 7, 1010 Vienna, Austria.
¹⁶ Alfred Wegener Institute Helmholtz Centre of Polar and Marine Research, 27568 Bremerhaven, Germany.
¹⁷ Department of Earth and Planetary Science, The University of Tokyo, Hongo 7-3-1, Tokyo 113-0033, Japan.
¹⁸ British Geological Survey, Edinburgh, UK.
¹⁹ Géosciences Montpellier, Université de Montpellier, 34095 Montpellier Cedex 05, France.
²⁰ Groupe de Physico-Chimie de l'Atmosphère, L'Institut de Chimie et Procédés pour l'Énergie, l'Environnement et la Santé (ICPEES), UMR 7515 Université de Strasbourg-CNRS 1 rue Blessig, 67000 Strasbourg, France.
²¹ Instituto de Geofísica, Universidad Nacional Autónoma de México, Cd. Universitaria, Coyoacán, Ciudad de México C. P. 04510, México.
²² School of Geographical and Earth Sciences, University of Glasgow, Gregory, Lilybank Gardens, Glasgow G12 8QQ, UK.
²³ University of Freiburg, Geology, Albertstraße 23b, 79104 Freiburg, Germany.
²⁴ Department of Geology and Geophysics, University of Utah, 115 S 1460 E (FASB), Salt Lake City, UT 84112, USA.
²⁵ Ocean Resources Research Center for Next Generation, Chiba Institute of Technology, 2-17-1, Tsudanuma, Narashino-city, Chiba 275-0016, Japan.
²⁶ Faculty of Earth and Life Sciences (FALW), Vrije Universiteit Amsterdam, de Boelelaan 1085, Amsterdam 1018HV, Netherlands.
²⁷ Kochi Institute for Core Sample Research, Japan Agency for Marine-Earth Science and Technology, 200 Monobe Otsu, Nankoku, Kochi 783-8502, Japan.
²⁸ Department of Geosciences, University of Alaska Fairbanks, 1930 Yukon Drive, Fairbanks, AK 99775, USA.
²⁹ China University of Geosciences (Wuhan), School of Earth Sciences, Planetary Science Institute, 388 Lumo Rd. Hongshan Dist., Wuhan, China.
³⁰ Department of Chemistry, Toho University, Funabashi, Chiba 274-8510, Japan.

Abstract

The ~180-km-diameter Chicxulub peak-ring crater and ~240-km multiring basin, produced by the impact that terminated the Cretaceous, is the largest remaining intact impact basin on Earth. International Ocean Discovery Program (IODP) and International Continental Scientific Drilling Program (ICDP) Expedition 364 drilled to a depth of 1335 m below the sea floor into the peak ring, providing a unique opportunity to study the thermal and chemical modification of Earth's crust caused by the impact. The recovered core shows the crater hosted a spatially extensive hydrothermal system that chemically and mineralogically modified ~1.4 × 10⁵ km³ of Earth's crust, a volume more than nine times that of the Yellowstone Caldera system. Initially, high temperatures of 300° to 400°C and an independent geomagnetic polarity clock indicate the hydrothermal system was long lived, in excess of 10⁶ years.

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