Publications
Project Acronym: CSDP2 | State: Completed | Expedition ID: 5032 | IODP Expedition ID: 364
Graaff S
,
Ross C
,
Feignon J
,
Kaskes P
,
Gulick S
,
Goderis S
,
Déhais T
,
Debaille V
,
Ferrière L
,
Koeberl C
,
Mattielli N
,
Stockli D
,
Claeys P
.
The Chicxulub impact structure reveals the first in-situ Jurassic magmatic intrusions of the Yucatán Peninsula, Mexico.
Lithos. 2023 ; 436-437 [doi][doi]
The Chicxulub impact structure reveals the first in-situ Jurassic magmatic intrusions of the Yucatán Peninsula, Mexico.
Lithos. 2023 ; 436-437 [doi][doi]
Rodríguez-Tovar F
,
Kaskes P
,
Ormö J
,
Gulick S
,
Whalen M
,
Jones H
,
Lowery C
,
Bralower T
,
Smit J
,
King J
,
Goderis S
,
Claeys P
.
Life before impact in the Chicxulub area: unique marine ichnological signatures preserved in crater suevite.
Scientific Reports. 2022 ; 12 (1): [doi][doi]
Life before impact in the Chicxulub area: unique marine ichnological signatures preserved in crater suevite.
Scientific Reports. 2022 ; 12 (1): [doi][doi]
Simpson S
,
Longstaffe F
,
Osinski G
,
Caudill C
,
Kring D
.
A low-temperature, meteoric water-dominated origin for smectitic clay minerals in the Chicxulub impact crater upper peak ring, as inferred from their oxygen and hydrogen isotope compositions.
Chemical Geology. 2022 ; 588 [doi][doi]
A low-temperature, meteoric water-dominated origin for smectitic clay minerals in the Chicxulub impact crater upper peak ring, as inferred from their oxygen and hydrogen isotope compositions.
Chemical Geology. 2022 ; 588 [doi][doi]
Morgan J
,
Bralower T
,
Brugger J
,
Wünnemann K
.
The Chicxulub impact and its environmental consequences.
Nature Reviews Earth and Environment. 2022 ; 3 (5): 338-354. [doi][doi]
The Chicxulub impact and its environmental consequences.
Nature Reviews Earth and Environment. 2022 ; 3 (5): 338-354. [doi][doi]
Hernández-Terrones L
,
Martínez L
,
Szamotulski J
,
González-Partida E
,
Morgan J
,
Lowery C
,
Gulick S
,
Rebolledo-Vieyra M
,
Kring D
.
Study of fluid circulation through the chicxulub crater using Rock-Eval pyrolysis and fluid inclusions.
Applied Geochemistry. 2022 ; 137 [doi][doi]
Study of fluid circulation through the chicxulub crater using Rock-Eval pyrolysis and fluid inclusions.
Applied Geochemistry. 2022 ; 137 [doi][doi]
Feignon J
,
Schulz T
,
Ferrière L
,
Goderis S
,
Graaff S
,
Kaskes P
,
Déhais T
,
Claeys P
,
Koeberl C
.
Search for a meteoritic component within the impact melt rocks of the Chicxulub impact structure peak ring, Mexico.
Geochimica et Cosmochimica Acta. 2022 ; 323 74-101. [doi][doi]
Search for a meteoritic component within the impact melt rocks of the Chicxulub impact structure peak ring, Mexico.
Geochimica et Cosmochimica Acta. 2022 ; 323 74-101. [doi][doi]
Le Ber E
,
Loggia D
,
Denchik N
,
Lofi J
,
Kring D
,
Sardini P
,
Siitari-Kauppi M
,
Pezard P
,
Olivier G
,
Party IE3S
.
Petrophysics of Chicxulub Impact Crater's Peak Ring.
Journal of Geophysical Research: Solid Earth. 2022 ; 127 (5): [doi][doi]
Petrophysics of Chicxulub Impact Crater's Peak Ring.
Journal of Geophysical Research: Solid Earth. 2022 ; 127 (5): [doi][doi]
Graaff S
,
Kaskes P
,
Déhais T
,
Goderis S
,
Debaille V
,
Ross C
,
Gulick S
,
Feignon J
,
Ferrière L
,
Koeberl C
,
Smit J
,
Mattielli N
,
Claeys P
.
New insights into the formation and emplacement of impact melt rocks within the Chicxulub impact structure, following the 2016 IODP-ICDP Expedition 364.
Bulletin of the Geological Society of America. 2022 ; 134 (1-2): 293-315. [doi][doi]
New insights into the formation and emplacement of impact melt rocks within the Chicxulub impact structure, following the 2016 IODP-ICDP Expedition 364.
Bulletin of the Geological Society of America. 2022 ; 134 (1-2): 293-315. [doi][doi]
Déhais T
,
Chernonozhkin S
,
Kaskes P
,
Graaff S
,
Debaille V
,
Vanhaecke F
,
Claeys P
,
Goderis S
.
Resolving impact volatilization and condensation from target rock mixing and hydrothermal overprinting within the Chicxulub impact structure.
Geoscience Frontiers. 2022 ; 13 (5): [doi][doi]
Resolving impact volatilization and condensation from target rock mixing and hydrothermal overprinting within the Chicxulub impact structure.
Geoscience Frontiers. 2022 ; 13 (5): [doi][doi]
García-Garnica E
,
Pérez-Cruz L
.
Hyperthermal events recorded in the Palaeogene carbonate sequence of southern Gulf of Mexico—Santa Elena borehole, Yucatan Peninsula.
Geological Journal. 2022 ; 57 (1): 99-113. [doi][doi]
Hyperthermal events recorded in the Palaeogene carbonate sequence of southern Gulf of Mexico—Santa Elena borehole, Yucatan Peninsula.
Geological Journal. 2022 ; 57 (1): 99-113. [doi][doi]
Kaskes P
,
Graaff S
,
Feignon J
,
Déhais T
,
Goderis S
,
Ferrière L
,
Koeberl C
,
Smit J
,
Wittmann A
,
Gulick S
,
Debaille V
,
Mattielli N
,
Claeys P
.
Formation of the crater suevite sequence from the Chicxulub peak ring: A petrographic, geochemical, and sedimentological characterization.
Bulletin of the Geological Society of America. 2022 ; 134 (3-4): 895-927. [doi][doi]
Formation of the crater suevite sequence from the Chicxulub peak ring: A petrographic, geochemical, and sedimentological characterization.
Bulletin of the Geological Society of America. 2022 ; 134 (3-4): 895-927. [doi][doi]
Ross C
,
Stockli D
,
Rasmussen C
,
Gulick S
,
Graaff S
,
Claeys P
,
Zhao J
,
Xiao L
,
Pickersgill A
,
Schmieder M
,
Kring D
,
Wittmann A
,
Morgan J
.
Evidence of Carboniferous arc magmatism preserved in the Chicxulub impact structure.
Bulletin of the Geological Society of America. 2022 ; 134 (1-2): 241-260. [doi][doi]
Evidence of Carboniferous arc magmatism preserved in the Chicxulub impact structure.
Bulletin of the Geological Society of America. 2022 ; 134 (1-2): 241-260. [doi][doi]
Huber M
,
Kovaleva E
,
Clark M
,
Riller U
,
Fourie F
.
Evidence from the Vredefort Granophyre Dikes points to crustal relaxation following basin-size impact cratering.
Icarus. 2022 ; 374 [doi][doi]
Evidence from the Vredefort Granophyre Dikes points to crustal relaxation following basin-size impact cratering.
Icarus. 2022 ; 374 [doi][doi]
Davison T
,
Collins G
.
Complex Crater Formation by Oblique Impacts on the Earth and Moon.
Geophysical Research Letters. 2022 ; 49 (21): [doi][doi]
Complex Crater Formation by Oblique Impacts on the Earth and Moon.
Geophysical Research Letters. 2022 ; 49 (21): [doi][doi]
Urrutia-Fucugauchi J
,
Arellano-Catalán O
,
Pérez-Cruz L
,
Romero-Galindo I
.
Chicxulub Crater Joint Gravity and Magnetic Anomaly Analysis: Structure, Asymmetries, Impact Trajectory and Target Structures.
Pure and Applied Geophysics. 2022 ; 179 (8): 2735-2756. [doi][doi]
Chicxulub Crater Joint Gravity and Magnetic Anomaly Analysis: Structure, Asymmetries, Impact Trajectory and Target Structures.
Pure and Applied Geophysics. 2022 ; 179 (8): 2735-2756. [doi][doi]
Nixon C
,
Kofman R
,
Lofi J
,
Gulick S
,
Saustrup S
,
Christeson G
,
Kring D
.
Borehole Seismic Observations From the Chicxulub Impact Drilling: Implications for Seismic Reflectivity and Impact Damage.
Geochemistry, Geophysics, Geosystems. 2022 ; 23 (3): [doi][doi]
Borehole Seismic Observations From the Chicxulub Impact Drilling: Implications for Seismic Reflectivity and Impact Damage.
Geochemistry, Geophysics, Geosystems. 2022 ; 23 (3): [doi][doi]
Kaskes P
,
Déhais T
,
Graaff S
,
Goderis S
,
Claeys P
.
Micro–X-ray fluorescence (µXRF) analysis of proximal impactites: High-resolution element mapping, digital image analysis, and quantifications.
Special Paper of the Geological Society of America. 2021 ; 550 171-206. [doi][doi]
Micro–X-ray fluorescence (µXRF) analysis of proximal impactites: High-resolution element mapping, digital image analysis, and quantifications.
Special Paper of the Geological Society of America. 2021 ; 550 171-206. [doi][doi]
Zhao J
,
Xiao L
,
Xiao Z
,
Morgan J
,
Osinski G
,
Neal C
,
Gulick S
,
Riller U
,
Claeys P
,
Zhao S
,
Prieur N
,
Nemchin A
,
Yu S
.
Shock-deformed zircon from the Chicxulub impact crater and implications for cratering process.
Geology. 2021 ; 49 (7): 755-760. [doi][doi]
Shock-deformed zircon from the Chicxulub impact crater and implications for cratering process.
Geology. 2021 ; 49 (7): 755-760. [doi][doi]
Cockell C
,
Schaefer B
,
Wuchter C
,
Coolen M
,
Grice K
,
Schnieders L
,
Morgan J
,
Gulick S
,
Wittmann A
,
Lofi J
,
Christeson G
,
Kring D
,
Whalen M
,
Bralower T
,
Osinski G
,
Claeys P
,
Kaskes P
,
Graaff S
,
Déhais T
,
Goderis S
,
Hernandez Becerra N
,
Nixon S
,
Scientists IE3
.
Shaping of the Present-Day Deep Biosphere at Chicxulub by the Impact Catastrophe That Ended the Cretaceous.
Frontiers in Microbiology. 2021 ; 12 [doi][doi]
Shaping of the Present-Day Deep Biosphere at Chicxulub by the Impact Catastrophe That Ended the Cretaceous.
Frontiers in Microbiology. 2021 ; 12 [doi][doi]
Guzmán-Hidalgo E
,
Grajales-Nishimura J
,
Eberli G
,
Aguayo-Camargo J
,
Urrutia-Fucugauchi J
,
Pérez-Cruz L
.
Seismic stratigraphic evidence of a pre-impact basin in the Yucatán Platform: morphology of the Chicxulub crater and K/Pg boundary deposits.
Marine Geology. 2021 ; 441 [doi][doi]
Seismic stratigraphic evidence of a pre-impact basin in the Yucatán Platform: morphology of the Chicxulub crater and K/Pg boundary deposits.
Marine Geology. 2021 ; 441 [doi][doi]
Salge T
,
Tagle R
,
Schmitt R
,
Hecht L
.
Petrographic and chemical studies of the Cretaceous-Paleogene boundary sequence at El Guayal, Tabasco, Mexico: Implications for ejecta plume evolution from the Chicxulub impact crater.
Special Paper of the Geological Society of America. 2021 ; 550 207-233. [doi][doi]
Petrographic and chemical studies of the Cretaceous-Paleogene boundary sequence at El Guayal, Tabasco, Mexico: Implications for ejecta plume evolution from the Chicxulub impact crater.
Special Paper of the Geological Society of America. 2021 ; 550 207-233. [doi][doi]
Smith V
,
Warny S
,
Vellekoop J
,
Vajda V
,
Escarguel G
,
Jarzen D
.
Palynology from ground zero of the Chicxulub impact, southern Gulf of Mexico.
Palynology. 2021 ; 45 (2): 283-299. [doi][doi]
Palynology from ground zero of the Chicxulub impact, southern Gulf of Mexico.
Palynology. 2021 ; 45 (2): 283-299. [doi][doi]
McCall N
,
Gulick S
,
Rae A
,
Poelchau M
,
Riller U
,
Lofi J
,
Morgan J
.
Orientations of planar cataclasite zones in the Chicxulub peak ring as a ground truth for peak ring formation models.
Earth and Planetary Science Letters. 2021 ; 576 [doi][doi]
Orientations of planar cataclasite zones in the Chicxulub peak ring as a ground truth for peak ring formation models.
Earth and Planetary Science Letters. 2021 ; 576 [doi][doi]
Schulte F
,
Wittmann A
,
Jung S
,
Morgan J
,
Gulick S
,
Kring D
,
Grieve R
,
Osinski G
,
Riller U
,
Bralower T
,
Chenot E
,
Christeson G
,
Claeys P
,
Cockell C
,
Coolen M
,
Ferrière L
,
Gebhardt C
,
Goto K
,
Green S
,
Jones H
,
LeBer E
,
Lofi J
,
Lowery C
,
Ocampo-Torres R
,
Pérez-Cruz L
,
Pickersgill A
,
Poelchau M
,
Rae A
,
Rasmussen C
,
Rebolledo-Vieyra M
,
Sato H
,
Schmitt D
,
Smit J
,
Tikoo S
,
Tomioka N
,
Urrutia-Fucugauchi J
,
Whalen M
,
Xiao L
,
Yamaguchi K
,
Party IE3S
.
Ocean resurge-induced impact melt dynamics on the peak-ring of the Chicxulub impact structure, Mexico.
International Journal of Earth Sciences. 2021 ; 110 (7): 2619-2636. [doi][doi]
Ocean resurge-induced impact melt dynamics on the peak-ring of the Chicxulub impact structure, Mexico.
International Journal of Earth Sciences. 2021 ; 110 (7): 2619-2636. [doi][doi]
Kring D
,
Whitehouse M
,
Schmieder M
.
Microbial Sulfur Isotope Fractionation in the Chicxulub Hydrothermal System.
Astrobiology. 2021 ; 21 (1): 103-114. [doi][doi]
Microbial Sulfur Isotope Fractionation in the Chicxulub Hydrothermal System.
Astrobiology. 2021 ; 21 (1): 103-114. [doi][doi]
Wittmann A
,
Cavosie A
,
Timms N
,
Ferrière L
,
Rae A
,
Rasmussen C
,
Ross C
,
Stockli D
,
Schmieder M
,
Kring D
,
Zhao J
,
Xiao L
,
Morgan J
,
Gulick S
,
Scientists IE3
.
Shock impedance amplified impact deformation of zircon in granitic rocks from the Chicxulub impact crater.
Earth and Planetary Science Letters. 2021 ; 575 [doi][doi]
Shock impedance amplified impact deformation of zircon in granitic rocks from the Chicxulub impact crater.
Earth and Planetary Science Letters. 2021 ; 575 [doi][doi]
Kaskes P
,
Déhais T
,
Graaff S
,
Goderis S
,
Claeys P
.
Micro-X-ray fluorescence (µXRF) analysis of proximal impactites: High-resolution element mapping, digital image analysis, and quantifications.
Special Paper of the Geological Society of America. 2021 ; 550 171-206. [doi][doi]
Micro-X-ray fluorescence (µXRF) analysis of proximal impactites: High-resolution element mapping, digital image analysis, and quantifications.
Special Paper of the Geological Society of America. 2021 ; 550 171-206. [doi][doi]
Ebert M
,
Poelchau M
,
Kenkmann T
,
Gulick S
,
Lofi J
,
McCall N
,
Rae A
.
Comparison of stress orientation indicators in Chicxulub's peak ring: Kinked biotites, basal PDFs, and feather features.
Special Paper of the Geological Society of America. 2021 ; 550 479-493. [doi][doi]
Comparison of stress orientation indicators in Chicxulub's peak ring: Kinked biotites, basal PDFs, and feather features.
Special Paper of the Geological Society of America. 2021 ; 550 479-493. [doi][doi]
Ormö J
,
Gulick S
,
Whalen M
,
King J
,
Sturkell E
,
Morgan J
.
Assessing event magnitude and target water depth for marine-target impacts: Ocean resurge deposits in the Chicxulub M0077A drill core compared.
Earth and Planetary Science Letters. 2021 ; 564 [doi][doi]
Assessing event magnitude and target water depth for marine-target impacts: Ocean resurge deposits in the Chicxulub M0077A drill core compared.
Earth and Planetary Science Letters. 2021 ; 564 [doi][doi]
Arp G
,
Dunkl I
,
Jung D
,
Karius V
,
Lukács R
,
Zeng L
,
Reimer A
,
Head I
.
A Volcanic Ash Layer in the Nördlinger Ries Impact Structure (Miocene, Germany): Indication of Crater Fill Geometry and Origins of Long-Term Crater Floor Sagging.
Journal of Geophysical Research: Planets. 2021 ; 126 (4): [doi][doi]
A Volcanic Ash Layer in the Nördlinger Ries Impact Structure (Miocene, Germany): Indication of Crater Fill Geometry and Origins of Long-Term Crater Floor Sagging.
Journal of Geophysical Research: Planets. 2021 ; 126 (4): [doi][doi]
Feignon J
,
Graaff S
,
Ferrière L
,
Kaskes P
,
Déhais T
,
Goderis S
,
Claeys P
,
Koeberl C
.
Chicxulub impact structure, IODP-ICDP Expedition 364 drill core: Geochemistry of the granite basement.
Meteoritics and Planetary Science. 2021 ; 56 (7): 1243-1273. [doi][doi]
Chicxulub impact structure, IODP-ICDP Expedition 364 drill core: Geochemistry of the granite basement.
Meteoritics and Planetary Science. 2021 ; 56 (7): 1243-1273. [doi][doi]
Christeson G
,
Morgan J
,
Gulick S
.
Mapping the Chicxulub Impact Stratigraphy and Peak Ring Using Drilling and Seismic Data.
Journal of Geophysical Research: Planets. 2021 ; 126 (8): [doi][doi]
Mapping the Chicxulub Impact Stratigraphy and Peak Ring Using Drilling and Seismic Data.
Journal of Geophysical Research: Planets. 2021 ; 126 (8): [doi][doi]
Yanev Y
,
Benderev A
,
Zotov N
,
Dubinina E
,
Iliev I
,
Georgiev S
,
Ilieva I
,
Sergeeva I
.
Exotic rock block from the Koshava gypsum mine, Northwest Bulgaria: Petrography, geochemistry, mineralogy and melting phenomena.
Geologica Balcanica. 2021 ; 50 (1): 45-65. [doi][doi]
Exotic rock block from the Koshava gypsum mine, Northwest Bulgaria: Petrography, geochemistry, mineralogy and melting phenomena.
Geologica Balcanica. 2021 ; 50 (1): 45-65. [doi][doi]
Goderis S
,
Sato H
,
Ferrière L
,
Schmitz B
,
Burney D
,
Kaskes P
,
Vellekoop J
,
Wittmann A
,
Schulz T
,
Chernonozhkin S
,
Claeys P
,
Graaff S
,
Déhais T
,
Winter N
,
Elfman M
,
Feignon J
,
Ishikawa A
,
Koeberl C
,
Kristiansson P
,
Neal C
,
Owens J
,
Schmieder M
,
Sinnesael M
,
Vanhaecke F
,
Malderen S
,
Bralower T
,
Gulick S
,
Kring D
,
Lowery C
,
Morgan J
,
Smit J
,
Whalen M
,
Scientists IE3
.
Globally distributed iridium layer preserved within the Chicxulub impact structure.
Science Advances. 2021 ; 7 (9): [doi][doi]
Globally distributed iridium layer preserved within the Chicxulub impact structure.
Science Advances. 2021 ; 7 (9): [doi][doi]
Kring D
,
Bach W
.
Hydrogen Production from Alteration of Chicxulub Crater Impact Breccias: Potential Energy Source for a Subsurface Microbial Ecosystem.
Astrobiology. 2021 ; 21 (12): 1547-1564. [doi][doi]
Hydrogen Production from Alteration of Chicxulub Crater Impact Breccias: Potential Energy Source for a Subsurface Microbial Ecosystem.
Astrobiology. 2021 ; 21 (12): 1547-1564. [doi][doi]
Ortiz-Aleman C
,
Martin R
,
Urrutia-Fucugauchi J
,
Castillo M
,
Nava-Flores M
.
Imaging the Chicxulub Central Crater Zone from Large-Scale Seismic Acoustic Wave Propagation and Gravity Modeling.
Pure and Applied Geophysics. 2021 ; 178 (1): 55-77. [doi][doi]
Imaging the Chicxulub Central Crater Zone from Large-Scale Seismic Acoustic Wave Propagation and Gravity Modeling.
Pure and Applied Geophysics. 2021 ; 178 (1): 55-77. [doi][doi]
Nixon C
,
Kofman R
,
Gulick S
,
Christeson G
,
Saustrup S
,
Lofi J
,
Morgan J
.
Assessment of rock damage using seismic methods: Wave speeds and attenuation from borehole measurements in the Chicxulub Impact structure..
In: Nixon C , Kofman R , Gulick S , Christeson G , Saustrup S , Lofi J , Morgan J . Assessment of rock damage using seismic methods: Wave speeds and attenuation from borehole measurements in the Chicxulub Impact structure.. 2020 .
Assessment of rock damage using seismic methods: Wave speeds and attenuation from borehole measurements in the Chicxulub Impact structure..
In: Nixon C , Kofman R , Gulick S , Christeson G , Saustrup S , Lofi J , Morgan J . Assessment of rock damage using seismic methods: Wave speeds and attenuation from borehole measurements in the Chicxulub Impact structure.. 2020 .
Lyons S
,
Karp A
,
Bralower T
,
Grice K
,
Schaefer B
,
Gulick S
,
Morgan J
,
Freeman K
.
Organic matter from the Chicxulub crater exacerbated the K-Pg impact winter.
Proceedings of the National Academy of Sciences of the United States of America. 2020 ; 117 (41): 25327-25334. [doi][doi]
Organic matter from the Chicxulub crater exacerbated the K-Pg impact winter.
Proceedings of the National Academy of Sciences of the United States of America. 2020 ; 117 (41): 25327-25334. [doi][doi]
Ebert M
,
Poelchau M
,
Kenkmann T
,
Schuster B
.
Tracing shock-wave propagation in the Chicxulub crater: Implications for the formation of peak rings.
Geology. 2020 ; 48 (8): 814-818. [doi][doi]
Tracing shock-wave propagation in the Chicxulub crater: Implications for the formation of peak rings.
Geology. 2020 ; 48 (8): 814-818. [doi][doi]
Osinski G
,
Cockell C
,
Pontefract A
,
Sapers H
.
The Role of Meteorite Impacts in the Origin of Life.
Astrobiology. 2020 ; 20 (9): 1121-1149. [doi][doi]
The Role of Meteorite Impacts in the Origin of Life.
Astrobiology. 2020 ; 20 (9): 1121-1149. [doi][doi]
Osinski G
,
Ferrière L
,
Hill P
,
Prave A
,
Preston L
,
Singleton A
,
Pickersgill A
.
The mesoproterozoic stac fada member, nw scotland: An impact origin confirmed but refined.
Journal of the Geological Society. 2020 ; 178 (1): [doi][doi]
The mesoproterozoic stac fada member, nw scotland: An impact origin confirmed but refined.
Journal of the Geological Society. 2020 ; 178 (1): [doi][doi]
Timms N
,
Kirkland C
,
Cavosie A
,
Rae A
,
Rickard W
,
Evans N
,
Erickson T
,
Wittmann A
,
Ferrière L
,
Collins G
,
Gulick S
.
Shocked titanite records Chicxulub hydrothermal alteration and impact age.
Geochimica et Cosmochimica Acta. 2020 ; 281 12-30. [doi][doi]
Shocked titanite records Chicxulub hydrothermal alteration and impact age.
Geochimica et Cosmochimica Acta. 2020 ; 281 12-30. [doi][doi]
Salguero-Hernández E
,
Pérez-Cruz L
,
Urrutia-Fucugauchi J
.
Seismic attribute analysis of Chicxulub impact crater.
Acta Geophysica. 2020 ; 68 (3): 627-640. [doi][doi]
Seismic attribute analysis of Chicxulub impact crater.
Acta Geophysica. 2020 ; 68 (3): 627-640. [doi][doi]
Kring D
,
Tikoo S
,
Schmieder M
,
Riller U
,
Rebolledo-Vieyra M
,
Simpson S
,
Osinski G
,
Gattacceca J
,
Wittmann A
,
Verhagen C
,
Cockell C
,
Coolen M
,
Longstaffe F
,
Gulick S
,
Morgan J
,
Bralower T
,
Chenot E
,
Christeson G
,
Claeys P
,
Ferrière L
,
Gebhardt C
,
Goto K
,
Green S
,
Jones H
,
Lofi J
,
Lowery C
,
Ocampo-Torres R
,
Pérez-Cruz L
,
Pickersgill A
,
Poelchau M
,
Rae A
,
Rasmussen C
,
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Hypervelocity collisions into continental crust composed of sediments and an underlying crystalline basement: Comparing the Ries (∼24 km) and Chicxulub (∼180 km) impact craters.
Chemie der Erde. 2005 ; 65 (1): 1-46. [doi][doi]
Hypervelocity collisions into continental crust composed of sediments and an underlying crystalline basement: Comparing the Ries (∼24 km) and Chicxulub (∼180 km) impact craters.
Chemie der Erde. 2005 ; 65 (1): 1-46. [doi][doi]