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Dating Terrestrial Impact Structures

Elements (2012) 8 (1): 49-53.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
In situ U–Pb analysis of shocked zircon from the Charlevoix impact structure, Québec, Canada
Meteoritics & Planetary Science (2019) 54 (8): 1808.
An Early Jurassic age for the Puchezh‐Katunki impact structure (Russia) based on 40 Ar/ 39 Ar data and palynology
Meteoritics & Planetary Science (2019) 54 (8): 1764.
Timing and origin of natural gas accumulation in the Siljan impact structure, Sweden
Nature Communications (2019) 10 (1)
A new U-Pb age for shock-recrystallised zircon from the Lappajärvi impact crater, Finland, and implications for the accurate dating of impact events
Geochimica et Cosmochimica Acta (2019) 245: 479.
Bosumtwi impact structure, Ghana: Evidence for fluidized emplacement of the ejecta
Meteoritics & Planetary Science (2019) 54 (10): 2541.
Geochemistry of a confirmed Precambrian impact ejecta deposit: The Grænsesø spherule layer, South Greenland
Meteoritics & Planetary Science (2019) 54 (10): 2254.
Ultraprecise age and formation temperature of the Australasian tektites constrained by 40 Ar/ 39 Ar analyses
Meteoritics & Planetary Science (2019) 54 (10): 2573.
A Paleozoic age for the Tunnunik impact structure
Meteoritics & Planetary Science (2019) 54 (4): 740.
U-Pb memory behavior in Chicxulub's peak ring — Applying U-Pb depth profiling to shocked zircon
Chemical Geology (2019) 525: 356.
(U‐Th)/He zircon dating of Chesapeake Bay distal impact ejecta from ODP site 1073
Meteoritics & Planetary Science (2019) 54 (8): 1840.
Heterogeneity of melts in impact deposits and implications for their origin (Ries suevite, Germany)
Meteoritics & Planetary Science (2019) 54 (10): 2409.
Tholeiitic basalts of Deccan large igneous province, India: An overview
Geological Journal (2019)
Integrated interpretation of geophysical data of the Paleozoic structure in the northwestern part of the Siljan Ring impact crater, central Sweden
Journal of Applied Geophysics (2018) 148: 201.
Integrated graptolite-conodont biostratigraphy and organic carbon chemostratigraphy of the Llandovery of Kallholn quarry, Dalarna, Sweden
Palaeogeography, Palaeoclimatology, Palaeoecology (2018) 508: 1.
Structure and origin of Australian ring and dome features with reference to the search for asteroid impact events
Tectonophysics (2018) 722: 175.
Comment on “A high-precision 40Ar/39Ar age for the Nördlinger Ries impact crater, Germany, and implications for the accurate dating of terrestrial impact events” by Schmieder et al. (Geochimica et Cosmochimica Acta 220 (2018) 146–157)
Geochimica et Cosmochimica Acta (2018) 238: 599.
Early Archean spherule layers from the Barberton Greenstone Belt, South Africa: Mineralogy and geochemistry of the spherule beds in the CT3 drill core
Meteoritics & Planetary Science (2017) 52 (12): 2586.
Shocked monazite chronometry: integrating microstructural and in situ isotopic age data for determining precise impact ages
Contributions to Mineralogy and Petrology (2017) 172 (2-3)
New constraints on the Paleoarchean meteorite bombardment of the Earth – Geochemistry and Re-Os isotope signatures of spherule layers in the BARB5 ICDP drill core from the Barberton Greenstone Belt, South Africa
Geochimica et Cosmochimica Acta (2017) 211: 322.
A pressure-temperature phase diagram for zircon at extreme conditions
Earth-Science Reviews (2017) 165: 185.
Marine redox conditions during deposition of Late Ordovician and Early Silurian organic-rich mudrocks in the Siljan ring district, central Sweden
Chemical Geology (2017) 457: 75.
A new high-precision 40 Ar/39 Ar age for the Rochechouart impact structure: At least 5 Ma older than the Triassic-Jurassic boundary
Meteoritics & Planetary Science (2017) 52 (8): 1600.
High-resolution seismic imaging of Paleozoic rocks in the Mora area, Siljan Ring structure, central Sweden
GFF (2017) 139 (4): 260.
Ordovician reef and mound evolution: the Baltoscandian picture
Geological Magazine (2017) 154 (4): 683.
Combining shock barometry with numerical modeling: Insights into complex crater formation-The example of the Siljan impact structure (Sweden)
Meteoritics & Planetary Science (2017) 52 (12): 2521.
Coeval ages of Australasian, Central American and Western Canadian tektites reveal multiple impacts 790ka ago
Geochimica et Cosmochimica Acta (2016) 178: 307.
Dating a small impact crater: An age of Kaali crater (Estonia) based on charcoal emplaced within proximal ejecta
Meteoritics & Planetary Science (2016) 51 (4): 681.
Geology and Mineral Resources of World Ocean (2016) 12 (1): 5.
Tenoumer impact crater, Mauritania: Impact melt genesis from a lithologically diverse target
Meteoritics & Planetary Science (2016) 51 (2): 323.
The Steinheim Basin impact crater (SW-Germany) – Where are the ejecta?
Icarus (2015) 250: 529.
Impact-generated pseudotachylitic breccia in drill core BH-5 Hättberg, Siljan impact structure, Sweden
GFF (2015) 137 (2): 141.
Argon diffusion in Apollo 16 impact glass spherules: Implications for 40 Ar/ 39 Ar dating of lunar impact events
Geochimica et Cosmochimica Acta (2015) 148: 251.
Finding the imprints of stellar encounters in long-period comets
Monthly Notices of the Royal Astronomical Society (2015) 454 (3): 3267.
40 Ar/ 39 Ar geochronology and the paleoposition of Christmas Island (Australia), Northeast Indian Ocean
Gondwana Research (2015) 28 (1): 391.
Accessory and opaque minerals in impact melt rocks of the Boltysh structure, Ukraine
Meteoritics & Planetary Science (2015) 50 (6): 1139.
Zircons from the Acraman impact melt rock (South Australia): Shock metamorphism, U–Pb and 40 Ar/ 39 Ar systematics, and implications for the isotopic dating of impact events
Geochimica et Cosmochimica Acta (2015) 161: 71.
Subaerial speleothems and deep karst in central Sweden linked to Hirnantian glaciations
Journal of the Geological Society (2015) 172 (3): 349.
Refining lunar impact chronology through high spatial resolution 40Ar/39Ar dating of impact melts
Science Advances (2015) 1 (1): e1400050.
New 40 Ar/ 39 Ar dating of the Clearwater Lake impact structures (Québec, Canada) – Not the binary asteroid impact it seems?
Geochimica et Cosmochimica Acta (2015) 148: 304.
Analysis of borehole geophysical data from the Mora area of the Siljan Ring impact structure, central Sweden
Journal of Applied Geophysics (2015) 115: 183.
Revisiting the Rochechouart impact structure, France
Meteoritics & Planetary Science (2014) 49 (12): 2152.
The Archaeology of Cosmic Impact: Lessons from Two Mid-Holocene Argentine Case Studies
Journal of Archaeological Method and Theory (2014) 21 (1): 134.
Supportive comment on: “Morphology and population of binary asteroid impact craters”, by K. Miljković, G.S. Collins, S. Mannick and P.A. Bland [Earth Planet. Sci. Lett. 363 (2013) 121–132] – An updated assessment
Earth and Planetary Science Letters (2014) 405: 281.
Origin of oil and bitumen in the Late Devonian Siljan impact structure, central Sweden
Organic Geochemistry (2014) 68: 13.
Impact structures in Africa: A review
Journal of African Earth Sciences (2014) 93: 57.
Dating terrestrial impact structures: U-Pb depth profiles and (U-Th)/He ages of zircon
Geophysical Research Letters (2014) 41 (12): 4168.
Records of the Moon-forming impact and the 470 Ma disruption of the L chondrite parent body in the asteroid belt from U-Pb apatite ages of Novato (L6)
Meteoritics & Planetary Science (2014) 49 (8): 1426.
The Colônia Impact Crater: Geological Heritage and Natural Patrimony in the Southern Metropolitan Region of São Paulo, Brazil
Geoheritage (2014) 6 (4): 283.
High-precision dating of the Kalkarindji large igneous province, Australia, and synchrony with the Early–Middle Cambrian (Stage 4–5) extinction
Geology (2014) 42 (6): 543.
Where have all the craters gone? Earth’s bombardment history and the expected terrestrial cratering record
Geology (2014) 42 (7): 587.
In situ U/Pb dating of impact-produced zircons from the Vargeão Dome (Southern Brazil)
Meteoritics & Planetary Science (2013) 48 (3): 420.
The Lappajärvi impact structure (Finland): Age, duration of crater cooling, and implications for early life
Geochimica et Cosmochimica Acta (2013) 112: 321.
Ni-rich spinels and platinum group element nuggets condensed from a Late Archaean impact vapour cloud
Earth and Planetary Science Letters (2013) 376: 87.
Shock Events in the Solar System: The Message from Minerals in Terrestrial Planets and Asteroids
Annual Review of Earth and Planetary Sciences (2013) 41 (1): 257.
Complete hydrothermal re-equilibration of zircon in the Maniitsoq structure, West Greenland: A 3001 Ma minimum age of impact?
Meteoritics & Planetary Science (2013) 48 (8): 1472.
Reevaluation of siderophile element abundances and ratios across the Cretaceous–Paleogene (K–Pg) boundary: Implications for the nature of the projectile
Geochimica et Cosmochimica Acta (2013) 120: 417.
Ordovician sediments sandwiched between Proterozoic basement slivers: tectonic structures in the Stumsnäs 1 drill core from the Siljan Ring, central Sweden
GFF (2013) 135 (2): 213.
Ordovician stratigraphy of the Stumsnäs 1 drill core from the southern part of the Siljan Ring, central Sweden
GFF (2013) 135 (2): 204.
The40Ar/39Ar dating technique applied to planetary sciences and terrestrial impacts
Australian Journal of Earth Sciences (2012) 59 (2): 199.
Reply to the discussion by Rajesh and Knoper on “New zircon shock phenomena and their use for dating and reconstruction of large impact structures revealed by electron nanobeam (EBSD, CL, EDS) and isotopic U–Pb and (U–Th)/He analysis of the Vredefort dome”1Appears in Canadian Journal of Earth Sciences, 2012, 49(7): this issue [doi: 10.1139/e2012-003].
Canadian Journal of Earth Sciences (2012) 49 (7): 863.
The Alvarez Impact Theory of Mass Extinction; Limits to its Applicability and the “Great Expectations Syndrome”
Acta Palaeontologica Polonica (2012) 57 (4): 681.
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