论文信息 - Impact structures in Africa: A review - 字舞流文

Impact structures in Africa: A review

C. Koeberl | W. Reimold

[1] C. Koeberl,et al. Impact controversies: Impact recognition criteria and related issues , 2014 .

[2] M. Poelchau,et al. Structural geology of impact craters , 2014 .

[3] L. Hecht,et al. Impact spherules from Karelia, Russia: Possible ejecta from the 2.02 Ga Vredefort impact event , 2014 .

[4] C. Koeberl,et al. 10Be content in clasts from fallout suevitic breccia in drill cores from the Bosumtwi impact crater, Ghana: Clues to preimpact target distribution , 2014 .

[5] Brandon C. Johnson,et al. Formation of melt droplets, melt fragments, and accretionary impact lapilli during a hypervelocity impact , 2014 .

[6] K. Wünnemann,et al. Diaplectic quartz glass and SiO2 melt experimentally generated at only 5 GPa shock pressure in porous sandstone: Laboratory observations and meso-scale numerical modeling , 2013 .

[7] Y. Sacquin,et al. Libyan Desert Glass: New field and Fourier transform infrared data , 2013 .

[8] J. Kramers,et al. Unique chemistry of a diamond-bearing pebble from the Libyan Desert Glass strewnfield, SW Egypt: Evidence for a shocked comet fragment , 2013 .

[9] J. Borovička,et al. A 500-kiloton airburst over Chelyabinsk and an enhanced hazard from small impactors , 2013, Nature.

[10] Pavel Spurný,et al. The trajectory, structure and origin of the Chelyabinsk asteroidal impactor , 2013, Nature.

[11] D. Morrison,et al. Younger Dryas impact model confuses comet facts, defies airburst physics , 2013, Proceedings of the National Academy of Sciences.

[12] Tomas Kohout,et al. Mineralogy, reflectance spectra, and physical properties of the Chelyabinsk LL5 chondrite - insight into shock induced changes in asteroid regoliths , 2013, 1309.6081.

[13] Christian Koeberl,et al. Petrology, major and trace element geochemistry, geochronology, and isotopic composition of granitic intrusions from the vicinity of the Bosumtwi impact crater, Ghana , 2013 .

[14] C. Herd,et al. Agoudal: the most Recent Iron Meteorite from Morocco , 2013 .

[15] H. Terryn,et al. Ni-rich spinels and platinum group element nuggets condensed from a Late Archaean impact vapour cloud , 2013 .

[16] C. Koeberl,et al. Pseudotachylite Breccia Veins from Dhala Impact Structure, North Central India: Texture, Mineralogy and Geochemical Characterization , 2013 .

[17] M. Poelchau,et al. The Serra da Cangalha impact structure, Brazil: Geological, stratigraphic and petrographic aspects of a recently confirmed impact structure , 2013 .

[18] J. Brigham‐Grette,et al. El'gygytgyn impact crater, Chukotka, Arctic Russia: Impact cratering aspects of the 2009 ICDP drilling project , 2013, Meteoritics and Planetary Science.

[19] C. Vaccaro,et al. Isli and Tislit: The First Dual Impact Crater Discovered in Morocco , 2013 .

[20] B. Schmitz. Extraterrestrial spinels and the astronomical perspective on Earth's geological record and evolution of life , 2013 .

[21] Å. Fagereng,et al. Stable isotope evidence for impact-related pseudotachylite formation at Vredefort by local melting of dry rocks , 2013 .

[22] I. McDonald,et al. Reply on "Searching for giant, ancient impact structures on Earth: The Mesoarchaean Maniitsoq structure, West Greenland" by Garde et al. [Earth Planet. Sci. Lett. 337-338 (2012) 197-210] , 2013 .

[23] C. Koeberl,et al. Comment on “Searching for giant, ancient impact structures on Earth: The Mesoarchaean Maniitsoq structure, West Greenland” by Garde et al. [Earth Planet. Sci. Lett. 337–338 (2012) 197–210] , 2013 .

[24] D. Lowe. Crustal fracturing and chert dike formation triggered by large meteorite impacts, ca. 3.260 Ga, Barberton greenstone belt, South Africa , 2013 .

[25] R. Herrick,et al. Characterization and morphological reconstruction of the Terny impact structure, central Ukraine , 2013 .

[26] N. Artemieva,et al. Ries crater and suevite revisited—Observations and modeling Part II: Modeling , 2013 .

[27] N. Artemieva,et al. Ries crater and suevite revisited—Observations and modeling Part I: Observations , 2013 .

[28] C. Russell,et al. High-velocity collisions from the lunar cataclysm recorded in asteroidal meteorites , 2013 .

[29] Todd A. Surovell,et al. Arguments and Evidence Against a Younger Dryas Impact Event , 2013 .

[30] L. Nicolaysen,et al. A Deep Seismic Reflection Profile Across the Archean‐Proterozoic Witwatersrand Basin, South Africa , 2013 .

[31] A. Jambon,et al. Impact-Generated Carbonate Melts from the Talemzane Structure (Algeria) , 2013 .

[32] M. Vasconcelos,et al. Santa Marta Crater: Macroscopic and Petrographic Evidences of a New Confirmed Impact Structure in Northeastern Brazil , 2013 .

[33] T. Harrison,et al. Post-Hadean transitions in Jack Hills zircon provenance: A signal of the Late Heavy Bombardment? , 2013 .

[34] B. Weiss,et al. The bombardment history of the Moon as recorded by 40Ar‐39Ar chronology , 2013 .

[35] J. Overpeck,et al. Age models for long lacustrine sediment records using multiple dating approaches – An example from Lake Bosumtwi, Ghana , 2013 .

[36] K. Thoma,et al. The MEMIN research unit: Experimental impact cratering , 2013 .

[37] U. Hornemann,et al. The first MEMIN shock recovery experiments at low shock pressure (5–12.5 GPa) with dry, porous sandstone , 2013 .

[38] A. Radwan,et al. Geological and geophysical investigation of Kamil crater, Egypt , 2012 .

[39] D. Coppola,et al. Endogenous and nonimpact origin of the Arkenu circular structures (al‐Kufrah basin—SE Libya) , 2012 .

[40] R. Grieve. Economic Deposits at Terrestrial Impact Structures , 2012 .

[41] G. Collins,et al. The Modification Stage of Crater Formation , 2012 .

[42] M. Vasconcelos,et al. Insights into the morphology of the Serra da Cangalha impact structure from geophysical modeling , 2012 .

[43] Matthias Ebert,et al. Chemical projectile–target interaction and liquid immiscibility in impact glass from the Wabar craters, Saudi Arabia , 2012 .

[44] W. Bottke,et al. A sawtooth-like timeline for the first billion years of lunar bombardment , 2012, 1208.4624.

[45] T. M. Harrison,et al. A search for thermal excursions from ancient extraterrestrial impacts using Hadean zircon Ti-U-Th-Pb depth profiles , 2012, Proceedings of the National Academy of Sciences.

[46] I. McDonald,et al. Searching for giant, ancient impact structures on earth: the Mesoarchaean Maniitsoq structure, West Greenland , 2012 .

[47] J. Weaver,et al. Very high-temperature impact melt products as evidence for cosmic airbursts and impacts 12,900 years ago , 2012, Proceedings of the National Academy of Sciences.

[48] U. Riller,et al. Emplacement history of Granophyre dikes in the Vredefort Impact Structure, South Africa, inferred from geochemical evidence , 2012 .

[49] H. Melosh,et al. Impact spherules as a record of an ancient heavy bombardment of Earth , 2012, Nature.

[50] Harold F. Levison,et al. An Archaean heavy bombardment from a destabilized extension of the asteroid belt , 2012, Nature.

[51] Fred J. Molz,et al. Multimodality of a particle size distribution of cohesive suspended particulate matters in a coastal zone , 2012 .

[52] T. Harrison,et al. Geochemical signatures and magmatic stability of terrestrial impact produced zircon , 2012 .

[53] C. Koeberl,et al. The Omeonga Structure, Democratic Republic of Congo: Geological and Petrographical Results, and Implications for its Origin , 2012 .

[54] H. Hirashita. Dust growth in the interstellar medium: how do accretion and coagulation interplay? , 2012, 1202.1345.

[55] D. Lowe,et al. Mineralogy and diagenesis of 3.24Ga meteorite impact spherules , 2012 .

[56] N. Artemieva,et al. Local and Global Environmental Effects of Impacts on Earth , 2012 .

[57] H. Melosh,et al. The Impact-Cratering Process , 2012 .

[58] L. Hecht,et al. Geochemistry of Impactites , 2012 .

[59] W. Reimold,et al. IMPACT! – BOLIDES, CRATERS, AND CATASTROPHES , 2012 .

[60] M. Vasconcelos,et al. Contributions of gamma‐ray spectrometry to terrestrial impact crater studies: The example of Serra da Cangalha, northeastern Brazil , 2012 .

[61] F. Langenhorst,et al. Shock Metamorphism of Minerals , 2012 .

[62] W. Reimold,et al. Dating Terrestrial Impact Structures , 2012 .

[63] B. Glass,et al. Distal Impact Ejecta Layers: Spherules and More , 2012 .

[64] S. Reddy,et al. Resolution of impact‐related microstructures in lunar zircon: A shock‐deformation mechanism map , 2012 .

[65] M. Massironi,et al. Omeonga—A possible large impact structure on the Eastern Kasai Province (D.R. Congo)? , 2011 .

[66] M. Drury,et al. Scanning electron microscope‐cathodoluminescence (SEM‐CL) imaging of planar deformation features and tectonic deformation lamellae in quartz , 2011 .

[67] M. Ledru,et al. The Colônia structure, São Paulo, Brazil , 2011 .

[68] Paul Hartogh,et al. Ocean-like water in the Jupiter-family comet 103P/Hartley 2 , 2011, Nature.

[69] W. Reimold,et al. Experimental investigation of shock metamorphic effects in a metapelitic granulite: The importance of shock impedance contrast between components , 2011 .

[70] A. Michard,et al. Syncline‐topped anticlinal ridges from the High Atlas: a Moroccan conundrum, and inspiring structures from the Syrian Arc, Israel , 2011 .

[71] G. Dresen,et al. Mechanical twinning in quartz: Shock experiments, impact, pseudotachylites and fault breccias , 2011 .

[72] Gordon R. Osinski,et al. The newly confirmed Luizi impact structure, Democratic Republic of Congo—Insights into central uplift formation and post-impact erosion , 2011 .

[73] W. Reimold,et al. Pseudotachylitic Breccia and Impact Melt Rock from Vredefort: Chemical and Isotopic Systematics , 2011 .

[74] U. Riller,et al. Petrographic and geochemical evidence for an allochthonous, possibly impact melt, origin of pseudotachylite from the Vredefort Dome, South Africa , 2011 .

[75] Massimo D'Orazio,et al. Gebel Kamil: The iron meteorite that formed the Kamil crater (Egypt) , 2011 .

[76] M. Vasconcelos,et al. The complex impact structure Serra da Cangalha, Tocantins State, Brazil , 2011 .

[77] N. Pinter,et al. The Younger Dryas impact hypothesis: A requiem , 2011 .

[78] F. Schäfer,et al. Impact cratering in sandstone: The MEMIN pilot study on the effect of pore water , 2011 .

[79] Z. Řanda,et al. Lithium in tektites and impact glasses: Implications for sources, histories and large impacts , 2011 .

[80] W. Reimold,et al. Formation of pseudotachylitic breccias in the central uplifts of very large impact structures: Scaling the melt formation , 2011 .

[81] A. Crósta,et al. The Oasis Structure, Southeastern Libya — New Constraints on Size, Age and Mechanism of Formation , 2011 .

[82] G. Osinski,et al. The Luizi Structure (Democratic Republic of Congo) --- First Confirmed Meteorite Impact Crater in Central Africa , 2011 .

[83] G. Osinski,et al. The New Luizi Impact Structure (Democratic Republic of Congo) and Implications for Central Peak and Peak Ring Formation , 2011 .

[84] E. Selmo,et al. δ18O and chemical composition of Libyan Desert Glass, country rocks, and sands: New considerations on target material , 2011 .

[85] M. Poelchau,et al. Feather features: A low‐shock‐pressure indicator in quartz , 2011 .

[86] M. Martino,et al. Kamil Crater (Egypt): Ground truth for small-scale meteorite impacts on Earth , 2011 .

[87] S. Stewart. Estimates of yet-to-find impact crater population on Earth , 2011, Journal of the Geological Society.

[88] G. Cooper,et al. A POSSIBLE MESOARCHAEAN IMPACT STRUCTURE AT SETLAGOLE, NORTH WEST PROVINCE, SOUTH AFRICA: AEROMAGNETIC AND FIELD EVIDENCE , 2010 .

[89] S. Master. Lac Télé structure, Republic of Congo: Geological setting of a cryptozoological and biodiversity hotspot, and evidence against an impact origin , 2010 .

[90] D. Moser,et al. A record of ancient cataclysm in modern sand: Shock microstructures in detrital minerals from the Vaal River, Vredefort Dome, South Africa , 2010 .

[91] P. Ogilvie. Metamorphic studies in the Vredefort Dome, South Africa , 2010 .

[92] E. Salameh,et al. The complex impact crater Jebel Waqf as Suwwan in Jordan: Effects of target heterogeneity and impact obliquity on central uplift formation , 2010 .

[93] C. Koeberl,et al. Melt particle characteristics of the within- and out-of-crater suevites from the Bosumtwi impact structure, Ghana: Implications for crater formation , 2010 .

[94] W. Reimold,et al. Microchemical investigation of small-scale pseudotachylitic breccias from the Archean gneiss of the Vredefort Dome, South Africa , 2010 .

[95] C. Koeberl,et al. Geochemistry of basement rocks and impact breccias from the central uplift of the Bosumtwi crater, Ghana--Comparison of proximal and distal impactites , 2010 .

[96] C. Koeberl,et al. Ballen quartz and cristobalite in impactites: New investigations , 2010 .

[97] M. Uehara,et al. Coarse-grained magnetites in biotite as a possible stable remanence-carrying phase in Vredefort granites , 2010 .

[98] R. Miller. Roter Kamm impact crater of Namibia: New data on rim structure, target rock geochemistry, ejecta, and meteorite trajectory , 2010 .

[99] H. Melosh,et al. Basin-forming impacts: Reconnaissance modeling , 2010 .

[100] G. Cooper,et al. A possible new impact structure in the Okavango Delta, Botswana , 2010 .

[101] Amelia Carolina Sparavigna. Craters and ring complexes of the North-East Sudanese country , 2010, 1008.3976.

[102] L. Folco,et al. The Kamil Crater in Egypt , 2010, Science.

[103] G. Horneck,et al. Survival of lichens and bacteria exposed to outer space conditions – Results of the Lithopanspermia experiments , 2010 .

[104] C. Koeberl,et al. Single crystal U–Pb zircon age and Sr–Nd isotopic composition of impactites from the Bosumtwi impact structure, Ghana: Comparison with country rocks and Ivory Coast tektites , 2010, Chemical geology.

[105] M. Schmieder,et al. The Faya Basin (N Chad) Revisited — Structural Insights from Central Peak Morphology and Potential Martian Analogs , 2010 .

[106] J. Fritz,et al. Brownish inclusions and dark streaks in Libyan Desert Glass: Evidence for high‐temperature melting of the target rock , 2010 .

[107] A. Vieth,et al. Biomarker and stable carbon isotope analyses of sedimentary organic matter from Lake Tswaing: evidence for deglacial wetness and early Holocene drought from South Africa , 2010 .

[108] J. Morgan,et al. The evolution of the Onaping Formation at the Sudbury impact structure , 2010 .

[109] Elisabetta Pierazzo,et al. The Chicxulub Asteroid Impact and Mass Extinction at the Cretaceous-Paleogene Boundary , 2010, Science.

[110] D. Lowe,et al. Did LHB End Not with a Bang but a Whimper? The Geologic Evidence , 2010 .

[111] M. Andreoli,et al. 40Ar/39Ar thermochronology of the fossil LL6-chondrite from the Morokweng crater, South Africa , 2010 .

[112] H. Schwarcz,et al. Age of the Dakhleh impact event and implications for Middle Stone Age archeology in the Western Desert of Egypt , 2010 .

[113] Todd A. Surovell,et al. Absence of geochemical evidence for an impact event at the Bølling–Allerød/Younger Dryas transition , 2009, Proceedings of the National Academy of Sciences.

[114] C. Koeberl,et al. Geochemistry of 2.63–2.49 Ga impact spherule layers and implications for stratigraphic correlations and impact processes , 2009 .

[115] C. R. S. Filho,et al. Generation, mobilization and crystallization of impact-induced alkali-rich melts in granitic target rocks: Evidence from the Araguainha impact structure, central Brazil , 2009 .

[116] U. Riller,et al. A 3D model of first-order structural elements of the Vredefort Dome, South Africa — Importance for understanding central uplift formation of large impact structures , 2009 .

[117] Todd A. Surovell,et al. An independent evaluation of the Younger Dryas extraterrestrial impact hypothesis , 2009, Proceedings of the National Academy of Sciences.

[118] S. Master,et al. Jwaneng South Structure, Botswana: a New 1.3 km Diameter Buried Cenozoic Impact Crater Discovered by Airship-mounted Gravity Gradiometer , 2009 .

[119] S. Master,et al. Distinguishing Between Impact Craters and Volcanic Pipes using Ground Magnetics: Field Examples from Zimbabwe , 2009 .

[120] J. Rabassa,et al. Bajada del Diablo impact crater-strewn field: The largest crater field in the Southern Hemisphere , 2009 .

[121] P. Renne,et al. An appraisal of the ages of terrestrial impact structures , 2009 .

[122] N. Artemieva,et al. The Carancas meteorite impact crater, Peru: Geologic surveying and modeling of crater formation and atmospheric passage , 2009 .

[123] M. Poelchau,et al. Low-angle collision with Earth: The elliptical impact crater Matt Wilson, Northern Territory, Australia , 2009 .

[124] S. Reddy,et al. Response of cathodoluminescence to crystal-plastic deformation in zircon , 2009 .

[125] U. Riller,et al. Generation of fragment-rich pseudotachylite bodies during central uplift formation in the Vredefort impact structure, South Africa , 2009 .

[126] M. Schmieder,et al. The Jebel Hadid structure (Al Kufrah Basin, SE Libya)—A possible impact structure and potential hydrocarbon trap? , 2009 .

[127] U. Riller,et al. Pseudotachylitic breccia and microfracture networks in Archean gneiss of the central uplift of the Vredefort Impact Structure, South Africa , 2009 .

[128] A. Haldemann,et al. Potential consequences of a Mid-Pleistocene impact event for the Middle Stone Age occupants of Dakhleh Oasis, Western Desert, Egypt , 2009 .

[129] L. Pesonen,et al. Paleomagnetic and rock magnetic study of the Vredefort impact structure and the Johannesburg Dome, Kaapvaal Craton, South Africa—Implications for the apparent polar wander path of the Kaapvaal Craton during the Mesoproterozoic , 2009 .

[130] Hyung Rae Kim,et al. GRACE gravity evidence for an impact basin in Wilkes Land, Antarctica , 2009 .

[131] E. Ghoneim. Ibn-Batutah: A possible simple impact structure in southeastern Libya, a remote sensing study , 2009 .

[132] Christian Koeberl,et al. Shock Metamorphism of Bosumtwi Impact Crater Rocks, Shock Attenuation, and Uplift Formation , 2008, Science.

[133] M. Hamers. Identifying shock microstructures in quartz from terrestrial impacts: new scanning electron microscopy methods , 2008 .

[134] A. Haldemann,et al. The Dakhleh Glass: Product of an impact airburst or cratering event in the Western Desert of Egypt? , 2008 .

[135] E. Pierazzo,et al. Proceedings of the Workshop, Bridging the Gap II: Effect of Target Properties on the Impact Cratering Process , 2008 .

[136] A. Rosell‐Melé,et al. Archaeabacterial lipids in drill core samples from the Bosumtwi impact structure, Ghana , 2008 .

[137] Robert B. Gibson,et al. Impact-related Deformation in the Collar Rocks of the Vredefort Dome, South Africa , 2008 .

[138] M. Martino,et al. Non‐impact origin of the crater‐like structures in the Gilf Kebir area (Egypt): Implications for the geology of eastern Sahara , 2008 .

[139] J. Borovička,et al. The Carancas meteorite impact – Encounter with a monolithic meteoroid , 2008 .

[140] L. Hecht,et al. New impact‐melt rock from the Roter Kamm impact structure, Namibia: Further constraints on impact age, melt rock chemistry, and projectile composition , 2008 .

[141] J. Overpeck,et al. The formation of biogeochemical laminations in Lake Bosumtwi, Ghana, and their usefulness as indicators of past environmental changes , 2008 .

[142] C. Koeberl,et al. Shatter cone and microscopic shock-alteration evidence for a post-Paleoproterozoic terrestrial impact structure near Santa Fe, New Mexico, USA , 2008 .

[143] J. Stadel,et al. Formation and Accretion History of Terrestrial Planets from Runaway Growth through to Late Time: Implications for Orbital Eccentricity , 2008, 0806.1689.

[144] M. Pilkington,et al. Observations and interpretations at Vredefort, Sudbury, and Chicxulub: Towards an empirical model of terrestrial impact basin formation , 2008 .

[145] P. Renne,et al. Synchronizing Rock Clocks of Earth History , 2008, Science.

[146] W. Griffin,et al. LAM-ICPMS U–Pb dating of kimberlitic perovskite: Eocene–Oligocene kimberlites from the Kundelungu Plateau, D.R. Congo , 2008 .

[147] G. Horneck,et al. Microbial rock inhabitants survive hypervelocity impacts on Mars-like host planets: first phase of lithopanspermia experimentally tested. , 2008, Astrobiology.

[148] S. Stanley,et al. Evidence for an extraterrestrial impact 12,900 years ago that contributed to the megafaunal extinctions and the Younger Dryas cooling , 2007, Proceedings of the National Academy of Sciences.

[149] M. Schmieder,et al. Mousso structure: A deeply eroded, medium-sized, complex impact crater in northern Chad? , 2007 .

[150] A. Fuhrmann,et al. Hydrological changes in southern Africa over the last 200 Ka as recorded in lake sediments from the Tswaing impact crater , 2007 .

[151] C. R. S. Filho,et al. Insights into the morphology, geometry, and post-impact erosion of the Araguainha peak-ring structure, central Brazil , 2007 .

[152] W. Griffin,et al. U–Pb and Hf-isotope analyses of zircon from the Kundelungu Kimberlites, D.R. Congo: Implications for crustal evolution , 2007 .

[153] Å. Fagereng,et al. Stable isotope study of the Archaean rocks of the Vredefort impact structure, central Kaapvaal Craton, South Africa , 2007 .

[154] W. Reimold,et al. Impact cratering — fundamental process in geoscience and planetary science , 2007 .

[155] A. Kontny,et al. Petrophysical and paleomagnetic data of drill cores from the Bosumtwi impact structure, Ghana , 2007 .

[156] Hernan Ugalde,et al. The Lake Bosumtwi meteorite impact structure, Ghana—Where is the magnetic source? , 2007 .

[157] C. Koeberl,et al. Geochemistry of impactites and basement lithologies from ICDP borehole LB‐07A, Bosumtwi impact structure, Ghana , 2007 .

[158] C. Koeberl,et al. The Lake Bosumtwi impact structure in Ghana: A brief environmental assessment and discussion of ecotourism potential , 2007 .

[159] T. Wonik,et al. Lithological and structural characteristics of the Lake Bosumtwi impact crater, Ghana: Interpretation of acoustic televiewer images , 2007 .

[160] C. Koeberl,et al. Lithostratigraphic and petrographic analysis of ICDP drill core LB‐07A, Bosumtwi impact structure, Ghana , 2007 .

[161] D. Schmitt,et al. In situ seismic measurements in borehole LB‐08A in the Bosumtwi impact structure, Ghana: Preliminary interpretation , 2007 .

[162] B. Peucker‐Ehrenbrink,et al. Search for a meteoritic component in drill cores from the Bosumtwi impact structure, Ghana: Platinum group element contents and osmium isotopic characteristics , 2007 .

[163] B. Milkereit,et al. Impactites as a random medium—Using variations in physical properties to assess heterogeneity within the Bosumtwi meteorite impact crater , 2007 .

[164] J. Overpeck,et al. An international and multidisciplinary drilling project into a young complex impact structure: The 2004 ICDP Bosumtwi Crater Drilling Project—An overview , 2007 .

[165] L. Hecht,et al. Uppermost impact fallback layer in the Bosumtwi crater (Ghana): Mineralogy, geochemistry, and comparison with Ivory Coast tektites , 2007 .

[166] R. P. Lyons,et al. Structure and morphology of the Bosumtwi impact structure from seismic reflection data , 2007 .

[167] B. Milkereit,et al. The Lake Bosumtwi meteorite impact structure, Ghana—A magnetic image from a third observational level , 2007 .

[168] T. Elbra,et al. Characterization of the log lithology of cores LB‐07A and LB‐08A of the Bosumtwi impact structure by using the anisotropy of magnetic susceptibility , 2007 .

[169] A. Kontny,et al. Petrography and shock‐related remagnetization of pyrrhotite in drill cores from the Bosumtwi Impact Crater Drilling Project, Ghana , 2007 .

[170] Mark B. Boslough,et al. Low-altitude airbursts and the impact threat. , 2007 .

[171] A. Deutsch,et al. The ICDP Lake Bosumtwi impact crater scientific drilling project (Ghana): Core LB‐08A litho‐log, related ejecta, and shock recovery experiments , 2007 .

[172] W. Morris,et al. Clast fabric examination of impact‐generated breccias, borehole LB‐07A, Bosumtwi, Ghana , 2007 .

[173] Christian Koeberl,et al. Drill core LB‐08A, Bosumtwi impact structure, Ghana: Petrographic and shock metamorphic studies of material from the central uplift , 2007 .

[174] N. Artemieva. Possible reasons of shock melt deficiency in the Bosumtwi drill cores , 2007 .

[175] J. Erzinger,et al. Platinum group elements provide no indication of a meteoritic component in ICDP cores from the Bosumtwi crater, Ghana , 2007 .

[176] W. Morris,et al. Physical property measurements: ICDP boreholes LB‐07A and LB‐08A, Lake Bosumtwi impact structure, Ghana , 2007 .

[177] J. Morrow. Shock‐metamorphic petrography and microRaman spectroscopy of quartz in upper impactite interval, ICDP drill core LB‐07A, Bosumtwi impact crater, Ghana , 2007 .

[178] C. Koeberl,et al. Drill core LB‐08A, Bosumtwi impact structure, Ghana: Geochemistry of fallback breccia and basement samples from the central uplift , 2007 .

[179] C. Koeberl,et al. Petrography, geochemistry, and alteration of country rocks from the Bosumtwi impact structure, Ghana , 2007 .

[180] S. Danuor,et al. Integrated 3‐D model from gravity and petrophysical data at the Bosumtwi impact structure, Ghana , 2007 .

[181] C. Koeberl,et al. Chromium isotopic studies of terrestrial impact craters: Identification of meteoritic components at Bosumtwi, Clearwater East, Lappajärvi, and Rochechouart , 2007 .

[182] C. Koeberl,et al. Beryllium-10 concentrations of tektites from the Ivory Coast and from Central Europe: Evidence for near-surface residence of precursor materials , 2007 .

[183] W. Reimold. Revolutions in the Earth Sciences: Continental Drift, Impact and other Catastrophes , 2007 .

[184] P. Renne,et al. The problem of inherited 40Ar* in dating impact glass by the 40Ar/39Ar method: Evidence from the Tswaing impact crater (South Africa) , 2007 .

[185] G. Horneck,et al. Experimental evidence for the potential impact ejection of viable microorganisms from Mars and Mars-like planets , 2007 .

[186] A. F. C. Haldemann,et al. Evidence for a ∼ 200–100 ka meteorite impact in the Western Desert of Egypt , 2007 .

[187] E. Ghoneim,et al. Largest crater shape in the Great Sahara revealed by multi‐spectral images and radar data , 2007 .

[188] J. Overpeck,et al. Paleoclimatic variations in West Africa from a record of late Pleistocene and Holocene lake level stands of Lake Bosumtwi, Ghana , 2006 .

[189] C. Koeberl,et al. Petrographic studies of “fallout” suevite from outside the Bosumtwi impact structure, Ghana , 2006 .

[190] F. Wieland,et al. New observations on shatter cones in the Vredefort impact structure, South Africa, and evaluation of current hypotheses for shatter cone formation , 2006 .

[191] Philippe Paillou,et al. An extended field of crater-shaped structures in the Gilf Kebir region, Egypt: observations and hypotheses about their origin , 2006 .

[192] M. Chance,et al. Infrared Absorption Investigations Confirm the Extraterrestrial Origin of Carbonado Diamonds , 2006, physics/0608014.

[193] C. Koeberl. Impact Processes on the Early Earth , 2006 .

[194] J. William Schopf,et al. The First Billion Years: When Did Life Emerge? , 2006 .

[195] A. Halliday. The Origin of the Earth - What's New? , 2006 .

[196] P. Weissman. The cometary impactor flux at the Earth , 2006, Proceedings of the International Astronomical Union.

[197] H. Bruiyn,et al. Geochemistry and petrogenesis of tholeiitic intrusions of possible Bushveld-age in the Vredefort Dome, South Africa , 2006 .

[198] D. Lowe,et al. Compositional grading in an ~3.24 Ga impact-produced spherule bed, Barberton greenstone belt, South Africa: A key to impact plume evolution , 2006 .

[199] A. Boyce,et al. Discovery of a 25-cm asteroid clast in the giant Morokweng impact crater, South Africa , 2006, Nature.

[200] J. Wendt,et al. Middle Devonian (Givetian) coral-stromatoporoid reefs in West Sahara (Morocco) , 2006 .

[201] C. Koeberl,et al. Investigation of Shuttle Radar Topography Mission data of the possible impact structure at Serra da Cangalha, Brazil , 2006 .

[202] W. Reimold,et al. The melt rocks of the Vredefort impact structure – Vredefort Granophyre and pseudotachylitic breccias: Implications for impact cratering and the evolution of the Witwatersrand Basin , 2006 .

[203] G. Ori,et al. Chemical compositions of impact melt breccias and target rocks from the Tenoumer impact crater, Mauritania , 2005 .

[204] F. Wieland,et al. Structural analysis of the collar of the Vredefort Dome, South Africa—Significance for impact‐related deformation and central uplift formation , 2005 .

[205] C. Koeberl,et al. Bosumtwi impact structure, Ghana: Geochemistry of impactites and target rocks, and search for a meteoritic component , 2005 .

[206] C. Koeberl,et al. Aorounga and Gweni Fada impact structures, Chad: Remote sensing, petrography, and geochemistry of target rocks , 2005 .

[207] A. Abels. Spider impact structure, Kimberley Plateau, Western Australia: interpretations of formation mechanism and age based on integrated map-scale data , 2005 .

[208] B. Ivanov. Numerical Modeling of the Largest Terrestrial Meteorite Craters , 2005 .

[209] R. Müller,et al. Geophysical evaluation of the enigmatic Bedout basement high, offshore northwestern Australia , 2005 .

[210] J. Burns,et al. Impact seeding and reseeding in the inner solar system. , 2005, Astrobiology.

[211] M. Jébrak,et al. Resolving the Richat enigma: Doming and hydrothermal karstification above an alkaline complex , 2005 .

[212] R. Armstrong,et al. Provenance ages of the Neoproterozoic Katanga Supergroup (Central African Copperbelt), with implications for basin evolution , 2005 .

[213] A. Reid,et al. Argon isotopic analysis of breccia veins from the Roter Kamm crater, Namibia, and implications for their thermal history , 2005 .

[214] S. L. Fontes,et al. An integrated magnetotelluric and aeromagnetic investigation of the Serra da Cangalha impact crater, Brazil , 2005 .

[215] R. J. Hart,et al. Palaeomagnetism of the Vredefort meteorite crater and implications for craters on Mars , 2005, Nature.

[216] H. Wenk,et al. Dauphiné twinning as evidence for an impact origin of preferred orientation in quartzite: An example from Vredefort, South Africa , 2005 .

[217] D. Ebel,et al. Spinel-bearing spherules condensed from the Chicxulub impact-vapor plume , 2005 .

[218] D. Groves,et al. The formation and preservation of the Witwatersrand Goldfields, the world's largest gold province , 2005 .

[219] E. Vicenzi,et al. Strange Diamonds: The Mysterious Origins of Carbonado and Framesite , 2005 .

[220] Donald W. Davis,et al. Discovery of distal ejecta from the 1850 Ma Sudbury impact event , 2005 .

[221] Dunyi Liu,et al. Internal zoning and U–Th–Pb chemistry of Jack Hills detrital zircons: a mineral record of early Archean to Mesoproterozoic (4348–1576 Ma) magmatism , 2004 .

[222] J. Overpeck,et al. A magnetic mineral record of Late Quaternary tropical climate variability from Lake Bosumtwi, Ghana , 2004 .

[223] Philippe Paillou,et al. Discovery of the largest impact crater field on Earth in the Gilf Kebir region, Egypt , 2004 .

[224] C. Koeberl,et al. Iridium anomalies and shocked quartz in a Late Archean spherule layer from the Pilbara craton: New evidence for a major asteroid impact at 2.63 Ga , 2004 .

[225] H. Melosh,et al. Is Bedout an Impact Crater? Take 2 , 2004, Science.

[226] A. Glikson. Comment on "Bedout: A Possible End-Permian Impact Crater Offshore of Northwestern Australia" , 2004, Science.

[227] J. Fineberg,et al. Shatter cones: Branched, rapid fractures formed by shock impact , 2004 .

[228] C. Nicholson,et al. Bedout: A Possible End-Permian Impact Crater Offshore of Northwestern Australia , 2004, Science.

[229] J. Morgan,et al. The Chicxulub Scientific Drilling Project (CSDP) , 2004 .

[230] B. Glass,et al. SPHERULE LAYERS—RECORDS OF ANCIENT IMPACTS , 2004 .

[231] S. Siegesmund,et al. Nature of the archean midcrust in the core of the Vredefort dome, Central Kaapvaal Craton, South Africa , 2004 .

[232] Elisabetta Pierazzo,et al. Proceedings of the workshop, Impact cratering: Bridging the gap between modeling and observations , 2004 .

[233] W. Reimold,et al. Geology and geochemistry of a granite-greenstone association in the southeastern Vredefort dome, South Africa , 2003 .

[234] Philippe Paillou,et al. Discovery of a double impact crater in Libya: The astrobleme of Arkenu , 2003 .

[235] H. Melosh,et al. The formation of shatter cones by shock wave interference during impacting , 2003 .

[236] Boris A. Ivanov,et al. Numerical modelling of the impact crater depth–diameter dependence in an acoustically fluidized target , 2003 .

[237] G. Pratesi,et al. Iron oxidation state in the Fe‐rich layer and silica matrix of Libyan Desert Glass: A high‐resolution XANES study , 2003 .

[238] C. Koeberl,et al. Geology and geochemistry of shallow drill cores from the Bosumtwi impact structure, Ghana , 2003 .

[239] W. Reimold,et al. Impact tectonics in the core of the Vredefort dome, South Africa: Implications for central uplift formation in very large impact structures , 2003 .

[240] C. Koeberl,et al. Geochemistry and petrography of impact breccias and target rocks from the 145 Ma Morokweng impact structure, South Africa , 2003 .

[241] M. Pilkington,et al. Transient and disruption cavity dimensions of complex terrestrial impact structures derived from magnetic data , 2003 .

[242] G. Lugmair,et al. Early Archean spherule beds; chromium isotopes confirm origin through multiple impacts of projectiles of carbonaceous chondrite type , 2003 .

[243] R. A. Gault. ALKALINE ROCKS AND CARBONATITES OF THE WORLD, PART 3: AFRICA.A.R. Woolley, 2001. The Geological Society Publishing House, Bath, U.K. U.S.A. Distributor AAPG Bookstore: bookstore@aapg.org. Hardback, 372 p. $142 ($85 AAPG members, $65 Geological Society of London members) , 2003 .

[244] A. J. Naldrett. From Impact to Riches: Evolution of Geological Understanding as Seen at Sudbury, Canada , 2003 .

[245] W. Reimold,et al. Archean crustal structure of the Kaapvaal craton, South Africa – evidence from the Vredefort dome , 2003 .

[246] C. Koeberl,et al. Kgagodi Basin: The first impact structure recognized in Botswana , 2002 .

[247] K. Brooks,et al. Pronounced central uplift identified in the Bosumtwi impact structure, Ghana, using multichannel seismic reflection data , 2002 .

[248] C. Koeberl,et al. Remote sensing, field studies, petrography, and geochemistry of rocks in central Zambia: no evidence of a meteoritic impact in the area of the Lukanga Swamp , 2002 .

[249] H. Leroux,et al. Shocked and thermally metamorphosed zircon from the Vredefort impact structure, South Africa: a transmission electron microscopic study , 2002 .

[250] D. Lowe,et al. An Archean Impact Layer from the Pilbara and Kaapvaal Cratons , 2002, Science.

[251] J. Fineberg,et al. Dynamic fracture by large extraterrestrial impacts as the origin of shatter cones , 2002, Nature.

[252] C. Koeberl,et al. A deep drillcore from the Morokweng impact structure, South Africa: petrography, geochemistry, and constraints on the crater size , 2002 .

[253] R. Gibson,et al. Late Archaean to Palaeoproterozoic geotherms in the Kaapvaal craton, South Africa: constraints on the thermal evolution of the Witwatersrand Basin , 2002 .

[254] W. Reimold,et al. Planar deformation features and impact glass in inclusions from the Vredefort Granophyre, South Africa , 2002 .

[255] S. Danuor,et al. Seismic investigation of the Lake Bosumtwi impact crater: Preliminary results , 2002 .

[256] R. Grieve,et al. Mineralogy and petrology of melt rocks from the Popigai impact structure, Siberia , 2002 .

[257] P. Schaaf,et al. Strontium and neodymium isotopic study of Libyan Desert Glass: Inherited Pan‐African age signatures and new evidence for target material , 2002 .

[258] H. Henkel,et al. Magnetic and gravity model of the Morokweng impact structure , 2002 .

[259] A. Rossi. Seven Possible New Impact Structures in Western Africa Detected on ASTER Imagery , 2002 .

[260] Falko Langenhorst,et al. Evidence for shock metamorphism in sandstones from the Libyan Desert Glass strewn field , 2001 .

[261] S. Master,et al. Age Constraints on the Luizi Structure, a Possible New Impact Structure on the Kundelungu Plateau, Katanga Province, Democratic Republic of Congo , 2001 .

[262] David E. James,et al. Crustal structure beneath southern Africa and its implications for the formation and evolution of the Kaapvaal and Zimbabwe cratons , 2001 .

[263] J. Lichtenegger,et al. Focus Earth: the Velingara circular structure - a meteorite impact crater? , 2001 .

[264] Robert B. Gibson,et al. Shock Pressure Distribution in the Vredefort Impact Structure, South Africa: Evidence from Feldspar and Ferromagnesian Minerals , 2001 .

[265] P. Claeys,et al. New evidence for a large Palaeoproterozoic impact: spherules in a dolomite layer in the Ketilidian orogen, South Greenland , 2001, Journal of the Geological Society.

[266] K. O'Hara,et al. Chemical and oxygen isotope composition of natural and artificial pseudotachylyte: role of water during frictional fusion , 2001 .

[267] M. Andreoli,et al. Platinum-group elements in the Morokweng impact structure, South Africa: Evidence for the impact of a large ordinary chondrite projectile at the Jurassic-Cretaceous boundary , 2001 .

[268] Simon A. Wilde,et al. Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4.4 Gyr ago , 2001, Nature.

[269] C. Koeberl,et al. Geochemical evidence for an impact origin for a Late Archean spherule layer, Transvaal Supergroup, South Africa , 2000 .

[270] W. Reimold,et al. 40Ar/39Ar constraints on the age of metamorphism in the Witwatersrand Supergroup, Vredefort dome (South Africa) , 2000 .

[271] B. Simonson,et al. Have distal impact ejecta changed through geologic time , 2000 .

[272] F. J. Kruger,et al. The Anna's Rust Sheet and related gabbroic intrusions in the Vredefort Dome-Kibaran magmatic event on the Kaapvaal Craton and beyond? , 2000 .

[273] L. Pesonen,et al. The Bosumtwi meteorite impact structure, Ghana: A magnetic model , 2000 .

[274] R. Grieve,et al. Vredefort, Sudbury, Chicxulub: Three of a Kind? , 2000 .

[275] W. Alvarez,et al. Chicxulub impact: The origin of reservoir and seal facies in the southeastern Mexico oil fields , 2000 .

[276] B. Simonson,et al. Discovery of a layer of probable impact melt spherules in the Late Archaean Jeerinah Formation, Fortescue Group, Western Australia , 2000 .

[277] D. Moser,et al. Archean age for the granulite facies metamorphism near the center of the Vredefort structure, South Africa , 1999 .

[278] C. Bootsman,et al. Evolution of the Molopo drainage and its possible disruption by the Morokweng impact event at the Jurassic-Cretaceous boundary , 1999 .

[279] K. V. Sankar,et al. Characterization of magnetite particles in shocked quartz by means of electron- and magnetic force microscopy: Vredefort, South Africa , 1999 .

[280] R. Carlson,et al. Ultramafic rocks at the center of the Vredefort structure: Further evidence for the crust on edge model , 1999 .

[281] Boris A. Ivanov,et al. IMPACT CRATER COLLAPSE , 1999 .

[282] L. Nicolaysen,et al. Vredefort shatter cones revisited , 1999 .

[283] S. Master,et al. The Velingara Ring Structure in Haute Casamance, Senegal: A Possible Large Buried Meteorite Impact Crater , 1999 .

[284] H. Henkel,et al. Magnetic Model of the Central Uplift of the Vredefort Impact Structure , 1999 .

[285] S. Master. The Kogo Structure (Equatorial Guinea) as a Possible Source Crater for the Origin of Carbonado Diamonds from Brazil and the Central African Republic , 1998 .

[286] C. Koeberl,et al. Petrology and geochemistry of target rocks from the Bosumtwi impact structure, Ghana, and comparison with Ivory Coast tektites , 1998 .

[287] C. Koeberl,et al. Detailed structural analysis of the rim of a large, complex impact crater: Bosumtwi Crater, Ghana , 1998 .

[288] C. Koeberl,et al. The Aouelloul crater, Mauritania: On the problem of confirming the impact origin of a small crater , 1998 .

[289] C. Koeberl,et al. Geophysical profile of the Roter Kamm impact crater, Namibia , 1998 .

[290] C. Koeberl,et al. THE 1992 DRILL CORE FROM THE KALKKOP IMPACT CRATER, EASTERN CAPE PROVINCE,SOUTH AFRICA : STRATIGRAPHY, PETROGRAPHY, GEOCHEMISTRY AND AGE , 1998 .

[291] H. Henkel,et al. Integrated geophysical modelling of a giant, complex impact structure: anatomy of the Vredefort Structure, South Africa , 1998 .

[292] M. Duane,et al. The "Nyika Plateau Structure," Malawi (Central Africa) Rediscovered: Not an Astrobleme , 1998 .

[293] W. Reimold. Exogenic and endogenic breccias: a discussion of major problematics , 1998 .

[294] B. Simonson,et al. IRIDIUM ANOMALY BUT NO SHOCKED QUARTZ FROM LATE ARCHEAN MICROKRYSTITE LAYER : OCEANIC IMPACT EJECTA ? , 1998 .

[295] W. Reimold,et al. Studies of the Rooiberg Group, Bushveld Complex, South Africa: No evidence for an impact origin , 1998 .

[296] C. Koeberl,et al. Re–Os isotope systematics as a diagnostic tool for the study of impact craters and distal ejecta , 1997 .

[297] C. Koeberl,et al. Morokweng, South Africa: A large impact structure of Jurassic-Cretaceous boundary age , 1997 .

[298] J. Grant,et al. Gradation of the Roter Kamm impact crater, Namibia , 1997 .

[299] C. Koeberl,et al. Suevite at the Roter Kamm impact crater, Namibia , 1997 .

[300] J. Barrat,et al. Geochemistry and origin of Libyan Desert glasses , 1997 .

[301] W. Reimold,et al. The age and thermal evolution of the Vredefort impact structure: A single-grain UPb zircon study , 1997 .

[302] W. Reimold,et al. A TEM study of deformed quartz grains from volcaniclastic sediments associated with the Bushveld Complex, South Africa , 1997 .

[303] C. Koeberl,et al. Geochemistry and age of Ivory Coast tektites and microtektites , 1997 .

[304] C. Henshaw. A possible new impact feature in the Okavango Delta , 1997 .

[305] A. Beran,et al. Water in tektites and impact glasses by fourier‐transformed infrared spectrometry , 1997 .

[306] G. Stevens,et al. Mid-crustal granulite facies metamorphism in the Central Kaapvaal craton: the Bushveld Complex connection , 1997 .

[307] D. Moser,et al. Late Jurassic age for the Morokweng impact structure, southern Africa , 1997 .

[308] E. Pierazzo,et al. Constraints on the size of the Vredefort impact crater from numerical modeling , 1997 .

[309] F. Waanders,et al. Vredefort: A model for the anatomy of an astrobleme , 1997 .

[310] Begosew Abate. Search for Impact Craters in Ethiopia: No Meteorite Impact Structure At Shakiso , 1997 .

[311] B. Simonson,et al. Revised correlations in the early Precambrian Hamersley Basin based on a horizon of resedimented impact spherules , 1997 .

[312] R. Grieve,et al. Original size of the Vredefort Structure: Implications for the geological evolution of the Witwatersrand Basin , 1997 .

[313] W. Reimold,et al. A 2.023 Ga age for the Vredefort impact event and a first report of shock metamorphosed zircons in pseudotachylitic breccias and Granophyre , 1996 .

[314] Benjamin F. Turner,et al. The geochemistry of Lake Bosumtwi, a hydrologically closed basin in the humid zone of tropical Ghana , 1996 .

[315] C. Koeberl,et al. Re-Os isotope and geochemical study of the Vredefort Granophyre: Clues to the origin of the Vredefort structure, South Africa , 1996 .

[316] John Scott,et al. New constraints on the Slate Islands impact structure, Ontario, Canada , 1996 .

[317] Benjamin F. Turner,et al. The hydrology of Lake Bosumtwi, a climate-sensitive lake in Ghana, West Africa , 1996 .

[318] B. Bohor,et al. Distinguishing shocked from tectonically deformed quartz by the use of the SEM and chemical etching , 1996 .

[319] W. Reimold,et al. Experimental constraints on shock-induced microstructures in naturally deformed silicates , 1996 .

[320] M. Mushayandebvu,et al. Effective elastic thickness of the continental lithosphere in South Africa , 1996 .

[321] G. Bigazzi,et al. New fission‐track age determinations on impact glasses , 1996 .

[322] H. Melosh. Dynamical weakening of faults by acoustic fluidization , 1996, Nature.

[323] R. Gibson,et al. Low pressure-high temperature metamorphism in the Vredefort Dome, South Africa: Anticlockwise pressure-temperature path followed by rapid decompression , 1995 .

[324] Wolf Uwe Reimold,et al. Pseudotachylite in impact structures — generation by friction melting and shock brecciation?: A review and discussion , 1995 .

[325] W. Reimold,et al. The petrology of the igneous rocks occurring in the Pretoria Saltpan impact crater and surrounding area , 1995 .

[326] W. Reimold,et al. The geology of the Pretoria Saltpan impact structure and the surrounding area , 1995 .

[327] C. Koeberl,et al. Early Archaean spherule beds in the Barberton Mountain Land, South Africa: no evidence for impact origin , 1995 .

[328] J. Spray,et al. Laser probe argon‐40/argon‐39 dating of coesite‐ and stishovite‐bearing pseudotachylytes and the age of the Vredefort impact event , 1995 .

[329] W. Reimold,et al. The Sinamwenda Structure--A Small New Meteorite Impact Crater in Triassic (Upper Karoo) Sandstones of Western Zimbabwe , 1995 .

[330] M. Andreoli,et al. Magnetic anomaly near the center of the Vredefort structure: Implications for impact-related magnetic signatures , 1995 .

[331] J. Gerald,et al. Large volumes of anhydrous pseudotachylyte in the Woodroffe Thrust, eastern Musgrave Ranges, Australia , 1995 .

[332] T. Trucano,et al. Watching for fireballs on Jupiter , 1994 .

[333] C. Koeberl,et al. Saltpan impact crater, South Africa: Geochemistry of target rocks, breccias, and impact glasses, and osmium isotope systematics , 1994 .

[334] J. Bishop,et al. Roter Kamm impact crater, Namibia: Geochemistry of basement rocks and breccias , 1994 .

[335] U. Schärer,et al. Dating Terrestrial Impact Events , 1994 .

[336] Christian Koeberl,et al. African meteorite impact craters: characteristics and geological importance , 1994 .

[337] Falko Langenhorst,et al. Shock metamorphism of quartz in nature and experiment: I. Basic observation and theory* , 1994 .

[338] H. Leroux,et al. A TEM investigation of shock metamorphism in quartz from the Vredefort dome, South Africa , 1994 .

[339] C. Koeberl,et al. Kalkkop Crater, Cape Province, South Africa: Confirmation of impact origin using osmium isotope systematics , 1994 .

[340] P. Spudis,et al. Chicxulub Multiring Impact Basin: Size and Other Characteristics Derived from Gravity Analysis , 1993, Science.

[341] S. Master. Is the Bangweulu Basin in Zambia the Eroded Remnant of a Large, Multiring Impact Crater? , 1993 .

[342] K. Nagao,et al. The Age of the Roter Kamm Impact Crater, Namibia: Constraints from 40Ar-39Ar, K-Ar, Rb-Sr, Fission Track, and 10Be-26Al Studies , 1993 .

[343] H. Henkel. Geophysical aspects of meteorite impact craters in eroded shield environment, with special emphasis on electric resistivity , 1992 .

[344] William J. Nellis,et al. Shock metamorphism of quartz with initial temperatures −170 to + 1000° C , 1992 .

[345] E. K. Reimold,et al. Testing younger than 2 Ga40 Ar-39 Ar ages for pseudotachylite from the Vredefort structure , 1992 .

[346] P. Taylor,et al. A possible impact origin for the Bangui magnetic anomaly (Central Africa) , 1992 .

[347] B. Simonson. Geological evidence for a strewn field of impact spherules in the early Precambrian Hamersley Basin of Western Australia , 1992 .

[348] Mark Pilkington,et al. The geophysical signature of terrestrial impact craters , 1992 .

[349] F. Langenhorst,et al. Effect of temperature on shock metamorphism of single-crystal quartz , 1992, Nature.

[350] D. Lowe,et al. Noble metal abundances in an Early Archean impact deposit. , 1992, Geochimica et cosmochimica acta.

[351] K. Keil,et al. Shock metamorphism of ordinary chondrites , 1991 .

[352] R. Armstrong,et al. Zircon ion microprobe studies bearing on the age and evolution of the Witwatersrand triad , 1991 .

[353] C. Koeberl,et al. Noble gases and K-Ar ages in Aouelloul, Zhamanshin, and Libyan Desert impact glasses , 1991 .

[354] D. Kent,et al. Ivory Coast microtektite strewn field: description and relation to the Jaramillo geomagnetic event , 1991 .

[355] M. Andreoli,et al. Aspects of the dynamic and thermal metamorphic history of the Vredefort cryptoexplosion structure: implications for its origin. , 1991 .

[356] J. Martini. The nature, distribution and genesis of the coesite and stishovite associated with the pseudotachylite of the Vredefort Dome, South Africa , 1991 .

[357] C. Koeberl,et al. Geochemistry of Impact Glass from the Aouelloul Crater, Mauritania , 1991 .

[358] W. Reimold. The controversial microdeformations in quartz from the Vredefort Structure, South Africa; a discussion , 1990 .

[359] W. Reimold,et al. Review of the pseudotachylites in and around the Vredefort "Dome", South Africa , 1990 .

[360] W. Reimold,et al. The HMX mixing calculation program , 1989 .

[361] D. Lowe,et al. Geological and Geochemical Record of 3400-Million-Year-Old Terrestrial Meteorite Impacts , 1989, Science.

[362] W. Reimold,et al. Some notes and speculations on the pseudotachylites in the Witwatersrand Basin and Vredefort Dome, South Africa , 1989 .

[363] C. Koeberl,et al. Anomalous quartz from the roter kamm impact crater, Namibia: Evidence for post-impact hydrothermal activity? , 1989 .

[364] J. Garvin,et al. Test of a geometric model for the modification stage of simple impact crater development , 1989 .

[365] G. Pe‐Piper,et al. Montagnais: A submarine impact structure on the Scotian Shelf, eastern Canada , 1989 .

[366] H. Coetzee,et al. The geochronology, Sr- and Pb- isotope geochemistry of the Losberg Complex, and the southern limit of Bushveld Complex magmatism , 1989 .

[367] R. Grieve,et al. Terrestrial Impact Structures , 1987 .

[368] W. Reimold,et al. The pseudotachylite from Champagnac in the Rochechouart Meteorite Crater, France , 1987 .

[369] W. B. Jones,et al. Chemical analyses of Bosumtwi crater target rocks compared with the Ivory Coast tektites , 1985 .

[370] R. Harmer. Rb-Sr isotopic study of units of the Pienaars River Alkakine Complex, north of Pretoria, South Africa , 1985 .

[371] S. Vrána. LUKANGA SWAM: PROBABLY ASTROBLEME , 1985 .

[372] R. Grieve. The impact cratering rate in recent time , 1984 .

[373] P. Ashton,et al. Limnological studies on the Pretoria Salt Pan, a hypersaline maar lake , 1983, Hydrobiologia.

[374] G. Wasserburg,et al. Age and provenance of the target materials for tektites and possible impactites as inferred from Sm-Nd and Rb-Sr systematics , 1982 .

[375] P. Lilly. Shock metamorphism in the Vredefort Collar: Evidence for internal shock sources , 1981 .

[376] L. Nicolaysen,et al. Radioelement concentrations in the deep profile through Precambrian basement of the Vredefort structure , 1981 .

[377] R. F. Fudall. The Major Element Chemistry of Libyan Desert Glass and the Mineralogy of its Precursor , 1981 .

[378] Robert S. Dietz,et al. Impact and Impact-Like Structures in Algeria. Part II: Multi-Ringed Structures , 1981 .

[379] F. El-Baz. Circular feature among dunes of the great sand sea, egypt. , 1981, Science.

[380] David A. Hastings,et al. The Lake Bosumtwi impact crater, Ghana , 1981 .

[381] R. Hargraves,et al. The Reitz ring: a possible circular structure, 350–500 km in diameter, in South Africa , 1981 .

[382] R. Dietz,et al. IMPACT AND IMPACT-LIKE STRUCTURES IN ALGERIA PART I FOUR BOWL-SHAPED DEPRESSIONS , 1980 .

[383] B. Glass,et al. The Ivory Coast microtektite strewnfield: new data , 1979 .

[384] J. Martini. Coesite and stishovite in the Vredefort Dome, South Africa , 1978, Nature.

[385] J. R. Underwood,et al. New investigations of the strewn field of Libyan desert glass and its petrography , 1976 .

[386] R. C. Rhodes. New evidence for impact origin of the Bushveld Complex, South Africa , 1975 .

[387] B. French,et al. Shock-Metamorphic Features in Two Meteorite Impact Structures, Southeastern Libya , 1974 .

[388] R. F. Fudali. Genesis of the melt rocks at Tenoumer Crater, Mauritania , 1974 .

[389] R. F. Fudali. ROTER KAMM: EVIDENCE FOR AN IMPACT ORIGIN , 1973 .

[390] D. Stoeffler. Deformation and transformation of rock-forming minerals by natural and experimental shock processes. I - Behavior of minerals under shock compression. , 1972 .

[391] B. French,et al. Aouelloul glass: Aluminum 26 limit and some geochemical comparisons with Zli sandstone , 1972 .

[392] W. Cassidy,et al. GRAVITY RECONNAISSANCE AT THREE MAURITANIAN CRATERS OF EXPLOSIVE ORIGIN , 1972 .

[393] D. Mossman. A POSSIBLE RECENT METEORITE IMPACT SITE NEAR THE BORDER BETWEEN ZAMBIA AND MALAWI , 1972 .

[394] D. Stöffler. Progressive metamorphism and classification of shocked and brecciated crystalline rocks at impact craters , 1971 .

[395] N. Short,et al. Tenoumer crater, Mauritania - Age and petrologic evidence for origin by meteorite impact , 1970 .

[396] R. F. Fudali. Coesite from the Richat Dome, Mauritania: A Misidentification , 1969, Science.

[397] E. Preuss. Verschleppte Tektite in Liberia , 1969, Naturwissenschaften.

[398] B. Glass. Chemical composition of Ivory Coast microtektites. , 1969 .

[399] A. Martin. Possible Impact Structure in Southern Cyrenaica, Libya , 1969, Nature.

[400] R. Dietz,et al. Richat and Semsiyat Domes (Mauritania): Not Astroblemes , 1969 .

[401] B. Glass. Glassy Objects (Microtektites?) from Deep-Sea Sediments near the Ivory Coast , 1968, Science.

[402] E. Preuss,et al. Der erste Tektitfund in Liberia , 1968, Naturwissenschaften.

[403] H. H. Thomas,et al. Rare-earth and barium abundances in Ivory Coast tektites and rocks from the Bosumtwi Crater area, Ghana , 1967 .

[404] E. Dwornik,et al. Nickel-Iron Spherules from Aouelioul Glass , 1966, Science.

[405] C. Schnetzler,et al. Rubidium-Strontium Age of the Bosumtwi Crater Area, Ghana, Compared with the Age of the Ivory Coast Tektites , 1966, Science.

[406] N. Carter. Basal quartz deformation lamellae; a criterion for recognition of impactites , 1965 .

[407] A. Goresy. Baddeleyite and its significance in impact glasses , 1965 .

[408] W. Manton. THE ORIENTATION AND ORIGIN OF SHATTER CONES IN THE VREDEFORT RING , 1965 .

[409] R. Dietz. Roter Kamm, Southwest Africa: Probable Meteorite Crater , 1965 .

[410] A. Hallam,et al. Geology of Africa , 1963 .

[411] R. Dietz. Vredefort Ring Structure: Meteorite Impact Scar? , 1961, The Journal of Geology.

[412] R. Karpoff. The Meteorite Crater of Talemzane in Southern Algeria , 1953 .

[413] R. Daly. The Vredefort Ring-Structure of South Africa , 1947, The Journal of Geology.

[414] H. Rohleder. The Steinheim Basin and the Pretoria Salt Pan. Volcanic or Meteoric Origin? , 1933, Geological Magazine.

[415] S. J. Shand. The Pseudotachylyte of Parijs (Orange Free State), and its Relation to ‘Trap-Shotten Gneiss’ and ‘Flinty Crush-Rock’ , 1916, Quarterly Journal of the Geological Society of London.

[416] Jonas Schreiber,et al. Solar System Evolution A New Perspective , 2016 .

[417] H. Wilkes,et al. Biocoenosis response to hydrological variability in Southern Africa during the last 84 ka BP: A study of lipid biomarkers and compound-specific stable carbon and hydrogen isotopes from the hypersaline Lake Tswaing , 2014, GPC 2014.

[418] C. Koeberl. The Geochemistry and Cosmochemistry of Impacts , 2014 .

[419] D. Moser,et al. Correlating planar microstructures in shocked zircon from the Vredefort Dome at multiple scales: Crystallographic modeling, external and internal imaging, and EBSD structural analysis , 2013 .

[420] N. Artemieva,et al. Petrography of the impact breccias of the Enkingen (SUBO 18) drill core, southern Ries crater, Germany: New estimate of impact melt volume , 2012 .

[421] B. Weiss,et al. Lightning remagnetization of the Vredefort impact crater: No evidence for impact-generated magnetic fields , 2012 .

[422] M. Rappenglück,et al. The Chiemgau Crater Strewn Field: Evidence of a Holocene Large Impact Event in Southeast Bavaria, Germany , 2010 .

[423] K. Wünnemann,et al. Scaling of impact crater formation on planetary surfaces , 2010 .

[424] Christian Koeberl,et al. The convincing identification of terrestrial meteorite impact structures: What works, what doesn't, and why , 2010 .

[425] Hazard Mitigation Strategies. Defending planet Earth : near-Earth-object surveys and hazard mitigation strategies , 2010 .

[426] C. Koeberl,et al. Characterisation of ballen quartz and cristobalite in impact breccias: new observations and constraints on ballen formation , 2009 .

[427] H. Melosh,et al. A Model for the Formation of the Chesapeake Bay Impact Crater as Revealed by Drilling and Numerical Simulation , 2009 .

[428] D. Kring,et al. Rim uplift and crater shape in Meteor Crater: Effects of target heterogeneities and trajectory obliquity , 2009 .

[429] M. Andreoli,et al. The Morokweng Impact Crater, South Africa: A Complex, Multiring Structure with a ~130 km Radius External Ring and Asymmetric Radial Sectors , 2008 .

[430] G. Matton. Le complexe crétacé du Richat (Mauritanie) : un processus alcalin péri-Atlantique , 2008 .

[431] P. Beck,et al. High-pressure mineral assemblages in shocked meteorites and shocked terrestrial rocks: Mechanisms of phase transformations and constraints to pressure and temperature histories , 2007 .

[432] C. Koeberl. 1.28 – The Geochemistry and Cosmochemistry of Impacts , 2007 .

[433] M. Schmieder,et al. Short note: The Faya basin (N Chad, Africa) – A possible impact structure? , 2007 .

[434] A. Hofmann,et al. Archean spherule layers in the Barberton greenstone belt, South Africa: A discussion of problems related to the impact interpretation , 2006 .

[435] J. Rouzaud,et al. The 3.466 Ga "Kitty's Gap Chert," an early Archean microbial ecosystem , 2006 .

[436] W. Reimold,et al. SHRIMP zircon age constraints on Mesoarchean crustal development in the Vredefort dome, central Kaapvaal Craton, South Africa , 2006 .

[437] C. Koeberl. The record of impact processes on the early Earth: A review of the first 2.5 billion years , 2006 .

[438] Boris A. Ivanov,et al. Cratering History and Lunar Chronology , 2006 .

[439] M. Cintala,et al. Large-scale impacts and the evolution of the Earth's crust: The early years , 2006 .

[440] A. Gale,et al. Geochemical search for impact signatures in possible impact-generated units associated with the Jurassic-Cretaceous Boundary in Southern England and Northern France , 2006 .

[441] Christian Koeberl,et al. BP and Oasis Impact Structures, Libya: Remote Sensing and Field Studies , 2005 .

[442] Elisabetta Pierazzo,et al. Impact structures: What does crater diameter mean? , 2005 .

[443] B. Dressler,et al. Economic Mineral Deposits in Impact Structures: A Review , 2005 .

[444] C. Koeberl,et al. Silicified Cone-in-Cone Structures from Erfoud (Morocco): A Comparison with Impact-Generated Shatter Cones , 2005 .

[445] R. Grieve. Economic natural resource deposits at terrestrial impact structures , 2005, Geological Society, London, Special Publications.

[446] W. Reimold,et al. Gold mineralization within the Witwatersrand Basin, South Africa: evidence for a modified placer origin, and the role of the Vredefort impact event , 2005, Geological Society, London, Special Publications.

[447] J. Morgan,et al. Is Ries crater typical for its size? An analysis based upon old and new geophysical data and numerical modeling , 2005 .

[448] James G. Ogg,et al. A Geologic Time Scale 2004: CONCEPTS AND METHODS , 2004 .

[449] P. Ashton,et al. Thermal stratification and the stability of meromixis in the Pretoria Salt Pan, South Africa , 2004, Hydrobiologia.

[450] C. Koeberl,et al. Petrography and Geochemistry of a Deep Drill Core from the Edge of the Morokweng Impact Structure, South Africa , 2003 .

[451] Frank Asaro,et al. Spherule beds 3.47-3.24 billion years old in the Barberton Greenstone Belt, South Africa: a record of large meteorite impacts and their influence on early crustal and biological evolution. , 2003, Astrobiology.

[452] C. Koeberl. The Late Heavy Bombardment in the Inner Solar System: , 2003 .

[453] B. Simonson. Petrographic criteria for recognizing certain types of impact spherules in well-preserved precambrian successions. , 2003, Astrobiology.

[454] M. Naumov. Impact-Generated Hydrothermal Systems: Data from Popigai, Kara, and Puchezh-Katunki Impact Structures , 2002 .

[455] B. Peucker‐Ehrenbrink,et al. A comparison of the osmium and chromium isotopic methods for the detection of meteoritic components in impactites: Examples from the Morokweng and Vredefort Impact Structures, South Africa , 2002 .

[456] C. Koeberl,et al. Geochemistry of Soils from the Bosumtwi Impact Structure, Ghana, and Relationship to Radiometric Airborne Geophysical Data , 2002 .

[457] W. Hartmann,et al. The Comparison of Size-Frequency Distributions of Impact Craters and Asteroids and the Planetary Cratering Rate , 2002 .

[458] R. Wagner,et al. Bosumtwi Impact Crater, Ghana: A Remote Sensing Investigation , 2002 .

[459] G. Horneck. Bacterial Spores Survive Simulated Meteorite Impact , 2001 .

[460] S. Mojzsis,et al. Heavy Bombardment on the Earth at ~3.85 Ga: The Search for Petrographic and Geochemical Evidence , 2000 .

[461] W. Reimold,et al. GEOPHYSICAL EVIDENCE FOR POSSIBLE LARGE IMPACT STRUCTURES IN THE ARCHEAN SHIELD OF NORTHERN GABON (CENTRAL AFRICA) , 2000 .

[462] William K. Hartmann,et al. The Time-Dependent Intense Bombardment of the Primordial Earth/Moon System , 2000 .

[463] Christian Koeberl,et al. Impact Stratigraphy: The Italian Record , 2000 .

[464] D. Lowe,et al. The oldest impact deposits on Earth - First confirmation of an extraterrestrial component , 2000 .

[465] W. Reimold,et al. Deeply exhumed impact structures: A case study of the Vredefort structure, South Africa , 2000 .

[466] F. Waanders,et al. The Foch Thrust-Potchefstroom Fault structural system, Vredefort, South Africa: a model for impact-related tectonic movement over a pre-existing barrier , 2000 .

[467] C. Koeberl,et al. Early Archean Spherule Beds in the Barberton Mountain Land, South Africa: Impact or Terrestrial Origin? , 2000 .

[468] N. Beukes,et al. Late Archean impact spherule layer in South Africa that may correlate with a Western Australian layer , 1999 .

[469] F. J. Kruger,et al. Morokweng impact structure, South Africa: Geologic, petrographic, and isotopic results, and implications for the size of the structure , 1999 .

[470] C. Koeberl,et al. BP and Oasis impact structures, Libya, and their relation to Libyan Desert Glass , 1999 .

[471] Bevan M. French,et al. Traces of Catastrophe: A Handbook of Shock-Metamorphic Effects in Terrestrial Meteorite Impact Structures , 1998 .

[472] D. Miallier,et al. TL and ESR of quartz from the astrobleme of Aorounga (Sahara of Chad) , 1997 .

[473] C. Koeberl,et al. Morokweng impact structure, Northwest Province, South Africa: geophysical imaging and shock petrographic studies , 1997 .

[474] D. J. Milton,et al. Gosses Bluff - a latest Jurassic impact structure, central Australia. Part 1: geological structure, stratigraphy, and origin , 1996 .

[475] P. Vincent,et al. Découverte d'un nouveau cratère d'impact météoritique en Afrique : l'astroblème de Gweni-Fada (Ennedi, Sahara du Tchad) , 1996 .

[476] Falko Langenhorst,et al. Shock metamorphism of quartz in nature and experiment: II. Significance in geoscience* , 1996 .

[477] R. Cawthorn.,et al. The Bushveld Complex , 1996 .

[478] M. Coward,et al. Development of the Witwatersrand Basin, South Africa , 1995, Geological Society, London, Special Publications.

[479] E. Zeroual. Enregistrements climatiques dans les sédiments du lac Isli (Haut Atlas du Maroc) , 1995 .

[480] J. Grant,et al. Erosion of ejecta at meteor crater: constraints from ground penetrating radar , 1994 .

[481] B. N. Carpenter,et al. The Ames Impact Crater , 1994 .

[482] John C. Green,et al. Extensive felsic lavas and rheoignimbrites in the Keweenawan Midcontinent Rift plateau volcanics, Minnesota: petrographic and field recognition , 1993 .

[483] A. Reid,et al. Breccia veins and dykes associated with the Roter Kamm Crater, Namibia , 1992 .

[484] J. Becq-Giraudon,et al. Impact hypervéloce d'une météorite géante à l'origine de la dépression circulaire d'Aorounga au Tchad (Afrique) , 1992 .

[485] H. Taguchi,et al. Survival rates of some terrestrial microorganisms under simulated space conditions. , 1992, Advances in space research : the official journal of the Committee on Space Research.

[486] W. Reimold,et al. Pseudotachylites of the Vredefort Dome and the surrounding Witwatersrand Basin, South Africa , 1992 .

[487] R. Grieve,et al. Microscopic planar deformation features in quartz of the Vredefort structure: Anomalous but still suggestive of an impact origin☆ , 1990 .

[488] B. French. Absence of shock-metamorphic effects in the Bushveld Complex, South Africa: results of an intensive search , 1990 .

[489] B. French,et al. Vredefort bronzite granophyre: chemical evidence for origin as a meteorite impact melt , 1990 .

[490] P. Dumont. Plaidoyer pour une revalorisation des photographies aériennes , 1990 .

[491] M. Andreoli,et al. Geochemistry across an exposed section of Archaean crust at Vredefort, South Africa: with implications for mid-crustal discontinuities☆ , 1990 .

[492] D. Stepto. The geology and gravity field in the central core of the Vredefort structure , 1990 .

[493] L. Nicolaysen,et al. Relationships between the Vredefort structure and the Witwatersrand basin within the tectonic framework of the Kaapvaal craton as interpreted from regional gravity and aeromagnetic data , 1990 .

[494] W. P. Colliston. A model of compressional tectonics for the origin of the Vredefort structure , 1990 .

[495] David S. G. Thomas,et al. The deposition and development of the Kalahari Group sediments, Central Southern Africa , 1990 .

[496] L. Nicolaysen,et al. Processed and enhanced gravity and magnetic images over the Vredefort structure and their interpretation , 1990 .

[497] R. Green,et al. Seismic refraction studies in the basement of the Vredefort structure , 1990 .

[498] W. Reimold,et al. The Roter Kamm Impact Crater, Swa/namibia , 1989 .

[499] W. Reimold,et al. Geological Indicators for Impact - The Anomalous Case of the Vredefort Structure, South Africa , 1988 .

[500] Eugene M. Shoemaker,et al. Asteroid and comet flux in the neighborhood of the earth , 1988 .

[501] H. Melosh. Impact Cratering: A Geologic Process , 1986 .

[502] E. M. Shoemaker,et al. Large Body Impacts Through Geologic Time , 1984 .

[503] R. Grieve. Large-scale impact cratering on the terrestrial planets☆ , 1982 .

[504] A. Bisschoff. Thermal metamorphism in the Vredefort Dome : (text of Presidential Address delivered at Geocongress '81 in Pretoria, July 1981) , 1982 .

[505] P. Lambert. Breccia dikes - Geological constraints on the formation of complex craters , 1981 .

[506] J. Morgan,et al. Meteoritic material in four terrestrial meteorite craters , 1975 .

[507] B. Kleinmann. The breakdown of zircon observed in the Libyan desert glass as evidence of its impact origin , 1968 .

[508] A. Goresy. Metallic spherules in Bosumtwi crater glasses , 1966 .

[509] O. Müller,et al. Notizen: Das Kalium-Argon-Alter des Bosumtwi-Kraters in Ghana und die chemische Beschaffenheit seiner Gläser , 1964 .

[510] A. Allix. Note et correspondance, à propos des cratères météoriques , 1951 .

[511] G. Molengraaff,et al. The Vredefort mountain land in the Southern Transvaal and the Northern Orange Free State , 1925 .