This work is licensed under the Creative Commons Attribution 4.0 International License.
Aaloe, A 1963, ‘New data on the structure of Ilumetsa craters’, Eesti NSV Teaduste Akadeemia Geoloogia Instituudi uurimused, vol. 11, pp. 35–43.AaloeA1963‘New data on the structure of Ilumetsa craters’113543Search in Google Scholar
Alvarez, LW, Alvarez, W, Asaro, F & Michel, HV 1980, ‘Extraterrestrial cause for the Cretaceous-Tertiary extinction’, Science, vol. 208, pp. 1095–1108.AlvarezLWAlvarezWAsaroFMichelHV1980‘Extraterrestrial cause for the Cretaceous-Tertiary extinction’20810951108Search in Google Scholar
Artemieva, N & Shuvalov, V 2019, ‘Atmospheric shock waves after impacts of cosmic bodies up to 1000 m in diameter’, Meteoritics & Planetary Science, vol. 54, pp. 592–608.ArtemievaNShuvalovV2019‘Atmospheric shock waves after impacts of cosmic bodies up to 1000 m in diameter’54592608Search in Google Scholar
Barringer, DM 1909, ‘Meteor Crater (Formerly called Coon Mountain or Coon Butte) in Northern Central Arizona’, A paper read before the National Academy of Sciences, 16 November 1909.BarringerDM1909A paper read before the National Academy of Sciences16 November 1909Search in Google Scholar
Beauford, R 2015, Physical records of impacts in the early and modern solar system. Ph.D. thesis, University of Arkansas. Available from: <https://scholarworks.uark.edu/cgi/viewcontent.cgi?article=2038&context=etd>. [10 April 2023].BeaufordR2015Ph.D. thesis,University of ArkansasAvailable from: <https://scholarworks.uark.edu/cgi/viewcontent.cgi?article=2038&context=etd>. [10 April 2023].Search in Google Scholar
Bland, PA & Artemieva, N 2006, ‘The rate of small impacts on Earth’, Meteoritics & Planetary Science, vol. 41, p. 607–631.BlandPAArtemievaN2006‘The rate of small impacts on Earth’41607631Search in Google Scholar
Bronikowska, M, Artemieva, N & Wuennemann, K 2017, ‘Reconstruction of the Morasko meteoroid impact–Insight from numerical modelling’, Meteoritics & Planetary Science, vol. 52, pp. 1704–1721.BronikowskaMArtemievaNWuennemannK2017‘Reconstruction of the Morasko meteoroid impact–Insight from numerical modelling’5217041721Search in Google Scholar
Cassidy, WA, Villar, LM, Bunch, TE, Kohman, TP & Milton, DJ 1965, ‘Meteorites and craters Campo del Cielo, Argentina’, Science, vol. 149, pp. 1055–1064.CassidyWAVillarLMBunchTEKohmanTPMiltonDJ1965‘Meteorites and craters Campo del Cielo, Argentina’14910551064Search in Google Scholar
Chao, ECT, Shoemaker, EM & Madsen, BM 1960, ‘First natural occurrence of coesite’, Science, vol. 132, pp. 220–222.ChaoECTShoemakerEMMadsenBM1960‘First natural occurrence of coesite’132220222Search in Google Scholar
CNEOS, 2023. Available from: < cneos.jpl.nasa.gov>. [12 April 2023].CNEOS2023Available from: < cneos.jpl.nasa.gov>. [12 April 2023].Search in Google Scholar
Daubar, IJ, McEwen, AS, Byrne, S., Kennedy, MR & Ivanov, B 2013, ‘The current martian cratering rate’, Icarus, vol. 225, pp. 506–516.DaubarIJMcEwenASByrneS.KennedyMRIvanovB2013‘The current martian cratering rate’225506516Search in Google Scholar
D’Orazio, M, Folco, L, Zeoli, A & Cordier, C 2011, ‘Gebel Kamil: The iron meteorite that formed the Kamil Crater (Egypt)’, Meteoritics & Planetary Science, vol. 46, pp. 1179–1196.D’OrazioMFolcoLZeoliACordierC2011‘Gebel Kamil: The iron meteorite that formed the Kamil Crater (Egypt)’4611791196Search in Google Scholar
Fazio, A, Folco, L, D’Orazio M, Frezzotti ML & Cordier C 2014, ‘Shock metamorphism and impact melting in small impact craters on Earth: Evidence from Kamil Crater, Egypt’, Meteoritics & Planetary Science, vol. 49, pp. 2175–2200.FazioAFolcoLD’OrazioMFrezzottiMLCordierC2014‘Shock metamorphism and impact melting in small impact craters on Earth: Evidence from Kamil Crater, Egypt’4921752200Search in Google Scholar
Florenskiy, KP 1963, ‘Preliminary results from the 1961 combined Tunguska meteorite expedition’. Meteoritica, vol. 23, pp. 3–29.FlorenskiyKP1963‘Preliminary results from the 1961 combined Tunguska meteorite expedition’23329Search in Google Scholar
Folco, L, Di Martino M, El Barkooky, A, D’Orazio, M, Lethy, A, Urbini, S, Nicolosi, I, Hafez, M, Cordier, C, van Ginneken, M, Zeoli, A, Radwan, AM, El Khrepy, S, El Gabry, M, Gomaa, M, Barakat, AA, Serra, R & El Sharkawi, M 2011, ‘Kamil Crater (Egypt): ground truth for small-scale meteorite impacts on Earth’, Geology, vol. 39, pp. 179–182.FolcoLDi MartinoMEl BarkookyAD’OrazioMLethyAUrbiniSNicolosiIHafezMCordierCvan GinnekenMZeoliARadwanAMEl KhrepySEl GabryMGomaaMBarakatAASerraREl SharkawiM2011‘Kamil Crater (Egypt): ground truth for small-scale meteorite impacts on Earth’39179182Search in Google Scholar
French, BM 1998, ‘Traces of catastrophe: A handbook of shock-metamorphic effects in Terrestrial Meteorite impact structures’, LPI Contribution, no. 954, Lunar and Planetary Institute, Houston.FrenchBM1998LPI Contribution, no. 954,Lunar and Planetary InstituteHoustonSearch in Google Scholar
French, BM & Koeberl, C 2010, ‘The convincing identification of terrestrial meteorite impact structures: What works, what doesn’t, and why’, Earth-Science Reviews, vol. 98, pp. 123–170.FrenchBMKoeberlC2010‘The convincing identification of terrestrial meteorite impact structures: What works, what doesn’t, and why’98123170Search in Google Scholar
Gnos, E, Hofmann, BA, Halawani, MA, Tarabulsi, Y, Hakeem, M, Shanti, M, Greber, ND, Holm, S, Alwmark, C, Greenwood, RC & Ramseyer, K 2013, ‘The Wabar impact craters, Saudi Arabia, revisited’, Meteoritics & Planetary Science, vol. 48, pp. 2000–2014.GnosEHofmannBAHalawaniMATarabulsiYHakeemMShantiMGreberNDHolmSAlwmarkCGreenwoodRCRamseyerK2013‘The Wabar impact craters, Saudi Arabia, revisited’4820002014Search in Google Scholar
Gordeev, EI, Kulichkov, SN, Firstov PP 2018, ‘Infrasonic waves and assessment of the explosion energy of the Bering Sea Meteoroid on December 19, 2018’, Doklady Earth Science, vol. 489, pp. 1436–1439.GordeevEIKulichkovSNFirstovPP2018‘Infrasonic waves and assessment of the explosion energy of the Bering Sea Meteoroid on December 19, 2018’48914361439Search in Google Scholar
Hamacher, DW & O’Neill, C 2013, ‘The discovery and history of the Dalgaranga meteorite crater, Western Australia’, Australian Journal of Earth Science, vol. 60, pp. 637–646.HamacherDWO’NeillC2013‘The discovery and history of the Dalgaranga meteorite crater, Western Australia’60637646Search in Google Scholar
Herd, CDK, Froese, DG, Walton, EL, Kofman, RS, Herd, EPK & Duke, MJM 2008, ‘Anatomy of a young impact event in central Alberta, Canada: Prospects for the missing Holocene impact record’, Geology, vol. 36, pp. 955–958.HerdCDKFroeseDGWaltonELKofmanRSHerdEPKDukeMJM2008‘Anatomy of a young impact event in central Alberta, Canada: Prospects for the missing Holocene impact record’36955958Search in Google Scholar
Hildebrand, AR, Penfield, GT, Kring, DA, Pilkington, M, Camargo, AZ, Jacobsen, SB & Boynton, WV 1991, ‘Chicxulub Crater: A possible Cretaceous/Tertiary boundary impact crater on the Yucatán Peninsula, Mexico’, Geology, vol. 19, pp. 867–871.HildebrandARPenfieldGTKringDAPilkingtonMCamargoAZJacobsenSBBoyntonWV1991‘Chicxulub Crater: A possible Cretaceous/Tertiary boundary impact crater on the Yucatán Peninsula, Mexico’19867871Search in Google Scholar
Honda, M, Caffee, MW, Miura, YN, Nagai, H, Nagao, K & Nishiizumi, K 2002, ‘Cosmogenic nuclides in the Brenham pallasite’, Meteoritics & Planetary Science, vol. 37, pp. 1711–1728.HondaMCaffeeMWMiuraYNNagaiHNagaoKNishiizumiK2002‘Cosmogenic nuclides in the Brenham pallasite’3717111728Search in Google Scholar
Kenkmann, T, Sundell, KA, & Cook, D 2018, ‘Evidence for a large Paleozoic impact crater strewn field in the Rocky Mountains’, Scientific Reports, vol. 8.KenkmannTSundellKACookD2018‘Evidence for a large Paleozoic impact crater strewn field in the Rocky Mountains’8Search in Google Scholar
Koeberl, C, Shukolyukov, A & Lugmair, GW 2007, ‘Chromium isotopic studies of terrestrial impact craters: Identification of meteoritic components at Bosumtwi, Clearwater East, Lappajärvi, and Rochechouart’, Earth and Planetary Science Letters, vol. 256, pp. 534–546.KoeberlCShukolyukovALugmairGW2007‘Chromium isotopic studies of terrestrial impact craters: Identification of meteoritic components at Bosumtwi, Clearwater East, Lappajärvi, and Rochechouart’256534546Search in Google Scholar
Khryanina, LP 1981, ‘Sobolevskiy meteorite crater (Sikhote-Alin’ Range)’, International Geology Review, vol. 23, pp. 1–10.KhryaninaLP1981‘Sobolevskiy meteorite crater (Sikhote-Alin’ Range)’23110Search in Google Scholar
Krinov, EL 1971, ‘New studies of the Sikhote-Alin iron meteorite shower’, Meteoritics, vol. 6, pp. 127–138.KrinovEL1971‘New studies of the Sikhote-Alin iron meteorite shower’6127138Search in Google Scholar
Losiak, A, Wild, EM, Huber, MS, Wisniowski, T, Paavel, K, Joeleht, A, Valja, R, Plado, J, Kriiska, A, Wilk, J, Zanetti, M, Geppert, WD, Kulkov, A, Steier, P & Pirkovic, I 2016, ‘Dating Kaali Crater (Estonia) based on Charcoal emplaced within proximal ejecta blanket’, Meteoritics & Planetary Science, vol. 51, pp. 681–695. https://doi.org/10.1111/maps.12616.LosiakAWildEMHuberMSWisniowskiTPaavelKJoelehtAValjaRPladoJKriiskaAWilkJZanettiMGeppertWDKulkovASteierPPirkovicI2016‘Dating Kaali Crater (Estonia) based on Charcoal emplaced within proximal ejecta blanket’51681695https://doi.org/10.1111/maps.12616.Search in Google Scholar
Losiak, A, Jõeleht, A, Plado, J, Szyszka, M, Kirsimäe, K, Wild, EM, Steier, P, Belcher, CM, Jazwa, AM & Helde, R 2020, ‘Determining the age and possibility for an extraterrestrial impact formation mechanism of the Ilumetsa structures (Estonia)’, Meteoritics & Planetary Science, vol. 55, pp. 274–293. https://doi.org/10.1111/maps.13431.LosiakAJõelehtAPladoJSzyszkaMKirsimäeKWildEMSteierPBelcherCMJazwaAMHeldeR2020‘Determining the age and possibility for an extraterrestrial impact formation mechanism of the Ilumetsa structures (Estonia)’55274293https://doi.org/10.1111/maps.13431.Search in Google Scholar
Losiak, A, Belcher, CM, Plado J, Jõeleht, A, Herd, CDK, Kofman, RS, Szokaluk, M, Szczuciński W, Muszyński A, Wild EM & Baker SJ 2022, ‘Small impact cratering processes produce distinctive charcoal assemblages’, Geology, vol. 50, pp. 1276–1280.LosiakABelcherCMPladoJJõelehtAHerdCDKKofmanRSSzokalukMSzczucińskiWMuszyńskiAWildEMBakerSJ2022‘Small impact cratering processes produce distinctive charcoal assemblages’5012761280Search in Google Scholar
Milton, DJ 1968, ‘Structural geology of the Henbury Meteorite craters Northern Territory, Australia’, Contributions to Astrogeology, Geological Survey Professional Paper, vol 599–C, Washington.MiltonDJ1968Contributions to Astrogeology, Geological Survey Professional Paper599–CWashingtonSearch in Google Scholar
Melosh, HJ 1989, Impact cratering. A geologic process, Clarendon Press, Oxford.MeloshHJ1989Clarendon PressOxfordSearch in Google Scholar
Muszyński A, Kryza R, Karwowski, Ł, Pilski, AS & Muszyńska J, 2012, Morasko. Największy deszcz meteorytów żelaznych w Europie środkowej [Morasko. The largest iron meteorite shower in central Europe], Bogucki Wydawnictwo Naukowe, Poznań.MuszyńskiAKryzaRKarwowskiŁPilskiASMuszyńskaJ2012Bogucki Wydawnictwo NaukowePoznańSearch in Google Scholar
Newman, JD & Herd, CDK 2015, ‘Mineralogy, petrology, and distribution of meteorites at the Whitecourt crater, Alberta, Canada’, Meteoritics & Planetary Science, vol. 50, pp. 305–317.NewmanJDHerdCDK2015‘Mineralogy, petrology, and distribution of meteorites at the Whitecourt crater, Alberta, Canada’50305317Search in Google Scholar
Osinski, G, Grieve, RAF, Ferriere, L, Losiak, A, Pickersgill, AE, Cavosi,e AJ, Hibbard, SM, Hill, PAJ, Bermudez, JJ, Marion, CL, Newman, JD & Simpson, SL 2022. ‘Impact Earth: A review of the terrestrial impact record’, Earth-Science Reviews, vol. 232, pp. 104–112OsinskiGGrieveRAFFerriereLLosiakAPickersgillAECavosi,eAJHibbardSMHillPAJBermudezJJMarionCLNewmanJDSimpsonSL2022‘Impact Earth: A review of the terrestrial impact record’232104112Search in Google Scholar
Petaev, MI 1992 ‘Meteorite Sterlitamak–a new crater forming fall’, Meteoritics, vol. 27, pp. 276–286.PetaevMI1992‘Meteorite Sterlitamak–a new crater forming fall’27276286Search in Google Scholar
Plado, J 2012, ‘Meteorite impact craters and possibly impact related structures in Estonia’, Meteoritics & Planetary Science, vol. 47, pp. 1590–1605.PladoJ2012‘Meteorite impact craters and possibly impact related structures in Estonia’4715901605Search in Google Scholar
Plado, J, Losiak, A, Jõeleht, A, Ormö, J, Alexanderson, H, Alwmark, C, Wild, EM, Steier, P, Awdankiewicz, M & Belcher, C 2022. ‘Discriminating between impact or nonimpact origin of small meteorite crater candidates: No evidence for an impact origin for the Tor crater, Sweden’, Meteoritics & Planetary Science vol. 57, pp. 1987–2002.PladoJLosiakAJõelehtAOrmöJAlexandersonHAlwmarkCWildEMSteierPAwdankiewiczMBelcherC2022‘Discriminating between impact or nonimpact origin of small meteorite crater candidates: No evidence for an impact origin for the Tor crater, Sweden’5719872002Search in Google Scholar
Popova, OP & Chelyabinsk Airburst Consortium 2013, ‘Chelyabinsk airburst, damage assessment, meteorite recovery, and characterization’, Science, vol. 342, pp. 1069–1073.PopovaOPChelyabinsk Airburst Consortium2013‘Chelyabinsk airburst, damage assessment, meteorite recovery, and characterization’34210691073Search in Google Scholar
Reinvaldt JA 1933. ‘Kaali jarv–The meteorite craters on the island of Ösel (Estonia)’, Publications of the Geological Institution of the University of Tartu, vol. 30, pp. 1–20.ReinvaldtJA1933‘Kaali jarv–The meteorite craters on the island of Ösel (Estonia)’30120Search in Google Scholar
Schmalen A, Luther, R & Artemieva, N 2022, ‘Campo del Cielo modeling and comparison with observations: I. Atmospheric entry of the iron meteoroid’, Meteoritics & Planetary Science, vol. 57, pp. 1496–1518.SchmalenALutherRArtemievaN2022‘Campo del Cielo modeling and comparison with observations: I. Atmospheric entry of the iron meteoroid’5714961518Search in Google Scholar
Schmieder, M & Kring, DA 2020, ‘Earth’s impact events through geologic time: A list of recommended ages for terrestrial impact structures and deposits’, Astrobiology, vol. 20, pp. 91–141.SchmiederMKringDA2020‘Earth’s impact events through geologic time: A list of recommended ages for terrestrial impact structures and deposits’2091141Search in Google Scholar
Sighinolfi GP, Sibilia E, Contini, G & Martini, M 2015, ‘Thermoluminescence dating of the Kamil impact crater (Egypt)’, Meteoritics & Planetary Science, vol. 50, pp. 204–213.SighinolfiGPSibiliaEContiniGMartiniM2015‘Thermoluminescence dating of the Kamil impact crater (Egypt)’50204213Search in Google Scholar
Shoemaker, EM, Macdonald, FA & Shoemaker, CS 2005, ‘Geology of five small Australian impact craters’, Australian Journal of Earth Sciences: An International Geoscience Journal of the Geological Society of Australia, vol. 52, pp. 529–544.ShoemakerEMMacdonaldFAShoemakerCS2005‘Geology of five small Australian impact craters’52529544Search in Google Scholar
Suggs, RM, Moser, DE, Cooke, WJ & Suggs, RJ 2014, ‘The flux of kilogram-sized meteoroids from lunar impact monitoring’, Icarus, vol. 238, pp. 23–36.SuggsRMMoserDECookeWJSuggsRJ2014‘The flux of kilogram-sized meteoroids from lunar impact monitoring’2382336Search in Google Scholar
Svetsov, V 2008, ‘Thermal radiation and fires after impacts of cosmic objects’ in Catastrophic Events Caused by Cosmic Objects, eds VV Adushkin & IV Nemchinov, Springer, Dordrecht, pp. 207–226.SvetsovV2008‘Thermal radiation and fires after impacts of cosmic objects’inedsAdushkinVVNemchinovIVSpringerDordrecht207226Search in Google Scholar
Szczuciński, W, Szokaluk, M, Bronikowska, M, Jagodziński, R, Muszyński, A & Wuennemann, K 2016, ‘Identification and dating of small impact crater ejecta deposits, case of Morasko craters, Poland’, proceedings of 32nd IAS International Meeting of Sedimentology, 23–25 May 2016, Marrakesh, Morocco (abstract).SzczucińskiWSzokalukMBronikowskaMJagodzińskiRMuszyńskiAWuennemannK2016proceedings of 32nd IAS International Meeting of Sedimentology23–25 May 2016Marrakesh, Morocco(abstract).Search in Google Scholar
Szokaluk, M, Jagodziński, R, Muszyński, A & Szczuciński, W 2019, ‘Geology of the Morasko craters, Poznań, Poland —Small impact craters in unconsolidated sediments’, Meteoritics & Planetary Science, vol. 54, pp. 1478–1494.SzokalukMJagodzińskiRMuszyńskiASzczucińskiW2019‘Geology of the Morasko craters, Poznań, Poland —Small impact craters in unconsolidated sediments’5414781494Search in Google Scholar
Tancredi, G, Ishitsuka, J, Schultz, PH, Harris, RS, Brown, P, Revelle, DO, Antier, K, Le Pichon, A, Rosales, D, Vidal, E, Varela, ME, Sanchez, L, Benavente, S, Bojorquez, J, Cabezas, D & Dalmau, A 2009, ‘A meteorite crater on Earth formed on September 15, 2007. The Carancas hypervelocity impact’, Meteoritics & Planetary Science, vol. 44, pp. 1967–1984.TancrediGIshitsukaJSchultzPHHarrisRSBrownPRevelleDOAntierKLe PichonARosalesDVidalEVarelaMESanchezLBenaventeSBojorquezJCabezasDDalmauA2009‘A meteorite crater on Earth formed on September 15, 2007. The Carancas hypervelocity impact’4419671984Search in Google Scholar
Vesconi, MA, Wright, SP, Spagnuolo, M, Jacob, R, Cerrutti, C, Garcia, L, Fernandez, E & Cassidy, WA 2011, ‘Comparison of four meteorite penetration funnels in the Campo del Cielo Crater Field, Argentina’, Meteoritics & Planetary Science, vol. 46, pp. 935–49.VesconiMAWrightSPSpagnuoloMJacobRCerruttiCGarciaLFernandezECassidyWA2011‘Comparison of four meteorite penetration funnels in the Campo del Cielo Crater Field, Argentina’4693549Search in Google Scholar
Włodarski, W, Papis, J & Szczuciński, W 2017, ‘Geomorphology of the Morasko crater field (western Poland): Influences of pre-impact glacial landforms, meteoroid impact processes and post-impact alterations’, Geomorphology, vol. 295, pp. 586–597.WłodarskiWPapisJSzczucińskiW2017‘Geomorphology of the Morasko crater field (western Poland): Influences of pre-impact glacial landforms, meteoroid impact processes and post-impact alterations’295586597Search in Google Scholar