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Spherules associated with the Cretaceous–Paleogene boundary in Poland

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The succession of the Lechówka section near Chełm in south-eastern Poland presents the first complete record of the Cretaceous–Paleogene (K–Pg) boundary in Poland. Samples of the boundary clay were examined for microtektites and shocked minerals to confirm the impact origin of the sediment. The spheroidal fraction reveals morphological and mineralogical features, e.g., spherules, similar to material from the K–Pg boundary as described from elsewhere. The impact genesis of the spherules is confirmed by the presence of nickel-rich spinel grains on their surfaces. The spinels are considered to be primary microlites and, thus, the spherules at Lechówka can be classified as microkrystites. No shocked minerals were noted. The deposits with spherules comprise Aland Mg-rich smectite (Cheto smectite). This almost pure Mg-rich smectite, forming up to 100% of the clay fraction, derived from the weathering of the impact glass. It is proposed that the spherules isolated from the Cretaceous-Paleogene boundary clay at Lechówka come from the Chicxulub crater in Mexico.
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Bibliogr. 53 poz., il.
  • Department of Geochemistry, Mineralogy and Petrography; Faculty of Earth Science; University of Silesia; Będzińska Str. 60, PL-41-200 Sosnowiec, Poland
  • Department of Geochemistry, Mineralogy and Petrography; Faculty of Earth Science; University of Silesia; Będzińska Str. 60, PL-41-200 Sosnowiec, Poland.
  • Department of Geochemistry, Mineralogy and Petrography; Faculty of Earth Science; University of Silesia; Będzińska Str. 60, PL-41-200 Sosnowiec, Poland
  • 1. Alvarez, L.W., Alvarez, W., Asaro, F. and Michel, H.V. 1980. Extraterrestrial cause for the Cretaceous-Tertiary extinction. Science, 208, 1095–1108.
  • 2. Bauluz, B., Peacor, D.R. and Elliot, C. 2000. Coexisting altered glass and Fe–Ni oxides at the Cretaceous–Tertiary boundary, Stevns Klint (Denmark): direct evidence of meteorite impact. Earth and Planeary Science Letters, 182, 127–136.
  • 3. Blum, J.D. and Chamberlain, C.P. 1992. Oxygen isotope constraints on the origin of impact glasses from the Cretaceous–Tertiary boundary. Science, 257, 1104–1107.
  • 4. Blum, J.D., Chamberlain, C.P., Hingston, M.P., Koeberl, C., Marin, L.E. and Bohor, B.F. 1990. Shock-induced microdeformations in quartz and other mineralogical indications of an impact event at the Cretaceous-Tertiary boundary. Tectonophysics, 171, 359–372.
  • 5. Bohor, B.F. and Betterton, W.J. 1990. K/T spherules-clarifying the concept. Lunar and Planetary Science, 21, 107–108.
  • 6. Bohor, B.F. and Glass, B.P. 1995. Origin and diagenesis of K/T impact spherules – From Haiti to Wyoming and beyond. Meteoritics, 30, 182–198.
  • 7. Bohor, B.F., Foord, E.E. and Ganapathy, R. 1986. Magnesioferrite from the Cretaceous-Tertiary boundary, Caravaca, Spain. Earth and Planetary Science Letters, 81, 57–66.
  • 8. Bohor, B.F., Foord, E.E., Modreski, P.J. and Triplehorn, D.M. 1984. Mineralogic evidence for an impact event at the Cretaceous-Tertiary boundary. Science, 224, 867–869.
  • 9. Debrabant, P., Fourcade, E., Chamley, H., Rocchia, R., Robin, E., Bellier, J.P., Gardin, S. and Thiebault, F. 1999. Les argiles de la transition Cretacé-Tertiaire au Guatemala, temoins d’un impact d’asteroide. Bulletin de la Société Géologique de France, 170, 643–660.
  • 10. Ganapathy, R. 1980. A major meteorite impact on the earth 65 million years ago: Evidence from the Cretaceous-Tertiary boundary clay. Science, 209, 921–923.
  • 11. Glass, B.P. and Burns, C.A. 1988. Microkrystites: a new term for impact-produced glassy spherules containing primary crystallites. In: G. Ryder (Ed.), Proceedings of the 18th Lunar and Planetary Science Conference, pp. 455–458. Cambridge.
  • 12. Glass, B.P. and Simonson, B.M. 2013. Distal impact ejecta layers. A record of large impacts in sedimentary deposits, pp. 92–307. Impact Studies. Springer; Berlin–Heidelberg.
  • 13. Glass, B.P., Huber, H. and Koeberl, C. 2004. Geochemistry of Cenozoic microtektites and clinopyroxene-bearing spherules. Geochimica et Cosmochimica Acta, 68, 3971–4006.
  • 14. Griscom, D.L., Beltran-Lopez, V., Merzbacher, C.I. and Bolden, E. 1999. Electron spin resonance of 65 million year old glasses and rocks from the Cretaceous-Tertiary boundary. Journal of Non-Crystalline Solids, 253, 1–22.
  • 15. Hansen, H.J., Rasmussen, K.L., Gwozdz, R., Hansen, J.M. and Radwański, A. 1989. The Cretaceous/Tertiary boundary in Poland. Acta Geologica Polonica, 39, 1–12.
  • 16. Hansen, H.J., Gwozdz, R., Bromley, R.G., Rasmussen, K.L., Vogensen, E.W. and Pedersen, K.R. 1986. Cretaceous-Tertiary boundary spherules from Denmark, New Zealand and Spain. Bulletin of the Geological Society of Denmark , 35, 75–82.
  • 17. Hassler, S.W. and Simonson, B.M. 2001. The sedimentary record of extraterrestrial impacts in deep shelf environments - evidence from the early Precambrian. Journal of Geology, 109, 1–19.
  • 18. Izett, G.A. 1987. The Cretaceous-Tertiary (K-T) boundary interval, Raton Basin, Colorado and New Mexico, and its content of shock metamorphosed minerals-Implications concerning the Cretaceous-Tertiary impact-extinction event. USGS Open-File Report, 87-606, p. 58.
  • 19. Izett, G.A. 1990. The Cretaceous/Tertiary boundary interval, Raton Basin, Colorado and New Mexico, and its content of shock-metamorphosed minerals; evidence relevant to the K/T boundary impact-extinction theory. Geological Society of America Special Papers, 249, 1–100.
  • 20. Izett, G.A., Dalrymple, G.B. and Snee, L.W. 1991. 40Ar/39Ar age of K–T boundary tektites from Haiti. Science, 252, 159–1543.
  • 21. Kastner, M., Asaro, F., Michel, H.V., Alvarez, W. and Alvarez, L.W. 1984. The precursor of the Cretaceous/Tertiary boundary clays at Stevns Klint and DSDP Hole 465a. Science, 226, 137–143.
  • 22. Klaver, G.T., van Kempen, T.M.G., Bianchi, F.R. and van der Gaast, S.J. 1986. Green spherules as indicators of the Cretaceous/Tertiary boundary in DSDP hole 603B. In: W. Wise and J. van Hinte (Eds), Initial Reports of the DSDP. U.S. Printing Office, 93, 1039–1055.
  • 23. Koeberl, C. 1993. Chicxulub crater, Yucatan: tektites, impact glasses, and the geochemistry of target rocks and breccias. Geology, 21, 211–214.
  • 24. Kyte, F.T. 1998. A meteorite from the Cretaceous/Tertiary boundary. Nature, 396, 237–239.
  • 25. Kyte, F.T. and Smit, J. 1986. Regional variations in spinel compositions: an important key to the Cretaceous event. Geology, 14, 485–487.
  • 26. Kyte, F.T. and Bohor, B. 1995. Nickel-rich magnesiowüstite in Cretaceous/Tertiary boundary spherules crystallized from ultramafic, refractory silicate liquids. Geochimica et Cosmochimica Acta, 59, 4967–4974.
  • 27. Kyte, F.T., Bostwick, J.A. and Zhou, L. 1995. Identification of the Cretaceous/Tertiary boundary at ODP site 886, ODP Site 803, and DSDP Site 576. In: D.K. Rea, I.A. Basov, D.W. Scholl and J.F. Allan (Eds), Proceedings of the ocean drilling program, scientific results. Ocean drilling program, 145, 427–434.
  • 28. Kyte, F.T., Bostwick, J.A. and Zhou, L. 1996. The Cretaceous-Tertiary boundary on the Pacific plate: composition and distribution of impact debris. In: G. Ryder, D. Fastovsky and S. Gartner (Eds), The Cretaceous-Tertiary event and other catastrophes in Earth history. Geological Society of America, Special Paper, 307, 389–401.
  • 29. Li, G., Peacor, D.R. and Coombs, D.S. 1997. Transformation of smectite to illite in bentonite and associated sediments from Kaka Point, New Zealand: Contrast in rate and mechanism. Clays and Clay Minerals, 45, 54–67.
  • 30. Machalski, M. 1998. The Cretaceous-Tertiary boundary in Central Poland. Przegląd Geologiczny, 46, 1153–1161. [In Polish]
  • 31. Martinez-Ruiz, F., Ortega-Huertas, M., Palomo-Delgado, I. and Smit, J. 2001. K-T boundary spherules from Blake Nose (ODP Leg 171B) as a record of the Chicxulub ejecta deposits. Geological Society Special Publications, 183, 149–161.
  • 32. Montanari, A. 1991. Authigenesis of impact spheroids in the K/T boundary clay from Italy: New constraints of high resolution stratigraphy of terminal Cretaceous events. Journal of Sedimentary Petrology, 61, 315–339.
  • 33. Montanari, A., Hay, R.L., Alvarez, W., Asaro, F., Michel, H.V., Alvarez, L.W. and Smit, J. 1983. Spheroids at the Cretaceous-Tertiary boundary are altered impact droplets of basaltic composition. Geology, 11, 668–671.
  • 34. Naslund, H.R., Officer, C.B. and Johnson, G.D. 1986. Microspherules in Upper Cretaceous and Lower Tertiary clay layers at Gubbio, Italy. Geology, 14, 923–926.
  • 35. Norris, R.D., Huber, B.T. and Self-Trail, J. 1999. Synchroneity of the K/T oceanic mass extinction and meteorite impact: Blake Nose, Western North Atlantic. Geology, 27, 419–422.
  • 36. Officer, C.B. and Lyons, J.B. 1993. A short note on the origin of the yellow glasses at the Haiti Cretaceous/Tertiary section. Earth and Planetary Science Letters, 118, 349–351.
  • 37. Olsson, R., Miller, K.G., Browning, J.V., Habib, D. and Sugarman, P.J. 1997. Ejecta layer at the Cretaceous-Tertiary boundary, Bass River, New Jersey (Ocean Drilling Program Leg 174AX). Geology, 25, 759–762.
  • 38. Pollastro, R.M. and Bohor, B.F. 1993. Origin and clay-mineral genesis of the Cretaceous/Tertiary boundary unit, western interior of North America. Clays and Clay Minerals, 41, 7–25.
  • 39. Racki, G., Machalski, M., Koeberl, C. and Harasimiuk, M. 2011. The weathering-modified iridium record of a new Cretaceous–Paleogene site at Lechówka near Chełm, SE Poland, and its palaeobiologic implications. Acta Palaeontologica Polonica, 56, 205–215.
  • 40. Robin, E., Bonté, P., Froget, L., Jéhanno, C. and Rocchia, R. 1992. Formation of spinels in cosmic objects during atmospheric entry: A clue to the Cretaceous-Tertiary boundary event. Earth and Planetary Science Letters, 108, 181–190.
  • 41. Robin, E., Boclet, D., Bonté, P., Froget, L., Jéhanno, C. and Rocchia, R. 1991. The stratigraphic distribution of Ni-rich spinels in Cretaceous-Tertiary boundary rocks at El Kef (Tunisia), Caravaca (Spain) and Hole 761C (Leg 122). Earth and Planetary Science Letters, 107, 715–721.
  • 42. Schmidt, R.M. and Holsapple, K.A. 1982. Estimates of crater size for large-body impact: gravity-scaling results. In: L.T. Silver and P.H. Schultz (Eds), Geological implications of impacts of large asteroids and comet on the Earth. Geological Society of America Special Papers, 190, 93–102.
  • 43. Sharpton, V.L., Dalrymple, G.B., Marín, L.E., Ryder, G., Schuraytz, B.C. and Urrutia-Fucugauchi, J. 1992. New links between the Chicxulub impact structure and the Cretaceous/ Tertiary boundary. Nature, 359, 819–821.
  • 44. Sigurdsson, H., D’Hondt, S., Arthur, M.A., Bralower, T,J., Zachos, J,C., Van Fossen, M. and Channell, J.E.T. 1991. Glass from the Cretaceous-Tertiary boundary in Haiti. Nature, 349, 482–487.
  • 45. Simonson, B.M. 2003. Petrographic criteria for recognizing certain types of impact spherules in well-preserved Precambrian successions. Astrobiology, 3, 49–65.
  • 46. Smit, J. 1990. Meteorite impact, extinctions and the Cretaceous- Tertiary Boundary. Geologie en Mijnbouw, 69, 187–204.
  • 47. Smit, J. 1999. The global stratigraphy of the Cretaceous–Tertiary boundary impact ejecta. Annual Review of Earth and Planetary Sciences, 27, 75–113.
  • 48. Smit, J. and Hertogen, J. 1980. An extraterrestrial event at the Cretaceous-Tertiary boundary. Nature, 285, 198–200.
  • 49. Smit, J. and Klaver, G. 1981. Sanidine spherules at the Cretaceous-Tertiary boundary indicate a large impact event. Nature, 292, 47–49.
  • 50. Smit, J., Alvarez, W., Montanari, A., Swinburne, N., Kempen Van, T.M., Klaver, G.T. and Lustenhouwer, W.J. 1992. “Tektites” and microtektites at the Cretaceous Tertiary boundary: Two strewn fields, one crater? Proceedings of Lunar and Planetary Science, 22, 87–100.
  • 51. Urey, H.C. 1973. Cometary collisions and geological periods. Nature, 242, 32–33.
  • 52. Voigt, S., Wagreich, M., Surlyk, F., Walaszczyk, I., Uličný, D., Čech, S., Voigt, T., Wiese, F., Wilmsen, M., Niebuhr, B., Reich, M., Funk, H., Michalík, J., Jagt, J.W.M., Felder, P.J. and Schulp, A.S. 2008. Cretaceous. In: T. McCann (Ed.), Geology of Central Europe: Mesozoic and Cenozoic. The Geological Society, 2, 923–997.
  • 53. Ziegler, P.A. 1990. Geological Atlas of Western and Central Europe, 239 pp. Shell Internationale Petroleum Maatschappij; Netherlands-Hague.
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