DOI: https://doi.org/10.30836/igs.1025-6814.2015.3.138255

БОВТИСЬКА ІМПАКТНА СТРУКТУРА І КРЕЙДО-ПАЛЕОГЕНОВИЙ РУБІЖ

E.P. Gurov, P.F. Gozhic

Анотація


 Бовтиська імпактна структура утворена на крейдо-палеогеновому рубежі, у межах аналітичної помилки одночасно з кратером Чіксулуб, що спричинив катастрофічні події наприкінці крейдового періоду. Вивчення посткратерних осадків у Бовтиській структурі дозволило встановити у базальній частині розрізу катастрофічний шар відкладів, пов’язаних з утворенням кратера Чіксулуб, і у такий спосіб встановити формування Бовтиського кратера на 2000–5000 тисяч років раніше Чіксулуба.


Ключові слова


імпактна структура; посткратерний осадок; астероїд

Повний текст:

PDF (Русский)

Посилання


Gurov E.P., Valter A.A., 1977. Ejecta of the Boltysh impact structure in the Ukrainian Shield. Geologichnyy zhurnal, vol. 37, № 6 (177), p. 79-84 (in Russian).

Gurov E.P., Gozhik P.F., 2003. Catastrophe that changed the geological era. Visnyk NAN Ukrainy, № 9, p. 46-53 (in Ukrainian).

Gurov E.P., Gozhik P.F., 2006. Impact cratering in the Earth’s history.Kiev: Institut Geologicheskikh NaukNAN Ukrainy, 216 p (in Russian).

Gurov E.P., Kolesov G.M., Gurova E.P., 1986. Composition of impact melt rocks of the Boltysh astrobleme. Meteoritika, iss. 45, p. 150-155 (in Russian).

Gurov E.P., Khmelnitsky A.F., 1996. Distribution and preservation of the ejecta from the impact structures by example of the Boltysh and Acraman craters. Astronomicheskiy vestnik, vol. 30, p. 19-24 (in Russian).

Melosh H.J., 1994. Formation of impact craters: A geologic process.Moscow: Mir, 245 p. (in Russian).

Moroz S.A., Sovyak-Krukovsky Y.V., 1993. The Luzanov stratoregion of the Paleogene of Europe. Paleontologichny zbirnik Lvivskogo Univwersitetu, № 29, p. 65-72 (in Ukrainian).

Stanislavsky F.A., 1968. Age and stratigraphy of the sapropelites of the Boltysh depression. Geologicheskiy zhurnal, vol. 28, № 2 (119), p. 105-110 (in Ukrainian).

Adatte T., Keller G., Burns S., Stoikova K.H., Ivanov M.I., Vangelov D., Kramar Utz, Stűben D., 2002. Paleoenvironment across the Cretaceous-Tertiary transition in eastern Bulgaria. Catastrophic Events and Mass Extinctions: Impacts and Beyond. Eds. C. Koeberl, K.G.MacLeod. Geol. Soc. Amer. Spec. Paper, vol. 356, p. 231–251 (in English).

Alvarez L.W., Alvarez W., Asaro F., Michel H.V., 1980. Extraterrestrial cause for the Cretaceous-Tertiary Extinction. Science, vol. 208, p. 1095–1108 (in English).

Barton R., Bird K., Hernàndez J.G., Grajales-Nishimura J.M., Murillo-Muňeton G., Herber B., Weimer P., Koebertl C., Neumaier M., Schenk O., Stark J., winter 2009/2010. High-impact reservoirs. Oilfield Review, vol. 21, № 4, p. 14-29 (in English).

Batten D.J., 1981. Stratigraphic, paleogeographic and evolutionary significance of Late Cretaceous and early Tertiary normapolles pollen. Review of Paleobotany and Palynology, vol. 35, p. 125–137 (in English).

Сatastrophic events and mass extinctions: impacts and beyond, 2002. (Eds C. Koederl, K.G. MacLeod). Geol. Soc. Amer. Spec. Paper, vol. 356, 732 p (in English).

Claeys P., Kiessling W. Alvarez W., 2002. Distribution of Chicxulub ejecta at the Cretaceous–Tertiary boundary. Catastrophic Events and Mass Extinctions: Impacts and Beyond / Eds. C. Koeberl, K.G. MacLeod. Geol. Soc Amer. Spec. Paper, vol. 356, p. 55–68 (in English).

Gilmour I., Gilmour M., Jolley D., Kelley S., Kemp D., Daly R., Watson J., 2013. A high-resolution nonmarine record of an early Danian hyperthermal event, Boltysh crater. Geology, vol. 41, p. 783–786 (in English).

Guasti E., Kouwenhovenb T.J., Brinkhius H., Speijerd R.P., 2005. Paleocene sea-level and productivity changes at the southern Tethyan margin (El Kef, Tunisia). Marine Micropaleontology, vol. 55, p. 1–17 (in English).

Gurov E.P., Kelley S.P., Koeberl C., 2003. Ejecta of the Boltysh impact crater in the Ukrainian Sheild. In: Impact Markers in the Stratigraphic Record / Еds. C. Koeberl, F.C. Mortinez-Ruiz. Springer, p. 179–202 (in English).

Hildebrandt A.R., Penfild G.T., Kring D.A., Pilkington M., Camảrgo-Zaragoza A., Jacobsen S.B., Boynton W.V., 1991. Chicxulub crater: A possible Cretaceous-Tertiary Boundary impact crater on the Yucatan Peninsula, Mexico. Geology, vol. 19, p. 867–871 (in English).

Hut P., Alvarez W., Elder W.P., Hansen T., Kauffman E.G., Keller G., Shoemaker E.M., Weissman P.R., 1987. Comet showers as a cause of mass extinction. Nature, vol. 329, p. 118–126 (in English).

Jolley D., Gilmour I., Gurov E., Kelley S., Watson J., 2010. Two large meteorite impacts at the Cretaceous-Paleogene boundary. Geology, vol. 38, p. 835–838 (in English).

Jolley D.W., Widdowson M., Self S., 2008. Volcanogenic nutrient fluxes and plant ecosystems in large igneous provinces: An example from the Columbia River Basalt Group. Geological Society of London Journal, vol. 165, p. 955–966 (in English).

Jourdan F., Reimold W.U., Deutsch A., 2012. Dating Terrestrial impact structures. Elements, vol. 8, p. 49–53 (in English).

Kelley S.P., Gurov E.P., 2002 Boltysh, another end-Cretaceous impact. Meteoritics and Planetary Sciences, vol. 37, p. 1031–1043 (in English).

Kyte F.T., 1998. A meteorite from the Cretaceous/Tertiary boundary. Nature, vol. 396, p. 237–239 (in English).

McDonald I., Koeberl C., Gurov E., 2009. A meteoritic component in impact melt rocks from the Boltysh impact structure, Ukraine: First Assessment. Lunar and Planetary Science Conference, 1252 pdf. (in English).

McGetchin T.R., Settle M., Head J.W., 1973. Radial thickness variation in impact crater eject: implications for Lunar basin deposites. Earth Science Letters, vol. 20, p. 226–236 (in English).

Montanari A.,.Koberl C., 2000. Impact Stratigraphy. The Italian Record. Lecture Notes in Earth Sciences.Berlin: Springer, vol. 93, 454 p. (in English).

Morgan J., Warner M., Grieve R.A.F., 2000. Geophysical constrains on the size and structure of the Chicxulub impact crater. In: Lecture notes in Earth Sciences.Berlin: Springer, p. 39-45 (in English).

Rampino M.R., Haggerty B.M., 1996. Impact crises and mass extinctions: A working hypothesis. The Cretaceous-Tertiary Event and Other Catastrophes in Earth History. Geol. Soc. Amer. Spec. Paper, vol. 307, p. 11–30 (in English).

Renne P.R., Mundil R., Balko G., Min K., Ludwig K.R.., 2010. Joint determination of 40K decay constants and 40Ar/40K for the Fish Canyon sanidine standard, and improved accuracy for 40Ar/39Ar geochronology. Geochimica et Cosmochimica Acta, vol. 74, p. 5349–5367 (in English).

Schulte P. and 40 co-authors., 2010. The Chicxulub asteroid impact and mass extinction at the Cretaceous-Paleogene boundary. Science, vol. 327, p. 1214 –1218 (in English).

Sepkoski J.J.Jr., 1990. The taxonomic structure of periodic extinction. Geol. Soc. Amer. Spec. Paper, vol. 247, p. 33–44 (in English).

Smit J.,1999. The global stratigraphy of the Cretaceous-Tertiary boundary impact ejecta. Annular Review of Earth and Planetary Sciences, vol. 27, p. 75–113 (in English).

Toon O.B., Turco R.P., Covey C., 1997. Environmental perturbations caused by the impacts of asteroids and comets. Reviews of Geophysics, vol. 35, p. 41–78 (in English).

Valter A., Plotnikova L., 2003. Biostratigraphic indications of the age of the Boltysh impact crater,Ukraine. In: Impact markers in the Stratigraphic record / Eds. C. Koeberl, F. Martinez-Ruiz.Berlin: Springer, p. 163–178 (in English).

Vitousek P.M., 2004 Nutrient cycling and limination:Hawai’i as a model system.Princeton,USA:Princeton Universty Press, 223 p. (in English).

Zappala V., Cellino A., Gladman D.G., Manley S., Migliorini F., 1998. Asteroid showers on Earth after family breaking events. Icarus, vol. 134, p. 176–179 (in English).


Пристатейна бібліографія ГОСТ


Гуров Е.П., Вальтер А.А. Выбросы Болтышского метеоритного кратера на Украинском щите. Геол. журн. 1977. Т. 37, № 6 (177). С. 79–84.

 

Гуров Є.П., Гожик П.Ф. Катастрофа, яка змінила геологічну еру. Вісн. НАН України. 2003. № 9. С. 46–53.

 

Гуров Е.П., Гожик П.Ф. Импактное кратерообразование в истории Земли. Киев: ИГН НАН Украины, 2006. 216 с.

 

Гуров Е.П., Колесов Г.М., Гурова Е.П. Состав импактитов Болтышской астроблемы. Mетеоритика. 1986. Вып. 45. С. 150–155.

Гуров Е.П., Хмельницкий А.Ф. Распространение и сохранность выбросов из импактных структур на примере кратеров Болтышского и Экремен. Астроном. вестн. 1996. T. 30. С. 19–24.

 

Мелош Г. Образование ударных кратеров. Геологический процесс. Москва: Мир, 1994. 245 с.

 

Мороз С.А., Сов’як-Круковський Ю.В. Лузанівський страторегіон палеоцену Європи. Палеонтол. зб. Львів. ун-ту. 1993. № 29. С. 65–72.

 

Станіславський Ф.А. Вік та стратиграфія сапропелітів Бовтиської депресії. Геол. журн. 1968. T. 28, № 2 (119). С. 105–110.

 

Adatte T., Keller G., Burns S., Stoikova K.H., Ivanov M.I., Vangelov D., Kramar Utz, Stűben D. Paleoenvironment across the Cretaceous-Tertiary transition in eastern Bulgaria. Catastrophic Events and Mass Extinctions: Impacts and Beyond / Eds. C. Koeberl, K.G. MacLeod. Geol. Soc. Amer. Spec. Paper. 2002. Vol. 356. P. 231–251.

 

Alvarez L.W., Alvarez W., Asaro F., Michel H.V. Extraterrestrial cause for the Cretaceous-Tertiary Extinction. Science. 1980. Vol. 208. P. 1095–1108.

 

Barton R., Bird K., Hernàndez J.G., Grajales-Nishimura J.M., Murillo-Muňeton G., Herber B., Weimer P., Koebertl C., Neumaier M., Schenk O., Stark J. High-impact reservoirs. Oilfield Review. Winter 2009/2010. Vol. 21, № 4. P. 14-29.

 

Batten D.J. Stratigraphic, paleogeographic and evolutionary significance of Late Cretaceous and early Tertiary normapolles pollen. Review of Paleobotany and Palynology. 1981. Vol. 35. P. 125–137.

 

Сatastrophic events and mass extinctions: impacts and beyond / Eds C. Koederl, K.G. MacLeod. Geol. Soc. Amer. Spec. Paper. 2002. Vol. 356. 732 p.

 

Claeys P., Kiessling W. Alvarez W. Distribution of Chicxulub ejecta at the Cretaceous–Tertiary boundary. Catastrophic Events and Mass Extinctions: Impacts and Beyond / Eds. C. Koeberl, K.G. MacLeod. Geol. Soc Amer. Spec. Paper. 2002. Vol. 356. P. 55–68.

 

Gilmour I., Gilmour M., Jolley D., Kelley S., Kemp D., Daly R., Watson J. A high-resolution nonmarine record of an early Danian hyperthermal event, Boltysh crater. Geology. 2013. Vol. 41. P. 783–786.

 

Guasti E., Kouwenhovenb T.J., Brinkhius H., Speijerd R.P. Paleocene sea-level and productivity changes at the southern Tethyan margin (El Kef, Tunisia). Marine Micropaleontology. 2005. Vol. 55. P. 1–17.

 

Gurov E.P., Kelley S.P., Koeberl C. Ejecta of the Boltysh impact crater in the Ukrainian Sheild. In: Impact Markers in the Stratigraphic Record / Еds. C. Koeberl, F.C. Mortinez-Ruiz. Springer, 2003. P.179–202.

 

Hildebrandt A.R., Penfild G.T., Kring D.A., Pilkington M., Camảrgo-Zaragoza A., Jacobsen S.B., Boynton W.V. Chicxulub crater: A possible Cretaceous-Tertiary Boundary impact crater on the Yucatan Peninsula, Mexico. Geology. 1991. Vol. 19. P. 867–871.

 

Hut P., Alvarez W., Elder W.P., Hansen T., Kauffman E.G., Keller G., Shoemaker E.M., Weissman P.R. Comet showers as a cause of mass extinction. Nature. 1987. Vol. 329. P. 118–126.

 

Jolley D., Gilmour I., Gurov E., Kelley S., Watson J. Two large meteorite impacts at the Cretaceous-Paleogene boundary. Geology. 2010. Vol. 38. P. 835–838.

 

Jolley D.W., Widdowson M., Self S. Volcanogenic nutrient fluxes and plant ecosystems in large igneous provinces: An example from the Columbia River Basalt Group. Geological Society of London Journal. 2008. Vol. 165. P. 955–966.

 

Jourdan F., Reimold W.U., Deutsch A. Dating Terrestrial impact structures. Elements. 2012. Vol. 8. P. 49–53.

 

Kelley S.P., Gurov E.P. Boltysh, another end-Cretaceous impact. Meteoritics and Planetary Sciences. 2002. Vol. 37. P. 1031–1043.

 

Kyte F.T. A meteorite from the Cretaceous/Tertiary boundary. Nature. 1998. Vol. 396. P. 237–239.

 

McDonald I., Koeberl C., Gurov E. A meteoritic component in impact melt rocks from the Boltysh impact structure, Ukraine: First Assessment. Lunar and Planetary Science Conference. 2009. 1252 pdf.

 

McGetchin T.R., Settle M., Head J.W. Radial thickness variation in impact crater eject: implications for Lunar basin deposites. Earth Science Letters. 1973. Vol. 20. P. 226–236.

 

Montanari A.., Koberl C. Impact Stratigraphy. The Italian Record. Lecture Notes in Earth Sciences. Berlin: Springer. 2000. Vol. 93. 454 p.

 

Morgan J., Warner M., Grieve R.A.F. Geophysical constrains on the size and structure of the Chicxulub impact crater. In: Lecture notes in Earth Sciences. Berlin: Springer. 2000. P. 39-45.

 

Rampino M.R., Haggerty B.M. Impact crises and mass extinctions: A working hypothesis. The Cretaceous-Tertiary Event and Other Catastrophes in Earth History. Geol. Soc. Amer. Spec. Paper. 1996. Vol. 307. P. 11–30.

 

Renne P.R., Mundil R., Balko G., Min K., Ludwig K.R.. Joint determination of 40K decay constants and 40Ar/40K for the Fish Canyon sanidine standard, and improved accuracy for 40Ar/39Ar geochronology. Geochimica et Cosmochimica Acta. 2010. Vol. 74. P. 5349–5367.

 

Schulte P. and 40 co-authors. The Chicxulub asteroid impact and mass extinction at the Cretaceous-Paleogene boundary. Science. 2010. Vol. 327. P. 1214–1218.

 

Sepkoski J.J.Jr. The taxonomic structure of periodic extinction. Geol. Soc. Amer. Spec. Paper. Vol. 247. P. 33–44.

 

Smit J. The global stratigraphy of the Cretaceous-Tertiary boundary impact ejecta. Annular Review of Earth and Planetary Sciences. 1999. Vol. 27. P. 75–113.

 

Toon O.B., Turco R.P., Covey C.Environmental perturbations caused by the impacts of asteroids and comets. Reviews of Geophysics. 1997. Vol. 35. P. 41–78.

 

Valter A., Plotnikova L. Biostratigraphic indications of the age of the Boltysh impact crater, Ukraine. In: Impact markers in the Stratigraphic record / Eds. C. Koeberl, F. Martinez-Ruiz. Berlin: Springer. 2003. P. 163–178.

 

Vitousek P.M. Nutrient cycling and limination: Hawai’i as a model system. Princeton, USA: Princeton Universty Press, 2004. 223 p.

 

Zappala V., Cellino A., Gladman D.G., Manley S., Migliorini F. Asteroid showers on Earth after family breaking events. Icarus. 1998. Vol. 134. P. 176–179.

 




Copyright (c) 2018 E.P. Gurov, P.F. Gozhic

                       
                               E-mail: geojournal@igs-nas.org.ua