"Diffusive" border of isotopic reservoirs of indian and pacific morb types beneath Kamchatka

Cover Page

Cite item

Full Text

Abstract

The convergence zones of lithospheric plates in the Northwest Pacific are the boundaries of the two main isotopic domains of the Earth - the Indian and Pacific MORB types, separated be cold oceanic lithosphere. This configuration limits of their interaction by special geodynamic environments - the influence of deep plume sources or the distraction of the subducted slab and intrusion of the oceanic asthenosphere into the subcontinental mantle wedge. The latter mechanism is reconstructed in the Central Kamchatka Depression on the basis of geological, geochemical, and high-precision (double-spike) lead isotopic data. The role of the oceanic asthenosphere in magma generation in the zones of convergence of oceanic and continental lithospheres is a poorly studied but not unique phenomenon that must be considered under geodynamic reconstructions and the creation of new, more realistic models of the juvenile continental crust formation.

About the authors

M. Yu. Davydova

Far East Geological Institute, Far East Branch, Russian Academy of Sciences

Author for correspondence.
Email: mashamart@mail.ru
Russian Federation, 159, 100-letya avenue, Vladivostok, 690022

Yu. A. Martynov

Far East Geological Institute, Far East Branch, Russian Academy of Sciences

Email: mashamart@mail.ru
Russian Federation, 159, 100-letya avenue, Vladivostok, 690022

References

  1. Miyazaki T., Kimura J.-I., Senda R., Vaglarov B.S., Chang Q., Takahashi T., Hirahara Y., Hauff F., Hayasaka Y., Sano S., Shimoda G., Ishizuka O., Kawabata H., Hirano N., Machida S, Ishii T., Tani K., Yoshida T. // Geochem. Geophys. Geosyst. 2015. V. 16. DOI: 10.1002/ 2015GC005911.
  2. Gorbatov A., Kostoglodov V., Suárez G., Gordeev E. // J. of Geophys. Res. 1997. V. 102. № B8. P. 17883-17898.
  3. Auer S., Bindeman I., Wallace P., Ponomareva V., Portnyagin M. // Contribs. Mineral. and Petrol. 2008. V. 157. № 2. P. 209-230.
  4. Portnyagin M., Duggen S., Hauff F., Mironov N., Bindeman I., Thirlwal M., Hoernle K. // J. Volcanol. Geotherm. Res. 2015. V. 307. P. 133-155.
  5. Мартынов Ю.А., Ханчук А.И., Кимура Дж.-И., Рыбин А.В., Мартынов А.Ю. // Петрология. 2010. Т. 18. № 5. С. 1-25.
  6. Перепелов А.Б. Кайнозойский магматизм Камчатки на этапах смены геодинамических обстановок. Автореф. дис. д-ра геол.-минерал. наук. Иркутск. 2014. 41 с.
  7. Kayazar T.M., Nelson B.K., Bachmann O., Bauer A.M., Izbekov P.E. // Contribs. Mineral. and Petrol. 2014. V. 168. P. 1067. doi: 10.1007/s00410-014-1067-6
  8. Kersting A.B., Arculus R.J. // J. Petrol. 1994. V. 35. № 1. P. 1-41.
  9. Münker C., Worner G., Yogodzinski G., Churikova T. // Earth and Planet. Sci. Lett. 2004. V. 24. P. 275-293.
  10. Portnyagin M., Bindeman I., Hoernle K., Hauff F. // Volcanism and Subduction: The Kamchatka Region // Geophys. Monograph Ser. V. 172. P. 199-239.
  11. Поляк Б.Г., Мелекесцев И.В. // Вулканология и сейсмология. 1981. № 5. C. 22-37.
  12. Davies J.H. // Nature. 2002. V. 418. P. 736-737.
  13. Straub S.M., Goldstein S.L., Class C., et al. // Nature Geoscience. V. 2. 2009. doi: 10.1038/NGEO471
  14. Ханчук А.И., Иванов В.В. // Геология и геофизика. 1999. Т. 40. № 11. С. 1635-1645.
  15. Martynov Yu.A., Khanchuck A.I., Grebennikov A.V., Chashchin A.A., Popov V.K. // Gondwana Research. 2017. V. 47. P. 358-371.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2019 Russian academy of sciences

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies