Groups of meteorite-producing meteoroids and carbonaceous chondrite meteorites

Authors

  • Konovalova N.A. Institute of Astrophysics, Academy of Sciences of Tajikistan, Dushanbe, Tajikistan
  • Ibrohimov A.A. Institute of Astrophysics, Academy of Sciences of Tajikistan, Dushanbe, Tajikistan
  • Kalashnikova T.M. Institute of Astrophysics, Academy of Sciences of Tajikistan, Dushanbe, Tajikistan

UDC

523.53 + 523.68

Abstract

The possibility of existence of groups of meteorite-producing meteoroids which include meteorites Maribo, Murchison, Shutters Mill and Tagish Lake, classified as carbonaceous chondrites was analyzed. The main argument for existence of groups of meteorite-producing bodies is the existence of bolides and meteorites with mutually similar orbits and a time-correlated meteorite falls. The IAU Meteor Database of Photographic orbits and the other published sources have been used to select bright sporadic fireballs with currently similar orbits to meteorites Maribo, Murchison, Shutters Mill & Tagish Lake. The analysis used the common and widely used orbital similarity functions $D_{SH}$ by Southworth and Hawkins. In result the some meteorite-producing sporadic fireballs as possible members of groups of studied meteorites were found and the possible source regions in Near-Earth space have been considered. Especially the bodies of the small sizes (50-100 m) on the Earth-crossing orbits on a time scale of a human civilization represent the natural hazards because of the greatest probability of risk of collision with the Earth. Purposeful monitoring of these bodies in the identified periods of increased fireballs and meteorites activity by means of both of land fireball network and space tools established on orbital satellites is important for the prevention of danger.

Keywords:

comet, orbit, meteoroid, meteorite, carbonaceous chondrite, parent body

Acknowledgement

Работа выполнена при поддержке гранта МНТЦ по проекту Т-2113.

Author Infos

Natalya A. Konovalova

канд. физ.-мат. наук, ведущий научный сотрудник Института астрофизики Академии наук Республики Таджикистан

e-mail: nakonovalova@mail.ru

Alisher A. Ibrohimov

научный сотрудник Института астрофизики Академии наук Республики Таджикистан

e-mail: a.ibragimov73@mail.ru

Tatyana M. Kalashnikova

младший научный сотрудник Института астрофизики Академии наук Республики Таджикистан

e-mail: kruzhevnica_48@mail.ru

References

  1. Ibadinov K.I., Buriev A.M., Safarov A.G., Rahmonov A.A. Active processes in cometary nucleus and new meteoroid swarms. Advances in Space Research, 2015, vol. 56, pp. 187-189.
  2. Pieters C. M., Binzel R. P., Bogard D., Hiroi T., Mittlefehldt D. W., Nyquist L., Rivkin A., Takeda H. Asteroid-meteorite links: the Vesta conundrum. In: Daniela L., Sylvio F.M., Ange F.J. (eds.) Asteroids, Comets, Meteors. Proc. of the 229th Symposium of the IAUS. Búzios, Rio de Janeiro, Brasil August 7-12, 2005. Cambridge: Cambridge University Press, 2006, vol. 229, p. 273.
  3. Seargent D. Is the Murchison meteorite a fragment of periodic comet Finlay? WGN, Journal of the IMO, 1988, vol. 16, no. 4, pp. 111-1176.
  4. Terentjeva A.K., Barabanov S.I. Complexes of minor bodies in the Solar system. Astronomical School's Report, 2011, vol. 7, iss. 2, pp. 271-276.
  5. Terentjeva A.K., Barabanov S.I. The fireball stream of the Tagish Lake meteorite. WGN, Journal of the IMO, 2004, vol. 32, no. 2, pp. 60-62.
  6. Gounelle M., P. Spurny, and P. Bland. The orbit and atmospheric trajectory of the Orgueil meteorite from historical records. Meteorit. & Planet. Sci., 2006, vol. 41, pp. 135-150.
  7. Brown P.G., Revelle D.O., Tagliaferri E. and Hildebrand A.R. An entry model for the Tagish Lake fireball using seismic, satellite and infrasound records. Meteorit. & Planet. Sci. 2002, vol. 37, pp. 661-676.
  8. Spurný P., Borovička J., Haack H., Singer W., Keuer D., Jobse K. Trajectory and orbit of the Maribo CM2 meteorite from optical, photoelectric and radar records. Meteoroids 2013 conference, Poznan, Poland, August 26-30, 2013.
  9. Jenniskens P. and et al.. Radar-enabled recovery of the Sutter's Mill meteorite, a carbonaceous chondrite regolith breccia. Science, 2012, vol. 338, pp. 1583-1587.
  10. Solar System Dynamics. Version 2016. Available at: https://jpl.nasa.gov/ (accessed date 5.10.2017).
  11. NEO Dynamic site 2. Version 2016. Available at: http://newton.am.inipi.it/neodys2 (accessed date 5.10.2017).
  12. IAU meteor data center photographic and video databases. Version 2016. Available at: http://www.astro.sk/~ne/IAUMDC/PhV2016/ (accessed date 5.10.2017).
  13. Tabiana C., Snodgrass C., Michelsen R., and Haack H. 2P/Encke, the Taurid complex NEOs and the Maribo and Sutter's Mill meteorites. Astronomy & Astrophysics, 2015, vol. 584, pp. A97-A107.
  14. Zolensky M.E., Zega T.J., Yano H., et al. Mineralogy and Petrology of Comet 81P/Wild 2 Nucleus Samples. Science, 2006, vol. 314, pp. 1735-1739.

Downloads

Issue

2017. No. 4. Part 3

Pages

76-82

Submitted

2017-10-05

Published

2017-12-29

How to Cite

Konovalova N.A., Ibrohimov A.A., Kalashnikova T.M. Groups of meteorite-producing meteoroids and carbonaceous chondrite meteorites. Ecological Bulletin of Research Centers of the Black Sea Economic Cooperation, 2017, no. 4, pp. 76-82. (In Russian)

Copyright (c) 2017 Konovalova N.A., Ibrohimov A.A., Kalashnikova T.M.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.