Zhulanova I.L.
North-East Complex Scientific Research Institute. ON. Shilo of the Far-Eastern Branch of the Russian Academy of Sciences
Language: Russian
Geochemistry and ore formation 2016, 36: 16-34
https://doi.org/10.15407/gof.2016.36.016
The author has considered theoretical premises of correct approach to the development of stratigraphic scales. The conclusion of the mutual complementarity of geological and isotope-geochronological methods is made. The balance of these methods is particularly important to consider when the Lower Precambrian part of the General Stratigraphic Scale is improving. Geological interpretation, taking into account the multi-stage tectonic and thermal evolution of Early Precambrian area, should precede the use of isotope-geochronological data. The author has developed a version of the ancient part of the General Stratigraphic Scale, which based on the new Lower Precambrian regional schemes of the Northeast Russia and the Southern Siberia. The author propose to divide Archean Acrothem into Lower Archean, Middle Archean and Upper Archean Eonotems, typal units of which are Kurultinian, Aldanian, Stanovian. Early Archean Eon is interpreted as “lunar stage” of the Earth hystory . The Kurultinian upper boundary is synchronized with the date 4,6 Ga, which corresponds to the completion of active development of the Moon. The author proposes to coincide the Archean Acrothem upper boundary with the base of Isua series, whose age is defined as 3,8 Ga.
Key words: geologic time, geochronometry , Lower Precambrian Scale, Archean, Northeast Russia.
1. Bibikova E.V. (1989). Uran-svintsovaya geohronologiya rannih etapov razvitiya drevnih schitov. Moscow.179 p.
2. Zhulanova I.L. Zemnaya kora Severo-Vostoka Azii v dokembrii i fanerozoe. (1990). Moscow. 304 p.
3. Zhulanova I.L., Karsakov L.P., Kuzmin V.K. Novaya regionalnaya stratigraficheskaya shema nizhnedokembriyskih obrazovaniy Verhoyano-Chukotskogo geobloka. Pacific Geology, 2006. 25, No 2. pp. 24-38.
4. Zhulanova I.L., Rusakova T.B., Kotlyar I.N. (2007). Geologiya i geohronometriya endogennyih sobyitiy v mezozoyskoy istorii Severo-Vostoka Azii. Moscow. 358 p.
5. Karta metamorficheskih i svyazannyih s nimi granitoidnyih formatsiy territorii SSSR. Masshtab 1:10000 000. Ob’yasnitelnaya zapiska. Sostavitel B.Ya. Horeva. Leningrad. 1986. 46 p.
6. Karta tektoniki dokembriya kontinentov v masshtabe 1 : 15 000 000. Ob’yasnitelnaya zapiska. Ed. Yu.A. Kosyigin. Moscow. 1974. 75 p.
7. Kirilyuk V.P. Ob osobennostyah sedimentatsii, metamorfizma i geologicheskoy istorii Zemli v arhee v svete sovremennyih predstavleniy o prirode Veneryi. Geological journal. 1971. 31, Iss 6. pp. 42-51.
8. Kirilyuk V.P. Pobuzhskiy granulito-gneysovyiy kompleks kak evropeyskiy stratotip nizhnego arheya. In: Mezhdunar. nauch.-prakt. konf. “Stratigrafiya, geohronologiya i korrelyatsiya nizhnedokembriyskih porodnyih kompleksov Vostochno-Evropeyskoy platformyi”: Tez. dokl. Kiev. 2010. pp. 87-91.
9. Kirilyuk V.P., Zhulanova I.L. Stratigraficheskie shemyi nizhnego dokembriya Rossii i Ukrainyi: sopostavlenie, analiz razlichiy, puti sblizheniya. Geological journal. 2013. No 2. pp. 89-120.
10. Kondi K. (1983). Arheyskie zelenokamennyie poyasa. Moscow. 390 p.
11. Kosyigin Yu.A. (1988). Tektonika. Moscow. 462 p.
12. Kotlyar I.N., Zhulanova I.L., Rusakova T.B., Gagieva A.M. Izotopnyie sistemyi magmaticheskih i metamorfiche skih kompleksov Severo-Vostoka Rossii. Magadan. 2001. 319 p.
13. Kotov A.B. Granichnyie usloviya geodinamicheskih modeley formirovaniya kontinentalnoy koryi Aldanskogo schita. Dis. … d-ra geol.-min. nauk. SPb. : IGGD RAN, 2003. 78 p.
14. Larin V.N. (1980). Gipoteza iznachalno gidridnoy Zemli (novaya globalnaya kontseptsiya). Moscow. 216 p.
15. Meyen S.V. (1989). Vvedenie v teoriyu stratigrafii. Moscow. 216 p.
16. Negrutsa V.Z. Osnovnyie problemyi stratigrafii dokembriya. Mineralogical Journal. 2004. 26, No 3. pp. 146-155.
17. Lazko E.M., Kirilyuk V.P., Sivoronov A.A., Yatsenko G .M. (1975). Nizhniy dokembriy zapadnoy chasti Ukrainskogo schita (vozrastnyie kompleksyi i formatsii). Lvov. 239 p.
18. Ovchinnikova G.V., Levskiy L.K. Vozrast meteoritov, Lunyi, Zemli. Isotope geochronology methods. Leningrad. 1987. pp. 18-33.
19. Onoprienko V.I., Simakov K.V., Dmitriev A.N. (1984). Metodologiya i ponyatiynyiy bazis geohronologii. Kiev. 128 p.
20. Onoprienko V.I. (2006). Kirill Vladimirovich Simakov. Moscow. 295 p.
21. Pavlov A.P. Popyitka raspoznat doarheyskuyu eru v istorii Zemli i opredelit ee vliyanie na dalneyshuyu evolyutsiyu geoida. Byul. MOIP. Otd. geol. 31. pp. 16-22.
22. Problemyi vremeni v geologii. In: Sbornik statey. Ed. V.I. Shuldiner, V.A. Krasilov. Vladivostok. 1979. 152p.
23. Onoprienko V.I., Simakov K.V., Meyen S.V. i dr. (1982). Razvitie ucheniya o vremeni v geologii. Kiev. 416 p.
24. Rasskazov S.V., Brandt S.B., Brandt I.S., Ivanov A.V. (2005). Radioizotopnaya geologiya v zadachah i primerah. Novosibirsk. 208 p.
25. Reshenie Vsesoyuznogo soveschaniya po obschim voprosam raschleneniya dokembriya SSSR. In: Obschie voprosyi raschleneniya dokembriya SSSR. Leningrad.1979. pp. 147-153.
26. Resheniya IV Mezhvedomstvennogo regionalnogo stratigraficheskogo soveschaniya po dokembriyu i fanerozoyu Dalnego Vostoka i Vostochnogo Zabaykalya. (1994). Habarovsk. 123 p.
27. Reshenie III Vserossiyskogo soveschaniya “Obschie voprosyi raschleneniya dokembriya”. In: Stratigrafiya. Geologicheskaya korrelyatsiya. 2001. 9, No 3. pp. 101-106.
28. Resheniya III mezhvedomstvennogo regionalnogo stratigraficheskogo soveschaniya po dokembriyu, paleozoyu i mezozoyu Severo-Vostoka Rossii. 2009. 268 p.
29. Ringvud A.E. (1982). Proishozhdenie Zemli i Lunyi. Moscow. 293 p.
30. Rudnik V.A., Sobotovich E.V. (1984). Rannyaya istoriya Zemli. Moscow. 319 p.
31. Salop L.I. (1982). Geologicheskoe razvitie Zemli v dokembrii. Leningrad. 343 p.
32. Semihatov M.A., Shurkin K.A., Aksenov E.M. i dr. Novaya stratigraficheskaya shkala dokembriya SSSR. Izvestiya AN SSSR . Ser. geol. 1991. No 4. pp. 3-13.
33. Semihatov M.A. Noveyshie shkalyi obschego raschleneniya dokembriya: analiz. Stratigrafiya. Geol. korrelyatsiya. 1993. 1, No 1. pp. 6-20.
34. Semihatov M.A. Hronostratigrafiya i hronometriya: konkuriruyuschie kontseptsii obschego raschleneniya dokembriya. Byul. MOIP, Otd. geol. 2008. 83, Iss. 5. pp. 36-58.
35. Sergeev V.N., Semihatov M.A., Fedonkin M.A. i dr. Osnovnyie etapyi razvitiya dokembriyskogo organicheskogo mira: Soobschenie 1. Arhey i ranniy proterozoy. Stratigrafiya. Geol. korrelyatsiya. 2007. 15, No 2. pp. 25-46.
36. Simakov K.V. (1999). Vvedenie v teoriyu geologicheskogo vremeni. Magadan. 556 p.
37. Simakov K.V. K sozdaniyu teorii paleobiosfernogo vremeni. Magadan. 2004. V. 1. Predyistoriya. Zarozhdenie. 356 p.; V. 2. Stanovlenie. Oformlenie. 252 p.; V. 3. Stagnatsiya. Perspektivyi. 357 p.
38. Sokolov B.S. (2010). Geologicheskoe ili paleobiosfernoe vremya i stratigrafiya. In: Evolyutsiya organicheskogo mira i bioticheskie krizisyi: Materialyi 56-y sess. Paleontolog. obsch-va Rossii. pp. 3-8.
39. Stratigraficheskiy kodeks. Izd. 2-e, dop. Mezhved. stratigr. kom., 1992. 120 p. Izd. 3-e. 2006. 96 p.
40. Harlend U.B., Koks A.V., Llevellin P.G. i dr. (1985). Shkala geologicheskogo vremeni. Moscow. 141 p.
41. Horeva B.Ya. (1980). K metodike vozrastnogo raschleneniya i kartirovaniya arheyskih granulito-gneysovyih kompleksov. In: Metodika kartirovaniya metamorficheskih kompleksov. Novosibirsk, pp. 68-76.
42. Baadsgaard H., Lambert R.St., Krupicka J. Mineral isotopic age relationships in the polymetamorfic Amitsog gneisses, Godthaab District, West Greenland. Geochim. Cosmochim. Acta. 1976. 40, No 5. pp. 513-527. https://doi.org/10.1016/0016-7037(76)90219-2
43. Baadsgaard H., Nutman A.P., Bridgwater D. Geochronology and isotopic variatin of early Arshaean Amitsog gneisses, southern West Greenland. Geochim. Cosmochim. Acta. 1986. – 50, No 10. pp. 2173-2183.
44. Cavosie A.J., Valley J.W., Wilde S.A. (2007). The Oldest Terrestrial Mineral Record: A Review of 4400 to 4000 Ma Detrital Zircons from Jack Hills, Western Australia . Earth’s Oldest Rocks. Amsterdam. pp. 91-111. https://doi.org/10.1016/S0166-2635(07)15025-8
45. Cohen K. M., Finney S., Gibbarg P.L. International Chronostratigraphic Chart. International Commission on Stratigraphy. 34th International Geological Congress. Brisbane, 2012.
46. Gradstein F.M., Ogg J.G., Schmitz M.D. The Geologic Time Scale. (2012). Amsterdam. 1144 p.
47. Hamilton P.J., O’Nions R.K., Bridgewater D., Nutman A. Sm-Nd studies of Archean metasediments and metavolcanics from West Greenland and their implications for the Earth’s early history. Earth and Planet. 1983. 62, No 3. pp. 263-278. https://doi.org/10.1016/0012-821X(83)90089-4
48. Hansen V.L. Venus: a thin-lithosphere analog for Early Earth? (2007). Earth’s Oldest Rocks. Amsterdam. pp. 987-1012.
49. Harland W.B., Armstrong R.L., Cox A.V. et al. (1990). A geologic time scale 1989. – Cambridge Univ. 263 p.
50. Larin V.N. (1993). Hydridic Earth: the new geology of our primordially hydrogen-rich planet. Polar Publishing. Calgary, Alberta (Canada), 247 p.
51. Plumb K.A. New Precambrian Time Scale . Episode. 1991. 14, No 2. pp. 139-140.
52. Van Kranendonk M. J., Gehling J., Shields G. (2008). Precambrian . In:J. G. Ogg, G. Ogg, F . Gradstein. The Concise Geologic Time Scale. Cambridge University Press, pp. 23-36.