PHASES OF PLANETARY CLIMATIC CYCLES

Periodicity is peculiar to climatic changes that occurred for the last 400 kyr. During this period, 5 climatic cycles took place. In contrast to the present concept explaining the climatic cycles by changing solar activity, we consider the periodicity as a result of auto oscillations of self-regulating climatic system of the Earth. In the etalon, complete, penultimate (137-18 kyr B.P.) climatic cycle, 4 phases, corresponding to stadiality of selforganisation process, were separated. We named those as follows: ‘termination’ (in terms of nonlinear dynamics, corresponding to the state ‘dynamic chaos’), ‘reduction’ (corresponding to the state ‘bifurcation’), ‘moderation’ (corresponding to the state ‘dissipative structure’), and ‘culmination’ (corresponding to the state ‘stationary state’). Stadiality inside cycles and periodicity are provided by transformation of a relatively stable solar energy through its redistribution in internal energy reservoirs: heat, gravitational, geochemical, and biological.

1. Nikolis G., Prigozhin I. Poznanie slozhnogo. – M.: Mir, 1990. – 344 s.

2. Nicolis C., Nicolis G. There a Climatic Attractor? // Nature. – 1984. – Vol. 311. – P. 529-532.

3. Monin A.S. Klimat kak problema fiziki / A.S. Monin, Yu.A. Shishkov // UFN. – 2000. – Tom 170, № 4. – S. 419-444.

4. Knyazeva E.N. Antropnyj princip v sinergetike / E.N. Knyazeva, S.P. Kurdyumov // Voprosy filosofii. – 1997. – № 3. – S. 70-72.

5. Kravcov YU.A. Fizicheskie aspekty modelirovaniya izmenenij v klimaticheskoj sisteme Zemli // (rezhim dostupa: http://www.archipelag.ru/agenda/geoklimat/effort/aspect/) data obrashcheniya: 1.12.2018.

6. Kravcov YU.A. Zemlya kak samoorganizuyushchayasya klimato-ehkologicheskaya sistema / YU.A. Kravcov // Sorosovskij Obrazovatel’nyj ZHurnal. – 1995. – № 1. – S. 82-87.

7. Spektor V.B. Klimaticheskie cikly i kriogennye ehpohi na Severo-Vostoke Rossii / V.B. Spektor, B.M. Kershengol’c, V.V. Spektor, S.H. Lifshic, G.T. Maksimov // Nauka i tekhnika v Yakutii. – 2015. – № 1(28). – S. 3-9.

8. Adushkin V.V., Solov’ev S.P., Turuntaev S.B. Sootnoshenie antropogennoj i prirodnoj sostavlyayushchih v potoke gazov v atmosferu // Global’nye izmeneniya prirodnoj sredy – 2001. Novosibirsk: SO RAN «GEO», 2001. – S. 249-264.

9. Balobaev V.T. Kosmo-planetarnye klimaticheskie cikly i ih rol’ v razvitii biosfery Zemli / V.T. Balobaev, V.V. SHepelev // DAN. – 2001. – T. 379, № 2. – S. 247-251.

10. Mudelsee M. The phase relations among atmospheric CO2 content, temperature and global ice volume over the past 420 ka // Quaternary Science Reviews. – 2001. – 20. – P. 583-589.

11. Petit J.R., Jouzel J., Raynaud D. et al. Climate and atmo¬spheric history of the past 420 000 years from the Vostok ice core Antarctica // Nature. – 1999. – Vol. 399. – P. 429-436.

12. Shackleton N.J. The 100.000-year Ace-Age cycle identified and found to lag temperature, carbon dioxide, and orbital eccentricity // Science. – 2000. – vol. 289. – P. 1897-1902.

13. Bol’shakov V.A. Uroki razvitiya orbital’noj teorii klimata / V.A. Bol’shakov, A.P. Kapica // Vestnik RAN. – 2011. – Tom 81, № 7. – S. 603-612.

14. Kennet Dzh. Morskaya geologiya: v 2h tomah. – M.: Mir, 1987. – T. 1. – 397 s., T. 2. – 384 s.

15. Bol’shakov V.A.. Orbital’nye faktory vozdejstviya na kriosferu Zemli (na primere analiza antarkticheskih kernov) / V.A. Bol’shakov, V.A. Fedin // Kriosfera Zemli. – 2015. – Tom XIX, № 2. – S. 87-97.

16. Bradley R.S. Paleoclimatology. Reconstructing Climate of the Quaternary. 2nd edition. International Geophysics Series. Vol. 64. – Harcourt Academic Press, 1999. – 610 p.

17. Broecker W.S., van Donk J. Insolation changes, ice volumes, and the O18 record in deep-sea cores // Reviews of Geophysics and Space Physics. – 1970. – № 8. – P. 169-198.

18. Muller R., MacDonald G. Glacial cycles and astronomical forcing // Science. – 1997. – Vol. 277. – P. 215-218 .

19. Periodichnost’ – fundamental’naya harakteristika mirozdaniya. Ciklichnost’ Haosa i poryadka // (rezhim dostupa: http://www. wedjat.ru/index.php newsid) data obrashcheniya: 1.12.2018.

20. Haken G. Sinergetika i ierarhii neustojchivostej v samoorganizuyushchihsya sistemah i ustrojstvah. – M.: Mir, 1985. – 424 s.

21. Ogurcov A.N. Vvedenie v sinergetiku. – Har’kov: NTU «HPI», 2013. – 208 s.

22. Truhin, V.I., Pokazeev, K.V., Kunicyn, V.E. Obshchaya i ehkologicheskaya geofizika. – M: FIZMATLIT, 2005. – 576 s.

23. Davydov L.K., Dmitrieva A.A., Konkina N.G. Obshchaya gidrologiya. – L.: Gidrometeoizdat, 1973. – 463 s.

24. Klimaticheskaya sistema Zemli // (rezhim dostupa: diplomba.ru/work/127454) data obrashcheniya: 8.12.2018.

25. Global’noe poteplenie // (rezhim dostupa: https:// ru.wikipedia.org/wiki/Global’noe_poteplenie) data obrashcheniya: 8.12.2018.

26. Spektor V.B. Karbonatno-metanovaya sistema samoregulyacii planetarnogo klimata / V.B. Spektor, B.M. Kershengol’c, S.H. Lifshic, V.V. Spektor // Izvestiya RAN. Seriya geograficheskaya. – 2007. – № 6. – S. 1-12.

27. Spektor V.B. Karbonatnaya geohimicheskaya model’ planetarnogo klimata / V.B. Spektor, B.M. Kershengol’c // Doklady Akademii Nauk. – 2007. – Tom 416, № 3. – S. 1-3.

28. Ivashchenko. Poteplenie // (rezhim dostupa: http://www.poteplenie.ru/news/news170905.htm) data obrashcheniya: 8.12.2018.

29. Poteplenie // (rezhim dostupa: http://www.poteplenie.ru/problem/oi-1-3.htm) data obrashcheniya: 8.12.2018.

30. Alekseev V.V. Rost koncentracii SO2 v atmosfere – vseobshchee blago? / V.V. Alekseev, S.V. Kiseleva, N.I. CHernova // Priroda. – 1999. – № 9. – S. 3-13.

31. Valyaev B.M. Uglevodorodnaya degazaciya Zemli i genezis neftegazovyh mestorozhdenij / B.M. Valyaev // Gazovaya promyshlennost’. – 1997. – № 7. – S. 6-10.

32. Zavarzin G.A. Stanovlenie biosfery / G.A. Zavarzin // Vestnik Rossijskoj Akademii nauk. – 2001. – Tom 71, № 11. – S. 988-1001.

33. Zapasy snega i l’da // (rezhim dostupa: https://geographyofrussia.com/zapasy-snega-i-lda/) data obrashcheniya: 8.12.2018.

34. Prigozhin I., Stengers, I. Vremya, haos, kvant. K resheniyu paradoksa vremeni. – M: Editorial URSS, 2003. – 240 s.

35. Matizen Eh. V. Sostoyanie samoorganizovannoj kritichnosti v dzhezfsonovskoj reshetke / Eh.V Matizen, V.G. Martynec, P.P. Bezverhi // Vestnik SibGUTI. – 2009. – № 3. – S.137-144.

36. Haken G. Sinergetika. – M.: Mir, 1980. – 404 s.

37. Solnechnaya radiaciya // (rezhim dostupa: http://www.studfiles.ru/ preview/5162964/) data obrashcheniya: 8.12.2018.

38. Ojkumena // (rezhim dostupa: http://geo-site.ru/index.php/) data obrashcheniya: 8.12.2018.

39. Spektor V.V. Proiskhozhdenie kriolitogennyh kompleksov vysokoj ravniny Leno-Amginskogo mezhdurech’ya: avtoref. dis. … k. geogr.n..: 25.00.08 – Yakutsk: IMZ SO RAN, 2003. – 28 s.

40. Spektor V.V., Spektor V.B. Kriogenno-akkumulyativnye processy i yavleniya v plejstocene i golocene na territorii Central’noj Yakutii // Itogi geokriologicheskih issledovanij v Yakutii v XX veke i perspektivy ih dal’nejshego razvitiya. – Yakutsk: Izd-vo IMZ SO RAN, 2003. – S. 133-148.

41. Grosval’d, M.G. Evrazijskie gidrosfernye katastrofy i oledeneniya Arktiki. – M.: Nauchnyj mir, 1999. – 118 s.

42. Vzaimodejstvie oledeneniya s atmosferoj i okeanom / otv. red. V.M. Kotlyakov, M.G. Grosval’d. – M.: Nauka, 1987. – 248 s.

43. Shahova N.E. Antropogennyj faktor i ehmissiya metana na Vostochno-Sibirskom shel’fe / N.E. Shahova, V.A. Yusupov, A.N. Salyuk, D.A. Kosmach, I.P. Semiletov // DAN. – 2009. – Tom 429, № 3. – S. 398-401.