The Model of Dependence of the Temperature of the Surface Layer of Atmosphere from the Earth's Albedo and Thermal Inertia of the Hydrosphere
DOI:
https://doi.org/10.30564/jasr.v1i1.373Abstract
The assumption of M. Milankovich about the constancy of the Earth's albedo during the interglacial period was replaced with the alternative one. The model was developed where anomalies of the average annual temperature of the surface atmosphere were related with interannual changes in the planetary albedo and the thermal inertia of the hydrosphere. The surface temperature changes due to albedo actual and model changes were calculated. Possible external causes of albedo changes were considered.
Keywords:
radiation imbalance; hemisphere’s albedo; Milankovich theory; model extension; geospheres’ heat balance; variability of the planetary albedo; near-surface atmosphere; temperature.References
[1] Kondratyev K.Ya., Krapivin V.F. The “nature – society” system and climate. On the thermal balance of the Earth // Energy. 2006. No. 3. P.2–6. In Russian.
[2] Golovko V.A. Modern energy imbalance of the Earth. Proof of coexistence and possible consequences. Electronic resource. URL: http://www.iki.rssi.ru./earty/hres2006/golovko.pdf. In Russian.
[3] Milankovich M. Mathematical Climatology and Astronomical Theory of Climate Change. Moscow-Leningrad: GONTI, 1939. 19 p. In Russian.
[4] Palle E., Goode P.R., Montanes-Rodriguez P., Koonin S.E. Can Earth's Albedo and Surface Temperatures Increase Together? // Eos. Trans. 2006. V. 87, No. 4. P. 37–43.
[5] Golovko V.A., Pakhomov L.A., Uspensky A.B. Study of the field of outgoing radiation of the Earth using a scanning radiometer for radiation balance installed in the Russian satellites «Meteor» and «Resource» // Investigated in Russia. Electronic resource. URL: http://zhurnal.ape.relarn.ru/articles/2003/106.pdf. In Russian.
[6] Goode P.R., Palle E.R. Shortwave forcing of the Earth's climate: Modern and historical variations in the Sun's irradiance and the Earth' reflectance // J Atmos Solar Terrestr Physics. 2007. V. 69. P. 1556-1568.
[7] The Third Assessment Report of the IPCC. Climate Change, 2001: Scientific Aspects. Technical Summary of the Working Group I Report. 2001. 101 p.
[8] Palle E., Goode H.R., Montanes-Rodrignez P. Inter-annual variations in Earth’s reflectance 1999-2007 // J Geophys Res. 2009. V.114. D00D03. DOI: https://doi.org/10.1029/2008JD010734
[9] Zavalishin N.N., Pon'ko V.A. On the 20th anniversary of the Fifth All-Union Seminar on the cycling of heliogeophysical processes // Sun, Earth, Water and Energy: Materials of Scientific Readings dedicated to the 75th anniversary of the birth of Academician I.P. Druzhinin. Proceedings of the East-Siberian Branch of the Academy of Water Sciences. Issue 2. Novosibirsk: Science, 2005. P. 10-20. In Russian.
[10] Dmitryev A.A. From heliogeophysical hypotheses to forecasts // Long-term Forecasting of Hydrometeorological Conditions: Proceedings of the Academy of Agricultural Sciences. Novosibirsk, 1985. P.3-14. In Russian.
[11] Svensmark H., Friis-Christensen E. Variation of cosmic ray flux and coverage // J Atmos Terr Phys. 1997. V. 58. P.1225-1232.
[12] Pudovkin M.I., Raspopov O.M. The mechanism of solar activity influence on the state of the lower atmosphere and meteorological parameters: review // Geomagnetism and Aeronomy. 1992. V.32, No.5. P. 1-22. In Russian.
[13] Landshaitd T. Solar rotation, motion speed and climatic variation. // Climate Change. 1987. V.12. P. 265-295.
[14] Zavalishin N.N. Assessment of the impact of the Sun shift from the inertion center on troposphere temperature // Optika Atmosfery i Okeana. 2009. V. 22. No. 01. P. 31-33. In Russian.
[15] Zavalishin N.N. On the geophysical effects of solar system dissymmetry // Solar-terrestrial physics. 2005. V. 8. P. 185-186. In Russian.
[16] The Fourth Assessment Report of the IPCC. Climate Change 2007: Synthesis Report. IPCC, Geneva, 2008. 104 p.
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