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ГЕОМАГНИТНАЯ АКТИВНОСТЬ И ВАРИАЦИИ ГЛОБАЛЬНОЙ ТРОПОСФЕРНОЙ ТЕМПЕРАТУРЫ
1 Геофизический исследовательский центр, Потсдам, Германия
2 Институт общей и прикладной геофизики Мюнхенского университета, Мюнхен, Германия
2 Институт общей и прикладной геофизики Мюнхенского университета, Мюнхен, Германия
Журнал: Геофизические процессы и биосфера
Том: 8
Номер: 4
Год: 2009
Страницы: 35-46
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Грейф A., Хайдер Ф. ГЕОМАГНИТНАЯ АКТИВНОСТЬ И ВАРИАЦИИ ГЛОБАЛЬНОЙ ТРОПОСФЕРНОЙ ТЕМПЕРАТУРЫ // Геофизические процессы и биосфера. 2009. Т. 8. № 4. С. 35-46.
@article{ГрейфГЕОМАГНИТНАЯ2009,
author = "Грейф, A. and Хайдер, Ф.",
title = "ГЕОМАГНИТНАЯ АКТИВНОСТЬ И ВАРИАЦИИ ГЛОБАЛЬНОЙ ТРОПОСФЕРНОЙ ТЕМПЕРАТУРЫ",
journal = "Геофизические процессы и биосфера",
year = 2009,
volume = "8",
number = "4",
pages = "35-46",
doi = "",
language = "Russian"
}
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Ключевые слова: геомагнитная активность, глобальная тропосферная температура, глобальное потепление
Аннотация: ГЕОМАГНИТНАЯ АКТИВНОСТЬ И ВАРИАЦИИ ГЛОБАЛЬНОЙ ТРОПОСФЕРНОЙ ТЕМПЕРАТУРЫ
Список литературы: Bartels J. The technique of scaling indices K and Q of geomagnetic activity // Ann. Int. Geophysical Year. 1957. N 4. P. 215-226.
Belov A.V., Dorman L.I., Guchchina R.T., Obridko V.N., Sheeting B.D., Yanke V.G. Prediction of expected global climate change by forecasting of galactic cosmic ray intensity time variation in near future based on solar magnetic field data // Adv. Space Res. 2005. V. 35. P. 491-495.
Bucha V. Mechanism of the relations between the changes of the geomagnetic field, solar corpuscular radiation, atmospheric circulation and climate // J. Geomagn. Geoelectr. 1980. V. 32. P. 217-264.
Bucha V. Temperature changes in relation to geomagnetic activity // Application of direct and indirect data for the reconstruction of climate during the last two millennia / Eds Ruzickova E., Zeman A., Mirecki J. Prague: Academy of Sciences of Czech Republic, Geological Institute, 1993. P. 30-40.
Christy J.R., Goodridge J.D. Precision global temperatures from satellites and urban warming effects of non-satellite data // Atmosph. Environ. 1995. V. 29. P. 1957-1961.
Christy J.R., Spencer R.W., McNider R.T. Reducing noise in the MSU daily lower-tropospheric global temperature dataset // J. Climate. 1995. V. 8. P. 888-896.
Christy J.R., Spencer R.W., Braswell W.D. Global tropospheric temperature variations since 1979 // Proc. 10th Symp. on Global Change Studies. Amer. Meteorol. Soc., 10-14 Jan., 1999, Dallas, TX. 1999. P. 101-105.
Cotton W.R., Pielke R.A. Human impacts on weather and climate. Cambridge: Cambridge University Press, 1995. 288.
Echer E., Gonzalez W.D., Gonzalez A.L.C., Prestes A., Vieira L.E.A., Dal Lago A., Guarnieri F.L., Schuch N.J. Long-term correlation between solar and geomagnetic activity // J. Atmos. Solar-Terr. Phys. 2004. V. 66, N 12. P. 1019-1025.
El-Borie M.A., Al-Thoyaib S.S. Can we use the aa geomagnetic activity index to predict partially the variability in global mean temperatures? // Int. J. Phys. Sci. V. 1, N 2. P. 67-74.
Feldstein Ya.I., Levitin A.E., Pisarskii V.Yu., Rudneva N.M., Grafe A., Ochabova P., Prigancova A. Energy regimes in the Earth's magnetosphere // Stud. Geoph. Geod. 1986. V. 30. P. 268-390.
Friis-Christensen E., Lassen K. The length of the solar cycle: an indicator of solar activity closely associated with the terrestrial climate // Science. 1991. V. 254. P. 698-700.
Georgieva K., Kirov B. Solar activity and global warming revisited // Sun and Geosphere. 2006. V. 1, N 1. P. 12-16.
Gleissberg W. Die Höhe der nächsten Sonnenfleckmaxima // Z. Astrophysik. 1941. N 21. P. 347-349.
Graedel T.E., Crutzen P.J. Atmospheric change: An Earth system perspective. New York: Freeman, 1993. 446.
Hansen J.E., Lacis A.A. Sun and dust versus greenhouse gases: an assessment of their relative roles in global climate change // Nature. 1990. V. 346. P. 713-719.
Hoyt D.V., Schatten K.H. The role of the Sun in climate change. Oxford: Oxford University Press, 1997. 274.
Hunter M.N. A theory concerning the geomagnetic-solar influence on weather and climate // J. Geophys. Res. 1960. V. 65. P. 2499.
Jones P.D. Hemispheric surface air temperature variations: a reanalysis and an update to 1993 // J. Climate. 1994. V. 7. P. 1794-1802.
Kishcha P.V., Dmitrieva I.V., Obridko V.N. Long-term variations of the solar-geomagnetic correlation, total solar irradiance, and the northern hemispheric temperature (1868-1997) // J. Atm. Solar-Terr. Phys. 1999. V. 61, N 11. P. 799-808.
Kristjansson J.E., Staple A., Kristiansen J., Kaas E. A new look at possible connections between solar activity, clouds and climate // Geophys. Res. Lett. 2002. V. 29. P. 2107-2110.
Kristjansson J.E., Kristiansen J., Kaas E. Solar activity, cosmic rays, clouds and climate - an update // Adv. Space Res. 2005. V. 34. P. 407-415.
Labitzke K., van Loon H. Association between the 11-year solar cycle and the atmosphere. Part V: Summer // J. Climate. 1992. V. 5. P. 240-251.
Labitzke K., van Loon H. Some recent studies of probable connection between solar and atmospheric variability // Ann. Geophys. 1993. V. 11. P. 1084-1094.
Landscheidt T. Solar wind near Earth: Indicator of variations in global temperature // The solar cycle and terrestrial climate / Ed. Vazquez M., Schmieder B. European Space Agency. Special Publication 463. 2000. P. 497-500. (Proc. 1st Solar & Space Weather Euro-conference The solar cycle and terrestrial climate. Tenerife, Spain, 2000).
Lassen K., Friis-Christensen E. Variability of the solar cycle length during the past five centuries and the apparent association with terrestrial climate // J. Atmos. Terr. Phys. 1995.V. 57. P. 835-845.
Lassen K., Friis-Christensen E. Reply the article «Solar cycle lengths and climate»: A reference revisited' by P. Laut, Gundemann J. // J. Geophys. Res. 2000. V. 105. N A12. P. 27493-27495.
Laut P. Solar activity and terrestrial climate: An analysis of some purported correlations // J. Atmos. Solar-Terr. Phys. 2003. V. 65. P. 801-812.
Laut P., Gundermann J. Solar cycle lengths and climate: A reference revised // J. Geophys. Res. 2000a. V. 105. P. 27489.
Laut P., Gundermann J. Is there a correlation between solar cycle lengths and terrestrial temperatures? Old claims and new results // The solar cycle and terrestrial climate / Ed. Vazquez M., Schmieder B. European Space Agency. Special Publication 463. 2000b. P. 189-191. (Proc. 1st Solar & Space Weather Euroconference The Solar Cycle and Terrestrial Climate. Tenerife, Spain, 2000).
Lean J., Beer J., Breadley R. Reconstruction of solar irradiance since 1610; implications for climate change // Geophys. Res. Lett. 1995. V. 22. P. 3195-3198.
Lockwood R., Stamper R., Wild M.N. A doubling of the Sun's coronal magnetic field during the past 100 years // Nature. 1999. V. 399. P. 437-439.
Marsh N.D., Svensmark H. Low cloud properties influenced by cosmic rays // Phys. Rev. Lett. 2000a. V. 85. P. 5004-5008.
Marsh N.D., Svensmark H. Cosmic rays, clouds, and climate // Space Sci. Rev. 2000b. V. 94. P. 215-230.
Mayaud P.N. The aa-indices: a 100-year series characterizing the magnetic activity // J. Geophys. Res. 1972. V. 77. P. 6870-6874.
Parker D.E., Folland C.K., Jackson M. Marine surface temperature: observed variations and data requirements // Climate Change. 1995. V. 31. P. 559-600.
Rahmstorf S., Archer D., Ebel D.S., Eugster O., Jouzel J., Maraun D., Neu U., Schimidt G.A., Severinghaus J., Weaver A.J., Zachos J. Cosmic rays, carbon dioxide, and climate // EOS. Trans. Amer. Geophys. Union. 2004. V. 85, N 4. P. 38, 41.
Reid G.C. The sun-climate question: Is there a real connection ? // Rev. Geophys. Suppl. 1995. P. 535-538.
Shaviv N.J., Veizer J. Celestrial driver of Phanerozoic climate? // GSA Today. 2003. July. P. 4-10.
Shindell D., Rind D., Balachandran N., Lean J., Lonergan P. Solar cycle variability, ozone and climate // Science. 1999. V. 284. P. 305-308.
Spencer R.W., Christy J.R. Precise monitoring of global temperature trends from satellites // Science. 1990. V. 247. P. 1558-1562.
Svensmark H. Influence of cosmic rays on Earth's climate // Phys. Rev. 1998. V. 81. P. 5027-5030.
Svensmark H., Friis-Christensen E. Variation of cosmic ray flux and global cloud coverage: a missing link in solar climate relationships // J. Atmos. Terr. Phys. 1997. V. 59. P. 1225-1232.
Thejll P., Lassen K. Solar forcing of the Northern hemisphere land air temperature: New data // J. Atmo. Solar-Terr. Phys. 2000. V. 62. P. 1207-1213.
Belov A.V., Dorman L.I., Guchchina R.T., Obridko V.N., Sheeting B.D., Yanke V.G. Prediction of expected global climate change by forecasting of galactic cosmic ray intensity time variation in near future based on solar magnetic field data // Adv. Space Res. 2005. V. 35. P. 491-495.
Bucha V. Mechanism of the relations between the changes of the geomagnetic field, solar corpuscular radiation, atmospheric circulation and climate // J. Geomagn. Geoelectr. 1980. V. 32. P. 217-264.
Bucha V. Temperature changes in relation to geomagnetic activity // Application of direct and indirect data for the reconstruction of climate during the last two millennia / Eds Ruzickova E., Zeman A., Mirecki J. Prague: Academy of Sciences of Czech Republic, Geological Institute, 1993. P. 30-40.
Christy J.R., Goodridge J.D. Precision global temperatures from satellites and urban warming effects of non-satellite data // Atmosph. Environ. 1995. V. 29. P. 1957-1961.
Christy J.R., Spencer R.W., McNider R.T. Reducing noise in the MSU daily lower-tropospheric global temperature dataset // J. Climate. 1995. V. 8. P. 888-896.
Christy J.R., Spencer R.W., Braswell W.D. Global tropospheric temperature variations since 1979 // Proc. 10th Symp. on Global Change Studies. Amer. Meteorol. Soc., 10-14 Jan., 1999, Dallas, TX. 1999. P. 101-105.
Cotton W.R., Pielke R.A. Human impacts on weather and climate. Cambridge: Cambridge University Press, 1995. 288.
Echer E., Gonzalez W.D., Gonzalez A.L.C., Prestes A., Vieira L.E.A., Dal Lago A., Guarnieri F.L., Schuch N.J. Long-term correlation between solar and geomagnetic activity // J. Atmos. Solar-Terr. Phys. 2004. V. 66, N 12. P. 1019-1025.
El-Borie M.A., Al-Thoyaib S.S. Can we use the aa geomagnetic activity index to predict partially the variability in global mean temperatures? // Int. J. Phys. Sci. V. 1, N 2. P. 67-74.
Feldstein Ya.I., Levitin A.E., Pisarskii V.Yu., Rudneva N.M., Grafe A., Ochabova P., Prigancova A. Energy regimes in the Earth's magnetosphere // Stud. Geoph. Geod. 1986. V. 30. P. 268-390.
Friis-Christensen E., Lassen K. The length of the solar cycle: an indicator of solar activity closely associated with the terrestrial climate // Science. 1991. V. 254. P. 698-700.
Georgieva K., Kirov B. Solar activity and global warming revisited // Sun and Geosphere. 2006. V. 1, N 1. P. 12-16.
Gleissberg W. Die Höhe der nächsten Sonnenfleckmaxima // Z. Astrophysik. 1941. N 21. P. 347-349.
Graedel T.E., Crutzen P.J. Atmospheric change: An Earth system perspective. New York: Freeman, 1993. 446.
Hansen J.E., Lacis A.A. Sun and dust versus greenhouse gases: an assessment of their relative roles in global climate change // Nature. 1990. V. 346. P. 713-719.
Hoyt D.V., Schatten K.H. The role of the Sun in climate change. Oxford: Oxford University Press, 1997. 274.
Hunter M.N. A theory concerning the geomagnetic-solar influence on weather and climate // J. Geophys. Res. 1960. V. 65. P. 2499.
Jones P.D. Hemispheric surface air temperature variations: a reanalysis and an update to 1993 // J. Climate. 1994. V. 7. P. 1794-1802.
Kishcha P.V., Dmitrieva I.V., Obridko V.N. Long-term variations of the solar-geomagnetic correlation, total solar irradiance, and the northern hemispheric temperature (1868-1997) // J. Atm. Solar-Terr. Phys. 1999. V. 61, N 11. P. 799-808.
Kristjansson J.E., Staple A., Kristiansen J., Kaas E. A new look at possible connections between solar activity, clouds and climate // Geophys. Res. Lett. 2002. V. 29. P. 2107-2110.
Kristjansson J.E., Kristiansen J., Kaas E. Solar activity, cosmic rays, clouds and climate - an update // Adv. Space Res. 2005. V. 34. P. 407-415.
Labitzke K., van Loon H. Association between the 11-year solar cycle and the atmosphere. Part V: Summer // J. Climate. 1992. V. 5. P. 240-251.
Labitzke K., van Loon H. Some recent studies of probable connection between solar and atmospheric variability // Ann. Geophys. 1993. V. 11. P. 1084-1094.
Landscheidt T. Solar wind near Earth: Indicator of variations in global temperature // The solar cycle and terrestrial climate / Ed. Vazquez M., Schmieder B. European Space Agency. Special Publication 463. 2000. P. 497-500. (Proc. 1st Solar & Space Weather Euro-conference The solar cycle and terrestrial climate. Tenerife, Spain, 2000).
Lassen K., Friis-Christensen E. Variability of the solar cycle length during the past five centuries and the apparent association with terrestrial climate // J. Atmos. Terr. Phys. 1995.V. 57. P. 835-845.
Lassen K., Friis-Christensen E. Reply the article «Solar cycle lengths and climate»: A reference revisited' by P. Laut, Gundemann J. // J. Geophys. Res. 2000. V. 105. N A12. P. 27493-27495.
Laut P. Solar activity and terrestrial climate: An analysis of some purported correlations // J. Atmos. Solar-Terr. Phys. 2003. V. 65. P. 801-812.
Laut P., Gundermann J. Solar cycle lengths and climate: A reference revised // J. Geophys. Res. 2000a. V. 105. P. 27489.
Laut P., Gundermann J. Is there a correlation between solar cycle lengths and terrestrial temperatures? Old claims and new results // The solar cycle and terrestrial climate / Ed. Vazquez M., Schmieder B. European Space Agency. Special Publication 463. 2000b. P. 189-191. (Proc. 1st Solar & Space Weather Euroconference The Solar Cycle and Terrestrial Climate. Tenerife, Spain, 2000).
Lean J., Beer J., Breadley R. Reconstruction of solar irradiance since 1610; implications for climate change // Geophys. Res. Lett. 1995. V. 22. P. 3195-3198.
Lockwood R., Stamper R., Wild M.N. A doubling of the Sun's coronal magnetic field during the past 100 years // Nature. 1999. V. 399. P. 437-439.
Marsh N.D., Svensmark H. Low cloud properties influenced by cosmic rays // Phys. Rev. Lett. 2000a. V. 85. P. 5004-5008.
Marsh N.D., Svensmark H. Cosmic rays, clouds, and climate // Space Sci. Rev. 2000b. V. 94. P. 215-230.
Mayaud P.N. The aa-indices: a 100-year series characterizing the magnetic activity // J. Geophys. Res. 1972. V. 77. P. 6870-6874.
Parker D.E., Folland C.K., Jackson M. Marine surface temperature: observed variations and data requirements // Climate Change. 1995. V. 31. P. 559-600.
Rahmstorf S., Archer D., Ebel D.S., Eugster O., Jouzel J., Maraun D., Neu U., Schimidt G.A., Severinghaus J., Weaver A.J., Zachos J. Cosmic rays, carbon dioxide, and climate // EOS. Trans. Amer. Geophys. Union. 2004. V. 85, N 4. P. 38, 41.
Reid G.C. The sun-climate question: Is there a real connection ? // Rev. Geophys. Suppl. 1995. P. 535-538.
Shaviv N.J., Veizer J. Celestrial driver of Phanerozoic climate? // GSA Today. 2003. July. P. 4-10.
Shindell D., Rind D., Balachandran N., Lean J., Lonergan P. Solar cycle variability, ozone and climate // Science. 1999. V. 284. P. 305-308.
Spencer R.W., Christy J.R. Precise monitoring of global temperature trends from satellites // Science. 1990. V. 247. P. 1558-1562.
Svensmark H. Influence of cosmic rays on Earth's climate // Phys. Rev. 1998. V. 81. P. 5027-5030.
Svensmark H., Friis-Christensen E. Variation of cosmic ray flux and global cloud coverage: a missing link in solar climate relationships // J. Atmos. Terr. Phys. 1997. V. 59. P. 1225-1232.
Thejll P., Lassen K. Solar forcing of the Northern hemisphere land air temperature: New data // J. Atmo. Solar-Terr. Phys. 2000. V. 62. P. 1207-1213.
