Используемая литература

1. Гивишвили Г.В., Лещенко Л.Н. Долговременные тренды свойств ионосферы и термосферы средних широт // Доклады Академии наук. 1993. Т. 333. № 1. С. 86-89. 2. Данилов А.Д. Метод определения трендов в области F2, не зависящих от геомагнитной активности // Геомагнетизм и аэрономия. 2002. Т. 42. № 3. С. 350-359. 3. Данилов А.Д. Временные и пространственные вариации отношения ночных и дневных величин критических частот слоя F2 // Геомагнетизм и аэрономия. 2007. Т. 47. № 6. С. 751-760. 4. Данилов А.Д. Вариации foF2 и hmF2 в конце 90-х и начале 2000-х годов // Геомагнетизм и аэрономия. 2011а. Т. 51. № 3. С. 325-332. 5. Данилов А.Д. Вариации foF2 в конце 90-х и начале 2000-х годов по медианным данным // Геомагнетизм и аэрономия. 2011б. Т. 51. № 6. С. 769-777. 6. Данилов А.Д., Ванина-Дарт Л.Б. Пространственные и временные вариации отношения foF2(ночь)/foF2(день): уточнение ряда эффектов // Геомагнетизм и аэрономия. 2008а. Т. 48. № 2. С. 228-240. 7. Данилов А.Д., Ванина-Дарт Л.Б. Критические частоты foF2 как индикатор трендов термосферной динамики // Геомагнетизм и аэрономия. 2008б. Т. 48. № 6. С. 810-822. 8. Данилов А.Д., Ванина-Дарт Л.Б. Разброс величин hmF2 как индикатор трендов термосферной динамики // Геомагнетизм и аэрономия. 2009. Т. 49. № 1. С. 58-62. 9. Данилов А.Д., Ванина-Дарт Л.Б. Сравнение величин foF2 в дневное время и после захода Солнца // Геомагнетизм и аэрономия. 2010а. Т. 50. № 1. С. 61-66. 10. Данилов А.Д., Ванина-Дарт Л.Б. Параметры ионосферного слоя F2 как источник информации о трендах динамики термосферы // Геомагнетизм и аэрономия. 2010б. Т. 50. № 2. С. 195-208. 11. Данилов А.Д., Ванина-Дарт Л.Б. Поведение foF2 и hmF2 после захода Солнца // Геомагнетизм и аэрономия. 2010в. Т. 50. № 6. С. 825-832. 12. Данилов А.Д., Константинова А.В. Вариации foF2 в конце 90-x и начале 2000-x годов по данным банка Spidr // Геомагнетизм и аэрономия. 2012. Т. 52. № 1. С. 48-55. 13. Данилов А.Д., Смирнова Н.В. Долговременные тренды ионного состава области Е // Геомагнетизм и аэрономия. 1997. Т. 37. № 4. С. 43-49. 14. Кокин Г.А., Лысенко Е.В., Розенфельд С.К. Температурные изменения в стратосфере и мезосфере в течение 1964-1988 гг. по данным ракетного зондирования // Известия Академии наук. Серия: Физика атмосферы и океана. 1990. Т. 26. С. 702-710. 15. Охлаждение и оседание средней и верхней атмосферы: Международное рабочее совещание, Москва, 6-10 июля 1998 г. М.: ГЦ РАН, 1998. 44 с. 16. Семенов А.И. Температурный режим нижней термосферы по эмиссионным измерениям в течение последних трех десятилетий // Геомагнетизм и аэрономия. 1996. Т. 36. № 5. С. 60-65. 17. Akmaev R.A., Fomichev V.I., Zhu X. Impact of middle-atmospheric composition changes on greenhouse cooling in the upper atmosphere // Journal of Atmospheric and Solar-Terrestrial Physics. 2006. Vol. 68. P. 1879-1889. 18. Beig G. The relative importance of solar activity and anthropogenic influences on the ion composition, temperature, and associated neutrals of the middle atmosphere // Journal of Geophysical Research. 2000. Vol. 105. P. 19841-19856. 19. Beig G. Overview of the mesospheric temperature trend and factors of uncertainty // Physics and Chemistry of the Earth. 2002. Vol. 27. P. 509-519. 20. Beig G., Keckhut P., Lowe R.P. et al. Review of mesospheric temperature trends // Reviews of Geophysics. 2003. Vol. 41. No. 4. P. 1015-1058. 21. Bencze P., Sole G., Alberca L.F., Poor A. Long-term changes of hmF2 possible latitudinal and regional variations // Proceedings of the 2nd COST 251 Workshop "Algorithms and Models for COST 251 Final Product". Side, Turkey, 30-31 March 1998. P. 107. 22. Bremer J. Trends in the ionospheric E and F regions over Europe // Annales Geophysicae. 1998. Vol. 16. P. 986-996. 23. Bremer J. Trends in the thermosphere derived from global ionosonde observations // Advances in Space Research. 2001. Vol. 28. No. 7. P. 997-1006. 24. Bremer J. Long-term trends in the ionospheric E and F1 regions // Annales Geophysicae. 2008. Vol. 26. P. 1189-1197. 25. Bremer J., Schminder R., Greisiger K.M., Hoffmann P., Kurschner D., Singer W. Solar cycle dependence and long-term trends in the wind field of the mesosphere/lower thermosphere // Journal of Atmospheric and Solar-Terrestrial Physics. 1997. Vol. 59. P. 497-509. 26. Bremer J. et al. Climate of the upper atmosphere // Annales Geophysicae. 2009. Vol. 52. P. 273-299. 27. Danilov A.D. New ideas in the D-region modeling // Advances in Space Research. 2000. Vol. 25. No. 1. P. 14-19. 28. Danilov A.D. F2-region response to geomagnetic disturbances // Journal of Atmospheric and Solar-Terrestrial Physics. 2001. Vol. 63. P. 441-449. 29. Danilov A.D. The method of determination of the long-term trends in the F2-region independent of geomagnetic activity // Annales Geophysicae. 2002. Vol. 20. P. 511-521. 30. Danilov A.D. Long-term trends of foF2 independent on geomagnetic activity // Annales Geophysicae. 2003. Vol. 21. No. 5. P. 1167-1176. 31. Danilov A.D. Long-term trends in F2-layer parameters and their relation to other trends // Advances in Space Research. 2005. Vol. 35. No. 8. P. 1405-1410. 32. Danilov A.D. Progress in studies of the trends in the ionosphere F region // Physics and Chemistry of the Earth. 2006. Vol. 31. P. 34-40. 33. Danilov A.D. Time and spatial variations in the ratio of nighttime and daytime critical frequencies of the F2 layer // Journal of Atmospheric and Solar-Terrestrial Physics. 2008a. Vol. 70. P. 1201-1212. 34. Danilov A.D. Long-term trends in the relation between daytime and nighttime values of foF2 // Annales Geophysicae. 2008b. Vol. 26. No. 5. P. 1199-1206. 35. Danilov A.D. Scatter of hmF2 values as an indicator of trends in thermospheric dynamics // Journal of Atmospheric and Solar-Terrestrial Physics. 2009. Vol. 71. P. 1586-1591. 36. Danilov A.D. Trends of parameters of the ionospheric F2 layer as an indicator of trends in thermospheric winds // Aeronomy of the Earth's Atmosphere and Ionosphere. IAGA Springer Special Sopron Book Series 2. 2011. P. 271-280. 37. DeLand M.T., Shettle E.P., Thomas G.E., Olivero J.J. Latitude-dependent long-term variations in polar mesospheric clouds from SBUV version 3 PMC data // Journal of Geophysical Research. 2007. Vol. 112. D10315. 38. Donaldson J.K., Wellman T.J., Oliver W.L. Long-term change in thermospheric temperature above Saint Santin // Journal of Geophysical Research. 2010. Vol. 115. A11305. 39. Emmert J.T., Fejer B.G., Fesen C.D., Sheperd G.G., Solheim B.H. Climatology of middle- and low-latitude daytime F-region disturbance in neutral wind measured by Wind Imaging Interferometer (WINDII) // Journal of Geophysical Research. 2001. Vol. 106. No. 24. P. 24701-24712. 40. Emmert J.T., Picone J.M., Lean J.L., Knowles S.H. Global change in the thermosphere: compelling evidence of a secular decrease in density // Journal of Geophysical Research. 2004. Vol. 109. A02301. 41. Emmert J.T., Picone J.M., Meier R.R. Thermospheric global average density trends 1967-2007, derived from orbits of 5000 near-Earth objects // Geophysical Research Letters. 2008. Vol. 35. L05101. 42. Friedrich M., Torkar K.M. Long-term trends and other residual features of the lower ionosphere // Proceedings of the 15th ESA Symposium on European Rocket and Balloon Programs and Related Research. Biarritz, France, 28-31 May 2001. ESA SP-471. 43. Gadsden M. The secular changes in noctilucent cloud occurrence: Study of 31-year sequence to clarify the causes // Advances in Space Research. 1997. Vol. 20. No. 11. P. 2097-2100. 44. Gadsden M. The north-west Europe data on noctilucent clouds: A survey // Journal of Atmospheric and Solar-Terrestrial Physics. 1998. Vol. 60. P. 1163-1174. 45. Golitsyn G.S., Semenov A.I., Shefov N.N., Fishkova L.M., Lysenko E.V., Perov S.P. Long-term temperature trends in the middle and upper atmosphere // Geophysical Research Letters. 1996. Vol. 23. No. 14. P. 1741-1744. 46. Holt J.M., Zhang S.-R. Long-term temperature trends in the ionosphere above Millstone Hill // Geophysical Research Letters. 2008. Vol. 35. L05813. 47. Jacobi Ch., Lange M., Kurschner D., Manson A.H., Meek C.E. A long-term comparison of Saskatoon MF radar and Collm LF D1 mesosphere-lower thermosphere wind measurements // Physics and Chemistry of the Earth. 2001. Vol. 26. P. 419-424. 48. Jacobi Ch., Portnyagin Yu.I., Merzlyakov E.G., Solovjova T.V., Makarov N.A., Kurschner D. A long-term comparison of mesopause region wind measurements over Eastern and Central Europe // Journal of Atmospheric and Solar-Terrestrial Physics. 2005. Vol. 67. P. 227-240. 49. Keating G.M., Tolson R.H., Bradford M.S. Evidence of long term global decline in the Earth's thermospheric densities apparently related to anthropogenic effects // Geophysical Research Letters. 2000. Vol. 27. P. 1523-1526. 50. Kirkwood S., Stebel K. Influence of planetary waves on noctilucent cloud occurrence over NW Europe // Journal of Geophysical Research. 2003. Vol. 108. No. D8. 8440. 51. Kirkwood S., Dalin P., Rechou A. Noctilucent clouds observed from the UK and Denmark—trends and variations over 43 years // Annales Geophysicae. 2008. Vol. 26. P. 1243-1254. 52. Kokin G.A., Lysenko E.V. On temperature trends of the atmosphere from rocket and radiosonde data // Journal of Atmospheric and Terrestrial Physics. 1994. Vol. 56. P. 1035-1040. 53. Lastovicka J. Long-Term trends in the lower ionosphere // Advances in Space Research. 2001. Vol. 28. No. 7. P. 1007-1016. 54. Lastovicka J. On the role of solar and geomagnetic activity in long-term trends in the atmosphere–ionosphere system // Journal of Atmospheric and Solar-Terrestrial Physics. 2005. Vol. 67. No. 1-2. P. 83-92. 55. Lastovicka J. Global pattern of trends in the upper atmosphere and ionosphere: Recent progress // Journal of Atmospheric and Solar-Terrestrial Physics. 2009. Vol. 71. P. 1514-1528. 56. Lastovicka J., Bremer J. An overview of long-term trends in the lower ionosphere below 120 km // Surveys in Geophysics. 2004. Vol. 25. P. 69-99. 57. Lastovicka J., Krizan P. Trends in laminae in ozone profiles in relation to trends in some other middle atmospheric parameters // Physics and Chemistry of the Earth. 2006. Vol. 31. No. 1-3. P. 46-53. 58. Lastovicka J., Mikhailov A.V., Ulich Т. et al. Long-term trends in foF2: a comparison of various methods // Journal of Atmospheric and Solar-Terrestrial Physics. 2006. Vol. 68. P. 1854-1870. 59. Lastovicka J., Akmaev R.A., Beig G. et al. Emerging pattern of global change in the upper atmosphere and ionosphere // Annales Geophysicae. 2008. Vol. 26. No. 5. P. 1255-1268. 60. Lubken F.-J. Nearly zero temperature trend in the polar summer Mesosphere // Geophysical Research Letters. 2000. Vol. 27. No. 21. P. 3603-3606. 61. Marcos F.A., Wise J.O., Kendra M.J., Grossbard N.J., Bowman B.R. Detection of long-term decrease in thermospheric neutral density // Geophysical Research Letters. 2005. Vol. 32. L04103. 62. Marin D., Mikhailov A.V., de la Morena B.A., Herraiz M. Long-term hmF2 trends in the Eurasian longitudinal sector on the ground-based ionospheric observations // Annales Geophysicae. 2001. Vol. 19. P. 761-772. 63. Merzlyakov E., Jacobi C., Portnyagin Y.I., Solovjova T.V. Structural changes in trend parameters of the MLT winds based on wind measurements at Obninsk (55°N, 37°E) and Collm (52°N, 15°E) // Journal of Atmospheric and Solar-Terrestrial Physics. 2009. Vol. 71. P. 1547-1557. 64. Mikhailov A.V. The geomagnetic control of the F2-layer parameter long-term trends // Physics and Chemistry of the Earth. 2002. Vol. 27. P. 595-606. 65. Mikhailov A.V. Trends in the ionospheric E-region // Physics and Chemistry of the Earth. 2006a. Vol. 31. P. 22-23. 66. Mikhailov A.V. Ionospheric long-term trends: Can the geomagnetic control and the greenhouse hypotheses be reconciled? // Annales Geophysicae. 2006b. Vol. 24. P. 2533-2541. 67. Mikhailov A.V. Ionospheric F1 layer long-term trends and the geomagnetic control concept // Annales Geophysicae. 2008. Vol. 26. P. 3793-3803. 68. Mikhailov A.V., de la Morena B.A. Long-term trends of foE and geomagnetic activity variations // Annales Geophysicae. 2003. Vol. 21. P. 751-760. 69. Offermann D., Donner M., Knieling P., Naujokat B. Middle atmosphere temperature changes and the duration of summer // Journal of Atmospheric and Solar-Terrestrial Physics. 2004. Vol. 66. P. 437-450. 70. Portnyagin Yu.I., Merzlyakov E.G., Sokolova T.V., Jacobi Ch., Kurschner D., Manson A., Meek C. Long-term trends and year-to-year variability of midlatitude mesosphere/lower thermosphere winds // Journal of Atmospheric and Solar-Terrestrial Physics. 2006. Vol. 68. P. 1890-1901. 71. Qian L., Burns A.G., Solomon S.C., Roble R.G. The effect of carbon dioxide cooling on trends in the F2-layer ionosphere // Journal of Atmospheric and Solar-Terrestrial Physics. 2009. Vol. 71. P. 1592-1601. 72. Qian L., Lastovicka J., Roble R., Solomon S. Progress in observations and simulations of global change in the upper atmosphere // Journal of Geophysical Research. 2011. Vol. 116. A00H03. 73. Rishbeth H. A greenhouse effect in the ionosphere? // Planetary and Space Science. 1990. Vol. 38. P. 945-948. 74. Rishbeth H. How the thermospheric circulation affects the ionospheric F2 layer // Journal of Atmospheric and Solar-Terrestrial Physics. 1998. Vol. 60. P. 1385-1402. 75. Rishbeth H., Roble R.G. Cooling of the upper atmosphere by enhanced greenhouse gases—modeling of thermospheric and ionospheric effects // Planetary and Space Science. 1992. Vol. 40. P. 1011-1026. 76. Roble R.G., Dickinson R.E. How will changes in carbon dioxide and methane modify the mean structure of the mesosphere and lower thermosphere? // Geophysical Research Letters. 1989. Vol. 16. P. 1441-1444. 77. Taubenheim J., von Cossart G., Entzian G. Evidence of CO2-induced progressive cooling of the middle atmosphere derived from radio observations // Advances in Space Research. 1990. Vol. 10. No. 10. P. 171-174. 78. Ulich T., Turunen E. Evidence for long-term cooling of the upper atmosphere in ionospheric data // Geophysical Research Letters. 1997. Vol. 24. No. 9. P. 1103-1106. 79. Upadhyay H.M., Mahajan K.K. Atmospheric greenhouse effect and ionospheric trends // Geophysical Research Letters. 1998. Vol. 25. P. 3375-3378. 80. Yue X., Wan W., Liu L., Ning B., Zhao B. Applying artificial neural network to derive long-term foF2 trends in Asia/Pacific sector from ionosonde observations // Journal of Geophysical Research. 2006. Vol. 111. D22307. 81. Zhang S., Holt J.M., van Eyken T., McCready M., Amory-Mazaudier C., Fukao S., Sulzer M. Ionospheric climatology and model from long-term databases of worldwide incoherent scatter radars // Paper SA52A-03, Spring AGU Meeting. New Orleans, 2005. 82. Zhang S.R., Holt J.M. Millstone Hill ISR observations of upper atmospheric long-term changes: height dependency // Journal of Geophysical Research. 2011. Vol. 116. A00H05.