Informe detallado pinchando aquí arriba en el título
Aquí debajo las referencias o bibliografía de dicho informe:
Adler, N. O. de and Elías, A. G. (2000): Solar variability associated to ionospheric, stratospheric, and tropospheric parameters. In: Vázquez , M. and Schmieder, B, ed.: The solar cycle and terrestrial climate. European Space Agency, Special Publication463, 509-512.
Balachandran, N. K., Rind, D., and Shindell, D. T. (1999): Effects of solar cycle variability on the lower stratosphere. J. Geophys. Res. 104, 27321-27339.
Baliunas, S. und Soon, W. (1995): Are variations in the length of the activity cycle related to changes in brightness in solar-type stars? Astrophys. J. 450, 896.
Beer, J. (2000): Polar ice as an archive for solar cycles and the terrestrial climate. In: Vázquez, M. and Schmieder, B, ed.: The solar cycle and terrestrial climate. European Space Agency, Special Publication 463, 671-680.
Beer, J. and Joos, C. F. (1994): 10Be as an indicator of solar variability and climate. In: E. Nesme-Ribes, ed.: The solar engine and its influence on terrestrial atmosphere and climate. Berlin, Springer-Verlag, 221-233.
Berner, U. and Streif, H. J., ed. (2000): Klimafakten: Der Rückblick – Ein Schlüssel für die Zukunft. Stuttgart, E. Schweizerbart'sche Verlagsbuchhandlung.
Blizard, J. B. (1987): Long-range prediction of solar activity. In: Rampino, M. R., Sanders, J. E., Newman, W. S. und Königsson, L. K., eds.: Climate. History, Periodicity, and predictability. New York, van Nostrand Reinhold, 415-420.
Bossolasco, M., Dagnino, I., Elena, A. und Flocchini, G. (1973): Thunderstorm activity and interplanetary magnetic field. Riv. Italiana Geofis. 22, 293.
Brier, G. W. (1979): Use of the difference equation methods for predicting sunspot numbers. In: B. M. McCormac und T. A. Seliga, ed.: Solar-terrestrial influences on weather and climate. Dordrecht, Reidel, 209-214.
Brooks, C. E. P. (1926): The relations of solar and meteorological phenomena – A summary of the literature from 1914 to 1924. Paris, First Report of the Commission for the Study of Solar and Terrestrial Relationships, ICSU, 66-100.
Bucha, V. (1983): Direct relations between solar activity and atmospheric circulation. Studia geophysica et geodaetica 27, 19-45.
Butler, C. J. (1996): A two-century comparison of sunspot cycle length and temperature change – the evidence from Northern Ireland. In: ESEF The Global Warming Debate. Cambridge, European Sciencce and Environment Forum, 215-223.
Cliver, E. W., Boriakoff, V., Feynman, J. (1998): Solar variability and climate change:Geomagnetic aa index and global surface temperature. Geophys. Res. Lett. 25, 1035-1038.
Cole, T. W. (1973): Periodicities in solar activity. Solar Phys. 30, 103-110.
Comiso, J. C. (2000): Variability and trends in Antarctic surface temperatures from in situ and satellite infrared measurements. J. Climate 13, 1674-1696.
Dicke, R. H.: The sun's rotation and relativity. Nature 202 (1964), 432.
Doran, P. D., Priscu, J. C., Lyons, W. B., Walsh, J. E., Fountain, A. G., McKnight, D. M., Moorhead, D. L., Virginia, R. A., Wall, D. H., Clow, G. D., Fritsen, C. H., McKay, C. P., and Parsons, A. N. (2002): Antarctic climate cooling and terrestrial ecosystem response. Nature 415, 517-520.
Eddy, J. A. (1977): Climate and the changing sun. Clim. Change 1, 173-190.
Egorova, L. Y., Vovk, V. Ya., and Troshichev, O. A. (2000): Influence of variations of cosmic rays on atmospheric pressure and temperature in the Southern pole region. J. Atmos. Solar-Terr. Phys. 62, 955-966.
Fairbridge, R. W. and Shirley, J. H. (1987): Prolonged minima and the 179-year cycle of the solar inertial motion. Solar Physics 110, 191-220.
Friis-Christensen, E. and Lassen, K. (1991): Length of the solar cycle: an indicator of solar activity closely associated with climate. Science 254, 698-700.
Gleissberg, W. (1958): The 80-year sunspot cycle. J. Brit. Astron. Ass. 68, 150.
Haigh, J. D.(1996): On the impact of solar variability on climate. Nature 272, 981-984.
Hartmann, R. (1972): Vorläufige Epochen der Maxima und Minima des 80-jährigen Sonnenfleckenzyklus. Veröff. Astr. Inst. Univ. Frankfurt 50, 118.
Herman, J. R. and Goldberg (1978): Sun, weather, and climate. New York, Dover Publications.
Hodell, D. A., Brenner, M., Curtis, J. H., and Guilderson, T. (2001): Solar forcing of drought frequency in the Maya lowlands. Science 292, 1367-1370.
Hoyt, D. V. (1979): Variations in sunspot structure and climate. Clim. Change 2, 79-92.
Hoyt, D. V. and Schatten, K. H. (1997): The role of the sun in climate change. New York-Oxford, Oxford University Press, 1997.
Joselyn, J. A. (1997): EOS. Trans. Geophys. Union 78, 210.
Juckett, D. A. (2000): Solar activity cycles, north/south asymmetries, and differential rotation associated with spin-orbit variations. Solar Phys. 191, 201.
Labitzke, K. und van Loon, H. (1993): Some recent studies of probable connection between solar and atmospheric variability. Ann. Geophysicae 11, 1084.
Lamb, H. H. (1977): Climate: Present, past, and future. Vol. 2: Climatic history and the future. London, Methuen, p. 430.
Landscheidt, T.(1976): Beziehungen zwischen der Sonnenaktivität und dem Massenzentrum des Sonnensystems. Nachr. D. Olbersgesellschaft Bremen 100, 3-19.
Landscheidt, T. (1981): Swinging sun, 79-year cycle, and climatic change. J. interdiscipl. Cycle Res. 12, 3-19.
Landscheidt, T. (1983): Solar oscillations, sunspot cycles, and climatic change. In: McCormac, B. M., ed.: Weather and climate responses to solar variations. Boulder, Associated University Press, 293-308.
Landscheidt, T. (1984): Cycles of solar flares and weather. In: Moerner, N.A. und Karlén, W., eds..: Climatic changes on a yearly to millenial basis. Dordrecht, D. Reidel, 475, 476.
Landscheidt, T. (1986 a): Long-range forecast of energetic x-ray bursts based on cycles of flares. In: Simon, P. A., Heckman, G., and Shea, M. A., eds.: Solar-terrestrial predictions. Proceedings of a workshop at Meudon, 18.-22. Juni 1984. Boulder, National Oceanic and Atmospheric Administration, 81-89.
Landscheidt, T. (1986 b): Long-range forecast of sunspot cycles. In: Simon, P. A., Heckman, G. and Shea, M. A., eds.: Solar-terrestrial predictions. Proceedings of a workshop at Meudon, 18.-22. Juni 1984. Boulder, National Oceanic and Atmospheric Administration, 48-57.
Landscheidt, T. (1987): Long-range forecasts of solar cycles and climate change. In: Rampino, M. R., Sanders, J. E., Newman, W. S. and Königsson, L. K., eds.: Climate. History, Periodicity, and predictability. New York, van Nostrand Reinhold, 421-445.
Landscheidt, T. (1988): Solar rotation, impulses of the torque in the Sun's motion, and climatic variation. Clim. Change 12, 265-295.
Landscheidt, T.(1990): Relationship between rainfall in the northern hemisphere and impulses of the torque in the Sun's motion. In: K. H. Schatten and A. Arking, eds.: Climate impact of solar variability. Greenbelt, NASA, 259-266.
Landscheidt, T.(1995a): Global warming or Little Ice Age? In: Finkl, C. W., ed.: Holocene cycles. A Jubilee volume in celebration of the 80th birthday of Rhodes W. Fairbridge. Fort Lauderdale, The Coastal Education and Research Foundation (CERF), 371-382.
Landscheidt, T. (1995b): Die kosmische Funktion des Goldenen Schnitts. In: Richter, P. H., ed.: Sterne, Mond und Kometen. Bremen, Hauschild, 240-276.
Landscheidt, T. (1998 a): Forecast of global temperature, El Niño, and cloud coverage by astronomical means. In: Bate, R., ed.: Global Warming. The continuing debate. Cambridge, The European Science and Environment Forum (ESEF), 172-183.
Landscheidt, T. (1998 b): Solar activity - A dominant factor in climate dynamics.
http://www.john-daly.com/solar/solar.htm.
Landscheidt, T. (1999 a): Solar activity controls El Niño and La Niña.
http://www.john-daly.com/sun-enso/sun-enso.htm.
Landscheidt, T. (1999 b): Extrema in sunspot cycle linked to Sun's motion. Solar Physics 189, 413-424.
Landscheidt, T. (2000 a): Solar forcing of El Niño and La Niña. In: Vázquez , M. and Schmieder, B, ed.: The solar cycle and terrestrial climate. European Space Agency, Special Publication 463, 135-140.
Landscheidt, T. (2000 b): Solar wind near Earth: Indicator of variations in global temperature. In: Vázquez, M. and Schmieder, B, ed.: The solar cycle and terrestrial climate. European Space Agency, Special Publication 463, 497-500.
Landscheidt, T. (2000 c): River Po discharges and cycles of solar activity. Hydrol. Sci. J. 45, 491-493.
Landscheidt, T. (2000 d): Sun's role in the satellite-balloon-surface issue.
http://www.john-daly.com/solar/temps.htm.
Landscheidt, T. (2000 e): New confirmation of strong solar forcing of climate.
http://www.john-daly.com/po.htm.
Landscheidt, T. (2001 a): Solar eruptions linked to North Atlantic Oscillation.
http://www.john-daly.com/theodor/solarnao.htm.
Landscheidt, T. (2001 b): Trends in Pacific Decadal Oscillation subjected to solar forcing.
http://www.john-daly/theodor/pdotrend.htm.
Landscheidt, T. (2002): El Niño forecast revisited. http://www.john-daly.com/sun-enso/revisited.htm.
Landscheidt, T. und Wöhl, H. (1986): Solares Aktivitätsminimum erst 1989/90? Sterne und Weltraum, 584.
Lassen, K. and Friis-Christensen, E. (1995): Variability of the solar cycle length during the past five centuries and the apparent association with terrestrial climate. J. Atmos. Sol. Terr. Phys., 835.
Lau, K. M. and Weng, H. (1995): Climate signal detection using wavelet transform. Bull. Am. Meteorol. Soc. 76, 2391-2402.
Lean, J., Beer, J., and Bradley, R. (1995): Reconstruction of solar irradiance since 1610: implications for climate change. Geophys. Res. Lett. 22, 3195-3198.
Lockwood, R., Stamper, R., and Wild, M. N. (1999): A doubling of the Sun's coronal magnetic field during the past 100 years. Nature 399, 437-439.
Neubauer, L. (1983): Sudden stratospheric warmings correlated with sudden commencements and solar proton events. In: McCormac, B. M. (ed.), Weather and Climate Responses to Solar Variations. Colorado Associated University Press, Boulder, 395-397.
Markson, R. und Muir, M. (1980): Solar wind control of the earth's electric field. Science 208, 979.
Neff, U., Burns, S. J., Mangini, A., Mudelsee, M., Fleitmann, D., and Matter, A. (2001): Strong coherence between solar variability and the monsoon in Oman between 9 and 6 kyr ago. Nature 411, 290-293.
Pallé Bagó, E. and Butler, C. J. (2000): The influence of cosmic rays on terrestrial clouds and global warming. Astron. Geophys. 41, 4.18-4.22.
Pang, K. D. and Yau, K. K. (2002): Ancient observations link changes in the sun's brightness and erath's climate. EOS, Transactions, American Geophysical Union 83, 481, 489-490.
Peixoto, J. P. and Oort, A. H. (1992): Physics of climate. New York, American Institute of Physics.
Prohaska, J. T., Willett, H. C. (1983): Dominant modes of relationships between temperature and geomagnetic activity. In: McCormac, B. M. (ed.), Weather and Climate Responses to Solar Variations. Colorado Associated University Press, Boulder, 489-494.
Przybylak, R. (2000): Temporal and spatial variation of surface air temperature over the period of instrumental observations in the Arctic. Intern. J. Climatology 20, 587-614.
Reid, G. C. (1997): Solar forcing of global climate change since the mid-17th century. Clim. Change 37, 391-405.
Reiter, R. (1983): Modification of the stratospheric ozone profile after acute solar events. In: McCormac, B. M., ed.: Weather and climate responses to solar variations. Boulder, Associated University Press, 95-116.
Roderick, M.L. and Farquhar, G. D. (2002): The cause of decreased pan evaporation over the past 50 years. Science 298, 1410.
Rozelot, J. P. (2001): Possible links between the solar radius variations and the Earth's climate evolution over the past four centuries. J. Atmos. Sol. Terr. Phys. 63, 375-386.
Scherhag, R., 1952: Die explosionsartigen Stratosphärenerwärmungen des Spätwinters 1951/52. Berichte des Deutschen Wetterdienstes der US-Zone Nr. 38,51.
Schönwiese, C. D. (1979): Klimaschwankungen. Berlin, Springer-Verlag, p. 79.
Schönwiese, C. D. (1994): Klima im Wandel. Hamburg, Rowohlt Taschenbuch Verlag, p.99.
Schove, J. D. (1955): The sunspot cycle 649 BC to AD 2000. J. Geophys. Res. 60, 127.
Schuurmans, C. J. E (1979).: Effects of solar flares on the atmospheric circulation. In: B. M. McCormac und T. A. Seliga, ed.: Solar-terrestrial influences on weather and climate. Dordrecht, Reidel, 105.
Science editor's comment, 2002: Areas to watch in 2003. Science 298, 2298.
Shindell, D., Rind, D., Balachandran, N., Lean, J., and Lonergan, P. (1999). Solar cycle variability, ozone, and climate. Science 284, 305-309.
Simkin, T., Siebert., L., McClelland, L. Bridge, D., Newhall, C., and Latter, J. H. (1981): Volcanoes of the world. Stroudsburg, Hutchinson Ross.
Siscoe, G. L. (1978): Solar-terrestrial influences on weather and climate. Nature 276, 348-351.
Soon, W. H., Posmentier, E. S., and Baliunas, S. L. (1996): Inference of solar irradiance variability from terrestrial temperature changes, 1880-1993. Astrophys. J. 472, 891-902.
Stuiver, M. and Quay, P. D. (1981): a 1600-year long record of solar change derived from 14C levels. Solar Phys. 74, 479-481.
Svensmark, H. and Friis-Christensen, E. (1997): Variation of cosmic ray flux and cloud coverage. J. Atmos. Terr. Phys. 59,1225-1232.
Sýkora, J., Badalyan, O. G., and Obridko, V. N. (2000): Coronal holes, recorded from 1943 – A source of solar-induced terrestrial responses? In: Vázquez, M. and Schmieder, B, ed.: The solar cycle and terrestrial climate. European Space Agency, Special Publication 463, 95-100.
Thejll, P. and Lassen, K. (2000): Solar Forcing of the Northern Hemisphere land air temperature: New data. J. Atm. Sol. Terr. Phys. 62, 1207-1213.
Tinsley, B. A. (2000): Influence of the solar wind on the global electric circuit, and inferred effects on cloud microphysics, temperature, and the dynamics of the troposphere. Space Sci. Rev. 94, 231-258.
Tinsley, B. A. and Yu, F. (2002):Atmospheric ionisation and clouds as links between solar activity and climate. In: AGU-monograph: Solar variability and its effects on the earth's atmosphere and climate system. In press.
Udelhofen, P. M. and Cess, R. (2001): Cloud cover variations over the United States: An influence of cosmic rays, or solar variability? Geophys. Res. Lett. 28, 2617-2620.
Van Geel, B., Raspopov, O. M., Rennsen, H., van der Pflicht, J., Dergachev, V. A., and Meijer, H. A. J. (1999): The role of solar forcing upon climate change. Quaternary Science Rev. 18, 331-338.
Venegas, S. A. and Mysak, L. A. (2000): Is there a dominant timescale of natural climate variability in the Arctic? J. Climate 13, 3412-3434.
White, W. B., Lean, J., Cayan, D. R., and Dettinger, M. D. (1997): Response of global upper ocean temperature to changing solar irradiance. J. Geophys. Res. 102, 3255-3266.
Wielicki, B. A., Wong, T., Allan, R. P., Slingo, A., Kiehl, J. T., Soden, B. J., Gordon, C. T., Miller, A. J., Yang, S. K., Randall, D. A., Robertson, F., Susskind, J., and Jacobowitz, H. (2002): Evidence of large decadal variability in the tropical mean radiative energy budget. Science 295, 841-844.
Wigley, T. M. L. (1988): The climate of the past 10,000 years and the role of the sun. In:Stephenson, F. R., Wolfendale, A. W. (eds.), Secular Solar and Geomagnetic Variations in the Last 10,000 Years. Kluwer, Dordrecht.
Yu, F. (2002): Altitude variations of cosmic ray induced production of aerosols: Implications for global cloudiness and climate. Geophys. Res. Lett. 107, in press.
Física, filosofía, pensamientos, música, cine, artes marciales, humor y búsqueda en todos los sentidos____________________ "Hal 9000" es el supercomputador de última generación y verdadero protagonista en la película: "2001 una Odisea en el espacio" de Stanley Kubrick--------------------- "Todos los caminos de bondad conducen a la iluminación y al despertar". Buda
No hay comentarios:
Publicar un comentario