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Solar Influences on Global Change (1994)

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Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
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References

Allen, J., H. Sauer, L. Frank, and P. Reiff. 1989. Effects of the March 1989 Solar Activity. Eos, Transactions, American Geophysical Union 70:1479–1485.

Allen, M.R., and L.A. Smith. 1994. Investigating the origins and significance of low-frequency modes of climate variability. Geophys. Res. Lett. 21:883–886.

Auclair, A.N.D. 1992. Forest wildfire, atmospheric CO 2 and solar irradiance periodicity (abstract). Eos, Transactions, American Geophysical Union, April 7 Supplement: 70.

Avrett, E.H. 1991. Temporal variations of near-UV, visible and infrared spectral irradiance from a theoretical viewpoint. Pp. 20–42 in SOLERS22, Proceedings of Workshop held 3–6 June, Boulder, CO, R.F. Donnelly (ed.).

Bachmann, K.T., and O.R. White. 1994. Observations of hysteresis in solar cycle variations among seven solar activity indicators. Solar Phys. 150:347–357.

Baker, D.N., J.B. Blake, D.J. Gorney, P.R. Higbie, R.W. Klebesadel, and J.H. King. 1987. Highly relativistic magnetospheric electrons: A role in coupling to the middle atmosphere. Geophys. Res. Lett. 14: 1027–1030.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
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Baker, D.N., R.A. Goldberg, F.A. Herrero, J.B. Blake, and L.B. Callis. 1993. Satellite and rocket studies of relativistic magnetospheric electrons, and their influence on the middle atmosphere. J. Atmos. Terrestr. Phys. 55:1619–1628.

Balachandran, N.K., and D. Rind. 1994. Effects of solar variability and the QBO on the modeled Troposphere/Stratosphere System. Part II: The Stratosphere. J. of Climate. Submitted.

Balan, N., G.J. Bailey, B. Jenkins, P.B. Rao and R.J. Moffett. 1994. Variations of ionospheric ionization and related solar fluxes during an intense solar cycle. J. Geophys. Res. 99:2243–2253.

Baldwin, M.P., and T.J. Dunkerton. 1989. Observations and statistical simulations of a proposed solar cycle/QBO/weather relationships. Geophys. Res. Lett. 16:863–866.

Baliunas, S. 1991. The past, present and future of solar magnetism: Stellar magnetic activity. Pp. 809–831 in The Sun in Time, C.P. Sonett, M.S. Giampapa, and M.S. Matthews (eds.). The University of Arizona Press, Tucson, AZ.

Baliunas, S., and R. Jastrow. 1990. Evidence for long-term brightness changes of solar-type stars. N Nature 348:520–523.

Barnston, A.G., and R.E. Livezey. 1989. A closer look at the effect of the 11-year solar cycle and the quasibiennial oscillation in the Northern Hemisphere 700 mb height and extratropical North American surface temperature. J. Climate 2:1295–1313.

Barth, C.A., W.K. Tobiska, G.J. Rottman, and O.R. White. 1990. Comparison of 10.7 cm radio flux with SME solar Lyman image flux. Geophys. Res. Lett. 17:571–574.

Beck, J.G., and G.A. Chapman. 1993. A study of the contrast of sunspots from photometric images. Solar Phys. 146:49–60.

Beer, J., U. Siegenthaler, G. Bonani, R.C. Finkel, H. Oeschger, M. Suter, and W. Wolfli. 1988. Information on past solar activity and geomagnetism from 10Be in the Camp Century ice core. Nature 331:675–679.

Beer, J., G.M. Raisbeck, and F. Yiou. 1991. Time variation of 10Be and solar activity. Pp. 343–359 in The Sun in Time, C.P. Sonett, M.S. Giampapa, and M.S. Matthews (eds.). The University of Arizona Press, Tucson, AZ.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
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Page 143

Berger, A., J.L. Jelice, and I. Van der Mersch. 1990. Evolutive spectral analysis of sunspot data over the past 300 years. Phil. Trans. R. Soc. Lond. A 330:529–541.

Bojkov, R., I. Bishop, W.J. Hill, G.C. Reinsel, and G.C. Tiao. 1990. A statistical trend analysis of revised Dobson total ozone data over the northern hemisphere. J. Geophys. Res. 95:9785–9807.

Bradley, R.S., and P.D. Jones. 1993. Little Ice Age summer temperature variations: their nature and relevance to recent global warming trends. The Holocene 3(4):367–376.

Brasseur, G. 1993. The response of the middle atmosphere to long term and short-term solar variability: A two dimensional model. J. Geophys. Res. 98:23079–23090.

Brueckner, G.E., K.L. Edlow, L.E. Floyd IV, J.L. Lean, and M.E. VanHoosier. 1993. The solar u ultraviolet spectral irradiance monitor (SUSIM) experiment on board the Upper Atmosphere Research Satellite (UARS). J. Geophys. Res. 98:10695–10711.

Callis, L.B., R.E. Boughner, M. Natarajan, J.D. Lambeth, D.N. Baker, and J.B. Blake. 1991. Ozone depletion in the high latitude lower stratosphere: 1979–1990. J. Geophys. Res. 96:2921–2937.

Cebula, R.P., M.T. DeLand, and B.M. Schlesinger. 1992. Estimates of solar variability using the backscatter ultraviolet (SBUV)2 Mg II index from the NOAA-9 satellite. J. Geophys. Res. 97:11613–11620.

Chandra, S. 1991. The solar UV related changes in total ozone from a solar rotation to a solar cycle. Geophys. Res. Lett. 18:837–840.

Chanin, M.L., and P. Keckhut. 1991. Influence on the middle atmosphere of the 27-day and 11-year solar cycles: radiative and/or dynamical forcing? J. Geomag. Geoelectr. Suppl. 43:647–655.

Chapman, G.A., A.D. Herzog, and J.K. Lawrence. 1986. Time-integrated energy budget of a solar activity complex. Nature 319:654–655.

Cohen, T.J., and E.I. Sweester. 1975. The spectra of the solar cycle and of data for Atlantic tropical cyclones. Nature 256:295–296.

Committee on Earth Sciences. 1989. Our Changing Planet: The FY 1990Research Plan. The U.S. Global Change Research Program, FederalCoordinating Council on Science, Engineering and Technology.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
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Page 144

Cook, J.W., G.E. Brueckner, and M.E. VanHoosier. 1980. Variability of the solar flux in the far ultraviolet 1175–2100 A. J. Geophys. Res. 85:2257–2268.

Crowley, T.J., and M.K. Howard. 1990. Testing the sun-climate connection with paleoclimate data. Pp. 81–89 in Proceddings of Conference on the Climatic Impact of Solar Variability, NASA, GSFC, 24–27th April, K. Schatten, A. Arking, and R. Schiffer (eds.). NASA CP-3086.

Crowley, T.J., and R.J. North. 1991. Paleoclimatology, Oxford University Press, NY.

Crutzen, P.J. 1992. Ultraviolet on the increase. Nature 356:104–105.

Dahe, Q., E. Zeller, and G. Dreschhoff. 1991. The distribution of nitrate content in the surface snow of the Antarctic ice sheet along the route of the 1990 international trans-Antarctic expedition. J. Geophys. Res. 97:6277–6284.

Damon, P.E. 1977. Solar induced variations of energetic particles at one AU. Pp. 429–448 in The Solar Output and its Variation, O.R. White (ed.). Colorado Assoc. University Press, Boulder. CO.

Damon, P.E., and J.L. Jirikowic. 1994. Solar forcing of global climate change, Proceedings of IAU Colloquium No. 143. The Sun as a Variable Star: Solar and Stellar Irradiance Varations, Boulder, June 20–25, 1993. J. Pap, H. Hudson, and S. Solanki (eds.). Cambridge University Press.

Damon, P.E., and C.P. Sonett. 1991. Solar and terrestrial components of the 14C variation spectrum. Pp. 360–388 in The Sun in Time, C.P. Sonett, M.S. Giampapa, and M.S. Matthews (eds.). University of Arizona Press, Tucson, AZ.

DeLand, M.T., and R.P. Cebula. 1993. The composite Mg II solar activity index for solar cycles 21 and 22. J. Geophys. Res. 98:12809–12823.

DeLuca, E.E., and P.A. Gilman. 1991. The Solar Dynamo. Pp. 275–303 in The Solar Interior and Atmosphere, A.N. Cox, W.C. Livingston, and M.S. Matthews (eds.). University of Arizona Press, Tucson, AZ.

Dicke, R.H. 1978. Is there a chronometer hidden deep in the Sun? Nature 276:676–680.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
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Page 145

Donnelly, R.F. 1988. Uniformity in solar UV flux variations important to the stratosphere. Annales Geophys. 6:417–424.

Dreschhoff, G.A.M., and E.J. Zeller. 1990. Evidence of individual solar proton events in antarctic snow. Solar Phys. 127:333–346.

Eddy, J.A. 1976. The Maunder Minimum. Science 192:1189–1202.

Eddy, J.A. 1977. Historical evidence for the existence of the solar cycle. Pp. 51–71 in The Solar Output and its Variation, O.R. White (ed.). Colorado Assoc. University Press, Boulder, CO.

Eddy, J.A., P.A. Gilman, and D.E. Trotter. 1976. Solar rotation during the Maunder Minimum. Solar Phys. 46:3–14.

Evans, J.V. 1982. The Sun's influence on the Earth's atmosphere and interplanetary space. Science 2 216:467–474.

Feng, W., H.S. Ogawa, and D.L. Judge. 1989. The absolute solar soft X ray flux in the 20- to 100-Å region. J. Geophys. Res. 94:9125–9130.

Foukal, P. 1981. Sunspots and changes in the global output of the Sun. Pp. 391 in The Physics of Sunspots, L.E. Cram and J.H. Thomas (eds.). Sacramento Peak Observatory, New Mexico.

Foukal, P. (ed.). 1987. Solar Radiative Output Variation, Proceedings of a Workshop held Nov. 9–11, 1987, NCAR, Boulder, CO.

Foukal, P. 1994. On stellar luminosity variations and global warming. Science 264:238–239.

Foukal, P., and J. Lean. 1986. The influence of faculae on total solar irradiance and luminosity. Astrophys. J. 302:826–835.

Foukal, P., and J. Lean. 1990. Magnetic modulation of solar luminosity by photospheric activity. Astrophys. J. 328:347–357.

Foukal, P., and J. Lean. 1990. An empirical model of total solar irradiance variation between 1874 and 1988. Science 247:505–604.

Foukal, P.V., C. Hoyt, H. Kochling, and P. Miller. 1990. Cryogenic absolute radiometers as laboratory irradiance standards, remote sensing detectors, and pyroheliometers. Applied Optics 29:988–993.

Foukal, P., K. Harvey, and F. Hill. 1991. Do changes in the photospheric magnetic network cause the 11-year variation of total solar irradiance? Astrophys. J. 383:L89–L92.

Friis-Christensen, E., and K. Lassen. 1991. Length of the solar cycle: An indicator of solar activity closely associated with climate. Science 254:698–700.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 146

Frohlich, C. 1977. Contemporary measures of the solar constant. Pp. 93–109 in The SSolar Output and its Variation, O.R. White (ed.). Colorado Assoc. University Press, Boulder, CO.

Fukui, K. 1990. Anomalous increase of Lyman image flux during the solar maximum phase of cycle 21 observed by the AE-E satellite. Geophysics Laboratory Environmental Research Papers. No. 1051. GL-TR-90-0031.

Garcia, R., S. Solomon, R. Roble, and D. Rusch. 1984. A numerical response of the middle atmosphere to the 11-year solar cycle. Planet. Space Sci. 32:411–423.

Goldberg, R.A., C.H. Jackman, J.R. Barcus, and F. Soraas. 1984. Nighttime auroral energy deposition in the middle atmosphere. J. Geophys. Res. 89:5581–5596.

Gorney, D.J. 1990. Solar cycle effects on the near-earth space environment. Rev. Geophys. 28:315–336.

Gough, D.O., and J. Toomre. 1991. Seismic observations of the solar interior. Ann. Rev. Astron. Astrophys. 29:627–684.

Hansen, J., and S. Lebedeff. 1987. Global trends of measured surface air temperature. J. Geophys. Res. 92:13,345–13,372.

Hansen, J.E., and A.A. Lacis. 1990. Sun and dust versus greenhouse gases: an assessment of their relative roles in global climate change. Nature 346:713–719.

Hansen, J., A. Lacis, D. Rind, G. Russell, P. Stone, I. Fung, R. Ruedy, and J. Lerner. 1994. Climate sensitivity: analysis of feedback mechanisms. Pp. 130–163 in Climate Processes and Climate Sensitivity, J. Hansen and T. Takahashi (eds.). American Geophysical Union, Washington, DC.

Hansen, J., A. Lacis, R. Ruedy, M. Sato, and H. Wilson. 1993. How sensitive is the world's climate? Natl. Geogr. Res. Explor. 9:142–158.

Hartmann, D.L., B.R. Barkstrom, D. Crommelynck, P. Foukal, J.E. Hansen, J. Lean, R.B. Lee III, M.R. Schoerberl, and R.C. Wilson. 1993. Total solar irradiance monitoring: Report of the Atmospheres Panel to the Payload Panel, November 1993. The Earth Observer, EOS Program 5:23–27.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 147

Harvey, J.W. 1984. Helium 10,830 Å irradiances: 1975-1983. Pp. 197–211– in Solar Irradiance Variations on Active Region Time Scales, B.J. LaBonte, G.A. Chapman, H.S. Hudson, and R.C. Willson (eds.). NASA Conf. Publ. CP-2310.

Harvey, J.W., and W.C. Livingston. 1994. Variability of the solar He I 10830 Å triplet. Pp. 59–64 in International Astronomical Union Symposium 154: Infrared Solar Physics, D.M. Rabin, J.T. Jefferies, and C. Lindsey (eds.).

Harvey, J.W., J.R. Kennedy, and J.W. Leibacher. 1987. GONG: To see inside our Sun, Sky and Telescope November: 470–476.

Hauglustaine, D.A., C. Grainer, G.P. Brasseur, and G. Megie. 1994. The importance of atmospheric chemistry in the calculation of radiative forcing on the climate system. J. Geophys. Res. 99: 1173–1186.

Hays, J.D., J. Imbrie, and N.J. Shakleton. 1976. Variations in the Earth's orbit: Pacemaker of the ice ages. Science 194:1121–1132.

Heath, D.F., and B.M. Schlesinger. 1986. The Mg 280-nm doublet as a monitor of changes in solar ultraviolet irradiance. J. Geophys. Res. 91:8672–8682.

Heath, D.F., A.J. Kruger, and P.J. Crutzen. 1977. Solar proton event: influence on stratospheric ozone. Science 197:886–889.

Herman, J.R., and R.A. Goldberg. 1978. Sun, Weather and Climate, NASA SP-426.

Herman, J.R., R.D. Hudson, and G. Serafino. 1990. Analysis of the eight-year trend in ozone depletion from empirical models of Solar Backscattered Ultraviolet instrument degradation. J. Geophys. Res. 95:7403–7416.

Heroux, L., and H.E. Hinteregger. 1978. Aeronomical reference spectrum for solar UV below 2000 Å. J. Geophys. Res. 83:5305– 5308.

Herrero, F.A., D.N. Baker, and R.A. Goldberg. 1991. Rocket measurements of relativistic electrons: New features in fluxes, spectra and pitch angle distributions. Geophys. Res. Lett. 18:1481– 1484.

Hickey, J., R. Bradley, M. Alton, H. L. Kyle, and D. Hoyt. 1988. Total solar irradiance measurements by ERB/Nimbus-7. A review of nine years. Space Science Reviews 48:321– 342.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 148

Hinteregger, H.E., K. Fukui, and B.G. Gilson. 1981. Observational, reference and model data on solar EUV, from measurements on AE-E. Geophys. Res. Lett. 8:1147– 1150.

Hoegy, W.R., W.D. Pesnell, T.N. Woods, and G.J. Rottman. 1993. How active was solar cycle 22? Geophys. Res. Lett. 20:1335– 1338.

Holdsworth, G., H.R. Krouse, M. Nosal, M.J. Spenser, and P.A. Mayewski. 1989. Analysis of a 290-year net accumulation time series from Mt. Logan, Yukon. Pp. 71 in Snow and Glacier Variations, IAHS Publ. # 183.

Hood, L.L. 1987. Solar ultraviolet radiation induced variations in the stratosphere and mesosphere. J. Geophys. Res. 92:876– 888.

Hood, L., and A.R. Douglass. 1988. Stratospheric response to solar ultraviolet variations: Comparisons with photochemical models. J. Geophys. Res. 93:3905– 3911.

Hood, L.L., and J.P. McCormack. 1992. Components of interannual ozone change based on Nimbus 7 TOMS data. Geophys. Res. Lett. 19:2309– 2312.

Hood, L.L., J.L. Jirikowic, and J.P. McCormack. 1993. Quasi-decadal variability of the stratosphere: Influence of long term solar ultraviolet variations. J. Atmos. Sci. 50:3941– 3958.

Hoyt, D.V. 1979. The Smithsonian Astrophysical Observatory solar constant program. Rev. Geophys. Space Phys. 17:427– 458.

Hoyt, D.V., and K.H. Schatten. 1993. A discussion of plausible solar irradiance variations 1700– 1992. J. Geophys. Res. 98:18895– 18906.

Hoyt, D.V., H.L. Kyle, J.R. Hickey, and R.H. Maschhoff. 1992. The Nimbus 7 solar total irradiance: A new algorithm for its derivation. J. Geophys. Res. 97:51– 63.

Hoyt, D.V., K.H. Schatten, and E. Nesmes-Ribes. 1994. The one hundredth year of Rudolf Wolf's death: Do we have the correct reconstruction of solar activity? Geophys. Res. Lett. In press.

Huang, T.Y., and G.P. Brasseur. 1993. Effect of long term solar variability in a two-dimensional interactive model of the middle atmosphere. J. Geophys. Res. 98:20413– 20427.

Hudson, H.S. 1987. Solar variability and oscillations. Rev. Geophys. 25:651– 662.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 149

Intergovernmental Panel on Climate Change, Climate Change 1992. The Supplementary Report to the IPCC Scientific Assessment. J.T. Houghton, B.A. Callander, and S.K. Varney (eds.). Cambridge University Press.

Jackman, C.H. 1991. Effects of energetic particles on minor constituents of the middle atmosphere. J J. Geomag. Geoelectr. Suppl. 43:637– 646.

Jackman, C.H., and R.D. McPeters. 1987. Solar proton events as tests for the fidelity of middle atmosphere models. Physica Scripta T18:309– 316.

Jackman, C.H., A.R. Douglass, R.B. Rood, R.D. McPeters, and P.E. Meade. 1990. Effect of solar proton events on the middle atmosphere during the past two solar sycles as computed using a two-dimensional model. J. Geophys. Res. 95:7417– 7428.

James, I.N., and P.M. James. 1989. Ultra-low-frequency variability in a simple atmosphetic circulation model. Nature 342:53– 55.

Johnsen, S.J., W. Dansgaard, H.B. Clausen, and C.C. Langway. 1970. Climatic oscillations 1200– 2000 A.D. Nature 227:482– 483.

Johelyn, J.A. 1990. Case study of the great geomagnetic storm of 13 March 1989. Pp. 745 – 762 in Astrodynamics 1989. 71. Advances in the Astronautical Sciences, C.L. Thorton, R.J. Proulx, J.E. Prussing, and F.R. Hoots (eds.). American Astronautical Society, Univelt Publish.

Joselyn, J.A., and E.C. Wipple. 1990. Effects of the space environment on space science. American Scientist 78:126– 133.

Justus, C.G., and B.B. Murphey. 1994. Temporal trends in surface irradiance at ultraviolet wavelengths. J. Geophys. Res. 99:1389– 1394.

Kelly, P.M. 1977. Solar influences on north Atlantic mean sea level pressure. Nature 269:320– 322.

Kelly, P.M., and T.M.L. Wigley. 1992. Solar cycle length, greenhouse forcing and global climate. Nature 360:328– 330.

Kodera, K. 1991. The solar and equatorial QBO influences on the stratospheric circulation during the early northern-hemisphere winter. Geophys. Res. Lett. 18:1023 – 1026.

Kodera, K., and K. Yamazaki. 1990. Long term variation of upper stratospheric circulation in the Northern Hemisphere in December. J. Met. Soc. of Japan 68:101– 105.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 150

Kremliovsky, M.N. 1994. Can we understand time scales of solar activity? Solar Phys. 151:351– 370.

Kuhn, J.R., and K.G. Libbrecht. 1991. Nonfacular solar luminosity variations. Astrophys. J. 381:L35 – L37.

Kuhn, J.R., K.G. Libbrecht, and R.H. Dicke. 1988. The surface temperature of the sun and changes in the solar constant. Science 242:908– 911.

Kurucz, R.L. 1991. The solar spectrum. Pp. 663 – 669 in The Solar Interior and Atmosphere, A.N. Cox, W.C. Livingston, and M.S. Matthews (eds.). University of Arizona Press, Tucson, AZ.

Labitzke, K., and H. van Loon. 1990. Associations between the 11-year solar cycle, the quasibiennial oscillation and the atmosphere: a summary of recent work. Phil. Trans. Royal Society of London A 330:577– 589.

Labitzke, K., and H. van Loon. 1993. Some recent studies of probable connections between solar and atmospheric variability. Ann. Geophysicae 11:1084– 1094.

Lacis, A.A., and B.E. Carlson. 1992. Global warming: Keeping the Sun in proportion. Nature 360:297.

Lacis, A.A., D.J. Wuebbles, and J.A. Logan. 1990. Radiative forcing of climate by changes in the vertical distribution of ozone. J. Geophys. Res. 95:9971– 9981.

Lean, J. 1987. Solar ultraviolet irradiance variations: A review. J. Geophys. Res. 92:839– 868.

Lean, J. 1988. Solar EUV Irradiances and Indices. Adv. Space Res. 8:(5)263–(5)292.

Lean, J. 1989. Contribution of ultraviolet irradiance variations to changes in the Sun's total irradiance. Science 244:197– 200.

Lean, J. 1990. A comparison of models of the Sun's extreme ultraviolet irradiance variations. J. Geophys. Res. 95:11933 – 11944.

Lean, J. 1991. Variations in the Sun's radiative output. Reviews of Geophys. 29:505–535.

Lean, J., and A. Skumanich. 1983. Variability of the Lyman image flux with solar activity. J. Geophys. Res. 88:5751– 5563.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 151

Lean, J.L., O.R. White, W.C. Livingston, D.F. Heath, R.F. Donnelly, and A. Skumanich. 1982. A three-component model of the variability of the solar ultraviolet flux: 145– 200 nm. J. Geophys. Res. 87:10307– 10317.

Lean, J., A. Skumanich, and O.R. White. 1992a. Estimating the Sun's radiative output during the Maunder minimum. Geophys. Res. Lett. 19:1591– 1594.

Lean, J., M. VanHoosier, G. Brueckner, D. Prinz, L. Floyd, and K. Edlow. 1992b. SUSIM/UARS observations of the 120 to 300 nm flux variations during the maximum of the solar cycle: Inferences for the 11-year cycle. Geophys. Res. Lett. 19:2203 – 2206.

Lee III, R.B. 1990. Long-term solar irradiance variability: 1984– 1989 Observations. Pp. 301– 308 in Proceedings of Conference on the Climatic Impact of Solar Variability, NASA, GSFC, 24– 27th April, K. Schatten, A. Arking, and R. Schiffer (eds.). NASA CP-3086.

Lee III, R.B., M.A. Gibson, R.S. Wilson, and S. Thomas. 1994. Long term solar irradiance variability during sunspot cycle 22. J. Geophys. Res. Submitted.

Leibacher, J.W., R.W. Noyes, J. Toomre, and R.K. Ulrich. 1985. Helioseismology. Scientific American 253:48– 57.

Livingston, W.C., L. Wallace, and O.R. White. 1988. Spectrum line intensity as a surrogate for solar irradiance variations. Science 240:1765– 1767.

Lockwood, G.W., and B.A. Skiff. 1990. Some insights on solar variability from precision stellar astronomical photometry. Pp. 8– 15 in Proceedings of Conference on the Climatic Impact of Solar Variability, NASA, GSFC, 24– 27th April, K. Schatten, A. Arking, and R. Schiffer (eds.). NASA CP-3086.

Lockwood, G.W., B.A. Skiff, S.L. Baliunas, and R.R. Radick. 1992. Long-term solar brightness changes estimated from a survey of Sunlike stars. Nature 360:653– 655.

London, J., and G.J. Rottman. 1990. Wavelength dependence of solar rotation and solar cycle UV irradiance variations. Pp. 323– 327 in Proceedings of Conference on the Climatic Impact of Solar Variability. NASA, GSFC, 24– 27th April, K. Schatten, A. Arking, and R. Schiffer (eds.). NASA CP-3086.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 152

London, J., G.J. Rottman, T.N. Woods, and F. Wu. 1993. Time variations of solar UV irradiance as measured by the SOLSTICE (UARS) instrument. Geophys. Res. Lett. 20:1315– 1318.

Lopate, C., and J.A. Simpson. 1991. The physics of cosmic ray modulation: Heliospheric propagation during the 1987 minimum. J. Geophys. Res. 96:15877– 15898.

Luther, M.R., R.B. Lee III, B.R. Barkstrom, J.E. Cooper, R.D. Cess, and C.H. Duncan. 1986. Solar calibration results from two earth radiation budget nonscanner instruments. App. Optics 25:540– 545.

Madronich, S. 1992. Implications of recent total atmosphere ozone measurements for biologically active ultraviolet radiation reaching the Earth's surface. Geophys. Res. Lett. 19:37– 40.

Madronich, S., and F.R. de Gruijl. 1993. Skin cancer and UV radiation. Nature 366:23.

McHargue, L.R., and P.E. Damon. 1991. The global Beryllium 10 cycle. Rev. Geophys. 29:141– 158.

Meier, R.R. 1991. Ultraviolet spectroscopy and remote sensing of the upper atmosphere. Space Science Reviews 58:1– 185.

Mitchell, W.E., and W.C. Livingston. 1991. Line-blanketing in the irradiance spectrum of the sun from maximum to minimum of the solar cycle. Astrophys. J. 372:336– 348.

Mitchell, J.M., C.W. Stockton, and D.M. Meko. 1979. Evidence of a 22-year rhythm of drought in the western United States related to the Hale solar cycle since the 17th century. Pp. 124– 144 in Solar Terrestrial Influences on Weather and Climate, B.M. McCormac and T.A. Seliga (eds.). D. Reidel, Hingham, MA.

Mohanakumar, K. 1989. Influence of solar activity on middle atmosphere associated with phase of equatorial QBO. MAP Handbook, 29:39– 42.

Moore, W.S. 1982. Chapter 18 in Uranium Series Disequilibrium: Application in Environmental Problems. M. Ivanovich and R.S. Harmon (eds.). Clarendon, Oxford, U.K.

Morfill, G.E., H. Scheingraber, W. Voges, and C.P. Sonnet. 1991. Sunspot number variations: Stochastic or chaotic. Pp. 30– 58 in The Sun in Time, C.P. Sonett, M.S. Giampapa, and M.S. Matthews (eds.). University of Arizona Press, Tucson, AZ.

Mundt, M.D., W.B. Maguire II, and R.P. Chase. 1991. Chaos in the sunspot cycle: Analysis and prediction. J. Geophys. Res. 96:1705– 1716.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 153

National Academy of Sciences. 1982. Studies in Geophysics: Solar Variability, Weather, and Climate. National Academy Press, Washington, DC.

National Academy of Sciences. 1986. Studies in Geophysics: The Earth's Electrical Environment. National Academy Press, Washington, DC.

National Academy of Sciences. 1988. Long-Term Solar-Terrestrial Observations. National Academy Press, Washington, DC.

National Academy of Sciences. 1991. Space Studies Board. Assessment of Programs in Solar and Space Physics. National Academy Press, Washington, DC.

Nesme-Ribes, E., E.N. Ferreira, R. Sadourny, H. Le Truet, and Z.X. Li. 1993. Solar dynamics and its impact on solar irradiance and the terrestrial climate. J. Geophys. Res. 98:18923–18935.

Newell, N.E., R.E. Newell, J. Hsuing, and W. Zhongxiang. 1989. Global marine temperature variation and the solar magnetic cycle. Geophys. Res. Lett. 16:311–314.

Newkirk, G. 1983. Variations in solar luminosity. Annual Review of Astronomy and Astrophysics 21:429–467.

Ogawa, H.S., L.R. Canfield, D. McMullin, and D.L. Judge. 1990. Sounding rocket measurements of the absolute solar EUV flux utilizing a silicon photodiode. J. Geophys. Res. 95:4291–4295.

Otaola, J.A., and G. Zenteno. 1983. On the existence of long term periodicities in solar activity. Solar Phys. 89:209–213.

Petersen, C., M. Bruner, L. Acton, and Y. Ogawara. 1993. Yohkoh and the mysterious solar flares. Sky and Telescope, September: 20–25.

Phillipps, P., and I.M. Held. 1994. The response to orbital perturbations in an atmospheric model coupled to a slab ocean. J. Climate 7:767–782.

Price, C. and D. Rind. 1994. Possible implications of global climate change on global lightning distributions and frequencies. J. Geophys. Res. 99:10823–10831.

Radick, R.R., G.W. Lockwood, and S.L. Baliunas. 1990. Stellar activity and brightness variations: A glimpse at the sun's history. Science 247:39–44.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 154

Randel, W.J., and J.B. Cobb. 1994. Coherent variations of monthly mean total ozone and lower stratospheric temperature. J. Geophys. Res. 99:5433–5447.

Reid, G.C. 1974. Polar cap absorption - Observations and theory. Fundamentals of Cosmic Physics 1:167–202.

Reid, G.C. 1991. Solar total irradiance variations and the global sea surface temperature record. J. Geophys. Res. 96:2835–2844.

Reid, G.C., S. Solomon, and R.R. Garcia. 1991. Response of the middle atmosphere to the solar proton events of August-December 1989. Geophys. Res. Lett. 18:1019–1022.

Reinsel, G.C., G.C. Tiao, S.K. Ahn, M. Pugh, S. Basu, J.J. DeLuisi, C.L. Mateer, A.J. Miller, P.S. Connell, and D.J. Wuebbles. 1988. An analysis of the 7-year record of SBUV satellite ozone data: Global profile features and trends in total ozone. J. Geophys. Res. 93:1689–1703.

Reinsel, G.C., G.C. Tiao, D.J. Wuebbles, J.B. Kerr, A.J. Miller, R.M. Nagatani, L. Bishop, and L.H. Ying. 1994a. Seasonal trend analysis of published ground-based and TOMS total ozone data through 1991. J. Geophys. Res. 99:5449–5464.

Reinsel, G.C., W.K. Tam, and L.H. Ying. 1994b. Comparison of trend analyses for Umkehr data using new and previous inversion algorithms. Geophys. Res. Lett. 21:1007–1010.

Ribes, E., P. Merlin, J.C. Ribes, and R. Barthalot. 1989. Absolute periodicities in the solar diameter derived from historical and modern data. Ann. Geophys. 7:321–330.

Richards, P.G., and D.G. Torr. 1988. Ratios of photoelectron to EUV ionization rates for aeronomic studies. J. Geophys. Res. 93:4060–4066.

Rind, D., and N.K. Balachandran. 1994. Effects of solar variability and the QBO on the modeled Troposphere/Stratosphere System. Part II: The Troposphere. J. of Climate. Submitted.

Rind, D., and J. Overpeck. 1993. Hypothesized causes of decade-to-century climate variability: Climate model results. Quat. Sci. Rev. 12:357–374.

Rind, D., D. Peteet, and G. Kukla. 1989. Can Milankovitch orbital variations initiate the growth of ice sheets in a general circulation model? J. Geophys. Res. 94:12851–12871.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 155

Rind, D., R. Suozzo, N.K. Balachandran, and M.J. Prather. 1990. Climate change and the middle atmosphere. Part I: The doubled CO 2climate. J. Atmos. Sci. 47:475–494.

Rishbeth, H. 1990. A greenhouse effect in the ionosphere? Planet. Space Sci. 38:945–948.

Roble, R.G., and R.E. Dickinson. 1989. How will changes in carbon dioxide and methane modify the mean structure of the mesosphere and thermosphere? Geophys. Res. Lett. 16:1441–1444.

Rottman, G.J. 1988. Observations of solar UV and EUV variability. Adv. Space Res. 8:(7)53–(7)66.

Rottman, G.J., T.N. Woods, and T.P. Sparn. 1993. Solar-Stellar Irradiance Comparison Experiment 1. Instrument Design and Operation. J. Geophys. Res. 98:10667–10677.

Royal Society. 1990. The Earth's Climate and Variability of the Sun over Recent Millennia. Phil. Trans. Royal Society of London A, Volume 330, Cambridge University Press.

Salby, M.L., and D.J. Shea. 1991. Correlations between solar activity and the atmosphere: An unphysical explanation. J. Geophys. Res. 96:22579–22595.

Schatten, K.H. 1988. A model for solar constant secular changes. Geophys. Res. Lett. 15:121–124.

Schatten, K.H. 1993. Heliographic latitude dependence of the Sun's irradiance. J. Geophys. Res. 98:18907–18910.

Schatten, K.H., and W.D. Pesnell. 1993. An early solar dynamo prediction: Cycle 23 ˜ cycle 22. Geophys. Res. Lett. 20:2275–2278.

Schlesinger, M.E., and N. Ramankutty. 1992. Implications for global warming of intercycle solar irradiance variations. Nature 360:330–333.

Schmidtke, G., T.N. Woods, J. Worden, G.J. Rottman, H. Doll, C. Wita, and S.C. Solomon. 1992. Solar EUV irradiance from the San Marco ASSI: A reference spectrum. Geophys. Res. Lett. 19:2175–2178.

Schwarzkopf, M.D., and V. Ramaswamy. 1993. Radiative forcing due to ozone in the 1980's: Dependence on altitude of ozone change. Geophys. Res. Lett. 20:205–208.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 156

Sharber, J.R., R.A. Frahm, J.D. Winningham, J.C. Biard, D. Lummerzheim, M.H. Rees, D.L. Chenette, E.E. Gaines, R.W. Nightingale, and W.L. Imhof. 1993. Observations of the UARS Particle Environment Monitor and computation of ionization rates in the middle and upper atmosphere during a geomagnetic storm. Geophys. Res. Lett. 20:1319–1322.

Siskind, D.E. 1994. On the radiative coupling between mesospheric and thermospheric nitric oxide. J. Geophys. Res. In press.

Siskind, D.E., C.A. Barth, and D.D. Cleary. 1990. The possible effect of solar soft X-rays on thermospheric nitric oxide. J. Geophys. Res. 95:4311–4317.

Smith, P.L., J.L. Lean, A.B. Christensen, K.L. Harvey, D.L. Judge, R.L. Moore, M.R. Torr, and T.N. Woods. 1993. SOURCE: The Solar Ultraviolet Radiation and Correlative Emissions Mission. Metrologia 30:275–277.

Sofia, S., and P. Fox. 1994. Solar Variability and Climate. Climatic Change 30:1–9.

Sofia, S., L. Oster, and K. Schatten. 1982. Solar irradiance modulation by active regions during 1980. Solar Phys. 80:87–98.

Solomon, S., and R. Garcia. 1984. Transport of thermospheric NO to the upper stratosphere. Planet. Space Sci. 32:399–409.

Stephenson, J.A., and M.W.J. Scourfield. 1991. Importance of energetic solar protons in ozone depletion. Nature 352:137–139.

Stolarski, R.S., P. Bloomfield, R.D. McPeters, and J.R. Herman. 1991. Total ozone trends deduced from Nimbus 7 TOMS data. Geophys. Res. Lett. 18:1015–1018.

Stuiver, M., and T.F. Braziunas. 1993. Sun, ocean, climate and atmosphere 14CO2an evaluation of causal and spectral relationships. The Holocene 3(4):289–305.

Stuiver, M., and P.J. Reimer. 1993. Extended 14C data base and revised CALIB 3.0 14C age calibration program. Radiocarbon 35:215–230.

Suess, H.E., and T.W. Linick. 1990. The 14C record in bristlecone pine of the past 8000 years based on the dendrochronology of the late C.W. Ferguson, in The Earth's Climate and Variability of the Sun over Recent Millennia: Geophysical, Astronomical and Archaeological Aspects. Phil. Trans. R. Soc. Lond. A 330:403–412.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 157

Thomas, R.J., C.A. Barth, G.J. Rottman, D.W. Rusch, G.H. Mount, G.M. Lawrence, R.W. Sanders, G.E. Thomas, and L.E. Clemens. 1983. Mesospheric ozone depletion during the solar proton event of July 13, 1982, 1, Measurements. Geophys. Res. Lett. 10:253–255.

Thompson, L.G., E. Mosley-Thompson, M.E. Davis, T. Yao, P.N. Lin, and J. Dai. 1993. New evidence for recent warming from high resolution Chinese and Peruvian Ice Cores (abstract). Eos, Transactions, American Geophysical Union, 1993 Spring Meeting Supplement: 90.

Thompson, R.J. 1993. A technique for predicting the amplitude of the solar cycle. Solar Phys. 148:383–388.

Thorne, R.M. 1980. The importance of energetic particle precipitation on the chemical composition of the middle atmosphere. Pure Appl. Geophys. 118:128–151.

Tinsley, B.A., and G.W. Deen. 1991. Apparent tropospheric response to MeV-GeV particle flux variations: A connection via electrofreezing of supercooled water in high-level clouds. J. Geophys. Res. 96:22283–22296.

Tobiska, W.K. 1991. A revised solar extreme ultraviolet flux model. J. Atmos. Terr. Phys. 53:1005–1018.

van Loon, H., and K. Labitzke. 1988. Association between the 11-year solar cycle, the QBO and the atmosphere, Part II: Surface and 700 mb in the Northern Hemisphere in Winter. J. Climate 1:905–920.

Vidal-Madjar, A. 1975. Evolution of the solar Lyman image flux during four consecutive years. Solar Phys. 40:69–86.

Vidal-Madjar, A., and B. Phissamay. 1980. The solar Lyman imageflux near solar minimum. Solar Phys. 66:259–271.

Weeks, L.H., R.S. Cuikay, and J.R. Corbin. 1972. Ozone measurements in the mesosphere during the solar proton event of November 2, 1969. J. Atmos. Sci. 29:1138–1142.

White, O.R., and W.C. Livingston. 1981. Solar luminosity variation, III, Calcium K variation from solar minimum to solar maximum in cycle 21. Astrophys. J. 249:798–816.

White, O.R., G.J. Rottman, and W.C. Livingston. 1990. Estimation of the solar Lyman imageflux from ground based measurements of the Ca II K line. Geophys. Res. Lett. 17:575–578.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 158

White, O.R., A. Skumanich, J. Lean, W.C. Livingston, and S.L. Keil. 1992. The sun in a non-cycling state. Publications of the Astronomical Society of the Pacific 104:1139–1143.

White, O.R, G.J. Rottman, T.N. Woods, B.G. Knapp, S.L. Keil, W.C. Livingston, K.F. Tapping, R.F. Donnelly, and L.C. Puga. 1994. Change in the radiative output of the Sun in 1992 and its effect in the thermosphere. J. Geophys. Res. 99:369–372.

Wigley, T.M.L., and P.M. Kelly. 1990. Holocene climatic change, 14C wiggles and variations in solar irradiance, in The Earth's Climate and Variability of the Sun over Recent Millennia: Geophysical, Astronomical and Archaeological Aspects. Phil. Trans. Royal Society of London A. 330:547–560.

Wigley, T.M.L., and S.C.B. Raper. 1990. Climatic change due to solar irradiance changes. Geophys. Res. Lett. 17:2169–2172.

Wilcox, J., L. Svalgaard, and P. Scherrer. 1976. On the reality of a sun-weather effect. J. Atmos. Sci. 33:1113–1116.

Willson, R.C. 1984. Measurements of solar total irradiance and its variability. Space Science Rev. 38:203–242.

Willson, R.C., and H.S. Hudson. 1991. A solar cycle of measured and modeled total irradiance. Nature 351:42–44.

Willson, R.C., S. Gulkis, M. Janssen, H.S. Hudson, and G.A. Chapman. 1981. Observations of solar irradiance variability. Science 211:700–702.

Winningham, J.D., D.T. Decker, J.U. Kozyra, J.R. Jasperse, and A.F. Nagy. 1989. Energetic (> 60 eV) atmospheric photoelectrons. J. Geophys. Res. 94:15335–15348.

Winograd, I.J., B.J. Szabo, T.B. Coplen, and A.C. Riggs. 1988. A 250,000 year climatic record from Great Basin vein calcite: Implications for Milankovitch theory. Science 242:1275–1280.

Winograd, I.J., T.B. Coplen, J.M. Landwehr, A.C. Riggs, K.R. Ludwig, B.J. Szabo, P.T. Kolesar, and K.M. Revesz. 1992. Continuous 500,000-year climate record from vein calcite in Devils Hole, Nevada. Science 258:255–260.

Withbroe, G. 1989. Report of the Working Group on Predictions of Solar Activity and the Atmosphere Response: Results of the November 8–9, 1989 meeting of the NASA Working Group.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
×

Page 159

WMO Global Ozone Research and Monitoring Project. 1988. Report No. 18. Report of the International Ozone Trends Panel.

Woods, T.N., and G.J. Rottman. 1990. Solar EUV irradiances derived from a sounding rocket experiment on 10 November 1988. J. Geophys. Res. 95:6227–6236.

Woods, T.N., G.J. Rottman, and G. Ucker. 1993. Solar-Stellar Irradiance Comparison Experiment 2, Instrument Calibration. J. Geophys. Res. 98:10679–10694.

Woods, T.N., G.J. Rottman, R. Roble, O.R. White, S.C. Solomon, G. Lawrence, J. Lean, and K. Tobiska. 1994. The TIMED Solar EUV Experiment. SPIE Paper 2266-57.

Wuebbles, D.J., D.E. Kinnison, K.E. Grant, and J. Lean. 1991. The effect of solar flux variations and trace gas emissions on recent trends in stratospheric ozone and temperature. J. Geomag. Geoelectr. Supp. 43:709–718.

Suggested Citation:"REFERENCES." National Research Council. 1994. Solar Influences on Global Change. Washington, DC: The National Academies Press. doi: 10.17226/4778.
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Are variations in the energy generated by the Sun sufficient to modify the Earth's global environment at levels comparable to expected anthropogenic changes? Debated contentiously for more than a century, this question must now be posed with new urgency: the proper specification of natural global changes is a prerequisite for detecting anthropogenic impacts. Important advances over the past decade in our knowledge of the Sun and of the terrestrial responses to solar variability provides the basis for answering this question with unprecedented surety, but significant uncertainties remain. This book addresses current monitoring and understanding of solar influences on both the climate system and the ozone layer and prioritizes the research effort that will be needed to provide a sound scientific basis for policymaking related to global change issues.

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