READING LIST 6961 GREENHOUSE GASES Archer, D. et al., 2000 What caused the Glacial/Interglacial atmospheric pCO-2 cycles? Rev. Geophysics 38: 159-89. Arthur, MA. 1982. The carbon cycle - controls on atmospheric CO8 and climate in the geologic past. In: Climate in Earth History, National Academy Press: 55-67. Blake, D.R. and Rowland, F.S. 1988 Continuing worldwide increase in tropospheric methane. Science 239:1129-31. Bolin, B. and Cook, R.B. 1983. The major Biogeochemical Cycles and their Interactions. J.Wiley and Sons, New York, 532pp. Bolin, B., Does, R., Jager, J. and Warrick, RA. 1986. The Greenhouse Effect, Climatic Change and Ecosystems. J.Wiley and Sons New York. 561 pp. Brasseur, G. and Verstraete, M. 1989. Atmospheric chemistry - climate interactions. In: A. Berger, S. Schneider and J.C. Duplessy eds. Climate and Geosciences, Kluwer Academic, Dordrecht p. 279-302. Clark, W.D. ed. 1982. Carbon Dioxide Review: 1982, Oxford Univ. Press, New York: 469 pp. (incl. chapter on trace gases). Crawford, E. 1997. Arrhenius 1896 model of the greenhouse effect in context. Ambio 26: 6-11. Daqi, A. et al. 2001. Climates of the 20th and 21st centuries simulated by the NCA Climate System Model. J Climate 14(4): 485-519. Field, C.B. and Raupach, M. (eds) 2003 The Global Carbon Cycle. (SCOPE 62) Island Press, Washington DC. Hoffert, M. et a. 2002. Advanced technology paths to global climate stability: energy for agreenhouse planet. Science 298: 981-7 (Discussion 300 (2003): 581-3). Houghton, RA etal. 1987. The flux of carbon from terrestrial ecosystems to the atmosphere in 1980 due to changes in land use: Geographical distribution of the global flux. Tellus 39:122-39. Houghton, R.A. 2000. Interannual variability in the global carbon cycle. J. Geophys. Res., 105(D15): 20,121-130. Idso, S.B. 1984. What if increase in atmospheric CO, have an inverse CO2 effect? J. Climatol. 4:399-409. Keeling, C.D. and Cicerone, R.J. eds. 1983. Bern CO3 Symposium (numerous papers) J.G.R. 88(C2): 1257-1359 and later issues. Kellogg, W.W.. 1983. Feedback mechanisms in the climate system affecting future levels of carbon dioxide. J.G.R. 88:1263-70. Libby, L.M. ed. 1979. Carbon dioxide and climate. Environment International 2 (4-6), Special Issue, Pergamon, New York. MacCracken, M.C. and Luther, F.M. eds. 1985. Detecting the climatic effects of increasing carbon dioxide. DOE/ER-0234, U.S. Department of Energy. MacCracken, M.C. and Luther, F.M. eds. 1985. Projecting the climatic effects of increasing carbon dioxide. DOE/ER-0237, U.S. Department of Energy. Manabe S. and Wetherald, R.T. 1985. COa and hydrology. Adv. Geophys. 28:131-57. Mitchell, J.F.B. 1989 The "greenhouse": effect and climate change. Rev. Geophys., 27:115-39. National Research Council 1982. Carbon dioxide and climate: a second assessment. National Academy Press, Washington, DC: 72 pp. Oeschger, H. and Langway, C.C. eds. 1989. The Environmental Record of Glaciers and Ice Sheets. J.Wiley and Sons. Chichester. Ramanathan, V. et al. 1985. Trace gas trends and their potential role in climate change. J. Geophys. Res., 90:5547-66. Ramanathan, V. 1988. The greenhouse theory of climate change: a test by an inadvertent global experiment. Science 240:293-9. Rasmussen, R.A. and Khalil, MA.V. 1986. Atmospheric trace gases: trends and distributions over the last decade. Science 232:1623-24. Ruddiman, W..E. 2003. The anthropgenic greenhouse began thousands of years ago. Climatic Change 61: 261-93. Sabine, C.L. et al. 2004. The oceanic sink for anthropogenic CO-2. Science 305: 367-71. Sarmiento, J.L. etal. 1988. Ocean carbon-cycle dynamics and atmospheric POQJ. Phil Trans. Roy. Soc. London. Ser A. 325:3-22 Sarmiento, J.I. ands Gruber, N. 2002. Sinks for anthropogenic carbon. Physics Today 55(8): 30-6. Schlesinger, M.E. 1984. Climate model simulations of CO, - induced climatic change. Adv. Geophys. 26:141-235. Schneider, 8.H. 1990. The global warming debate heats up: An analysis and perspective. Bull. Amer. Met. Soc., 71:1292-1304. Sundquist, E.T. and Broecker, W.S. eds. 1985. The carbon cycle and atmospheric CO, Natural variations, archean to present. AGU Geophys. Monogr. 32:627 pp. Tans, P. P. and White, J.W.C. 1998. The global carbon cycle with a little help from plants. Science 281 (5374): 182-4. Trabalka, J.R. ed. 1985 Atmospheric carbon dioxide and the global carbon cycle. DOE/ER-0239. U.S. Department of Energy. Wang, W. et al. 1986. Trace gases and other potential perturbations to global climate. Rev. Geophs. 24:110-140. Wigley, T.M.L. 1985. Relative contributions of different trace gases to the greenhouse effect. Climate Monitor 16:14-28. Wigley, T. 1998. The Kyoto protocol: CO-2, CH-4 and climate implications. Geophys. Res. Let., 25: 2285-88. Wollast, R. and Mackenzie, F.T. 1989. Global biogeochemical cycles and climate. In: A. Berger, S. Schneider, Duplessy, J.C. eds. Climate and Geosciences,, Kluwer Academic, Dordrecht p. 453-73.