References

Bacastow, R. B. (1976), Modulation of atmospheric carlxm dioxide b\ the southern oscillation.

Nature, 261,116-118.

Bacastow, R. B., Adams, J. A., Keeling, C IX, Moss, 1). J., Whorf, T. P., and Wong, C S. (1980). Atmospheric carbon-dioxide, the Southern Oscillation, and the weak 1975 El-Nino. Science, 210, 66-68.

Ball, J. T (1988). An analysis of stomatal conductance. Ph.D. Thesis, Stanford University, Stanford, 89 pp.

Bender, \L, Ellis, T., Tans, P., Francev, R., and l^owe, IX (1996), Variability in the Oz/S2 ratio of southern hemisphere air, 1991 1994 Implications for the carbon cycle. Global Biogeochcmical Cycles, 10,9-2 L

Bender, M., Sowers, T-, and Labeyrie, L. (1994). The Dole effect and its variations during the last I ,sl>,<K>C> years as measured in the Vostok ice core. Global Biogeochcmical Cycles, 8,363-376.

Bounoua, L.., Collatz, G. .1., Sellers, P. J., Randall, I>. A., Dazlich, IX A., Los, S. O., Berry, J. A,, Fung, 1., Tucker, C. J., Field, C. B., and lensen, T G. (1999). Interactions between vegetation and climate: Radiative and physiological effects of doubled atmospheric CQj. Journal of Climate, 12, 309-324.

Ciais, P., Denning, A. S,, Tans, P. P, Berry, J. A., Randall, IX. A., Gillatz, G. J., Sellers, P, J., W hite, J. \V. (1, Trolier, M,, Meijcr, II. A. J., Franccy, R. J., Moufray, P, and Hetmann, M, (1997a). A three-dimensional synthesis study of in atmospheric COj. I. Surface fluxes, journal of Geophysical Research-Atmospheres, 102, 5857-5872.

Ciais, P., Tans, P P., Denning, A. S,, France), R. J., Trolier, M.f Meijcr, H. A. J., White, J. \V. C., Berry, J. A., Randall, U A., Collatz, G.J., Sellers, P. J., Moufray, P., and Heimann, M. (1997b). A three-dimensional synthesis study of5'*0 in atmospheric CO^. 2. Simulations with the TM2 transport model. Journal of Geophysical Research-Atmospheres 102, 5873-5883.

Collatz, G. J., Ball, J. T., Grivet, C., and Berry, J. A. (1991). Physiological and environmental-regulation of stomatal conductance, photosynthesis and transpiration a model that includes a laminar boundary-layer. Agricultural and Forest Meteorology, 54, 107-136.

Conway, T. J., Tans, P. P, Waterman, L. S., and Thoning, k. W (1994). Evidence for interan-nual variability of the carbon cycle from the National Oceanic and Atmospheric Administration Climate Monitoring and Diagnostics Laboratory global air sampling network. Journal of Geophysical Research-Atmospheres, 99, 22831-22855.

Dole, M. (1935). The relative atomic w eight of oxygen in w ater and air. J. Am. Chem. Soc, 57, 2731.

Fraedrich, K.., Kleidon, A., and Lunkeit, K(1999), A green planet versus a desert world: Estimating the effects of vegetation extremes on the atmosphere. J. of Climate, in press.

Maiepnan, 3amwmeHHbiM aBtopcKUM npaBOM

France); R. J., and Tans, P. P. (1987). Latitudinal variation in of atmospheric COj. Nature, 327,495-497,

Frances, R. J., Tans, P P., Allison, C E,, Euting, I. Cj., White, J, \\. G, and Trolier, M. (1995).

Changes in oceanic and terrestrial carbon uptake since 1982. Nature, 373,326-330, Hattenschwiler, S., and Korner, C (1996). System-level adjustments to elevated CO? in model spruce ecosystems. Global Change Biology« 2,377-387, I leimann, M, (1997). A review of the contemporary global carbon cycle and as seen a century ago hy Arrhenius and Hcigbom. Amhio, 26, 17-24, Heimann, M., Esser, G, Haxekine, A., kaduk, [,, kick lighter, D. W., Knorr, VV,, Kohlmaier, G- H,, McGuire, A. D., Melillo, J., Moore, B , Otto, R, I>,, Prentice, 1, C, Sauf, VV, Schloss, A., Sitch, S , W ittenberg, U., and Uurth, G. (199H). Evaluation of terrestrial Carbon Cycle models through simulations of the seasonal cycle of atmospheric GQj: First results of a model intercornparison study. Global Biogeochemical Cycles, 12, 1-24, HolTmann, G., Werner, M., and Heimann, M. (1998). Water isotope module of the ECHAM atmospheric general circulation model - a study on iimescales from days to several years. Journal of Geophysical Research-Atmospheres, 103, 16871-16896. Hulmc, M,„ Osborn, T, J., and Johns, T C. (1998). Precipitation sensitivity to global warming: Comparison of observations w ith HadCM2 simulations, Geophys. Res. Letts., 25,3379-3382. Indcrmuhlc, A., Stocker, T, F, Joos, F, Fischer, A., Smith, H. J,, IVahlen, M,, Deck, B., Mestroianni, D, Tschumi, J., Bluuier, T, Meyer R., and StaulTer, B. (1999). Holocene carbon-cycle dynamics based on COi trapped in ice at Taylor Dome, Antarctica. Nature, 398, 121-126.'

Jones, P. D. (1994). 1 lemispherie surface air temperature variations: a reanalysis and an update to

Keeling, C EX, Whorf, T. P., W'ahrten, M., and Vandcrplicht, J. (1995). Interannual extremes in the rate of rise of atmospheric carbon dioxide since 19811. Nature, 375, 66^670. Keeling, R F., Stephens, B. B,, Najjar, R, G., Doney, S. C., Archer, D., and Heimann, M. (1998), Seasonal variations in the atmospheric Oj/Nj ratio in relation to the kinetics of air-sea gas exchange. Global Biogeochemical Cycles, 12, 141-163. keeling, R. F, Piper, S, C„ and Heimann, M. (1996), Global and hemispheric CO3 sinks deduced from changes in atmospheric O2 concentration. Nature, 381,218-221. Keeling, R. F (1995), The atmospheric oxygen cycle - the oxygen isotopes of atmospheric COj and O2 and the Oj/N'* ratio. Reviews of Geophysics, 33, 1253-1262. Keeling, R K, Najjar, R. P., Bender, M. L., and Tans, P. P. (1993). W hat atmospheric oxygen measurements can tell us about the global carbon-cycle. Global Biogeochemical Cycles, 7, 37-67.

keeling, R. F,and Shertz, S, R, (1992). Seasonal and interannual variations in atmospheric oxygen and implications for the global carbon-cycle. Nature, 358, 723-727. Mcidon, A., Fraedrich, K., and Heimann, M, (1999), A green planet versus a desert world: Estimating the maximum effect of vegetation on the land surface climate. Climatic Change, in press, ktcidon, A., and I leimann, M, (1998). Optimised rooting depth and its impacts on the simulated climate of an atmospheric general circulation model. Geophysical Research I alters, 25,345-348. ktcklighter, r>, W,, Bruno, M., Dongcs, SL, Esser, G,, Heimann, M., Helfrich, J., lft, F,Joos, F., kaduk, J., Kohlmaier, G. H., McGuire, A. D., Melillo, J. M., Meyer, R,, Moore, B,, Nadler, A,, Prentice, I. C, Sauf, W., Schloss, A, L., Sitch, S., Wittenberg, U, and Wurth, G. (1999), A first-order analysis of the potential role of CO? fertilization to affect the global carbon budget: a comparison of four terrestrial biosphere models, Tellu®, B51, 343-366. Knorr, W., and Heimann, M. (1995). Impact of drought stress and other factors on seasonal land biosphere CO2 exchange studied through an atmospheric tracer transport model. Tel I us, B47, 471^89.

koerner, G (1998). Tropical forests in a CO>-rich world. Climatic Change, 39, 297-315. Le Que re, tl, Orr, J. G, Monfray, P., Aumont, O, and Madec, G. {1999), Interannual variability of the oceanic sink of CO; from 1979 through 1997. Global Biogeochemical Cycles» in press.

Maiepnan, 3amwmeHHbiPi aBTopcKMM npaBOM

Mauersberger, K., Erbacher, II, Krankowsky, D,, Gunther, J., and Nickel, R, (1999). Ozone isotope enrichment: Isotopomer-specifjc rale coefficients. Science, 283, 370-372, Mauersberger, K., Morton, J., Schueler, B., Stehr. J., and Anderson, S. M. (1993), Multi-isotope study of ozone - implications for the heavy ozone anomaly. Geophysical Research Leiters.. 20,

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