References

Brewer, P G t Friedcrich, G.t Peltzer, K. T., and Orr, Jr , F, M. (1999). Direct experiments on the ocean disposal of fossil fuel CO7, Science, 2K4, 943-45.

Broecker, W S., Peng, T.-H., Ostlund, H. G., and Stuvier, ML (1985), The distribution of bomb radiocarbon. J, Geophvs. Res., 90» 6953-70.

Broecker, W. S., and Peng, T.-H, (1992). Inter hemispheric transport of CO 2 by occan circulation. Nature, 356, 587-89.

Broecker, W S., Peacock, S., Walker, S., Weiss, R., Fahrbach, E., Schroeder, M., Mtkolajewicz, U., Heinze, C., Key, R., Peng, T.-H., and Rubin, S. (1998). How much deep water is formed in the Southern Ocean? J. Geophvs. Res,, 103, 15,833—H.

Denning, A. S., Collate, G. J., Zhang, C, Randall, D, A., Bern, J. A., Sellers, P. J., ColcLlo, G. D., and Dazlich, D, A. (1996a). Simulations of terrestrial carbon metabolism and atmospheric COj in a general circulation model. Tellus, 48B, 521-42.

Denning, A. S., Randall D. A., Collatz, G, J,, and Sellers, P. J, (1996b). Simulations of terrestrial carbon metabolism and atmospheric CO> in a general circulation model, Pari 2: Simulated COj concentrations. TeJlus, 48B, 543—67.

Ellsworth, D.,Oren, R., Huang, C, Phillips, X., and Hendry, G, (1995). Leaf and canopy responses to elevated GQj tn a pine forest under free-air CQj enrichment. Oeeologia, 104, 139-46.

Fan, S., Gloor, M., Mahtman, J., Pacala, S., Sarmiento, J,, Takahashi, T, and Tans, P. (1998), A large terrestrial carbon sink in North America implied by atmospheric and oceanic carbon dioxide data and models. Science, 282, 442-46.

Farley, K. A., Maier-Reimer, E., ScMosser, P., Broecker, W. S,, and Bonani, G. (1995), Constraints on mantle Tie fluxes and deep-sea circulation from an oceanic general circulation model. J. Geophys, Res., 100,3829^39.

Herzog, it., Drake, E., and Adams, E. (1997). CO* capture, reuse, and storage technologies for mitigating global climate change, A White Paper Final Report, Mass, Inst, Technology, Cambridge, MA, 66 pp.

Keeling, R. F., and Peng, T.-H, (1995). Transport of heat, CO^ and O? by the Atlantic's thermohaline circulation. Phil. Trans. R. Soc, Lond., 348, 133^42.

Keeling, R. Piper, S. C., and Heimann, M. (1996). Global and hemispheric CO2 sinks deduced from changes in atmospheric (>2 concentration, Nature, 381,218-21.

Marchctti, C. (1977). On gco-engineering and the COi problem. Climate Change, 1, 59-68.

Siegenthaler, U., and Oeschger, H. (1978). Predicting future atmospheric carbon dioxide levels. Science, 199, 388-95.

Steinberg, M,, Cheng, H. C., and I lorn, F. (1984), A systems study tor the removal, recovery and disposal of carbon diovide from fossil fuel power plants in the LIS. Report for U.S. Department of Energy, 76 pp.

Tissue, D. T, Thomas, R. B., and Strain, B. R. (1997). Atmospheric CO> enrichment increases growth and photosynthesis of Pinus taeda: a 4-year experiment in the field. Plant Cell and

Environment, 20, 1123-34.

Turnbulk M. HL, Tissue, D. T., Griftin, K, I.,, Rogers, G- N, EX, and W hitehead, D. (1998). Photosynthetic acclimation to long-term exposure to elevated GO* concentration in Pinus radiata D. Don. is related to age ol needles. Plant Cell and Environment, 21,1019-28.

Wofsy, S. C., Gouldcn, M. L., Mungcr, J, W„ Fan, S.-M,, Bakwin, P S , I>auht\ B C, Bassow, S. L., and Bazzaz, F. A. (1993). Net exchange of CO2 in a mid-latitude forest. Science, 260, 1314-17.

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