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314 IPCC Special Report on Carbon dioxide Capture and Storage ishida, H., Y. Watanabe, T. Fukuhara, S. Kaneko, K. Firisawa, and Y. Shirayama, 2005: In situ enclosure experiment using a benthic chamber system to assess the effect of high concentration of CO2 on deep-sea benthic communities. Journal of Oceanography, in press. ishimatsu, A., M. Hayashi, K.-S. Lee, T. Kikkawa, and J. Kita, 2005: Physiological effects on fishes in a high-CO2 world. Journal of Geophysical Research - Oceans, 110. ishimatsu, A., T. Kikkawa, M. Hayashi, K.-S. Lee, and J. Kita, 2004: Effects of CO2 on marine fish: larvae and adults. Journal of Oceanography, 60(4), 731-742. itaoka, K., A. Saito, and M. Akai, 2004: Public Acceptance of CO2 capture and storage technology: A survey of public opinion to explore influential factors. Proceedings of the 7th International Conference on Greenhouse Gas Control Technologies (GHGT-7), September 5-9, 2004, Vancouver, Canada. Jain, A.K. and L. Cao, 2005: Assessing the effectiveness of direct injection for ocean carbon sequestration under the influence of climate change, Geophysical Research Letters, 32. Johnson, K.M., A.G. Dickson, G. Eischeid, C. Goyet, P. Guenther, F.J. Millero, D. Purkerson, C.L. Sabine, R.G. Schottle, D.W.R. Wallace, R.J. Wilke, and C.D. Winn, 1998: Coulometric total carbon dioxide analysis for marine studies: Assessment of the quality of total inorganic carbon measurements made during the US Indian Ocean CO2 Survey 1994-1996. Marine Chemistry, 63(1-2), 21-37. Joos, F., G.K. Plattner, T.F. Stocker, A. Körtzinger, and D.W.R. Wallace, 2003: Trends in marine dissolved oxygen: implications for ocean circulation changes and the carbon budget. EOS Transactions, American Geophysical Union, 84 (21), 197, 201. Kajishima, T., T. Saito, R. Nagaosa, and S. Kosugi, 1997: GLAD: A gas-lift method for CO2 disposal into the ocean. Energy, 22(2-3), 257-262. Karl, D.M., 1995: Ecology of free-living, hydrothermal vent microbial communities. In: The Microbiology of Deep-Sea Hydrothermal Vents, D.M. Karl, (ed.), CRC Press, Boca Raton, pp. 35-125. Key, R.M., A. Kozyr, C.L. Sabine, K. Lee, R. Wanninkhof, J. Bullister, R.A. Feely, F. Millero, C. Mordy, and T.-H. Peng. 2004: A global ocean carbon climatology: Results from GLODAP. Global Biogeochemical Cycles, 18, GB4031. Kheshgi, H.S. and D. Archer, 2004: A nonlinear convolution model for the evasion of CO2 injected into the deep ocean. Journal of Geophysical Research-Oceans, 109. Kheshgi, H.S., 1995: Sequestering atmospheric carbon dioxide by increasing ocean alkalinity. Energy, 20(9), 915-922. Kheshgi, H.S., 2004a: Ocean carbon sink duration under stabilization of atmospheric CO2: a 1,000-year time-scale. Geophysical Research Letters, 31, L20204. Kheshgi, H.S., 2004b: Evasion of CO2 injected into the ocean in the context of CO2 stabilization. Energy, 29 (9-10), 1479-1486. Kheshgi, H.S., B.P. Flannery, M.I. Hoffert, and A.G. Lapenis, 1994: The effectiveness of marine CO2 disposal. Energy, 19(9), 967-975. Kheshgi, H.S., S.J. Smith, and J.A. Edmonds, 2005: Emissions and Atmospheric CO2 Stabilization: Long-term Limits and Paths, Mitigation and Adaptation. Strategies for Global Change, 10(2), pp. 213-220. Kling, G.W., W.C. Evans, M.L. Tuttle, and G. Tanyileke, 1994: Degassing of Lake Nyos. Nature, 368, 405-406. Knoll, A.K., R.K. Bambach, D.E. Canfield, and J.P. Grotzinger, 1996: Comparative Earth history and late Permian mass extinction. Science, 273, 452-457. Kobayashi, Y., 2003: BFC analysis of flow dynamics and diffusion from the CO2 storage in the actual sea bottom topography. Transactions of the West-Japan Society of Naval Architects, 106, 19-31. Kurihara, H., S. Shimode, and Y. Shirayama, 2004: Sub-lethal effects of elevated concentration of CO2 on planktonic copepods and sea urchins. Journal of Oceanography, 60(4), 743-750. Langdon, C., W.S. Broecker, D.E. Hammond, E. Glenn, K. Fitzsimmons, S.G. Nelson, T.H. Peng, I. Hajdas, and G. Bonani, 2003: Effect of elevated CO2 on the community metabolism of an experimental coral reef. Global Biogeochemical Cycles, 17. Langenbuch, M. and H.O. Pörtner, 2003: Energy budget of Antarctic fish hepatocytes (Pachycara brachycephalum and Lepidonotothen kempi) as a function of ambient CO2: pH dependent limitations of cellular protein biosynthesis? Journal of Experimental Biology, 206 (22), 3895-3903. Langenbuch, M. and H.O. Pörtner, 2004: High sensitivity to chronically elevated CO2 levels in a eurybathic marine sipunculid. Aquatic Toxicology, 70 (1), 55-61. Liro, C., E. Adams, and H. Herzog, 1992: Modelling the releases of CO2 in the deep ocean. Energy Conversion and Management, 33(5-8), 667-674. Løken, K.P., and T. Austvik, 1993: Deposition of CO2 on the seabed in the form of hydrates, Part-II. Energy Conversion and Management, 34(9-11), 1081-1087. Lutz, P.L. and G.E. Nilsson, 1997: Contrasting strategies for anoxic brain survival - glycolysis up or down. Journal of Experimental Biology, 200(2), 411-419. mahaut, M.-L., M. Sibuet, and Y. Shirayama, 1995: Weight-dependent respiration rates in deep-sea organisms. Deep-Sea Research (Part I), 42 (9), 1575-1582. marchetti, C., 1977: On geoengineering and the CO2 problem. Climate Change, 1(1), 59-68. marubini, F. and B. Thake, 1999: Bicarbonate addition promotes coral growth. Limnol. Oceanog. 44(3a): 716-720. massoth, G.J., D.A. Butterfield, J.E. Lupton, R E. McDuff, M.D. Lilley, and I.R. Jonasson, 1989: Submarine venting of phase- separated hydrothermal fluids at axial volcano, Juan de Fuca Ridge. Nature, 340, 702-705. matsumoto, K. and R.M. Key, 2004: Natural radiocarbon distribution in the deep ocean. Global environmental change in the ocean and on land, edited by M. Shiyomi, H. Kawahata and others, Terra Publishing Company, Tokyo, Japan, pp. 45-58, mcCullagh, J., 1996: International legal control over accelerating ocean storage of carbon dioxide. Ocean Storage of C02, Workshop 3, International links and Concerns. IEA Greenhouse Gas R&D Programme, Cheltenham, UK, pp. 85-115.PDF Image | CARBON DIOXIDE CAPTURE AND STORAGE
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