REFERENCESEnnis-King, J., Preston, I., <strong>and</strong> Paterson, L. (2005). Onset of convection in anisotropic porous media subject to arapid change in boundary conditions. Physics of Fluids 17, 084107.Euzen, T., Joseph, P., du Fornel, E., Lesur, S., Gr<strong>and</strong>jeon, D., <strong>and</strong> Guillocheau, F. (2004). Three-dimensionalstratigraphic modelling of the Grès d’Annot system, Eocene-Oligocene, SE France. In Deep-WaterSedimentation in the Alpine Basin of SE France: New Perspectives on the Grès d’Annot <strong>and</strong> Related Systems, P.Joseph <strong>and</strong> S.A. Lomas, eds., Special Publications 221, Geological Society, London, pp. 161–180.Ewing R.C. (2006). The nuclear fuel cycle: A role <strong>for</strong> mineralogy <strong>and</strong> geochemistry. Elements 2(6), 331–334.Fantle, M.S., <strong>and</strong> DePaolo, D.J. (2006). Sr isotopes <strong>and</strong> pore fluid chemistry in carbonate sediment of the OntongJava Plateau: Calcite recrystallization rates <strong>and</strong> evidence <strong>for</strong> a rapid rise in seawater Mg over the last 10 millionyears. Geochimica et Cosmochimica Acta 70, 3883–3904.Faulkner, D.R., Mitchell, T.M., Healy, D., <strong>and</strong> Heap, M.J. (2006). Slip on ‘weak’ faults by the rotation of regionalstress in the fracture damage zone. Nature 444, 922–925.Fenter, P.A., Rivers, M.L., Sturchio, N.C., <strong>and</strong> Sutton, S.R., eds. (2002). Applications of synchrotron radiation inlow-temperature geochemistry <strong>and</strong> environmental science. Reviews in Mineralogy <strong>and</strong> Geochemistry 49, 579 p.Field, M.J., Bash, P.A, <strong>and</strong> Karplus, M. (1990). A combined quantum-mechanical <strong>and</strong> molecular mechanicalpotential <strong>for</strong> molecular-dynamics simulations. Journal of Computational Chemistry 11(6), 700–733.Finsterle, S. (2006). Demonstration of optimization techniques <strong>for</strong> groundwater plume remediation using iTOUGH2.Environmental Modeling & Software 21(5), 665–680.Finsterle, S. (2004). Multiphase inverse modeling: Review <strong>and</strong> iTOUGH2 applications. Vadose Zone Journal 3,747–762.Firoozabadi, A. (1999). Thermodynamics of Hydrocarbon Reservoirs. McGraw-Hill, New York, 335p.Fish, J. (2006). Bridging the scales in nano engineering <strong>and</strong> science. Journal of Nanoparticle <strong>Research</strong> 8, 577.Fitch, B.G., Rayshubskiy, A., Eleftheriou, M., Ward, T.J.C., Giampapa, M., Pitman, M.C., <strong>and</strong> Germain, R.S.(2006). Blue matter: Approaching the limits of concurrency <strong>for</strong> classical molecular dynamics. SC2006, Nov.11-17, 2006, Tampa, Florida.Flint, A.L., Flint, L.D. Kwicklis, E.M., Fabryka-Martin, J.T., <strong>and</strong> Bodvarsson, G.S. (2002). Estimating recharge atYucca Mountain, Nevada, USA: Comparison of methods. Hydrogeology Journal 10, 180–204.Fogg, G.E., Carle, S.F., <strong>and</strong> Green, C. (2000). A connected-network paradigm <strong>for</strong> the alluvial aquifer system. InTheory, Modeling <strong>and</strong> Field Investigation in Hydrogeology: A Special Volume in Honor of Shlomo P.Neuman’s 60th Birthday, D. Zhang, ed., Boulder, Colorado, Geological Society of America Special Paper 348,25–42.Fredrickson, J.K., McKinley, J.P., Bjornstad, B.N., Long, P.E., Ringelberg, D.B., White, D.C., Krumholz, L.R.,Soflita, J.M., Colwell, F.S., Lehman, R.M., <strong>and</strong> Phelps, T.J. (1997). Pore-size constraints on the activity <strong>and</strong>survival of subsurface bacteria in a late Cretaceous shale-s<strong>and</strong>stone sequence, northwestern New Mexico.Geomicrobiology Journal 14, 183–202.Gale, J. (2006). The Sleipner Project <strong>and</strong> Monitoring Experiences. 2nd Nova Scotia Energy <strong>Research</strong> <strong>and</strong>Development Forum, May 24–25; http://ns.energyresearch.ca/files/John_Gale.Sleipner.pdf.Gaus, I., Azaroual, M., <strong>and</strong> Czernichowski-Lauriol, I. (2005). Reactive transport modelling of the impact of CO 2injection on the clayey cap rock at Sleipner (North Sea). Chemical Geology 217(3-4 SPEC. ISS.), 319–337.Geesey, G.G., Gillis, R.J., Avci, R., Daly, D., Hamilton, M., Shope, P., <strong>and</strong> Harkin, G. (1996). Influence of surfacefeatures on bacterial colonization <strong>and</strong> subsequent substratum chemical changes on 316L stainless steel.Corrosion Science 38, 73–95.174 <strong>Basic</strong> <strong>Research</strong> <strong>Needs</strong> <strong>for</strong> <strong>Geosciences</strong>: Facilitating 21 st Century Energy Systems
REFERENCESGeesey, G.G., <strong>and</strong> Mitchell, A. (2007). Relationships between hydrological, geochemical, <strong>and</strong> biological processesin subsurface environments. Journal of Hydrologic Engineering (in press).Gelb, L.D., Gubbins, K.E., Radhakrishnan, R. <strong>and</strong> Sliwinska-Bartkowiak, M. (1999). Phase separation in confinedsystems. Reports on Progress in Physics 62, 1573–1659.Gherardi, F., Xu, T., <strong>and</strong> Pruess, K. (2007). Numerical modeling of self-limiting <strong>and</strong> self-enhancing caprockalteration induced by CO 2 storage in a depleted gas reservoir. Chemical Geology doi:10.1016/jchemgeo.2007.06.009.Golfier, F., Zarcone, C., Bazin, B., Lenorm<strong>and</strong>, R., Lasseau, D., <strong>and</strong> Quintard, M. (2002). Wormhole <strong>for</strong>mationduring the dissolution of a porous medium. Journal of Fluid Mechanics 457, 213–254.Gollub, J. (2003). Discrete <strong>and</strong> continuum descriptions of matter. Physics Today 56(1), 10–11.Gonzalez-Gil, G., Amonette, J.E., Romine, M.F., Gorby, Y.A., <strong>and</strong> Geesey, G.G. (2005). Bioreduction of naturalspecular hematite under flow conditions. Geochimica et Cosmochimica Acta 69, 1145–1155.Grambow, B. (2006). Nuclear waste glasses—How durable? Elements 2(6), 357–364.Grechka, V., <strong>and</strong> Kachanov, M. (2006). Seismic characterization of multiple fracture sets: Does orthotropy suffice?Geophysics 71, D93–D105.Grossman, J.C., Rohlfing, M., Mitas, L., Louie, S.G., <strong>and</strong> Cohen, M.L. (2001). High accuracy many-bodycalculational approaches <strong>for</strong> excitations in molecules. Physical Review Letters 86(3), 472–475.Gubbins, K.E. (1985). Theory <strong>and</strong> computer-simulation studies of liquid mixtures. Fluid Phase Equilibria20(MAR), 1–25.Guéguen, Y., <strong>and</strong> Boutéca, M. (2004). Mechanics of Fluid-Saturated Rocks. Elsevier Academic Press, Amsterdam.Gunter, W.D., Perkins, E.H., <strong>and</strong> McCann, T.J. (1993). Aquifer disposal of CO 2 -rich gases: Reaction design <strong>for</strong>added capacity. Energy Conversion Management 34, 941–948.Haney, M., Sheiman, J., Snieder, R., Naruk, S., Busch, J., <strong>and</strong> Wilkins, S. (2004). Fault-plane reflections as adiagnostic of pressure differences in reservoirs—South Eugene Isl<strong>and</strong>, offshore. Proceedings of the EAGEConference “Fault <strong>and</strong> Top Seals.”Haney, M.M., Snieder, R., Sheiman, J., <strong>and</strong> Losh, S. (2005). A moving fluid pulse in a fault zone. Nature 437, 46.Hansel, C.M., Benner, S.G., <strong>and</strong> Fendorf, S. (2005). Competing Fe(II)-induced mineralization pathways offerrihydrite. Environmental Science Technology 39, 7147–7153.Harrison, R. J., Fann, G. I., Yanai, T., Gan, Z., <strong>and</strong> Beylkin, G. (2004). Multiresolution quantum chemistry: <strong>Basic</strong>theory <strong>and</strong> initial applications. Journal of Chemical Physics 121(23), 11587–11598.Helton, J.C., Johnson, J.D., Sallaberry, C.J., <strong>and</strong> Storlie, C.B. (2006). Survey of sampling-based methods <strong>for</strong>uncertainty <strong>and</strong> sensitivity analysis, Reliability Engineering <strong>and</strong> System Safety, 91, 1175–1209.Henkelman, G., <strong>and</strong> Jonsson, H. (2000). Improved tangent estimate in the nudged elastic b<strong>and</strong> method <strong>for</strong> findingminimum energy paths <strong>and</strong> saddle points. Journal of Chemical Physics 113, 9978–9985.Hidalgo, J.J., <strong>and</strong> Carrera, J. (2007). Comment on ‘Onset of convection in a gravitationally unstable diffusiveboundary layer in porous media’ by A. Riaz et al. Journal of Fluid Mechanics (submitted).Hill, M.C., <strong>and</strong> Tiedeman, C.R. (2007). Effective Groundwater Model Calibration. John Wiley & Sons, New York,NY.<strong>Basic</strong> <strong>Research</strong> <strong>Needs</strong> <strong>for</strong> <strong>Geosciences</strong>: Facilitating 21 st Century Energy Systems 175
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TABLE OF CONTENTSBasic Science Chal
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TABLE OF CONTENTSTechnology Impacts
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EXECUTIVE SUMMARYpurpose of linking
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INTRODUCTIONINTRODUCTIONWorldwide e
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INTRODUCTIONway into the rock forma
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APPENDIX 4: ACRONYMS AND ABBREVIATI