Elizabeth J. Screaton


Publications


2007:
Bekins, B. and E. Screaton, 2007, Pore Pressure and Fluid Flow in the Northern Barbados Accretionary Complex, In Tim Dixon, J. Casey Moore, Eds.,  The Seismogenic Zone of Subduction Thrust Faults, Columbia University Press, 148-170.

Screaton, E.J. and S. Ge, 2007, Modeling of the effects of propagating thrust slip on pore pressures and implications for monitoring, Earth and Planetary Science Letters, 258 (3), 454-464.

2006:

Cutillo, P.A., S. Ge, and E. Screaton, 2006, Hydrodynamic response of subduction zones to seismic activity: A case study for the Costa Rica Margin, Tectonophysics, 426, 167-187.

 Gamage, K., and E. Screaton, 2006, Characterization of excess pore pressures at the toe of the Nankai accretionary complex, Ocean Drilling Program sites 1173, 1174, and 808: Results of one-dimensional modeling, J. Geophys. Res., 111, B04103, doi:10.1029/2004JB003572.  abstract

Martin, J.M., E. Screaton, and J. Martin, Hydraulic head differences between conduits and matrix:  Implications for fluid exchange and matrix transmissivity in the Floridan Aquifer, in Harmon, R.S., and Wicks, C., eds., Perspectives on Karst Geomorphology, Hydrology, & Geochemistry – A Tribute Volume to Derek C. Ford and William B. White: Geological Society of America Special Paper 404, p. 209-217, doi: 10.1130/20062505(17).

Screaton, E. , 2006. Excess pore pressures within subducting sediments: Does the proportion of accreted versus subducted sediments matter?, Geophys. Res. Lett., 33, L10304, doi:10.1029/2006GL025737. abstract

Screaton, E., Hays, T., Gamage, K., and Martin, J., 2006,  Data report: Permeabilities of Costa Rica subduction zone sediments. In Morris, J.M., Villinger, H.W., and Klaus, A. (Eds.), Proc. ODP, Sci. Results, 205 [Online]. Available from World Wide Web: <http://www-odp.tamu.edu/publications/205_SR/204/204.htm>.

2005:
Gamage, K., Bekins, B., and Screaton, E., 2005. Data report: Permeabilities of eastern equatorial Pacific and Peru margin sediments. In Jørgensen, B.B., D'Hondt, S.L., and Miller, D.J. (Eds.), Proc. ODP, Sci. Results, 201 [Online]. Available from World Wide Web: http://www-odp.tamu.edu/publications/201_SR/103/103.htm.

Ge. S., and Screaton, E., 2005, Modeling seismically induced deformation and fluid flow in the Nankai  subduction zone, Geophysical Research Letters, vol. 32, L17301, doi:10.1029/2005GL023473, 4 pp. abstract
Screaton, E.J.  and D. M. Saffer, 2005, Fluid expulsion and overpressure development during initial  subduction at the Costa Rica convergent margin, Earth and Planetary Science Letters, Volume 233, Issues 3-4 , 15 May 2005, Pages 361-374.
 
2004:
Screaton, E., J. B. Martin, B. Ginn, and L. Smith, 2004, Conduit Properties and Karstification in the Santa Fe River Sink-Rise System of the Floridan Aquifer, Ground Water, 42, 338-346.

2003:
Cutillo, P. A., E. J. Screaton, and S. Ge, 2003, Three-dimensional numerical simulation of fluid flow and heat transport within the Barbados Ridge accretionary complex, J. Geophys. Res., 108(B12), 2555, doi:10.1029/2002JB002240.

Gamage, K. and Screaton, E., 2003. Data report: Permeabilities of Nankai accretionary prism sediments. In Mikada, H., Moore, G.F., Taira, A., Becker, K., Moore, J.C., and Klaus, A. (Eds.), Proc. ODP, Sci. Results, 190/196, 1-21 [Online]. Available from World Wide Web: http://www-odp.tamu.edu/publications/190196SR/VOLUME/CHAPTERS/213.PDF.
Henry, P., L. Jouniaux, E. J. Screaton, S. Hunze, and D. M. Saffer, 2003, Anisotropy of electrical
conductivity record of initial strain at the toe of the Nankai accretionary wedge, J. Geophys. Res., 108(B9), 2407, doi:10.1029/2002JB002287.

Saffer, D. and E. Screaton, 2003, Fluid flow pathways at the toe of convergent margins: Reconciling  hydrologic and geochemical observations, Earth and Planetary Science Letters, 213, 261-270.

Stover, S. C., S. Ge, and E. J. Screaton, 2003, A one-dimensional analytically based approach for studying poroplastic and viscous consolidation: Application to Woodlark Basin, Papua New Guinea, J. Geophys. Res., 108(B9), 2448, doi:10.1029/2001JB000466.

2002:
Screaton, E., Saffer, D., Henry, P., Hunze, S., and the Leg 190 Scientific Party, 2002, Porosity loss within the underthrust sediments of the Nankai accretionary complex: Implications for overpressures, Geology, Vol. 30, No. 1, pp. 19–22.

Smith, L.A., J. B. Martin, and E. J. Screaton, 2002, Surface water control of gradients in the Floridan  Aquifer: Observations from the Santa Fe River Sink-Rise system, Karst  Waters Institute Special Publication 7, Hydrogeology and Biology of Post-Paleozoic Carbonate Aquifers,44-48 (non-refereed).

2001:
Kemerer, A., and Screaton, E., 2001. Permeabilities of sediments from Woodlark Basin: implications for  pore pressures. In Huchon, P., Taylor, B., and Klaus, A. (Eds.), Proc.ODP, Sci. Results, 180, 1-14 [Online]. Available from World Wide Web: <http://www-odp.tamu.edu/publications/180_SR/VOLUME/CHAPTERS/169.PDF>.

 Martin, J.B., and E.J. Screaton, 2001, Exchange of Matrix and Conduit Water with Examples from the  Floridan Aquifer, in U.S. Geological Survery Karst Interest Group Proceedings, St. Petersburg, Florida, Water-Resources Investigations Report 01-4011, p. 38-44 (non-refereed)

 Stover, S.C., Screaton, E.J., Likos, W.J., and Ge, S., 2001. Data report: Hydrologic characteristics of  shallow marine sediments of Woodlark Basin, Site 1109. In Huchon, P., Taylor, B., and Klaus, A. (Eds.), Proc. ODP, Sci. Results, 180, 1-22 [Online].Available from World Wide Web:<http://www-odp.tamu.edu/publications/180_SR/VOLUME/CHAPTERS/168.PDF>.

2000:
Screaton, E., Carson, B., Davis, E., Becker, K., 2000, Permeability of a decollement zone: Results from a two-well experiment in the Barbados accretionary complex, 105, 21,403-21,410

Screaton, E., and Ge, S., 2000, Anomalously high porosities in the proto-decollement zone of the Barbados accretionary complex: Do they indicate overpressures?,  Geophysical Research Letters, vol.27, no.13, pp.1993-1996.

1998:
Carson, B., and Screaton, E.J., 1998, Fluid flow in accretionary prisms: Evidence for focused,
time-variable discharge, Reviews of Geophysics, 36, 3, 329-351.

1997:
Screaton, E.J., Fisher, A.T., Carson, B., and Becker, K., 1997, Barbados Ridge hydrogeologic tests: Implications for fluid migration along an active décollement, Geology, 239-242.

Screaton, E. J. and Ge, Shemin, 1997, An assessment of along-strike fluid and heat transport within the Barbados Ridge accretionary complex: results of preliminary modeling, Geophysical Research Letters, 3085-3088.

McAdoo BG, Orange DL, Screaton E, Lee H, Kayen R., 1997, Slope basins, headless canyons, and submarine palaeoseismology of the Cascadia accretionary complex Basin Research, 9: (4) 313-324.

Orange DL, McAdoo BG, Moore JC, Tobin H, Screaton E, Chezar H, Lee H, Reid M, Vail R, 1997, Headless submarine canyons and fluid flow on the toe of the Cascadia accretionary complex. Basin Research, 9: (4) 303-312.

1995:
Jarrard, R. D., MacKay, M. E, Westbrook, G. K., and Screaton, E. J., 1995, Log-based porosity of ODP sites on the Cascadia Accretionary Prism, Proc. Ocean Drilling Program, Scientific Results,  Vol. 146 (Pt. 1), 313-335.

Screaton, E.J., Carson, B., and Lennon, G. P., 1995, Hydrogeologic properties of a thrust fault within the  Oregon Accretionary Prism, J.  Geophys. Res., 20025-20035.

Screaton, E.J., Carson, B., and Lennon, G.P., 1995, In-situ permeability tests at ODP Site 892:  Characteristics of a hydrogeologically active fault zone on the Oregon Accretionary Prism,  Proc. Ocean Drilling Program, Scientific Results,  Vol. 146 (Pt. 1), 291-297.

1990:
Screaton, E.J., Wuthrich, D.R., and Dreiss, S.J., 1990, Permeabilities, fluid pressures, and flow rates in the Barbados Ridge Complex, J. Geophys. Res., 95, 8997-9007.

Screaton, E.J., Wuthrich, D.R., and Dreiss, S.J., 1990, Fluid flow within the Barbados Ridge Complex: Part I:  Dewatering within the toe of the prism, Scientific Results Ocean Drill. Program, part B., Vol. 110, 321-331.

 Wuthrich, D.R., Screaton, E.J., and Dreiss, S.J., 1990, Fluid flow within the Barbados Ridge Complex: Part II, Permeability estimates and numerical simulations of fluid flow rates, flow directions, and pore pressure, Proc. Scientific Results. Ocean Drill. Program, part B., Vol. 110, 331-341.