|
Argus, D. F. 1996. Postglacial rebound from VLBI geodesy: on establishing vertical reference. Geophysical Research Letters, 23, 973–977.[CrossRef][ISI][GeoRef]
Backus, G. E. 1988. Bayesian inference in geomagnetism. Geophysical Journal of the Royal Astronomical Society, 92, 125–142.[GeoRef]
Bard, E., Hamelin, B. Arnold, M. Monaggioni, L. Cabioch, G. Faure, G. & Rougerie, F. 1996a. Deglacial sea level record from Tahiti corals and the timing of global meltwater discharge. Nature, 382, 241–244.[CrossRef][GeoRef]
Bard, E., Hamelin, B. Fairbanks, R. G. & Zindler, A. 1990. Calibration of the 14C timescale over the past 30,000 years using mass spectrometric U-Th ages from Barbados corals. Nature, 345, 405–409.[CrossRef][GeoRef]
Bard, E., Johannic, C. et al. 1996b. Pleistocene sea levels and tectonic uplift based on dating of corals from Sumba Island Indonesia. Geophysical Research Letters, 23, 1473–1476.[CrossRef][ISI][GeoRef]
BIFROST 1996. GPS measurement to constrain geodynamic processes in Fennoscandia. EOS Transactions of the American Geophysical Union, 35, 377.
Bills, B. G. & James, T. S. 1996. Late Quaternary variations in relative sea level due to glacial cycle polar wander. Geophysical Research Letters, 23, 3023–3026.[CrossRef][ISI][GeoRef]
Chappell, J. & Polach, H. A. 1991. Post-glacial sea level rise from a coral record at Huon Peninsula, Papua New Guinea. Nature, 276, 602–604.
Clark, J. A., Farrell, W. E. & Peltier, W. R. 1978. Global changes in postglacial sea level: a numerical calculation. Quaternary Research, 9, 265–287.
Dahlen, F. A. 1976. The passive influence of the oceans upon the rotation of the Earth. Geophysical Journal of the Royal Astronomical Society, 46, 363–406.[ISI][GeoRef]
Dziewonski, A. M. & Anderson, D. L. 1981. Preliminary reference earth model. Physics of the Earth Planetary Interiors, 25, 297–356.[CrossRef]
Edwards, R. L. 1988. High precision Th-230 ages of corals and the timing of sea level fluctuations in the late Quaternary. PhD Thesis, California Institute of Technology, Pasadena.
Edwards, R. L. 1995. Paleotopography of Ice-Age ice sheets. Science, 267, 535–536.
Eisenhauer, A., Wasserburg, G. J. Chen, J. H. Bonani, G. Collins, L. B. Zhu, Z. R. & Wyrwoll, K. H. 1993. Holocene sea level determination relative to the Australian continent: U-Th (TIMS) and 14C (AMS) dating of coral cores from the Abrolhos Islands. Earth Planetary Science Letters, 114, 529–547.[CrossRef]
Fairbanks, R. G. 1989. A 17,000-year glacio-eustatic sea level record: influence of glacial melting rates on the Younger Dryas event and deep-ocean circulation. Nature, 342, 637–641.[CrossRef][GeoRef]
Fang, M. & Hager, B. H. 1995. The singularity mystery associated with radially continuous Maxwell viscoelastic structure. Geophysical Journal International, 123, 849–865.[ISI][GeoRef]
Farrell, W. E. & Clark, J. A. 1976. On postglacial sea level. Geophysical Journal of the Royal Astronomical Society, 46, 647–667.[ISI][GeoRef]
Forte, A. M., Dziewonski, A. M. & Woodward, R. L. 1993a. Aspherical structure of the mantle, tectonic plate motions, nonhydrostatic geoid and topography of the core-mantle boundary. In: Le Mouel, J.-L. (ed.) Dynamics of the Earth’s Deep Interior and Earth Rotation, Geophysical Monograph Series, American Geophysical Union, 72, 135–166.
Forte, A. M., Peltier, W. R. Dziewonski, A. M. & Woodward, R. L. 1993b. Earth’s dynamics topography: a new interpretation based upon mantle flow models derived from seismic tomography. Geophysical Research Letters, 20, 225–228.[ISI][GeoRef]
Han, D. & Wahr, J. 1995. The visco-elastic relaxation of a realistically stratified Earth, and a further analysis of postglacial rebound. Geophysical Journal International, 120, 287–311.[ISI][GeoRef]
Hays, J. D., Imbrie, J. & Shackleton, N. J. 1976. Variations in the Earth’s orbit: pacemaker of the ice ages. Science, 194, 1121–1132.
Imbrie, J., Hays, J. D. et al. 1984. The orbital theory of Pleistocene climate: support from a revised chronology of the marine 
18O record. In: Berger, A. L. et al. (eds) Milankovitch and Climate, Part 1, D. Reidel Publishing Company, 269–305.
Jackson, D. D. & Matsu’ura, J. 1985. A Bayesian approach to nonlinear inversion. Journal of Geophysical Research, 90, 581–591.[GeoRef]
Karato, S.-I. & Wu, P. 1993. Rheology of the upper mantle: a synthesis. Science, 260, 771–778.
Lambeck, K., Johnston, P. & Nakada, M. 1990. Holocene glacial rebound and sea-level change in NW Europe. Geophysical Journal International, 103, 451–468.[ISI][GeoRef]
Lambeck, K., Johnston, P. Smither, C. & Nakada, M. 1996. Glacial rebound of the British Isles III: Constraints on mantle viscosity. Geophysical Journal International, 125, 340–354.[ISI][GeoRef]
McConnell, R. K. 1968. Viscosity of the mantle from relaxation time spectra of isostatic adjustment. Journal of Geophysical Research, 73, 7089–7105.[GeoRef]
Mitrovica, J. X. 1996. Haskell [1935] revisited. Journal of Geophysical Research, 101, 555–569.[CrossRef][GeoRef]
Mitrovica, J. X. & Forte, A. M. 1997. Radial profile of mantle viscosity: results from the joint inversion of convection and postglacial rebound observables. Geophysical Journal International, 102, 2751–2769.
Mitrovica, J. X. & Peltier, W. R. 1989. Pleistocene deglaciation and the global gravity field. Journal of Geophysical Research, 94, 13 651–13 671.
Mitrovica, J. X. & Peltier, W. R. 1991. On postglacial geoid subsidence over the equatorial oceans. Journal of Geophysical Research, 96, 20 053–20 071.
Mitrovica, J. X. & Peltier, W. R. 1995. Constraints on mantle viscosity based upon the inversion of post-glacial uplift data from the Hudson Bay region. Geophysical Journal International, 122, 353–377.[ISI][GeoRef]
Ota, Y., Chappell, J. Kelley, R. Yonekura, N. Matsumoto, E. Nishimura, T. & Head, J. 1993. Holocene coral reef terraces and coseismic uplift at Huon Peninsula, Papua New Guinea. Quaternary Research, 40, 177–188.
Pari, G. & Peltier, W. R. 1995. The heat flow constraint on mantle tomography-based convection models: towards a geodynamically self-consistent inference of mantle viscosity. Journal of Geophysical Research, 100, 12 731–12 751.[CrossRef]
Peltier, W. R. 1974. The impulse response of a Maxwell Earth. Reviews of Geophysics and Space Physics, 12, 649–669.[ISI][GeoRef]
Peltier, W. R. 1976. Glacial isostatic adjustment II. The inverse problem. Geophysicals Journal of the Royal Astronomical Society, 46, 669–706.
Peltier, W. R. 1982. Dynamics of the ice-age Earth. Advances in Geophysics, 24, 1–146.[ISI][GeoRef]
Peltier, W. R. 1983. Constraint on deep mantle viscosity from LAGEOS acceleration data. Nature, 304, 434–436.[CrossRef][GeoRef]
Peltier, W. R. 1985. The LAGEOS constraint on deep mantle viscosity: results from a new normal mode method for the inversion of viscoelastic relaxation spectra. Journal of Geophysical Research, 90, 9411–9421.[GeoRef]
Peltier, W. R. 1994. Ice-Age paleotopography. Science, 265, 195–201.
Peltier, W. R. 1995. Paleotopography of Ice-Age ice sheets. Science, 267, 536–538.
Peltier, W. R. 1996. Mantle viscosity and ice-age ice sheet topography. Science, 273, 1359–1364.[Abstract][CrossRef][ISI][GeoRef]
Peltier, W. R. 1997. Correction to the paper ‘Glacial isostatic adjustment and earth rotation: refined constraints on the viscosity of the lower mantle’, by W. R. Peltier and Xianhua Jiang. Journal of Geophysical Research, 102, 10 101–10 103.[CrossRef]
Peltier, W. R. 1998a. Global sea level rise and glacial isostatic adjustment. Global and Planetary Change. in press.
Peltier, W. R. 1998b. The inverse problem for mantle viscosity. Inverse Problems. in press.
Peltier, W. R. 1998c. ‘Implicit Ice’ in the global viscoelastic and topographically self-consistent theory of glacial isostatic adjustment: implications for ice-age paleo-topography. Geophysical Research Letters. in press.
Peltier, W. R. & Anderws, J. T. 1976. Glacial isostatic adjustment I. The forward problem. Geophysical Journal of the Royal Astronomical Society, 46, 605–646.[ISI][GeoRef]
Peltier, W. R. & Jiang, X. 1996a. Glacial isostatic adjustment and earth rotation: refined constrains on the viscosity of the deepest mantle. Journal of Geophysical Research, 101, 3269–3290.[CrossRef][GeoRef]
Peltier, W. R. & Jiang, X. 1996b. Mantle viscosity from the simultaneous inversion of multiple data sets pertaining to postglacial rebound. Geophysical Research Letters, 23, 503–506.[CrossRef][ISI][GeoRef]
Peltier, W. R. & Jiang, X. 1997. Mantle viscosity, glacial isostatic adjustment and the eustatic level of the sea. Surveys in Geophysics, 18, 239–277.[CrossRef][ISI][GeoRef]
Peltier, W. R., Farrell, W. E. & Clark, J. A. 1978. Glacial isostasy and relative sea level: a global finite element model. Tectonophysics, 50, 81–110.[CrossRef][ISI][GeoRef]
Peltier, W. R., Forte, A. M. Mitrovica, J. X. & Dziewonski, A. M. 1992. Earth’s gravitational field: seismic tomography resolves the enigma of the Laurentian anomaly. Geophysical Research Letters, 19, 1555–1558.[ISI][GeoRef]
Peltier, W. R., Hillaire-Marcel, C. & Pari, G. 1998. Postglacial rebound at Richmond Gulf (Quebec), mantle viscosity, and the free air gravity anomaly over Hudson Bay. Nature. submitted.
Platzman, G. W. 1971. Ocean tides and related waves. In: Reid, W. A. (ed.) Mathematical Problems in the Geophysical Sciences 2. Inverse Problems, Dynamo Theory and Tides, Lectures in Applied Mathematics, American Mathematical Society, 14, 239–291.
Shackleton, N. J. 1967. Oxygen isotope analyses and Pleistocene temperatures re-addressed. Nature, 215, 15–17.[CrossRef][GeoRef]
Shackleton, N. J., Berger, A. & Peltier, W. R. 1990. Transactions of the Royal Society of Edinburgh. Earth Sciences, 81, 251–261.
Simons, M. & Hager, B. 1997. Localization of the gravity field and the signature of glacial rebound. Nature, 390, 500–504.[CrossRef][GeoRef]
Stuiver, M. & Reimer, R. J. 1993. Extended 14C data base and revised Calib. 3.0 14C age calibration program. Radiocarbon, 35, 215–230.[ISI][GeoRef]
Tarantola, A. & Valette, B. 1982. Inverse problems = quest for information. Journal of Geophysics, 50, 159–170.
Tarantola, A. & Valette, B. 1984. Generalized non-linear inverse problems solved using the least squares criterion. Reviews of Geophysics and Space Physics, 20, 219–232.
Tarasov, L. & Peltier, W. R. 1997. Terminating the 100 kyr ice-age cycle. Journal of Geophysical Research-Atmospheres, 102(D18), 21 665–21 693.[CrossRef]
Tushingham, A. M. & Peltier, W. R. 1991. ICE-3G: a new global model of late Pleistocene deglaciation based upon geophysical predictions of postglacial relative sea level change. Journal of Geophysical Research, 96, 4497–4523.[GeoRef]
Tushingham, A. M. & Peltier, W. R. 1992. Validation of the ICE-3G model of Würm-Wisconsin deglaciation using a global data base of relative sea level histories. Journal of Geophysical Research, 97, 3285–3304.[GeoRef]
Wu, P. & Peltier, W. R. 1983. Glacial isostatic adjustment and the free air gravity anomaly as a constraint on deep mantle viscosity. Geophysical Journal of the Royal Astronomical Society, 74, 377–449.[ISI][GeoRef]
Wu, P. & Peltier, W. R. 1984. Pleistocene deglaciation and the Earth’s rotation: a new analysis. Geophysical Journal of the Royal Astronomical Society, 76, 202–242.
Yoder, C. F., Williams, J. G. Dickey, J. O. Schutz, B. E. Eanes, R. J. & Tapley, B. D. 1983. Secular variation of the Earth’s gravitational harmonic J2 coefficient from LAGEOS and non-tidal acceleration of Earth rotation. Nature, 303, 757–762.[CrossRef][GeoRef]
This article has been cited by other articles:
 |
|
 |
|
  M. E. Badley Late Tertiary faulting, footwall uplift and topography in western Ireland Geological Society, London, Special Publications, 2001; 188: 201 - 207. [Abstract] [PDF]
|
|
| ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
