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GRACE Bibliography & Citations
Updated May 3, 2006

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  AUTHOR(S) CITATION
1 Adam, D. Gravity measurement: Amazing grace. NATURE 416 (6876): 10-11, 2002.
2 Aguirre-Martinez, M; Sneeuw, N. Needs and tools for future gravity measuring missions. SPACE SCIENCE REVIEWS 108 (1-2): 409-416, 2003.
3 Amalvict, A, Hinderer, J, Rozsa, S Crustal vertical motion along a profile crossing the Rhine graben from the Vosges to the Black Forest Mountains: Results from absolute gravity, GPS and levelling observations, JOURNAL OF GEODYNAMICS, JAN-APR 2006, VL 41, IS 1-3, pp. 358-368
4 Andersen, O.B., Seneviratne, S.I., Hinderer, J., Viterbo, P. GRACE-derived terrestrial water storage depletion associated with the 2003 European heat wave, GEOPHYSICAL RESEARCH LETTERS, SEP 22 2005, Vol. 32, Iss. 18.
5 Andersen, OB, Hinderer, J Global inter-annual gravity changes from GRACE: Early results, GEOPHYS RES LTRS, JAN 14, 2005, VL 32, Issue 1
6 Balmino, G. New space missions for mapping the Earth's gravity field. COMPTES RENDUS DE L ACADEMIE DES SCIENCES SERIE IV PHYSIQUE ASTROPHYSIQUE 2 (9): 1353-1359, 2001.
7 Balmino, G. Gravity field recovery from GRACE: Unique aspects of the high precision inter-satellite data and analysis methods. SPACE SCIENCE REVIEWS 108 (1-2): 47-54, 2003.
8 Bender, PL; Nerem, RS; Wahr, JM. Possible future use of laser gravity gradiometers. SPACE SCIENCE REVIEWS 108 (1-2): 385-392, 2003.
9 Beutler, G, Drewes, H, Verdun, A The Integrated Global Geodetic Observing System (IGGOS) viewed from the perspective of history, JOURNAL OF GEODYNAMICS, NOV-DEC 2005, VL 40, IS 4-5, pp. 414-431
10 Bond, P. Gravity map from GRACE. ASTRONOMY & GEOPHYSICS 44 (5): 4-4, 2003.
11 Bouman, J; Koop, R. Geodetic methods for calibration of GRACE and GOCE. SPACE SCIENCE REVIEWS 108 (1-2): 293-303, 2003.
12 Boy, JP, Chao, BF Precise evaluation of atmospheric loading effects on Earth's time-variable gravity field, J. GEOPHYS. RES.-SOLID EARTH, AUG 30, 2005, Vol. 110, Iss. B8.
13 Boy, JP; Chao, BF. Time-variable gravity signal during the water impoundment of China's Three-Gorges Reservoir. GEOPHYSICAL RESEARCH LETTERS 29 (24): doi:, 2002.
14 Bromirski, PD. Vibrations from the "Perfect Storm". GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS 2: art. no.-2000GC000119, 2001.
15 Chambers, DP, Wahr, J,Nerem, RS Preliminary observations of global ocean mass variations with GRACE, GEOPHYSICAL RESEARCH LETTERS, JUL 14,2004, VL 31, IS 13, PP. 4.
16 Chambers, DP. 2006. Observing seasonal steric sea level variations with GRACE and satellite altimetry. JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS 111 (C3): doi:, 2006.
17 Chao, BF On inversion for mass distribution from global (time-variable) gravity field, J. GEODYNAMICS, APR 2005, Vol. 39, Issue 3, PP. 223-230.
18 Chen JL; Wilson CR Low degree gravitational changes from earth rotation and geophysical models, GEOPHYSICAL RESEARCH LETTERS 2003, Vol 30, Iss 24, art. no. 2257
19 Chen, J, Rodell, M, Wilson, CR, Famiglietti, JS Low degree spherical harmonic influences on Gravity Recovery and Climate Experiment (GRACE) water storage estimates, GEOPHYS. RES. LETTERS, JUL 30, 2005, Vol. 32, Iss. 14.
20 Chen, J.L., Wilson, C.R., Tapley, B.D., Famiiglietti, J.S., Rodell, M. Seasonal global mean sea level change from satellite altimeter, GRACE, and geophysical models, JOURNAL OF GEODESY 79 (9): 532-539 DEC 2005
21 Chen, J.L., Wilson, C.R., Tapley, B.D., Ries, J.C. Low degree gravitational changes from GRACE: validation and interpretation, GEOPHYSICAL RESEARCH LETTERS, Nov. 2004, Vol.31, o.22 : 5 PP., 28.
22 Chen, JL, Wilson, CR, Famiglietti, JS, Rodell, M Spatial sensitivity of the Gravity Recovery and Climate Experiment (GRACE) time-variable gravity observations, J. GEOPHYS. RES.-SOLID EARTH, AUG 16, 2005, Vol. 110, Iss. B8.
23 Chen, JL; Wilson, CR. 2003. Low degree gravitational changes from earth rotation and geophysical models. GEOPHYSICAL RESEARCH LETTERS 30 (24): doi:.
24 Cheng, LY, Xsu, HZ The rotation of the gravity potential on the Earth's gravity field recovery, CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITION, JAN 2006, VL 49, IS 1, pp. 93-98
25 Cheng, MK. 2002. Gravitational perturbation theory for intersatellite tracking. JOURNAL OF GEODESY 76 (3): 169-185.
26 Ciufolini, I, Pavlis, E On the measurement of the Lense-Thirring effect using the nodes of the LAGEOS satellites, in reply to "On the reliability of the so-far performed tests for measuring the Lense-Thirring effect with the LAGEOS satellites" by L. Iorio, NEW ASTRONOMY, AUG 2005, Vol. 10, Iss. 8, pp. 636-651.
27 Crossley, D., Hinderer, J., Boy, JP. Time variation of the European gravity field from superconducting gravimeters, GEOPHYS J. INTL, MAY 2005, Vol. 161, Issue 2, PP257-264.
28 Crossley, D; Hinderer, J; Boy, JP. Regional gravity variations in Europe from superconducting gravimeters. JOURNAL OF GEODYNAMICS 38 (3-5): 325-342, 2004.
29 Davis, JL., Elosequi, P., Mitrovica, JX., Tamisiea, ME Climate-driven deformation of the solid Earth from GRACE and GPS, GEOPHYS RES LTRS
30 de Viron, O, Schwarzbaum, G, Lott, F. Dehant, V Diurnal and subdiurnal effects of the atmosphere on the Earth rotation and geocenter motion, JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, NOV 8, 2005, Vol. 110, Iss. B11.
31 Fleming, K; Martinec, Z; Hagedoorn, J. Geoid displacement about Greenland resulting from past and present-day mass changes in the Greenland Ice Sheet. GEOPHYSICAL RESEARCH LETTERS 31 (6): doi:, 2004.
32 Flury, J Ice mass balance and ice dynamics from satellite gravity missions, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 83-91.
33 Flury, J Short-wavelength spectral properties of the gravity field from a range of regional data sets, JOURNAL OF GEODESY, FEB 2006, VL 79, IS 10-11, pp. 624-640
34 Flury, J, Rummel, R Future satellite gravimetry for geodesy, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 13-29.
35 Foldvary, L; Fukuda, Y. IB and NIB hypotheses and their possible discrimination by GRACE. GEOPHYSICAL RESEARCH LETTERS 28 (4): 663-666, 2001.
36 Forsberg, R, Skourup, H Arctic Ocean gravity, geoid and sea-ice freeboard heights from ICESat and GRACE, GEOPHYSICAL RESEARCH LETTERS, NOV 4 2005, Vol. 32, Iss. 21.
37 Frappart, F, Ramillien, G, Biancamaria, S, Mognard, NM, Cazenave, A Evolution of high-latitude snow mass derived from the GRACE gravimetry mission (2002-2004), GEOPHYSICAL RESEARCH LETTERS, JAN 20, 2006, VL 33, IS 2
38 Ganachaud, A; Mercier, H. Ocean response to meridional ekman transport in the Atlantic and implication for gravity missions. GEOPHYSICAL RESEARCH LETTERS 29 (23): doi:, 2002.
39 GOBEL, A. SAFETY ASPECTS OF THE 200 MWTH SIEMENS NUCLEAR DISTRICT HEATING PLANT, INCLUDING ACCIDENT MANAGEMENT MEASURES. NUCLEAR ENGINEERING AND DESIGN 131 (2): 129-138, 1991.
40 Guo, JY, Greiner-Mai, H, Ballani, L A spectral search for the inner core wobble in Earth's polar motion, JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, OCT 20, 2005, Vol. 110, Iss. B10.
41 Han SC Efficient determination of global gravity field from satellite-to-satellite tracking mission, CELESTIAL MECHANICS & DYNAMICAL ASTRONOMY 2004, Vol 88, Iss 1, pp 69-102
42 Han, SC, Shum, CK, Braun, A High-resolution continental water storage recovery from low-low satellite-to-satellite tracking, J. GEODYNAMICS, JAN 2005, VL 39, Issue 1, pp. 11-28
43 Han, SC, Shum, CK, Ditmar, P, Visser, P, van Beelen, C, Schrama, EJO Aliasing effect of high-frequency mass variations on GOCE recovery of the earth's gravity field, JOURNAL OF GEODYNAMICS, JAN-APR 2006, VL 41, IS 1-3, pp. 69-76
44 Han, SC, Shum, CK, Jekeli, C, Kuo, CY, Wilson, C, Seo, KW Non-isotropic filtering of GRACE temporal gravity for geophysical signal enhancement, GEOPHYS. J. INTL., OCT 2005, Vol. 163, Iss. 1, pp. 18-25.
45 Han, SC, Shum, CK, Matsumoto, K GRACE observations of M-2 and S-2 ocean tides underneath the Filchner-Ronne and Larsen ice shelves, Antarctica, GEOPHYSICAL RESEARCH LETTERS, OCT 29, 2005, Vol. 32, Iss. 20.
46 Han, SC. 2004. Efficient determination of global gravity field from satellite-to-satellite tracking mission. CELESTIAL MECHANICS & DYNAMICAL ASTRONOMY 88 (1): 69-102.
47 Han, SC., Shum, CK., Jekeli, C., Alsdorf, D Improved estimation of terrestrial water storage changes from GRACE, GEOPHYS RES LTRS, APR 6 2005, Vol. 32, Issue 7.
48 Han, SC; Jekeli, C; Shum, CK. Time-variable aliasing effects of ocean tides, atmosphere, and continental water mass on monthly mean GRACE gravity field. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 109 (B4): doi:, 2004.
49 Hinderer, J, Andersen, O, Lemoine, F, Crossley, D, Boy, JP Seasonal changes in the European gravity field from GRACE: A comparison with superconducting gravimeters and hydrology model predictions, JOURNAL OF GEODYNAMICS JAN-APR 2006, VL 41, IS 1-3, pp. 59
50 Hughes, CW. Legrand, P Future benefits of time-varying gravity missions to ocean circulation studies, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 73-81.
51 Ilk, KH; Kusche, J; Rudolph, S. A contribution to data combination in ill-posed downward continuation problems. JOURNAL OF GEODYNAMICS 33 (1-2): 75-99, 2002.
52 Iorio, L On the reliability of the so-far performed tests for measuring the Lense-Thirring effect with the LAGEOS satellites, NEW ASTRONOMY, AUG 2005, Vol. 10, Iss. 8, pp. 603-615.
53 Iorio, L The impact of the new Earth gravity models on the measurement of the Lense-Thirring effect with a new satellite, NEW ASTRONOMY, AUG 2005, Vol. 10, Iss. 8, pp. 616-635.
54 Iorio, L On the possibility of testing the Dvali-Gabadadze-Porrati brane-world scenario with orbital motions in the Solar System, JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS, JUL 2005, Iss. 7.
55 Iorio, L, Ciufolini, I, Pavlis, EC, Schiller, S, Dittus, H, Lammerzahl, C On the possibility of measuring the Lense-Thirring effect with a LAGEOS-LAGEOS II-OPTIS mission, CLASSICAL AND QUANTUM GRAVITY, APR 21, 2004, Vol. 21, Is. 8, PP 2139-2151.
56 Iorio, L, Doornbos, E How to reach a few percent level in determining the Lense-Thirring effect? GENERAL RELATIVITY AND GRAVITATION
57 Iorio, L. The impact of the new Earth gravity model EIGEN-CG03C on the measurement of the Lense-Thirring effect with some existing Earth satellites. GENERAL RELATIVITY AND GRAVITATION 38 (3): 523-527, 2006.
58 Iorio, L. The impact of the static part of the Earth's gravity field on some tests of general relativity with satellite laser ranging. CELESTIAL MECHANICS & DYNAMICAL ASTRONOMY 86 (3): 277-294, 2003.
59 Iorio, L. A critical approach to the concept of a polar, low-altitude LARES satellite. CLASSICAL AND QUANTUM GRAVITY 19 (17): L175-L183, 2002.
60 Iorio, L; Ciufolini, I; Pavlis, EC. Measuring the relativistic perigee advance with satellite laser ranging. CLASSICAL AND QUANTUM GRAVITY 19 (16): 4301-4309, 2002.
61 Iorio, L; Lucchesi, D. LAGEOS-type satellites in critical supplementary orbit configuration and the Lense-Thirring effect detection. CLASSICAL AND QUANTUM GRAVITY 20 (13): 2477-2490, 2003. .
62 Iorio, L; Lucchesi, DM; Ciufolini, I. The LARES mission revisited: an alternative scenario. CLASSICAL AND QUANTUM GRAVITY 19 (16): 4311-4325, 2002.
63 Iorio, L; Morea, A. The impact of the new Earth gravity models on the measurement of the Lense-Thirring effect. GENERAL RELATIVITY AND GRAVITATION 36 (6): 1321-1333, 2004.
64 Ivins E.R., James T.S. Antarctic glacial isostatic adjustment: a new assessment, ANTARCTIC SCIENCE 17 (4): 541-553 DEC 2005
65 Jayne, SR. 2006. Circulation of the North Atlantic Ocean from altimetry and the Gravity Recovery and Climate Experiment geoid. JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS 111 (C3): doi:.
66 Jekeli, C. 1999. The determination of gravitational potential differences from satellite-to-satellite tracking. CELESTIAL MECHANICS & DYNAMICAL ASTRONOMY 75 (2): 85-101.
67 Johnson, TJ; Wilson, CR; Chao, BF. 2001. Nontidal oceanic contributions to gravitational field changes: Predictions of the Parallel Ocean Climate Model. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 106 (B6): 11315-11334.
68 Kaban, MK, Reigber, C New possibilities for gravity modeling using data of the CHAMP and GRACE satellites, IZVESTIYA-PHYSICS OF THE SOLID EARTH, NOV 2005, Vol. 41, Iss. 11, PP. 950-957.
69 Kang, Z; Nagel, P; Pastor, R. 2003. Precise orbit determination for GRACE. INTEGRATED SPACE GEODETIC SYSTEMS AND SATELLITE DYNAMICS 31 (8): 1875-1881.
70 Kanzow, T, Flechtner, F, Chave, A, Schmidt, R, Schwintzer, P, Send, U Seasonal variation of ocean bottom pressure derived from Gravity Recovery and Climate Experiment (GRACE): Local validation and global patterns, J. GEOPHYS. RES.-OCEANS, SEP 2, 2005, Vol. 110, Iss. C9.
71 Kaufmann, G Geodetic signatures of a Late Pleistocene Tibetan ice sheet, J. GEODYNAMICS, MAR 2005, Vol. 39, Iss. 2, pp. 11-125
72 Kaufmann, G. 2000. Ice-ocean mass balance during the Late Pleistocene glacial cycles in view of CHAMP and GRACE satellite missions. GEOPHYSICAL JOURNAL INTERNATIONAL 143 (1): 142-156.
73 Keller, W., Sharifi, MA Satellite gradiometry using a satellite pair, J. GEODESY, APR 2005, Vol. 78, Issue 9, PP. 544-557
74 Kern, M., Preimesberger, T., Allesch, M., Pail, R., Bouman, J., Koop, R Outlier detection algorithms and their performance in GOCE gravity field processing, J. GEODESY, APR 2005, Vol. 78, Issue 9.
75 Kern, M; Schwarz, KP; Sneeuw, N. A study on the combination of satellite, airborne, and terrestrial gravity data. JOURNAL OF GEODESY 77 (3-4): 217-225, 2003.
76 Kiamehr, R A strategy for determining the regional geoid by combining limited ground data with satellite-based global geopotential and topographical models: a case study of Iran, JOURNAL OF GEODESY, FEB 2006, VL 79, IS 10-11, pp. 602-612
77 King MA, Padman L., Accuracy assessment of ocean tide models around Antarctica, GEOPHYSICAL RESEARCH LETTERS 32 (23): Art. No. L23608 DEC 8 2005
78 King, MA, Penna, NT, Clarke, PJ, King, EC Validation of ocean tide models around Antarctica using onshore GPS and gravity data, J. GEOPHYS. RES.-SOLID EARTH, AUG 2, 2005, Vol. 110, Iss. B8.
79 Knudsen, P. Ocean tides in GRACE monthly averaged gravity fields. SPACE SCIENCE REVIEWS 108 (1-2): 261-270, 2003.
80 Knudsen, P; Andersen, O. Correcting GRACE gravity fields for ocean tide effects. GEOPHYSICAL RESEARCH LETTERS 29 (8): doi:, 2002.
81 Koch, KR; Kusche, J. Regularization of geopotential determination from satellite data by variance components. JOURNAL OF GEODESY 76 (5): 259-268, 2002.
82 Konig, R; Reigber, C; Neumayer, KH; Schmidt, R; Zhu, S; Baustert, G; Flechtner, F; Meixner, H. Satellite dynamics of the CHAMP and GRACE LEOs as revealed from space- and ground-based tracking. INTEGRATED SPACE GEODETIC SYSTEMS AND SATELLITE DYNAMICS 31 (8): 1869-1874, 2003.
83 Konig, R; Reigber, C; Zhu, SY. Dynamic model orbits and Earth system parameters from combined GPS and LEO data. SATELLITE DYNAMICS IN THE ERA OF INTERDISCIPLINARY SPACE GEODESY 36 (3): 431-437, Sp. Iss. 2005.
84 Kroes, R., Montenbruck, O., Bertiger, W., Visser, P, Precise GRACE baseline determination using GPS, GPS SOLUTIONS, APR 2005, Vol. 9, Issue 1, PPl 21-31.
85 Kusche, J. On fast multigrid iteration techniques for the solution of normal equations in satellite gravity recovery. JOURNAL OF GEODYNAMICS 33 (1-2): 173-186, 2002.
86 Kusche, J. Implementation of multigrid solvers for satellite gravity anomaly recovery. JOURNAL OF GEODESY 74 (11-12): 773-782, 2001.
87 Kusche, J., Schrama, EJO Surface mass redistribution inversion from global GPS deformation and Gravity Recovery and Climate Experiment (GRACE) gravity data, JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, SEP 20 2005, Vol. 110, Iss. B9.
88 Lambert, A, Courtier, N, James, TS Long-term monitoring by absolute gravimetry: Tides to postglacial rebound, JOURNAL OF GEODYNAMICS, JAN-APR 2006, VL 41, IS 1-3, pp. 307
89 Latychev, K, Mitrovica, JX, Tamisiea, ME, Tromp, J, Christara, CC, Moucha, R GIA-induced secular variations in the Earth's long wavelength gravity field: Influence of 3-D viscosity variations, EARTH AND PLANETARY SCIENCE LETTERS, DEC 1, 2005, VL 240, IS 2, pp. 322- 327
90 Le Meur, E; Huybrechts, P. 2001. A model computation of the temporal changes of surface gravity and geoidal signal induced by the evolving Greenland ice sheet. GEOPHYSICAL JOURNAL INTERNATIONAL 145 (3): 835-849.
91 Le Provost, C; Bremond, M. 2003. Resolution needed for an adequate determination of the mean ocean circulation from altimetry and an improved geoid. SPACE SCIENCE REVIEWS 108 (1-2): 163-178.
92 LeGrand, P. 2001. Impact of the Gravity Field and Steady-State Ocean Circulation Explorer (GOCE) mission on ocean circulation estimates. Volume fluxes in a climatological inverse model of the Atlantic. JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS 106 (C9): 19597-19610.
93 Leuliette, EW; Nerem, RS; Russell, GL. 2002. Detecting time variations in gravity associated with climate change. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 107 (B6): doi:.
94 Levi, BG. 2003. GRACE satellites start to map Earth's gravity field. PHYSICS TODAY 56 (2): 18-18.
95 Liou, YA, Pavelyev, AG, Wickert, J, Schmidt, T, Pavelyev, AA Analysis of atmospheric and ionospheric structures using the GPS/MET and CHAMP radio occultation database: a methodological review,GPS SOLUTIONS, JUL 2005, Vol. 9, Iss. 2, pp. 122-143.
96 Llubes, M; Florsch, N; Hinderer, J; Longuevergne, L; Amalvict, M. Local hydrology, the Global Geodynamics Project and CHAMP/GRACE perspective: some case studies. JOURNAL OF GEODYNAMICS 38 (3-5): 355-374, 2004.
97 Losch, M; Redler, R; Schroter, J. Estimating a mean ocean state from hydrography and sea-surface height data with a nonlinear inverse section model: Twin experiments with a synthetic dataset. JOURNAL OF PHYSICAL OCEANOGRAPHY 32 (7): 2096-2112, 2002.
98 Lucchesi, DM. The impact of the even zonal harmonics secular variations on the Lense-Thirring effect measurement with the two LAGEOS satellites. INTERNATIONAL JOURNAL OF MODERN PHYSICS D 14 (12): 1989-2023, 2005.
99 Luthcke, SB, Rowlands, DD, Lemoine, FG, Klosko, SM, Chinn, D, McCarthy, JJ Monthly spherical harmonic gravity field solutions determined from GRACE inter-satellite range-rate data alone, GEOPHYSICAL RESEARCH LETTERS, JAN 25, 2006, VL 33, IS 2
100 Marquart, G, Steinberger, B, Niehuus, K On the effect of a low viscosity asthenosphere on the temporal change of the geoid - A challenge for future gravity missions, JOURNAL OF GEODYNAMICS, JUL, 2005, Vol. 39, Iss. 5, PP. 493-511.
101 Mayer-Gurr, T, Ilk, K.H., Eicker, A., Feuchtinger, M., ITG-CHAMP01: a CHAMP gravity field model from short kinematic arcs over a one-year observation period, J. GEODESY, APR 2005, Vol. 78, Is. 7-8, PP. 462-480.
102 Mikhailov, V.O., Tikhotsky, S.A., Diamant, M., Panet, I., Gravity variations of geodynamic origin: Recognition and study on the.basis of modern satellite gravity data, IZVESTIYA-PHYS SOLID EARTH, MAR 2005, Vol. 41, Is. 3, PP. 193-205.
103 Mikhailov, V; Tikhotsky, S; Diament, M; Panet, I; Ballu, V. Can tectonic processes be recovered from new gravity satellite data?. EARTH AND PLANETARY SCIENCE LETTERS 228 (3-4): 281-297, 2004.
104 Missling, KD, Daedelow, H, Maass, H, Richter, J, Schlage, J, Multimission raw data center for GRACE, ACTA ASTRONAUTICA, JAN 2005, VL 56, IS 1-2, pp. 331-335
105 Moore, P, Zhang, Q, Alothman, A Annual and semiannual variations of the Earth's gravitational field from satellite laser ranging and CHAMP, JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, JUN 11, 2005, Vol. 110, Iss. B6.
106 Moore, P; Zhang, Q; Alothman, A. Recent results on modelling the spatial and temporal structure of the Earth's gravity field. PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 364 (1841): 1009-1026, 2006.
107 Nerem, RS; Eanes, RJ; Thompson, PF; Chen, JL. Observations of annual variations of the Earth's gravitational field using satellite laser ranging and geophysical models. GEOPHYSICAL RESEARCH LETTERS 27 (12): 1783-1786, 2000.
108 Nerem, RS; Wahr, JM; Leuliette, EW. Measuring the distribution of ocean mass using GRACE. SPACE SCIENCE REVIEWS 108 (1-2): 331-344, 2003.
109 Neumeyer, J, Barthelmes, F, Dierks, O, Flechtner, F, Harnisch, M, Harnisch, G, Hinderer, J, Imanishi, Y, Kroner, C, Meurers, B, Petrovic, S, Reigber, C, Schmidt, R, Schwintzer, P, Sun, HP, Virtanen, H Combination of temporal gravity variations resulting from superconducting gravimeter (SG) recordings, GRACE satellite observations and global hydrology models, JOURNAL OF GEODESY, FEB 2006, VL 79, IS 10-11, pp. 573-585
110 Oberndorfer, H; Muller, J; Rummel, R; Sneeuw, N. 2002. A simulation tool for the new gravity field satellite missions. NEW TRENDS IN SPACE GEODESY 30 (2): 227-232.
111 Peltier, WR Global glacial isostasy and the surface of the ice-age earth: The ice-5G (VM2) model and grace, ANNUAL REVIEW OF EARTH AND PLANETARY SCIENCES, 2004, Vol. 32, PP 111-149.
112 Peltier, WR. 2002. Global glacial isostatic adjustment: palaeogeodetic and space-geodetic tests of the ICE-4G (VM2) model. JOURNAL OF QUATERNARY SCIENCE 17 (5-6): 491-510.
113 Peltier, WR. 1999. Global sea level rise and glacial isostatic adjustment. GLOBAL AND PLANETARY CHANGE 20 (2-3): 93-123.
114 Ramillien, G, Cazenave, A, Brunau, O Global time variations of hydrological signals from GRACE satellite gravimetry, GEOPHYSICAL JOURNAL INTERNATIONAL, Sept. 2004, Vol. 158, Issue 3, pp 813-826.
115 Ramillien, G, Frappart, F, Cazenave, A, Guntner, A Time variations of land water storage from an inversion of 2 years of GRACE geoids, EARTH AND PLANETARY SCIENCE LETTERS, JUN 30, 2005, Vol. 235, Iss. 1-2, PP. 283-301.
116 Ray, RD; Eanes, RJ; Egbert, GD; Pavlis, NK. 2001. Error spectrum for the global M-2 ocean tide. GEOPHYSICAL RESEARCH LETTERS 28 (1): 21-24.
117 Ray, RD; Rowlands, DD; Egbert, GD. Tidal models in a new era of satellite gravimetry. SPACE SCIENCE REVIEWS 108 (1-2): 271-282, 2003.
118 Reigber, C, Schmidt, R, Flechtner, F, Konig, R, Meyer, U, Neumayer, KH, Schwintzer, P, Zhu, SY An Earth gravity field model complete to degree and order 150 from GRACE: EIGEN-GRACE02S, J. GEODYNAMICS, JAN 2005, VL 39, Issue 1, pp. 1-10
119 Riegger, J, Guntner, A Time variation in hydrology and gravity, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 41-55.
120 Rodell, M, Famiglietti, JS, Chen, J, Seneviratne, SI, Viterbo, P, Holl, S, Wilson, CR Basin scale estimates of evapotranspiration using GRACE and other observations, GEOPHYSICAL RESEARCH LETTERS, OCT 26 2004, Vol. 31.
121 Rodell, M; Famiglietti, JS. The potential for satellite-based monitoring of groundwater storage changes using GRACE: the High Plains aquifer, Central US. JOURNAL OF HYDROLOGY 263 (1-4): 245-256, 2002.
122 Rodell, M; Famiglietti, JS. An analysis of terrestrial water storage variations in Illinois with implications for the Gravity Recovery and Climate Experiment (GRACE). WATER RESOURCES RESEARCH 37 (5): 1327-1339, 2001.
123 Rodell, M; Famiglietti, JS. Detectability of variations in continental water storage from satellite observations of the time dependent gravity field. WATER RESOURCES RESEARCH 35 (9): 2705-2723, 1999.
124 Rodrigues, M; Foulon, B; Liorzou, F; Touboul, P. Flight experience on CHAMP and GRACE with ultra-sensitive accelerometers and return for LISA. CLASSICAL AND QUANTUM GRAVITY 20 (10): S291-S300, 2003.
125 Rowlands, DD, Luthcke, SB, Klosko, SM, Lemoine, FGR, Chinn, DS, McCarthy, JJ, Cox, CM, Anderson, OB, Resolving mass flux at high spatial and temporal resolution using GRACE intersatellite measurements, GEOPHYS RES LTRS, FEB 23 2005, Vol. 32, Iss. 4
126 Rowlands, DD; Ray, RD; Chinn, DS; Lemoine, FG. Short-arc analysis of intersatellite tracking data in a gravity mapping mission. JOURNAL OF GEODESY 76 (6-7): 307-316, 2002.
127 Rummel, R Geoid and gravity in earth sciences - An overview, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 3-11.
128 Rummel, R. How to climb the gravity wall. SPACE SCIENCE REVIEWS 108 (1-2): 1-14, 2003.
129 Rummel, R; Balmino, G; Johannessen, J; Visser, P; Woodworth, P. Dedicated gravity field missions - principles and aims. JOURNAL OF GEODYNAMICS 33 (1-2): 3-20, 2002.
130 Schmidt, R; Schwintzer, P; Flechtner, F; Reigber, C; Guntner, A; Doll, P; Ramillien, G; Cazenave, A; Petrovic, S; Jochmann, H; Wunsch, J. GRACE observations of changes in continental water storage. GLOBAL AND PLANETARY CHANGE 50 (1-2): 112-126, 2006.
131 Schotman, H.H.A., Vermeersen, L.L.A. Sensitivity of glacial isostatic adjustment models with shallow low-viscosity earth layers to the ice-load history in relation to the performance of GOCE and GRACE, EARTH AND PLANETARY SCIENCE LETTERS, AUG 15 2005, Vol. 236, Iss. 3-4, PP 828-844.
132 Schrama, EJO Impact of limitations in geophysical background models on follow-on gravity missions, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 143-163.
133 Schrama, EJO. 2003. Error characteristics estimated from CHAMP, GRACE and GOCE derived geoids and from satellite altimetry derived mean dynamic topography. SPACE SCIENCE REVIEWS 108 (1-2): 179-193.
134 Schroter, J; Losch, M; Sloyan, B. 2002. Impact of the Gravity Field and Steady-State Ocean Circulation Explorer (GOCE) mission on ocean circulation estimates 2. Volume and heat fluxes across hydrographic sections of unequally spaced stations. JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS 107 (C2): doi:.
135 Seo, K.W., Wilson, C.R. Simulated estimation of hydrological loads from GRACE, J. GEODESY, APR 2005, Vol. 78, Is. 7-8, PP. 442-456.
136 Sneeuw, N. 2003. Space-wise, time-wise, torus and Rosborough representations in gravity field modelling. SPACE SCIENCE REVIEWS 108 (1-2): 37-46.
137 Song, Y.T., Zlotnicki, V. Ocean bottom pressure waves predicted in the tropical Pacific, GEOPHYSICAL RESEARCH LETTERS 2004, Vol 31, Iss 5, art. no. L05306
138 Sun, WK, Okubo, S Truncated co-seismic geoid and gravity changes in the domain of spherical harmonic degree, EARTH PLANETS AND SPACE, 2004, Vol. 56, Issue 9, Pp 881-892.
139 Sun, WK; Okubo, S. Coseismic deformations detectable by satellite gravity missions: A case study of Alaska (1964, 2002) and Hokkaido (2003) earthquakes in the spectral domain. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 109 (B4): doi:, 2004.
140 Swenson, S; Wahr, J. Monitoring changes in continental water storage with GRACE. SPACE SCIENCE REVIEWS 108 (1-2): 345-354, 2003.
141 Swenson, S; Wahr, J. Methods for inferring regional surface-mass anomalies from Gravity Recovery and Climate Experiment (GRACE) measurements of time-variable gravity. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 107 (B9): doi:, 2002.
142 Swenson, S; Wahr, J. Estimated effects of the vertical structure of atmospheric mass on the time-variable geoid. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 107 (B9): doi:, 2002.
143 Swenson, S; Wahr, J; Milly, PCD. Estimated accuracies of regional water storage variations inferred from the Gravity Recovery and Climate Experiment (GRACE). WATER RESOURCES RESEARCH 39 (8): doi:, 2003.
144 Swenson, SC; Milly, PCD. Climate model biases in seasonality of continental water storage revealed by satellite gravimetry. WATER RESOURCES RESEARCH 42 (3): doi:, 2006.
145 Syed, TH, Famiglietti, JS, Chen, J, Rodell, M, Seneviratne, SI, Viterbo, P, Wilson, CR Total basin discharge for the Amazon and Mississippi River basins from GRACE and a land-atmosphere water balance, GEOPHYSICAL RESEARCH LETTERS, DEC 28, 2005, VL 32, IS 24
146 Tamisiea, ME, Leuliette, EW, Davis, JL, Mitrovica, JX Constraining hydrological and cryospheric mass flux in southeastern Alaska using space-based gravity measurements, GEOPHYSICAL RESEARCH LETTERS, OCT 21, 2005, Vol. 32, Iss. 20.
147 Tapley, B, Ries, J, Bettadpur, S, Chambers, D, Cheng, M, Condi, F, Gunter, B, Kang, Z, Nagel, P, Pastor, R, Pekker, T, Poole, S, Wang, F GGM02 - An improved Earth gravity field model from GRACE, JOURNAL OF GEODESY, NOV 2005, Vol. 79, Iss. 8, PP. 467-478.
148 Tapley, BD, Bettadpur, S, Ries, JC, Thompson, PF, Watkins, MM GRACE measurements of mass variability in the Earth system, SCIENCE, JUL 23, 2004, VL 305, IS 5683, PP 3.
149 Tapley, BD; Bettadpur, S; Watkins, M; Reigber, C. The gravity recovery and climate experiment: Mission overview and early results. GEOPHYSICAL RESEARCH LETTERS 31 (9): doi:, 2004.
150 Tapley, BD; Chambers, DP; Bettadpur, S; Ries, JC. Large scale ocean circulation from the GRACE GGM01 Geoid. GEOPHYSICAL RESEARCH LETTERS 30 (22): doi:, 2003.
151 Thompson, PF; Bettadpur, SV; Tapley, BD. Impact of short period, non-tidal, temporal mass variability on GRACE gravity estimates. GEOPHYSICAL RESEARCH LETTERS 31 (6): doi:, 2004.
152 Tosi, N, Sabadini, R, Marotta, AM, Vermeersen, LLA Simultaneous inversion for the Earth's mantle viscosity and ice mass imbalance in Antarctica and Greenland, J. GEOPHYS. RES.-SOLID EARTH, JUL 8 2005, Vol. 110, Iss. B7.
153 Touboul, P, Foulon, B, Rodrigues, M, Marque, JP In orbit nano-g measurements, lessons for future space missions, AEROSPACE SCIENCE AND TECHNOLOGY, July 2004, Vol. 8, Issue 5, Pp 431-441
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155 Velicogna, I, Wahr, J, Hanna, E, Huybrechts, P. Short term mass variability in Greenland, from GRACE, GEOPHYS RES LTRS, MAR 1 2005, Vol. 32, Iss. 5,
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157 Velicogna, I; Wahr, J. 2006. Measurements of time-variable gravity show mass loss in Antarctica. SCIENCE 311 (5768): 1754-1756.
158 Velicogna, I; Wahr, J. 2002. Postglacial rebound and Earth's viscosity structure from GRACE. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 107 (B12): doi:.
159 Velicogna, I; Wahr, J. 2002. A method for separating antarctic postglacial rebound and ice mass balance using future ICESat Geoscience Laser Altimeter System, Gravity Recovery and Climate Experiment, and GPS satellite data. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 107 (B10): doi:.
160 Velicogna, I; Wahr, J; Van den Dool, H. Can surface pressure be used to remove atmospheric contributions from GRACE data with sufficient accuracy to recover hydrological signals?. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 106 (B8): 16415-16434, 2001.
161 Vermeersen, BLA Challenges from solid earth dynamics for satellite gravity field missions in the post-GOCE era, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 31-40.
162 Vespe, F; Rutigliano, P. The improvement of the Earth gravity field estimation and its benefits in the atmosphere and fundamental physics. SATELLITE DYNAMICS IN THE ERA OF INTERDISCIPLINARY SPACE GEODESY 36 (3): 472-485, Sp. Iss. 2005, 2005.
163 Visser, PNAM Low-low satellite-to-satellite tracking: a comparison between analytical linear orbit perturbation theory and numerical integration, J. GEODESY 79 (1-3): 160-166 JUN 2005
164 Visser, PNAM ERS-2 orbit computations using CHAMP- or GRACE-based gravity field models. SATELLITE DYNAMICS IN THE ERA OF INTERDISCIPLINARY SPACE GEODESY 36 (3): 454-459, Sp. Iss. 2005.
165 Visser, PNAM. Gravity field determination with GOCE and GRACE. SATELLITE DYNAMICS, ORBIT ANALYSIS AND COMBINATION OF SPACE TECHNIQUES 23 (4): 771-776, 1999.
166 Visser, PNAM; Sneeuw, N; Gerlach, C. Energy integral method for gravity field determination from satellite orbit coordinates. JOURNAL OF GEODESY 77 (3-4): 207-216, 2003.
167 Visser, PNAM; Van den Ijssel, J. Aiming at a 1-cm orbit for low earth orbiters: Reduced-dynamic and kinematic precise orbit determination. SPACE SCIENCE REVIEWS 108 (1-2): 27-36, 2003.
168 von Frese, RRB; Roman, DR; Kim, JH; Kim, JW; Anderson, AJ. Satellite mapping of the Antarctic gravity field. ANNALI DI GEOFISICA 42 (2): 293-307, 1999.
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170 Wahr, J; Molenaar, M; Bryan, F. Time variability of the Earth's gravity field: Hydrological and oceanic effects and their possible detection using GRACE. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 103 (B12): 30205-30229, 1998.
171 Wahr, J; Swenson, S; Velicogna, I. Accuracy of GRACE mass estimates. GEOPHYSICAL RESEARCH LETTERS 33 (6): doi:, 2006.
172 Wahr, J; Velicogna, I. What might GRACE contribute to studies of post glacial rebound?. SPACE SCIENCE REVIEWS 108 (1-2): 319-330, 2003.
173 Wahr, J; Wingham, D; Bentley, C. A method of combining ICESat and GRACE satellite data to constrain Antarctic mass balance. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 105 (B7): 16279-16294, 2000.
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179 Woodworth, PL Benefits to studies of global sea level changes from future space gravity missions, EARTH MOON AND PLANETS, APR 2004, Vol. 94, Iss. 1-2, PP. 93-102.
180 Woodworth, PL; Gregory, JM. 2003. Benefits of GRACE and GOCE to sea level studies. SPACE SCIENCE REVIEWS 108 (1-2): 307-317.
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