Farrell, S. L., S. W. Laxon, D. C. McAdoo, D. Yi, and H. J. Zwally (2009), Five years of Arctic sea ice freeboard measurements from the Ice, Cloud and land Elevation Satellite, J. Geophys. Res., 114, C04008, doi:10.1029/2008JC005074.
Connor, L. N., S. Laxon, A. L. Ridout, W. B. Krabill, and D. C. McAdoo (2009), Comparison of Envisat Radar and Airborne Laser Altimeter Measurements over Arctic Sea Ice, Remote Sensing of Environment, 113, Issue 3, 16 March 2009, p 563-570, doi:10.1016/j.rse.2008.10.015.
McAdoo, D. C., S. L. Farrell, S. W. Laxon, H. J. Zwally, D. Yi, and A. L. Ridout (2008), Arctic Ocean gravity field derived from ICESat and ERS-2 altimetry: Tectonic implications, J. Geophys. Res., 113, B05408, doi:10.1029/2007JB005217.
Klokočník J., C.A. Wagner, D. McAdoo, J. Kostelecký, A. Bezděk, P. Novák (2008), Variations in the accuracy of gravity recovery due to ground track variability: GRACE, CHAMP, and GOCE, Journal of Geodesy, doi:10.1007/s00190-008-0222-0.
Giles K. A., S.W. Laxon, D.J. Wingham, D.W. Wallis, W.B. Krabill, C.J. Leuschen, D. McAdoo, S.S. Manizade and R.K. Raney (2007), Combined Airborne Laser and Radar Altimeter Measurements over the Fram Strait in May 2002, Remote Sensing of Environment, 111, p 182-194, Nov 2007, doi:10.1016/j.rse.2007.02.037.
McAdoo, D.C., C. A. Wagner, and. Laxon (2005), Improvements in Arctic Gravity and Geoid from CHAMP and GRACE: An Evaluation, Earth Observation with CHAMP: Results from Three Years in Orbit, Reigber, C.; Luhr, H.; Schwintzer, P.; Wickert, J. (Editors), pp 37-46, Springer Verlag, Berlin, 2005.
Wagner, C. A., McAdoo, D., Klokočník, J., Kostelecký, J. (2006), Degradation of geopotential recovery from short repeat-cycle orbits: application to GRACE monthly fields, Journal of Geodesy, doi:10.1007/s00190-006-0036-x.
C.A. Wagner and D.C McAdoo (2006), Time variations in the GRACE gravity field: Applications to global hydrologic mass flux, Proceedings of the Joint CHAMP/GRACE Science Meeting.
Childers, V., D. McAdoo, J. Brozena, and S. Laxon (2001), New gravity data in the Arctic Ocean: Comparison of airborne and ERS gravity, J. Geophys. Res., 105 (B5).
Drachev, S., L. Johnson, S. Laxon, D McAdoo and H Kassens (1999), Main Structural
Elements of Eastern Russian Continental Margin Derived from Satellite Gravity
and Multichannel Seismic Reflection Data, pp 667-682 in "Land
-Ocean Systems in the Siberian Arctic" (editors: Kassens
et al.), Springer-Verlag Press.
Laxon, S and D. C McAdoo (1998), Satellites Provide New Insights into
Polar Geophysics, EOS, Transactions AGU, 79 (6), 69-72.
McAdoo, D., V. Childers and S. Laxon (1998), ERS Satellite Gravity
and Airborne Gravity over the Arctic Ocean: A Comparison, Earth System
Monitor (NOAA), 9 (1).
Anderson, O. B, R. Forsberg, P. Knudsen, S. Laxon, D. McAdoo (1998),
Comparison of Altimetric and Shipborne Marine Gravity over Ice-Free and
Ice-covered polar Seas, Proceedings of the IAG, in "Geodesy on the Move: Gravity, geoid, geodynamics, and Antarctic', R. Forsberg et al., Editors, IAG Symposium Series, 119, Springer-Verlag Press.
McAdoo
and Laxon (1997), Antarctic Tectonics : Constraints from a new ERS-1
Satellite Marine Gravity Field, Science,
276, 5312, 25 April, 1997, pp. 556-561.
Laxon
and McAdoo (1997), Polar Marine Gravity Fields from ERS1, Proceedings
of the 3rd ERS symposium, Florence, 17-21 March, 1997.
McAdoo, D.C. & Laxon, S.W. (1996), Marine Gravity from Geosat and
ERS-1 Altimetry in the Weddell Sea. in Weddell
Sea Tectonics and Gondwana Breakup, (Eds. B.C. Storey, E.C. King
and R.A. Livermore, The Geological Society, London, pp. 155-164.
Laxon,
S.W. & McAdoo, D. (1994), Arctic Ocean Gravity Field Derived From
ERS-1 Satellite Altimetry, Science, 256, pp. 621-624.
For more information, contact Dave.McAdoo@noaa.gov