Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance

M. Bevis; R. Kendrick; R. Smalley; I. Dalziel; D. Caccamise; I. Sasgen; M.M. Helsen; F.W. Taylor; H. Zhou; A. Brown; D. Raleigh; M. Willis; T. Wilson; S. Konfal

Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance

M. Bevis, R. Kendrick, R. Smalley, I. Dalziel, D. Caccamise, I. Sasgen, M.M. Helsen, F.W. Taylor, H. Zhou, A. Brown, D. Raleigh, M. Willis, T. Wilson, S. Konfal

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Abstract

We present preliminary geodetic estimates for vertical bedrock velocity at twelve survey GPS stations in the West Antarctic GPS Network, an additional survey station in the northern Antarctic Peninsula, and eleven continuous GPS stations distributed across the continent. The spatial pattern of these velocities is not consistent with any postglacial rebound (PGR) model known to us. Four leading PGR models appear to be overpredicting uplift rates in the Transantarctic Mountains and West Antarctica and underpredicting them in the peninsula north of 65 . This discrepancy cannot be explained in terms of an elastic response to modern ice loss (except, perhaps, in part of the peninsula). Therefore, our initial geodetic results suggest that most GRACE ice mass rate estimates, which are critically dependent on a PGR correction, are systematically biased and are overpredicting ice loss for the continent as a whole

Original language	Undefined/Unknown
Pages (from-to)	1-11
Number of pages	11
Journal	Geochemistry, Geophysics, Geosystems
Volume	10
Issue number	10
Publication status	Published - 2009

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2009GC002642
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Final published version, 2.13 MB

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Cite this

Bevis, M., Kendrick, R., Smalley, R., Dalziel, I., Caccamise, D., Sasgen, I., Helsen, M. M., Taylor, F. W., Zhou, H., Brown, A., Raleigh, D., Willis, M., Wilson, T., & Konfal, S. (2009). Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance. Geochemistry, Geophysics, Geosystems, 10(10), 1-11. http://www.agu.org

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title = "Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance",

abstract = "We present preliminary geodetic estimates for vertical bedrock velocity at twelve survey GPS stations in the West Antarctic GPS Network, an additional survey station in the northern Antarctic Peninsula, and eleven continuous GPS stations distributed across the continent. The spatial pattern of these velocities is not consistent with any postglacial rebound (PGR) model known to us. Four leading PGR models appear to be overpredicting uplift rates in the Transantarctic Mountains and West Antarctica and underpredicting them in the peninsula north of 65 . This discrepancy cannot be explained in terms of an elastic response to modern ice loss (except, perhaps, in part of the peninsula). Therefore, our initial geodetic results suggest that most GRACE ice mass rate estimates, which are critically dependent on a PGR correction, are systematically biased and are overpredicting ice loss for the continent as a whole",

author = "M. Bevis and R. Kendrick and R. Smalley and I. Dalziel and D. Caccamise and I. Sasgen and M.M. Helsen and F.W. Taylor and H. Zhou and A. Brown and D. Raleigh and M. Willis and T. Wilson and S. Konfal",

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T1 - Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance

AU - Bevis, M.

AU - Kendrick, R.

AU - Smalley, R.

AU - Dalziel, I.

AU - Caccamise, D.

AU - Sasgen, I.

AU - Helsen, M.M.

AU - Taylor, F.W.

AU - Zhou, H.

AU - Brown, A.

AU - Raleigh, D.

AU - Willis, M.

AU - Wilson, T.

AU - Konfal, S.

PY - 2009

Y1 - 2009

N2 - We present preliminary geodetic estimates for vertical bedrock velocity at twelve survey GPS stations in the West Antarctic GPS Network, an additional survey station in the northern Antarctic Peninsula, and eleven continuous GPS stations distributed across the continent. The spatial pattern of these velocities is not consistent with any postglacial rebound (PGR) model known to us. Four leading PGR models appear to be overpredicting uplift rates in the Transantarctic Mountains and West Antarctica and underpredicting them in the peninsula north of 65 . This discrepancy cannot be explained in terms of an elastic response to modern ice loss (except, perhaps, in part of the peninsula). Therefore, our initial geodetic results suggest that most GRACE ice mass rate estimates, which are critically dependent on a PGR correction, are systematically biased and are overpredicting ice loss for the continent as a whole

AB - We present preliminary geodetic estimates for vertical bedrock velocity at twelve survey GPS stations in the West Antarctic GPS Network, an additional survey station in the northern Antarctic Peninsula, and eleven continuous GPS stations distributed across the continent. The spatial pattern of these velocities is not consistent with any postglacial rebound (PGR) model known to us. Four leading PGR models appear to be overpredicting uplift rates in the Transantarctic Mountains and West Antarctica and underpredicting them in the peninsula north of 65 . This discrepancy cannot be explained in terms of an elastic response to modern ice loss (except, perhaps, in part of the peninsula). Therefore, our initial geodetic results suggest that most GRACE ice mass rate estimates, which are critically dependent on a PGR correction, are systematically biased and are overpredicting ice loss for the continent as a whole

M3 - Article

SN - 1525-2027

VL - 10

SP - 1

EP - 11

JO - Geochemistry, Geophysics, Geosystems

JF - Geochemistry, Geophysics, Geosystems

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