Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics

Beata M. Csatho; Anton F. Schenk; Cornelis J. van der Veen; Gregory Babonis; Kyle Duncan; Soroush Rezvanbehbahani; Michiel R. van den Broeke; Sebastian B. Simonsen; Sudhagar Nagarajan; Jan H. van Angelen

doi:10.1073/pnas.1411680112

Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics

Beata M. Csatho^*, Anton F. Schenk, Cornelis J. van der Veen, Gregory Babonis, Kyle Duncan, Soroush Rezvanbehbahani, Michiel R. van den Broeke, Sebastian B. Simonsen, Sudhagar Nagarajan, Jan H. van Angelen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We present a new record of ice thickness change, reconstructed at nearly 100,000 sites on the Greenland Ice Sheet (GrIS) from laser altimetry measurements spanning the period 1993-2012, partitioned into changes due to surface mass balance (SMB) and ice dynamics. We estimate a mean annual GrIS mass loss of 243 +/- 18 Gt.y(-1), equivalent to 0.68 mm.y(-1) sea level rise (SLR) for 2003-2009. Dynamic thinning contributed 48%, with the largest rates occurring in 2004-2006, followed by a gradual decrease balanced by accelerating SMB loss. The spatial pattern of dynamic mass loss changed over this time as dynamic thinning rapidly decreased in southeast Greenland but slowly increased in the southwest, north, and northeast regions. Most outlet glaciers have been thinning during the last two decades, interrupted by episodes of decreasing thinning or even thickening. Dynamics of the major outlet glaciers dominated the mass loss from larger drainage basins, and simultaneous changes over distances up to 500 km are detected, indicating climate control. However, the intricate spatiotemporal pattern of dynamic thickness change suggests that, regardless of the forcing responsible for initial glacier acceleration and thinning, the response of individual glaciers is modulated by local conditions. Recent projections of dynamic contributions from the entire GrIS to SLR have been based on the extrapolation of four major outlet glaciers. Considering the observed complexity, we question how well these four glaciers represent all of Greenland's outlet glaciers.

Original language	English
Pages (from-to)	18478-18483
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	52
DOIs	https://doi.org/10.1073/pnas.1411680112
Publication status	Published - 30 Dec 2014

Funding

ICESat, ATM, and LVIS data were collected by NASA's PARCA, ICESat, and OIB missions and distributed by the National Snow and Ice Data Center. B.M.C., A.F.S., C.J.v.d.V., K.D., G.B., S.R., and S.N. acknowledge support by NASA's Polar Program under Grants NNX10AV13G, NNX11AR23G, and NNX12AH15G. M.R.v.d.B. and J.H.v.A. acknowledge support from the Netherlands Polar Program of Netherlands Organization for Scientific Research Division for the Earth and Life Sciences (NWO-ALW) and EU FP7 program ice2sea.

Keywords

Greenland Ice Sheet
laser altimetry
mass balance
ice dynamics
SEA-LEVEL RISE
OUTLET GLACIERS
MASS-LOSS
JAKOBSHAVN ISBRAE
ELEVATION CHANGES
BALANCE
EVOLUTION
CLIMATE
ACCELERATION
ANTARCTICA

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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PNAS-2014-Csatho-18478-83Final published version, 1.84 MB

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Csatho, B. M., Schenk, A. F., van der Veen, C. J., Babonis, G., Duncan, K., Rezvanbehbahani, S., van den Broeke, M. R., Simonsen, S. B., Nagarajan, S., & van Angelen, J. H. (2014). Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics. Proceedings of the National Academy of Sciences of the United States of America, 111(52), 18478-18483. https://doi.org/10.1073/pnas.1411680112

@article{7db13d5281b44638875e000a93cb30d6,

title = "Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics",

abstract = "We present a new record of ice thickness change, reconstructed at nearly 100,000 sites on the Greenland Ice Sheet (GrIS) from laser altimetry measurements spanning the period 1993-2012, partitioned into changes due to surface mass balance (SMB) and ice dynamics. We estimate a mean annual GrIS mass loss of 243 +/- 18 Gt.y(-1), equivalent to 0.68 mm.y(-1) sea level rise (SLR) for 2003-2009. Dynamic thinning contributed 48\%, with the largest rates occurring in 2004-2006, followed by a gradual decrease balanced by accelerating SMB loss. The spatial pattern of dynamic mass loss changed over this time as dynamic thinning rapidly decreased in southeast Greenland but slowly increased in the southwest, north, and northeast regions. Most outlet glaciers have been thinning during the last two decades, interrupted by episodes of decreasing thinning or even thickening. Dynamics of the major outlet glaciers dominated the mass loss from larger drainage basins, and simultaneous changes over distances up to 500 km are detected, indicating climate control. However, the intricate spatiotemporal pattern of dynamic thickness change suggests that, regardless of the forcing responsible for initial glacier acceleration and thinning, the response of individual glaciers is modulated by local conditions. Recent projections of dynamic contributions from the entire GrIS to SLR have been based on the extrapolation of four major outlet glaciers. Considering the observed complexity, we question how well these four glaciers represent all of Greenland's outlet glaciers.",

keywords = "Greenland Ice Sheet, laser altimetry, mass balance, ice dynamics, SEA-LEVEL RISE, OUTLET GLACIERS, MASS-LOSS, JAKOBSHAVN ISBRAE, ELEVATION CHANGES, BALANCE, EVOLUTION, CLIMATE, ACCELERATION, ANTARCTICA",

author = "Csatho, \{Beata M.\} and Schenk, \{Anton F.\} and \{van der Veen\}, \{Cornelis J.\} and Gregory Babonis and Kyle Duncan and Soroush Rezvanbehbahani and \{van den Broeke\}, \{Michiel R.\} and Simonsen, \{Sebastian B.\} and Sudhagar Nagarajan and \{van Angelen\}, \{Jan H.\}",

year = "2014",

month = dec,

day = "30",

doi = "10.1073/pnas.1411680112",

language = "English",

volume = "111",

pages = "18478--18483",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "52",

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Csatho, BM, Schenk, AF, van der Veen, CJ, Babonis, G, Duncan, K, Rezvanbehbahani, S, van den Broeke, MR, Simonsen, SB, Nagarajan, S & van Angelen, JH 2014, 'Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics', Proceedings of the National Academy of Sciences of the United States of America, vol. 111, no. 52, pp. 18478-18483. https://doi.org/10.1073/pnas.1411680112

TY - JOUR

T1 - Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics

AU - Csatho, Beata M.

AU - Schenk, Anton F.

AU - van der Veen, Cornelis J.

AU - Babonis, Gregory

AU - Duncan, Kyle

AU - Rezvanbehbahani, Soroush

AU - van den Broeke, Michiel R.

AU - Simonsen, Sebastian B.

AU - Nagarajan, Sudhagar

AU - van Angelen, Jan H.

PY - 2014/12/30

Y1 - 2014/12/30

N2 - We present a new record of ice thickness change, reconstructed at nearly 100,000 sites on the Greenland Ice Sheet (GrIS) from laser altimetry measurements spanning the period 1993-2012, partitioned into changes due to surface mass balance (SMB) and ice dynamics. We estimate a mean annual GrIS mass loss of 243 +/- 18 Gt.y(-1), equivalent to 0.68 mm.y(-1) sea level rise (SLR) for 2003-2009. Dynamic thinning contributed 48%, with the largest rates occurring in 2004-2006, followed by a gradual decrease balanced by accelerating SMB loss. The spatial pattern of dynamic mass loss changed over this time as dynamic thinning rapidly decreased in southeast Greenland but slowly increased in the southwest, north, and northeast regions. Most outlet glaciers have been thinning during the last two decades, interrupted by episodes of decreasing thinning or even thickening. Dynamics of the major outlet glaciers dominated the mass loss from larger drainage basins, and simultaneous changes over distances up to 500 km are detected, indicating climate control. However, the intricate spatiotemporal pattern of dynamic thickness change suggests that, regardless of the forcing responsible for initial glacier acceleration and thinning, the response of individual glaciers is modulated by local conditions. Recent projections of dynamic contributions from the entire GrIS to SLR have been based on the extrapolation of four major outlet glaciers. Considering the observed complexity, we question how well these four glaciers represent all of Greenland's outlet glaciers.

AB - We present a new record of ice thickness change, reconstructed at nearly 100,000 sites on the Greenland Ice Sheet (GrIS) from laser altimetry measurements spanning the period 1993-2012, partitioned into changes due to surface mass balance (SMB) and ice dynamics. We estimate a mean annual GrIS mass loss of 243 +/- 18 Gt.y(-1), equivalent to 0.68 mm.y(-1) sea level rise (SLR) for 2003-2009. Dynamic thinning contributed 48%, with the largest rates occurring in 2004-2006, followed by a gradual decrease balanced by accelerating SMB loss. The spatial pattern of dynamic mass loss changed over this time as dynamic thinning rapidly decreased in southeast Greenland but slowly increased in the southwest, north, and northeast regions. Most outlet glaciers have been thinning during the last two decades, interrupted by episodes of decreasing thinning or even thickening. Dynamics of the major outlet glaciers dominated the mass loss from larger drainage basins, and simultaneous changes over distances up to 500 km are detected, indicating climate control. However, the intricate spatiotemporal pattern of dynamic thickness change suggests that, regardless of the forcing responsible for initial glacier acceleration and thinning, the response of individual glaciers is modulated by local conditions. Recent projections of dynamic contributions from the entire GrIS to SLR have been based on the extrapolation of four major outlet glaciers. Considering the observed complexity, we question how well these four glaciers represent all of Greenland's outlet glaciers.

KW - Greenland Ice Sheet

KW - laser altimetry

KW - mass balance

KW - ice dynamics

KW - SEA-LEVEL RISE

KW - OUTLET GLACIERS

KW - MASS-LOSS

KW - JAKOBSHAVN ISBRAE

KW - ELEVATION CHANGES

KW - BALANCE

KW - EVOLUTION

KW - CLIMATE

KW - ACCELERATION

KW - ANTARCTICA

U2 - 10.1073/pnas.1411680112

DO - 10.1073/pnas.1411680112

M3 - Article

SN - 0027-8424

VL - 111

SP - 18478

EP - 18483

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 52

ER -

Laser altimetry reveals complex pattern of Greenland Ice Sheet dynamics

Abstract

Funding

Keywords

UN SDGs

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