
doi: 10.1002/2016gl069666
handle: 2268/301895
AbstractWe map recent Greenland Ice Sheet elevation change at high spatial (5 km) and temporal (monthly) resolution using CryoSat‐2 altimetry. After correcting for the impact of changing snowpack properties associated with unprecedented surface melting in 2012, we find good agreement (3 cm/yr bias) with airborne measurements. With the aid of regional climate and firn modeling, we compute high spatial and temporal resolution records of Greenland mass evolution, which correlate (R = 0.96) with monthly satellite gravimetry and reveal glacier dynamic imbalance. During 2011–2014, Greenland mass loss averaged 269 ± 51 Gt/yr. Atmospherically driven losses were widespread, with surface melt variability driving large fluctuations in the annual mass deficit. Terminus regions of five dynamically thinning glaciers, which constitute less than 1% of Greenland's area, contributed more than 12% of the net ice loss. This high‐resolution record demonstrates that mass deficits extending over small spatial and temporal scales have made a relatively large contribution to recent ice sheet imbalance.
Cryosat, Elevation Change, 550, Greenland Ice Sheet, Physique, chimie, mathématiques & sciences de la terre, Mass balance, Sea-level Rise, GRACE, Physical, chemical, mathematical & earth Sciences, Radar Altimetry, altimetry, Antarctic Ice-sheet, SDG 13 - Climate Action, Firn, CryoSat-2, Science & Technology, Multidisciplinary, Grace, Geology, Regional Climate Model, Sciences de la terre & géographie physique, Geophysics, Physical Sciences, Earth sciences & physical geography, General Earth and Planetary Sciences, Surface Melt, Time-variable Gravity, Cryosat-2, Earth and Planetary Sciences (all), Geosciences, mass balance
Cryosat, Elevation Change, 550, Greenland Ice Sheet, Physique, chimie, mathématiques & sciences de la terre, Mass balance, Sea-level Rise, GRACE, Physical, chemical, mathematical & earth Sciences, Radar Altimetry, altimetry, Antarctic Ice-sheet, SDG 13 - Climate Action, Firn, CryoSat-2, Science & Technology, Multidisciplinary, Grace, Geology, Regional Climate Model, Sciences de la terre & géographie physique, Geophysics, Physical Sciences, Earth sciences & physical geography, General Earth and Planetary Sciences, Surface Melt, Time-variable Gravity, Cryosat-2, Earth and Planetary Sciences (all), Geosciences, mass balance
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