C. Harig scite author profile

From early 2003 to mid-2013, the total mass of ice in Greenland declined at a progressively increasing rate. In mid-2013, an abrupt reversal occurred, and very little net ice loss occurred in the next 12–18 months. Gravity Recovery and Climate Experiment (GRACE) and global positioning system (GPS) observations reveal that the spatial patterns of the sustained acceleration and the abrupt deceleration in mass loss are similar. The strongest accelerations tracked the phase of the North Atlantic Oscillation (NAO). The negative phase of the NAO enhances summertime warming and insolation while reducing snowfall, especially in west Greenland, driving surface mass balance (SMB) more negative, as illustrated using the regional climate model MAR. The spatial pattern of accelerating mass changes reflects the geography of NAO-driven shifts in atmospheric forcing and the ice sheet’s sensitivity to that forcing. We infer that southwest Greenland will become a major future contributor to sea level rise.

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Monitoring southwest Greenland’s ice sheet melt with ambient seismic noise

Mordret

Mikesell

Harig

et al. 2016

Sci. Adv.

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Mapping Greenland’s mass loss in space and time

Harig

Simons

2012

Proc. Natl. Acad. Sci. U.S.A.

104

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The melting of polar ice sheets is a major contributor to global sea-level rise. Early estimates of the mass lost from the Greenland ice cap, based on satellite gravity data collected by the Gravity Recovery and Climate Experiment, have widely varied. Although the continentally and decadally averaged estimated trends have now more or less converged, to this date, there has been little clarity on the detailed spatial distribution of Greenland’s mass loss and how the geographical pattern has varied on relatively shorter time scales. Here, we present a spatially and temporally resolved estimation of the ice mass change over Greenland between April of 2002 and August of 2011. Although the total mass loss trend has remained linear, actively changing areas of mass loss were concentrated on the southeastern and northwestern coasts, with ice mass in the center of Greenland steadily increasing over the decade.

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Accelerated West Antarctic ice mass loss continues to outpace East Antarctic gains

Harig

Simons

2015

Earth and Planetary Science Letters

104

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C. Harig

The increasing rate of global mean sea-level rise during 1993–2014

Accelerating changes in ice mass within Greenland, and the ice sheet’s sensitivity to atmospheric forcing

Monitoring southwest Greenland’s ice sheet melt with ambient seismic noise

Mapping Greenland’s mass loss in space and time

Accelerated West Antarctic ice mass loss continues to outpace East Antarctic gains

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