Increasing mass loss from Greenland's Mittivakkat Gletscher

S H Mernild,J K Malmros,N T Knudsen,B Hasholt,B H Jakobsen,J C Yde,W H Lipscomb

doi:10.5194/tc-5-341-2011

S H Mernild, J K Malmros + Show 5 more

Open Access

https://doi.org/10.5194/tc-5-341-2011

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Abstract

Abstract. Warming in the Arctic during the past several decades has caused glaciers to thin and retreat, and recent mass loss from the Greenland Ice Sheet is well documented. Local glaciers peripheral to the ice sheet are also retreating, but few mass-balance observations are available to quantify that retreat and determine the extent to which these glaciers are out of equilibrium with present-day climate. Here, we document record mass loss in 2009/10 for the Mittivakkat Gletscher (henceforth MG), the only local glacier in Greenland for which there exist long-term observations of both the surface mass balance and glacier front fluctuations. We attribute this mass loss primarily to record high mean summer (June–August) temperatures in combination with lower-than-average winter precipitation. Also, we use the 15-yr mass-balance record to estimate present-day and equilibrium accumulation-area ratios for the MG. We show that the glacier is significantly out of balance and will likely lose at least 70% of its current area and 80% of its volume even in the absence of further climate changes. Temperature records from coastal stations in Southeast Greenland suggest that recent MG mass losses are not merely a local phenomenon, but are indicative of glacier changes in the broader region. Mass-balance observations for the MG therefore provide unique documentation of the general retreat of Southeast Greenland's local glaciers under ongoing climate warming.

Highlights

IntroductionSummer air temperatures in Greenland’s coastal areas increased by an estimated 1.7 ◦C, on average, from 1991 to 2006 (Comiso, 2006)
Greenland has warmed significantly during the past two decades
We estimate accumulation-area ratios for the MG to quantify the extent to which the glacier is out of balance with present-day climate, and we suggest that recent MG mass losses are not merely a local phenomenon but are indicative of regional changes

Summary

Introduction

Summer air temperatures in Greenland’s coastal areas increased by an estimated 1.7 ◦C, on average, from 1991 to 2006 (Comiso, 2006). In 2010, Greenland experienced record-setting surface melt extent and glacier area loss due to a relatively warm, dry winter followed by an exceptionally warm summer. Greenland last experienced comparable conditions in 2007, when high summer temperatures led to increased melting (Mote, 2007; Tedesco, 2007; Steffen et al, 2008), surface mass loss, and freshwater runoff (Mernild and Hasholt, 2009). As the climate has warmed, Greenland’s outlet glaciers have accelerated and thinned, and the surface mass balance has become more negative. During the past several years the GrIS is estimated to have lost mass at a rate of more than 200 Gt yr−1 (Allison et al, 2009)

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