EGU2020-19096
https://doi.org/10.5194/egusphere-egu2020-19096
EGU General Assembly 2020
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Impact of a realistic Greenland ice sheet melting on the North Atlantic over the period 1920-2014

Didier Swingedouw1, Marion Devilliers1, Juliette Mignot2, Julie Deshayes2, Gilles Garric3, and Mohamed Ayache1
Didier Swingedouw et al.
  • 1CNRS - University of Bordeaux - OASU, EPOC, Pessac, France (didier.swingedouw@u-bordeaux.fr)
  • 2UMR CNRS 7159 LOCEAN IRD - Université Pierre et Marie Curie/MNHN. Institut Pierre Simon Laplace. Paris, France
  • 3Mercator Ocean Ramonville Saint-Agne France

Greenland experienced intensive melting over the last century, especially in the 1920s and over the last decades. The supplementary input into the ocean is influencing the freshwater budget of the North Atlantic. Simultaneously, some signs of a recent weakening of the Atlantic meridional overturning circulation (AMOC) have been reported. In order to better understand the possible impact of the melting on the North Atlantic circulation, salinity and temperature trends, we construct an observation-based estimate of the freshwater fluxes from 1840 to 2014 associated to the runoff fluxes from Greenland ice sheet and surrounding glaciers and ice caps. Input from iceberg melting is also included and spatially distributed over the North Atlantic following an observed climatology. We force historical simulations of the IPSL-CM6A-LR coupled climate model with this reconstruction from 1920 to 2014. The 10-member ensemble mean displays freshened and cooled waters around Greenland, which spread in the subpolar gyre, and then towards the subtropical gyre and the Nordic Seas. Over the whole period, the convection is reduced in the Labrador and Nordic Seas, while it is slightly enhanced in the Irminger Sea, and the AMOC is reduced by 0.32±0.35 Sv at 26°N. This highlights that the AMOC decrease due to Greenland melting remains modest in these simulations and can only explain a very moderate amount of the 3±1 Sv weakening suggested in a recent study. The multi-decadal trend of the North Atlantic surface temperature obtained with the additional freshwater forcing is more in line with observations than in standard historical simulations. We also show a clear improvement of the representation of the 1995 abrupt warming in the subpolar gyre in the melting ensemble, which may thus be partly forced by Greenland ice sheet melting. Mechanisms at play imply changes in the variability of the AMOC in the melting ensemble as compared to the historical one. Such an impact on forced decadal variability has crucial consequences for decadal prediction systems that may gain skill by including observed Greenland ice sheet melting.

How to cite: Swingedouw, D., Devilliers, M., Mignot, J., Deshayes, J., Garric, G., and Ayache, M.: Impact of a realistic Greenland ice sheet melting on the North Atlantic over the period 1920-2014, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-19096, https://doi.org/10.5194/egusphere-egu2020-19096, 2020.

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