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Geophysical Research Letters
Volume 47, Issue 15 e2020GL088854
Research Letter

Forced Changes in the Arctic Freshwater Budget Emerge in the Early 21st Century

Alexandra Jahn,

Corresponding Author

Department of Atmospheric and Oceanic Sciences and Institute of Arctic and Alpine Research, University of Colorado Boulder, Boulder, CO, USA

Correspondence to:

A. Jahn,

alexandra.jahn@colorado.edu

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Rory Laiho,

Department of Atmospheric and Oceanic Sciences and Institute of Arctic and Alpine Research, University of Colorado Boulder, Boulder, CO, USA

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First published: 27 July 2020
https://doi.org/10.1029/2020GL088854
Citations: 6

Abstract

Arctic liquid freshwater (FW) storage has shown a large increase over the past decades, posing the question: Is the Arctic FW budget already showing clear signs of anthropogenic climate change, or are the observed changes the result of multidecadal variability? We show that the observed change in liquid and solid Arctic FW storage is likely already driven by the changing climate, based on ensemble simulations from a state-of-the-art climate model. Generally, the emergence of forced changes in Arctic FW fluxes occurs earlier for oceanic fluxes than for atmospheric or land fluxes. Nares Strait liquid FW flux is the first flux to show emergence outside the range of background variability, with this change potentially already occurring. Other FW fluxes have likely started to shift but have not yet emerged into a completely different regime. Future emissions reductions have the potential to avoid the emergence of some FW fluxes beyond the background variability.

Plain Language Summary

The surface waters of the Arctic Ocean are fresher than the rest of the world oceans, due to the input of large amounts of river runoff. The very fresh surface ocean affects the ocean circulation and climate not just in the Arctic Ocean but also at lower latitudes, especially in the North Atlantic. The last two decades have seen a freshening of the surface Arctic Ocean, for reasons that are currently unknown. Here we demonstrate that this freshening is likely already driven by climate change. Furthermore, we find that due to manmade climate change, Arctic freshwater fluxes to the North Atlantic are also likely to soon start showing signs of change beyond the range of the variability we have observed in the past. The information provided here about the expected timing of the emergence of climate change signals will allow us to monitor upcoming changes in real time, to better understand how changes in the Arctic Ocean can impact climate worldwide.

Data Availability Statement

All CESM model output used is freely available on the NCAR Earth System Grid gateway at https://www.earthsystemgrid.org/dataset/ucar.cgd.ccsm4.lowwarming.html and https://www.earthsystemgrid.org/dataset/ucar.cgd.ccsm4.CESM_CAM5_BGC_LE.html websites. The annual mean Arctic FW budget time series calculated from this output and analyzed in this paper are archived at the NSF Arctic Data center at https://arcticdata.io/catalog/view/doi:10.18739/A2CC0TT8X.