The Stepwise Reduction of Multiyear Sea Ice Area in the Arctic Ocean Since 1980
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https://hdl.handle.net/10037/32018Dato
2023-09-28Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Babb, D.G.; Galley, R.J.; Kirillov, S.; Landy, Jack Christopher; Howell, S.E.L.; Stroeve, J.C.; Meier, W.; Ehn, J.K.; Barber, D.G.Sammendrag
The loss of multiyear sea ice (MYI) in the Arctic Ocean is a significant change that affects all
facets of the Arctic environment. Using a Lagrangian ice age product, we examine MYI loss and quantify
the annual MYI area budget from 1980 to 2021 as the balance of export, melt, and replenishment. Overall,
MYI area declined at 72,500 km2
/yr; however, a majority of the loss occurred during two stepwise reductions
that interrupt an otherwise balanced budget and resulted in the northward contraction of the MYI pack. First,
in 1989, a change in atmospheric forcing led to a +56% anomaly in MYI export through Fram Strait. The
second occurred from 2006 to 2008 with anomalously high melt (+25%) and export (+23%) coupled with low
replenishment (−8%). In terms of trends, melt has increased since 1989, particularly in the Beaufort Sea, export
has decreased since 2008 due to reduced MYI coverage north of Fram Strait, and replenishment has increased
over the full time series due to a negative feedback that promotes seasonal ice survival at higher latitudes
exposed by MYI loss. However, retention of older MYI has significantly declined, transitioning the MYI pack
toward younger MYI that is less resilient than previously anticipated and could soon elicit another stepwise
reduction. We speculate that future MYI loss will be driven by increased melt and reduced replenishment, both
of which are enhanced with continued warming and will one day render the Arctic Ocean free of MYI, a change
that will coincide with a seasonally ice-free Arctic Ocean.
Forlag
WileySitering
Babb, Galley, Kirillov, Landy, Howell, Stroeve, Meier, Ehn, Barber. The Stepwise Reduction of Multiyear Sea Ice Area in the Arctic Ocean Since 1980. Journal of Geophysical Research (JGR): Oceans. 2023;128(10)Metadata
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