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Event

Assessing the predictability of Arctic minimum sea ice extent using observations: June solar radiation and late winter coastal divergence

Wednesday, March 11, 2020 14:30to15:30
Burnside Hall Room 934, 805 rue Sherbrooke Ouest, Montreal, QC, H3A 0B9, CA

Student Seminar Series

Department of Atmospheric & Oceanic Sciences

presents

a talk by

Rachel Kim
MSc student

Assessing the predictability of Arctic minimum sea ice extent using observations: June solar radiation and late winter coastal divergence

Dramatic loss in Arctic sea ice extent (SIE) during the observation period has led to an increased interest in Arctic sea ice forecasting. Despite the climatological decreasing trend, minimum SIE has great interannual variability. Due to our limited understanding of sea ice dynamics and cost constraints, climate models lack the forecasting skill for Arctic SIE especially in large anomalous years. The project looks at two parameters with predictability for Arctic minimum SIE but with different lead-times: June reflected solar radiation (RSR) and late winter coastal divergence. June RSR reflects varying albedo conditions such as open water areas with melt onset. The positive albedo feedback mechanism leads to amplified melt of negative albedo anomalies by the end of melt season. Late winter coastal divergence forms thinner sea ice that is most likely to melt out by end of the following melt season. Consequently, the integrated area of late winter coastal divergence until spring gives predictability for September minimum SIE.

Results show that as a predictor, June RSR is analogous to June SIE, which reflects both thermodynamic and dynamic drivers of sea ice melt. Contrarily, wind-driven late winter coastal divergence is a dynamic mechanism that preconditions sea ice for melt. To make a parallel comparison with June RSR, we are interested in combining the predictability of winter dynamic preconditioning with spring thermodynamic effects like the Bering Strait ocean heat transport. The combined predictability increases the lead-time by one month than that of June RSR. The research contributes to better identifying the mechanisms that drive sea ice melt and increasing the lead-time for Arctic SIE forecasting.

Wednesday Mar 11/ 2.30 PM/ Room 934 Burnside Hall

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