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Towards Validating Wave-Ice Interactions in Climate Models Using In Situ Observations
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  • Vincent Cooper,
  • Lettie Roach,
  • Cecilia Bitz,
  • Samuel Brenner,
  • Jim Thomson
Vincent Cooper
University of Washington, University of Washington

Corresponding Author:vincecooper@mac.com

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Lettie Roach
University of Washington, University of Washington
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Cecilia Bitz
University of Washington,University of Washington, University of Washington,University of Washington
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Samuel Brenner
University of Washington, University of Washington
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Jim Thomson
University of Washington, University of Washington
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Abstract

The retreat of Arctic sea ice coincides with increased ocean surface wave activity, and wave-ice interactions are consequently poised to have a growing influence on the Arctic climate system. Recent field campaigns have focused on rectifying the scarcity of wave measurements inside the marginal ice zone, and work is now underway to incorporate wave-ice interactions in global climate models. Here, we apply a collection of in situ wave observations spanning multiple years in the Beaufort Sea and including wave activity beyond 100 kilometers inside the sea ice edge. To better understand waves in the presence of sea ice, we connect the in situ data with satellite-derived ice concentrations across the Arctic and compare the observations with a recent global climate model experiment that includes coupled interactions between waves and a sea ice floe size distribution. We present a series of comparisons focused on wave energy and wind-wave relationships in partial ice cover. These analyses provide a framework for assessing the impact of uncertainty in wave-ice physics on the marginal ice zone in new experiments in the coupled wave-ice model. Our work guides further model development and future observational campaigns.