Comparison of wave propagation through ice covers in calm and storm conditions
Abstract
Motivated by a dramatic reduction in Arctic sea ice cover, interest in the field of wave‐ice interaction has accelerated over the past few years. Recent observations have identified that large waves (>3 m) have a linear attenuation rate, rather than the previously assumed exponential rate that is found for small waves. This suggests that waves penetrate further into the ice cover than previously expected. To explore this further we tested two exponentially decaying wave models. Contributions from nonlinear and wind generation source terms enabled both models to reproduce the observed regime shift. Essentially, the accumulation of nonlinear and wind energy contributions to long (and thus higher amplitude) waves can offset the ice damping, thus reducing the apparent attenuation. This study highlights the relevance of considering frequency dependence when analyzing wave attenuation in sea ice field data.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jul 17, 2015
- Source ID
- 10.1002/2015gl064715
Entities
People
- Alison L. Kohout
- Hayley H. Shen
- Jingkai Li
Organizations
- China Scholarship Council
- Clarkson University
- National Institute of Water and Atmospheric Research
- Ocean University of China
- Office of Naval Research