Impact of underwater‐ice evolution on Arctic summer sea ice
D Notz, MG McPhee, MG Worster… - Journal of …, 2003 - Wiley Online Library
Journal of Geophysical Research: Oceans, 2003•Wiley Online Library
A model is presented that describes the simultaneous growth and ablation of a layer of ice
between an under‐ice melt pond and the underlying ocean. Such “false bottoms” are the
only significant source of ice formation in the Arctic during summer. Analytical solutions for
diffusional transport of heat and salt are calculated that illustrate the importance of salt
transport in effecting phase change. The model is extended to account for turbulent
transports and applied to make predictions of bottom ablation rates of sea ice given the far …
between an under‐ice melt pond and the underlying ocean. Such “false bottoms” are the
only significant source of ice formation in the Arctic during summer. Analytical solutions for
diffusional transport of heat and salt are calculated that illustrate the importance of salt
transport in effecting phase change. The model is extended to account for turbulent
transports and applied to make predictions of bottom ablation rates of sea ice given the far …
A model is presented that describes the simultaneous growth and ablation of a layer of ice between an under‐ice melt pond and the underlying ocean. Such “false bottoms” are the only significant source of ice formation in the Arctic during summer. Analytical solutions for diffusional transport of heat and salt are calculated that illustrate the importance of salt transport in effecting phase change. The model is extended to account for turbulent transports and applied to make predictions of bottom ablation rates of sea ice given the far‐field properties of the ocean from the AIDJEX and SHEBA field experiments. The model predictions show that false bottoms may play a significant role in the summer heat budget of the ice‐ocean system, causing localized heat fluxes of more than 10 W m−2 into the mixed layer. The thickening of thin ice by false‐bottom formation leads to longer‐lasting sea ice and thus smaller ice‐free areas, which might be an important mechanism affecting the surface albedo.
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