A model of melt pond evolution on sea ice

A one-dimensional, thermodynamic, and radiative model of a melt pond on sea ice is presented that explicitly treats the melt pond as an extra phase. A two-stream radiation model, which allows albedo to be determined from bulk optical properties, and a parameterization of the summertime evolution of...

Full description

Bibliographic Details
Main Authors: Taylor, PD, Feltham, DL
Format: Article in Journal/Newspaper
Language:unknown
Published: AMER GEOPHYSICAL UNION 2004
Subjects:
sea ice
melt pond
albedo
Arctic Ocean
radiation model
thermodynamic
THERMODYNAMIC MODEL
MUSHY LAYER
VARIABILITY
SHEBA
OCEAN
SENSITIVITY
REGION
ENERGY
DEPTH
Arctic
Sea ice
Online Access:http://discovery.ucl.ac.uk/8772/
Description
Summary:A one-dimensional, thermodynamic, and radiative model of a melt pond on sea ice is presented that explicitly treats the melt pond as an extra phase. A two-stream radiation model, which allows albedo to be determined from bulk optical properties, and a parameterization of the summertime evolution of optical properties, is used. Heat transport within the sea ice is described using an equation describing heat transport in a mushy layer of a binary alloy (salt water). The model is tested by comparison of numerical simulations with SHEBA data and previous modeling. The presence of melt ponds on the sea ice surface is demonstrated to have a significant effect on the heat and mass balance. Sensitivity tests indicate that the maximum melt pond depth is highly sensitive to optical parameters and drainage.

Similar Items