Litcius/Paper detail

Impact of Microstructure on Solar Radiation Transfer Within Sea Ice During Summer in the Arctic: A Model Sensitivity Study

Miao Yu, Peng Lü, Bin Cheng, Matti Leppäranta, Zhijun Li

2022Frontiers in Marine Science20 citationsDOIOpen Access PDF

Abstract

The recent rapid changes in Arctic sea ice have occurred not only in ice thickness and extent, but also in the microstructure of ice. To understand the role of microstructure on partitioning of incident solar shortwave radiation within the ice and upper ocean, this study investigated the sensitivity of the optical properties of summer sea ice on ice microstructures such as the volume fraction, size, and vertical distribution of gas bubbles, brine pockets, and particulate matter (PM). The results show that gas bubbles are the predominant scatterers within sea ice. Their effects on the scattering coefficient and ice albedo are 5 and 20 times stronger respectively than the effect of brine pockets. Albedo and transmittance of ice decrease with higher concentration and larger size of PM particles. A 4-cm top layer of ice with high PM concentration (50 g/m 3 ) results in a 10% increase in radiation absorption. The role of ice microstructure in the partitioning of radiation transfer is more important for seasonal than for multiyear ice, and more important for ponded than for snow-covered ice. Varying ice microstructure can obviously alter solar radiation transfer in the ice-ocean system, even with a constant ice thickness. Our results suggest that numerical models should take the variable microstructure of sea ice into account to improve model accuracy and to understand the interaction between internal variations in Arctic sea ice and the ocean, especially in summer.

Topics & Concepts

Sea iceSea ice thicknessSea ice growth processesArctic ice packAtmospheric sciencesSea ice concentrationSnowArcticMelt pondGeologyEnvironmental scienceMicrostructureAlbedo (alchemy)ClimatologyMaterials scienceOceanographyGeomorphologyComposite materialArtArt historyPerformance artArctic and Antarctic ice dynamicsAtmospheric chemistry and aerosolsAtmospheric aerosols and clouds
Impact of Microstructure on Solar Radiation Transfer Within Sea Ice During Summer in the Arctic: A Model Sensitivity Study | Litcius