Antarctic sea ice #1: physical role and function

Sea ice comprising frozen seawater in the form of both moving pack ice and stationary coastal landfast ice ( fast ice ) is of major climatic, ecological and societal importance in that it: forms a bright surface that strongly reflects incoming solar radiation (the albedo effect) to moderate the equa...

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Bibliographic Details
Main Authors: Clem, K, Massom, R, Stammerjohn, S, Reid, P
Format: Text
Language:English
Published: SCAR 2022
Subjects:
Online Access:https://environments.aq/publications/antarctic-sea-ice-1-physical-role-and-function/
https://doi.org/10.48361/tqhw-c793
http://ecite.utas.edu.au/154020
Description
Summary:Sea ice comprising frozen seawater in the form of both moving pack ice and stationary coastal landfast ice ( fast ice ) is of major climatic, ecological and societal importance in that it: forms a bright surface that strongly reflects incoming solar radiation (the albedo effect) to moderate the equator-to-pole temperature gradient, which in turn influences large-scale atmospheric and oceanic circulation; strongly influences ocean-atmosphere interactions by forming an insulative substrate and physical barrier that reduces and/or modifies air-sea exchanges of heat and water vapour and the transfer of momentum (wind energy) to mix the upper ocean; is a major contributor to global ocean (thermohaline) circulation through the production of dense (cold and salty) water during its formation, leading in places to the generation of Antarctic Bottom Water; modulates the ocean freshwater budget, and regulates the properties and structure of the atmosphere and ocean (including upper-ocean stratification and deep-ocean ventilation); interacts with floating ice-sheet margins (including ice shelves) and influences ice-shelf basal melt and stability and iceberg calving; is a major habitat and crucial component of the marine ecosystem (see Antarctic Sea Ice #2 ); and forms a biogeochemically-active substrate that plays a key role in the atmosphere-ocean exchange, storage and cycling of climate-relevant gases, including carbon dioxide (CO 2 ), dimethyl sulphide (DMS) and methane (CH 4 ) (see Antarctic Sea Ice #2 ). Each year around Antarctica, sea ice transforms a vast area of the surface of the Southern Ocean, covering up to 19-20 million km 2 at its maximum extent in September (~4% of Earths surface) before diminishing to 2-4 million km 2 in February. This remarkable annual cycle has an immense influence on the Southern Ocean environment and beyond. The sea ice also accumulates snowfall, which substantially influences its physical and optical properties, its growth and decay, and its interactions with other parts of the ...