Ultraviolet albedo and transmittance values for (A) thin (03 m) bare sea; (B) cold 16 m thick ice with a 01 m deep snow cover in April; (C) bare 17 m thick ice in May; and, (D) ponded ice with 01 m of water over 15 m thick ice

Ultraviolet albedo and transmittance values for (A) thin (03 m) bare sea; (B) cold 16 m thick ice with a 01 m deep snow cover in April; (C) bare 17 m thick ice in May; and, (D) ponded ice with 01 m of water over 15 m thick ice (map/graphic/illustration)

Click here, or on the graphic, for full resolution.
Ultraviolet albedo and transmittance values for (A) thin (03 m) bare sea; (B) cold 16 m thick ice with a 01 m deep snow cover in April; (C) bare 17 m thick ice in May; and, (D) ponded ice with 01 m of water over 15 m thick ice
Sources Title (cont.) A) was measured in the laboratory and (B), (C) and (D) were measured in shorefast first-year ice near Barrow, Alaska (Perovich 1993). Perovich, D.K., 1993. A theoretical model of ultraviolet light transmission through Antarctic sea ice. J. Geophys. Res. 98: 22579-22587. (AAR Figure 11.19)
Cartographer/
Designer
Graphical production: Philippe Rekacewicz and Emmanuelle Bournay (GRID-Arendal)
Appears in AMAP Assessment Report: Arctic Pollution Issues
Published 1998
Feedback/Comment/Inquiry Contact webmaster
Search for other graphics With related subjects
Covering the same geographic area
Available Downloads
(please review use constraints above)
jpg file Download this graphic in jpg format, 43 KB , suitable for web-sites, documents or presentations.
Citation/Reference
Use constraints
Please refer to the AMAP policy regarding use and reproduction of AMAP maps and graphics