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Tuesday, January 1, 2013

"Changes in Arctic sea ice result in increasing light transmittance and absorption," by M. Nicolaus et al., GRL 39 (2012); doi:10.1029/2012GL053738


Geophysical Research Letters, 39 (2012) L24501; doi:10.1029/2012GL053738
Changes in Arctic sea ice result in increasing light transmittance and absorption
Key Points
  • Light penetration into the ocean will increase in a changing Arctic
  • Transmittance through first-year ice is 3x larger than through multi-year ice
  • Energy absorption is 50% larger in first-year ice than in multi-year ice
M. Nicolaus and C. Katlein (Alfred Wegener Institute for Polar and Marine Research, Bremerhaven, Germany), J. Maslanik (Department of Aerospace Engineering Sciences, University of Colorado Boulder, Boulder, CO, U.S.A.) and S. Hendricks (Alfred Wegener Institute for Polar and Marine Research, Bremerhaven, Germany)

Abstract

Arctic sea ice has declined and become thinner and younger (more seasonal) during the last decade. One consequence of this is that the surface energy budget of the Arctic Ocean is changing. While the role of surface albedo has been studied intensively, it is still widely unknown how much light penetrates through sea ice into the upper ocean, affecting sea-ice mass balance, ecosystems, and geochemical processes. Here we present the first large-scale under-ice light measurements, operating spectral radiometers on a remotely operated vehicle (ROV) under Arctic sea ice in summer. This data set is used to produce an Arctic-wide map of light distribution under summer sea ice. Our results show that transmittance through first-year ice (FYI, 0.11) was almost three times larger than through multi-year ice (MYI, 0.04), and that this is mostly caused by the larger melt-pond coverage of FYI (42 vs. 23%). Also energy absorption was 50% larger in FYI than in MYI. Thus, a continuation of the observed sea-ice changes will increase the amount of light penetrating into the Arctic Ocean, enhancing sea-ice melt and affecting sea-ice and upper-ocean ecosystems.


Please see especially Figure 3 at the link below.

Received 4 September 2012; accepted 19 November 2012; published 29 December 2012.

http://www.agu.org/pubs/crossref/2012/2012GL053738.shtml

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