reference : Observed Arctic sea-ice loss directly follows anthropogenic CO 2 emission

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/reference/9c6fbb6f-30a4-4b15-a2a1-6b6bb7960020
Bibliographic fields
reftype Journal Article
Abstract Arctic sea ice is disappearing rapidly, leading to predictions of an ice-free summer in the near future. Simulations of the timing of summer sea-ice loss differ substantially, making it difficult to evaluate the pace of the loss. Notz and Stroeve observed a linear relationship between the monthly-mean September sea-ice area and cumulative CO2 emissions. This allowed them to predict Arctic summer sea ice directly from the observational record. Interestingly, most models underestimate this loss.Science, this issue p. 747Arctic sea ice is retreating rapidly, raising prospects of a future ice-free Arctic Ocean during summer. Because climate-model simulations of the sea-ice loss differ substantially, we used a robust linear relationship between monthly-mean September sea-ice area and cumulative carbon dioxide (CO2) emissions to infer the future evolution of Arctic summer sea ice directly from the observational record. The observed linear relationship implies a sustained loss of 3 ± 0.3 square meters of September sea-ice area per metric ton of CO2 emission. On the basis of this sensitivity, Arctic sea ice will be lost throughout September for an additional 1000 gigatons of CO2 emissions. Most models show a lower sensitivity, which is possibly linked to an underestimation of the modeled increase in incoming longwave radiation and of the modeled transient climate response.
Author Notz, Dirk; Stroeve, Julienne
DOI 10.1126/science.aag2345
Issue 6313
Journal Science
Pages 747-750
Title Observed Arctic sea-ice loss directly follows anthropogenic CO 2 emission
Volume 354
Year 2016
Bibliographic identifiers
.reference_type 0
_record_number 21051
_uuid 9c6fbb6f-30a4-4b15-a2a1-6b6bb7960020