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Sea Ice in the Paleoclimate System: the Challenge of Reconstructing Sea Ice from Proxies
Eds: de Vernal A, Gersonde R, Goosse H, Seidenkrantz M-S & Wolff EW
Quaternary Science Reviews
79
1-230
2013
This special issue contains a set of papers addressing various sea ice proxies and their application to large scale sea ice reconstruction. It is a contribution by the PAGES Sea Ice Proxy (SIP) working group and is partly an outcome of a workshop held at GEOTOP in Montréal in March 2012.
> Sea ice in the paleoclimate system: the challenge of reconstructing sea ice from proxies – an introduction [p.1]
de Vernal A, Gersonde R, Goosse H, Seidenkrantz M-S & Wolff EW
> The Arctic sea ice biomarker IP25: a review of current understanding, recommendations for future research and applications in palaeo sea ice reconstructions [p.9]
Belt ST & Müller J
> Mapping recent sea ice conditions in the Barents Sea using the proxy biomarker IP25: implications for palaeo sea ice reconstructions [p.26]
Navarro-Rodriguez A, Belt ST, Knies J & Brown TA
> Biomarker distributions in surface sediments from the Kara and Laptev seas (Arctic Ocean): indicators for organic-carbon sources and sea-ice coverage [p.40]
Xiao X, Fahl K & Stein R
> Evaluation of the sea ice proxy IP25 against observational and diatom proxy data in the SW Labrador Sea [p.53]
Weckström K, Massé G, Collins LG, Hanhijärvi S, Bouloubassi I, Sicre M-A, Seidenkrantz M-S, Schmidt S, Andersen TJ, Andersen ML, Hill B & Kuijpers A
> Insights into Circum-Arctic sea ice variability from molecular geochemistry [p.63]
Stoynova V, Shanahan TM, Hughen KA & Vernal Ad
> Identification of contrasting seasonal sea ice conditions during the Younger Dryas [p.74]
Cabedo-Sanz P, Belt ST, Knies J & Husum K
> Evaluating highly branched isoprenoid (HBI) biomarkers as a novel Antarctic sea-ice proxy in deep ocean glacial age sediments [p.87]
Collins LG, Allen CS, Pike J, Hodgson DA, Weckström K & Massé G
> Diatoms and biomarkers evidence for major changes in sea ice conditions prior the instrumental period in Antarctic Peninsula [p.99]
Barbara L, Crosta X, Schmidt S & Massé G
> Dinocyst-based reconstructions of sea ice cover concentration during the Holocene in the Arctic Ocean, the northern North Atlantic Ocean and its adjacent seas [p.111]
de Vernal A, Hillaire-Marcel C, Rochon A, Fréchette B, Henry M, Solignac S & Bonnet S
> Reconstructing past sea ice cover of the Northern Hemisphere from dinocyst assemblages: status of the approach [p.122]
de Vernal A, Rochon A, Fréchette B, Henry M, Radi T & Solignac S
> Benthic foraminifera as palaeo sea-ice indicators in the subarctic realm – examples from the Labrador Sea–Baffin Bay region [p.135]
Seidenkrantz M-S
> Quaternary history of sea ice in the western Arctic Ocean based on foraminifera [p.145]
Polyak L, Best KM, Crawford KA, Council EA & St-Onge G
> A 600-ka Arctic sea-ice record from Mendeleev Ridge based on ostracodes [p.157]
Cronin TM, Polyak L, Reed D, Kandiano ES, Marzen RE & Council EA
> A review of sea ice proxy information from polar ice cores [p.168]
Abram NJ, Wolff EW & Curran MAJ
> Geochemical and isotopic tracers of Arctic sea ice sources and export with special attention to the Younger Dryas interval [p.184]
Hillaire-Marcel C, Maccali J, Not C & Poirier A
> Modelling past sea ice changes [p.191]
Goosse H, Roche DM, Mairesse A & Berger M
> Role of sea ice in global biogeochemical cycles: emerging views and challenges [p.207]
Vancoppenolle M, Meiners KM, Michel C, Bopp L, Brabant F, Carnat G, Delille B, Lannuzel D, Madec G, Moreau S, Tison J-L & Merwe Pvd