2017
DOI: 10.5194/tc-11-755-2017
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Signature of Arctic first-year ice melt pond fraction in X-band SAR imagery

Abstract: Abstract. In this paper we investigate the potential of melt pond fraction retrieval from X-band polarimetric synthetic aperture radar (SAR) on drifting first-year sea ice. Melt pond fractions retrieved from a helicopter-borne camera system were compared to polarimetric features extracted from four dual-polarimetric X-band SAR scenes, revealing significant relationships. The correlations were strongly dependent on wind speed and SAR incidence angle. Copolarisation ratio was found to be the most promising SAR f… Show more

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Cited by 19 publications
(33 citation statements)
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“…Overall, our correlation values are not as high as those found by Scharien et al [24], which may be the result of their object-based approach versus our polygon-based approach. In comparison to Fors et al [23], we find higher correlations for H, α, ρ and φ at FR, but lower correlations for H, α, ρ and φ at NR. Given that their X-band correlations are for sea ice with existing melt ponds, versus our C-band correlations for snow covered sea ice during winter, discrepancies are not unexpected.…”
Section: Relationship Between Winter Sar Backscatter and Pond Fractioncontrasting
confidence: 90%
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“…Overall, our correlation values are not as high as those found by Scharien et al [24], which may be the result of their object-based approach versus our polygon-based approach. In comparison to Fors et al [23], we find higher correlations for H, α, ρ and φ at FR, but lower correlations for H, α, ρ and φ at NR. Given that their X-band correlations are for sea ice with existing melt ponds, versus our C-band correlations for snow covered sea ice during winter, discrepancies are not unexpected.…”
Section: Relationship Between Winter Sar Backscatter and Pond Fractioncontrasting
confidence: 90%
“…Scharien et al [22] report on the usefulness of co-polarization and cross-polarization ratios in estimating f p during ponding using RADARSAT-2 quad-pol data; their RMSE values range from 0.05 to 0.43. Using TerraSAR-X, Fors et al [23] also find the co-polarization ratio useful during the ponding stage, at intermediate wind speeds, with an RMSE is 0.4; they also evaluate four polarimetric parameters and find reasonable correlations. To evaluate prediction of f p from winter images, Scharien et al [24,25] use ENVISAT-ASAR and Sentinel-1 co-and cross-polarized backscatter and texture measures thereof.…”
Section: Of 21mentioning
confidence: 97%
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“…Gulf of Boothia) are associated with lower f pk values. We should expect a lower f pk over MYI regions compared to FYI regions (Grenfell and Perovich, 2004;, and indeed the overall spatial distribution of RADARSAT-2 f pk is in excellent agreement with the spatial distribution of sea ice stage of development prior to the melt season for all years. Figure 5a shows the time series of RADARSAT-2 f pk variability together with mean April MYI area in the CAA from 2009-2018.…”
Section: Estimating F Pk From Radarsat-2supporting
confidence: 68%
“…Specifically, the accumulation of meltwater on the surface of the sea ice lowers the albedo from ∼ 0.8 to between 0.2-0.4 and enhances melt . The topographical constraints over multi-year ice (MYI) imposed by hummocks typically result in MYI exhibiting a lower melt pond fraction (f p ) compared to seasonal first-year ice (FYI) (Grenfell and Perovich, 2004;Polashenski et al, 2012;Landy et al, 2015). With Arctic sea ice transitioning from a MYI-to FYIdominated icescape (Maslanik et el., 2011), the lower f p of MYI will gradually be replaced with the higher f p of FYI, facilitating even more sea ice energy absorption and further enhancing sea ice melt (Perovich and .…”
Section: Introductionmentioning
confidence: 99%