Your search keyword '"Gerland, S."' showing total 3 results

1. Regional melt-pond fraction and albedo of thin Arctic first-year drift ice in late summer.

Author

Divine, D. V., Granskog, M. A., Hudson, S. R., Pedersen, C. A., Karlsen, T. I., Divina, S. A., Renner, A. H. H., and Gerland, S.

Subjects

SEA ice, GLACIAL melting, ALBEDO, GENERAL circulation model, ICE sheets

Abstract

The paper presents a case study of the regional (≈150 km) morphological and optical properties of a relatively thin, 70–90 cm modal thickness, first-year Arctic sea ice pack in an advanced stage of melt. The study combines in situ broadband albedo measurements representative of the four main surface types (bare ice, dark melt ponds, bright melt ponds and open water) and images acquired by a helicopter-borne camera system during ice-survey flights. The data were collected during the 8-day ICE12 drift experiment carried out by the Norwegian Polar Institute in the Arctic, north of Svalbard at 82.3°N, from 26 July to 3 August 2012. A set of>10 000 classified images covering about 28 km2 revealed a homogeneous melt across the study area with melt-pond coverage of ≈0.29 and open-water fraction of ≈0.11. A decrease in pond fractions observed in the 30 km marginal ice zone (MIZ) occurred in parallel with an increase in open-water coverage. The moving block bootstrap technique applied to sequences of classified sea-ice images and albedo of the four surface types yielded a regional albedo estimate of 0.37 (0.35; 0.40) and regional sea-ice albedo of 0.44 (0.42; 0.46). Random sampling from the set of classified images allowed assessment of the aggregate scale of at least 0.7 km2 for the study area. For the current setup configuration it implies a minimum set of 300 images to process in order to gain adequate statistics on the state of the ice cover. Variance analysis also emphasized the importance of longer series of in situ albedo measurements conducted for each surface type when performing regional upscaling. The uncertainty in the mean estimates of surface type albedo from in situ measurements contributed up to 95% of the variance of the estimated regional albedo, with the remaining variance resulting from the spatial inhomogeneity of sea-ice cover. [ABSTRACT FROM AUTHOR]

Published

2015

2. Comparison of feature based segmentation of full polarimetric SAR satellite sea ice images with manually drawn ice charts.

Author

Moen, M. -A. N., Doulgeris, A. P., Anfinsen, S. N., Renner, A. H. H., Hughes, N., Gerland, S., and Eltoft, T.

Subjects

SEA ice, SYNTHETIC aperture radar, RADAR signal processing, INSPECTION & review, AUTOMATIC differentiation

Abstract

In this paper we investigate the performance of an algorithm for automatic segmentation of full polarimetric, synthetic aperture radar (SAR) sea ice scenes. The algorithm uses statistical and polarimetric properties of the backscattered radar signals to segment the SAR image into a specified number of classes. This number was determined in advance from visual inspection of the SAR image and by available in situ measurements. The segmentation result was then compared to ice charts drawn by ice service analysts. The comparison revealed big discrepancies between the charts of the analysts, and between the manual and the automatic segmentations. In the succeeding analysis, the automatic segmentation chart was labeled into ice types by sea ice experts, and the SAR features used in the segmentation were interpreted in terms of physical sea ice properties. Utilizing polarimetric information in sea ice charting will increase the efficiency and exactness of the maps. The number of classes used in the segmentation has shown to be of significant importance. Thus, studies of automatic and robust estimation of the number of ice classes in SAR sea ice scenes will be highly relevant for future work. [ABSTRACT FROM AUTHOR]

Published

2013

3. Brief Communication: Ikaite (CaCO3.6H2O) discovered in Arctic sea ice.

Author

Dieckmann, G. S., Nehrke, G., Uhlig, C., J. Göttlicher, Gerland, S., Granskog, M. A., and Thomas, D. N.

Subjects

CALCIUM carbonate, CARBON cycle, SPATIAL ability, CARBON dioxide & the environment

Abstract

The article presents the study which investigates the calcium carbonate crystals as ikaite in sea ice from the Arctic Ocean. It mentions that the discovery suggest that the precipitation of calcium carbonate during the freezing of sea ice is not restricted to the ocean. Based from the observation, the researcher come up with a conclusion that it is a important to quantify the impact on the sea ice driven by carbon cycle.

Published

2010