Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic

Sea ice melt processes during the Arctic summer affect the sea-air-interactions dramatically. The determination of puddles and quantification their morphology, size distribution and life cycle provides important information to the study of physical processes of sea ice, heat budget, total ice concen...

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Bibliographic Details
Main Authors: El Naggar, Saad El Dine, Garrity, C., Ramseier, R.
Format: Conference Object
Language:unknown
Published: 1995
Subjects:
Arctic
Sea ice
Online Access:https://epic.awi.de/id/eprint/7460/
https://hdl.handle.net/10013/epic.18004
id ftawi:oai:epic.awi.de:7460
record_format openpolar
spelling ftawi:oai:epic.awi.de:7460 2023-09-05T13:15:47+02:00 Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic El Naggar, Saad El Dine Garrity, C. Ramseier, R. 1995 https://epic.awi.de/id/eprint/7460/ https://hdl.handle.net/10013/epic.18004 unknown El Naggar, S. E. D. , Garrity, C. and Ramseier, R. (1995) Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic , IAPSO Proceedings XXI General Assembly, Number 19 . hdl:10013/epic.18004 EPIC3IAPSO Proceedings XXI General Assembly, Number 19, 307 p. Conference notRev 1995 ftawi 2023-08-22T19:46:44Z Sea ice melt processes during the Arctic summer affect the sea-air-interactions dramatically. The determination of puddles and quantification their morphology, size distribution and life cycle provides important information to the study of physical processes of sea ice, heat budget, total ice concentration etc.During the summer cruise of ARK IX/2 and 3 of the RV "POLARSTERN" in June and July 1993, a helicopter survey of sea ice for different times and locations was carried out using a Line Scan Camera (LSC) with a reselution of 2 m^2. An area between 78°N-82°N and 2°E-14°W was covered.Indication of the appearance of free water within the snow pack is usually observed in the surface layers first. This occurred on day 146 (26 May) ranging in the amount of free water present between 0.5 and 2.5%. The first melt puddles on first year ice (FY) were visually observed on June 13 day 164. The subsequent indication of the general onset of melt occurred on 17 June (Julian day 168) in the polynya region as observed on the SSM/I ice charts. This continues for about a week (Julian day 175) until the free water has increased to 6-10% within the surface layer. This period of significant free water production through melt processes coincides with a sharp increase in the melt puddles coverage, based on visual observations from the helicopter, going from 3% (Julian day 164) to 10-80% melt water on FY ice (Julian day 185-190) and 30-40% melt puddles on old ice for the same period. About 10-15 days after the brightness temperature reaches nearly black body behaviour, the maximum melt puddles coverage is reached. The refreezing period started at the end of July. The minimum of puddles concentration was detected between 80°N and 81°N. No other geographical correlation was found.Size of the puddles was between 2 m2 to more than 1 km2 and the depth was between a few centimeters to full thickness of the ice floe (thaw hole). The maximum frequency of the puddles size distribution was by a 1000 m2 category at the beginning, then shifted ... Conference Object Arctic Arctic Sea ice Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Arctic
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description Sea ice melt processes during the Arctic summer affect the sea-air-interactions dramatically. The determination of puddles and quantification their morphology, size distribution and life cycle provides important information to the study of physical processes of sea ice, heat budget, total ice concentration etc.During the summer cruise of ARK IX/2 and 3 of the RV "POLARSTERN" in June and July 1993, a helicopter survey of sea ice for different times and locations was carried out using a Line Scan Camera (LSC) with a reselution of 2 m^2. An area between 78°N-82°N and 2°E-14°W was covered.Indication of the appearance of free water within the snow pack is usually observed in the surface layers first. This occurred on day 146 (26 May) ranging in the amount of free water present between 0.5 and 2.5%. The first melt puddles on first year ice (FY) were visually observed on June 13 day 164. The subsequent indication of the general onset of melt occurred on 17 June (Julian day 168) in the polynya region as observed on the SSM/I ice charts. This continues for about a week (Julian day 175) until the free water has increased to 6-10% within the surface layer. This period of significant free water production through melt processes coincides with a sharp increase in the melt puddles coverage, based on visual observations from the helicopter, going from 3% (Julian day 164) to 10-80% melt water on FY ice (Julian day 185-190) and 30-40% melt puddles on old ice for the same period. About 10-15 days after the brightness temperature reaches nearly black body behaviour, the maximum melt puddles coverage is reached. The refreezing period started at the end of July. The minimum of puddles concentration was detected between 80°N and 81°N. No other geographical correlation was found.Size of the puddles was between 2 m2 to more than 1 km2 and the depth was between a few centimeters to full thickness of the ice floe (thaw hole). The maximum frequency of the puddles size distribution was by a 1000 m2 category at the beginning, then shifted ...
format Conference Object
author El Naggar, Saad El Dine
Garrity, C.
Ramseier, R.
spellingShingle El Naggar, Saad El Dine
Garrity, C.
Ramseier, R.
Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic
author_facet El Naggar, Saad El Dine
Garrity, C.
Ramseier, R.
author_sort El Naggar, Saad El Dine
title Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic
title_short Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic
title_full Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic
title_fullStr Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic
title_full_unstemmed Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic
title_sort sea ice meltpond morphology and size distribution as determined from line scan camera local measurements in the arctic
publishDate 1995
url https://epic.awi.de/id/eprint/7460/
https://hdl.handle.net/10013/epic.18004
geographic Arctic
geographic_facet Arctic
genre Arctic
Arctic
Sea ice
genre_facet Arctic
Arctic
Sea ice
op_source EPIC3IAPSO Proceedings XXI General Assembly, Number 19, 307 p.
op_relation El Naggar, S. E. D. , Garrity, C. and Ramseier, R. (1995) Sea Ice Meltpond Morphology and Size Distribution as Determined from Line Scan Camera Local Measurements in the Arctic , IAPSO Proceedings XXI General Assembly, Number 19 . hdl:10013/epic.18004
_version_ 1776197610022895616

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