Lead classification maps from helicopter-borne surface temperatures during the MOSAiC expedition

Leads (open water and thin ice) were classified in helicopter-borne thermal infrared observations. Lead classification maps, gridded in 1 m resolution, are provided for 35 flights between 02.10.2019 and 23.04.2020 during the MOSAiC expedition in the Arctic ocean. There is one file for every flight,...

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Bibliographic Details
Main Authors: Thielke, Linda, Huntemann, Marcus, Spreen, Gunnar
Format: Dataset
Language:English
Published: PANGAEA 2022
Subjects:
20191002_01
20191020_01
20191029_01
20191105_01
20191112_01
20191112_02
20191119_01
20191130_01
20191206_01
20191224_01
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20200423_01
AC3
Arctic
Arctic Amplification
Arctic Ocean
ArcTrain
HELI
Helicopter
IceSense
leads
MOSAiC
MOSAiC20192020
Multidisciplinary drifting Observatory for the Study of Arctic Climate
Polarstern
Processes and impacts of climate change in the North Atlantic Ocean and the Canadian Arctic
PS122/1
Climate change
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.951569
https://doi.org/10.1594/PANGAEA.951569
Description
Summary:Leads (open water and thin ice) were classified in helicopter-borne thermal infrared observations. Lead classification maps, gridded in 1 m resolution, are provided for 35 flights between 02.10.2019 and 23.04.2020 during the MOSAiC expedition in the Arctic ocean. There is one file for every flight, either on a local (MOSAiC central observatory) or regional scale (MOSAiC distributed network). The flights can be identified by two campaign specific IDs (the event-related Device Operation label or Flight ID). The lead classification maps are derived from the surface temperature maps (doi:10.1594/PANGAEA.941017) as described in Thielke et al (in preparation). The 5 m resolution data (based on block averaged surface temperature) are included to provide data with a smaller file size so they are easier accessible and available for the comparison of the effect of different spatial resolutions. The binary lead classification is performed with a temperature threshold. In this data set, in addition to the lead classification maps, also the surface temperature and time-fixed surface temperature maps are included (the same data as included in the temperature maps: doi:10.1594/PANGAEA.941017). This time-fixed surface temperature is necessary to perform the classification and included for direct comparison to the lead classification result. All data are georeferenced, also as relative coordinates to the position of RV Polarstern which allows a Polarstern centered, Lagrangian view on the lead development.

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