Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021

DTU Sustain has conducted soil classification experiments on permafrost cores, extracted during summer 2018 and spring 2021, from boreholes located in Ilulissat. These laboratory investigations included frozen state description of the cores, determination of bulk properties, ice saturation, pore wat...

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Bibliographic Details
Main Authors: Scheer, Johanna, Ingeman-Nielsen, Thomas
Format: Book
Language:English
Published: DTU Sustain 2023
Subjects:
Ilulissat
Ice
permafrost
Online Access:https://orbit.dtu.dk/en/publications/8dd15fb6-1cc5-4979-92a5-9a3574b9d70c
https://backend.orbit.dtu.dk/ws/files/311599680/Scheer_Ingeman_Nielsen_2023_Classification_of_frozen_cores_from_Ilulissat_Greenland_Boreholes_drilled_in_2018_and_2021.pdf
id ftdtupubl:oai:pure.atira.dk:publications/8dd15fb6-1cc5-4979-92a5-9a3574b9d70c
record_format openpolar
spelling ftdtupubl:oai:pure.atira.dk:publications/8dd15fb6-1cc5-4979-92a5-9a3574b9d70c 2023-05-15T16:36:46+02:00 Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021 Scheer, Johanna Ingeman-Nielsen, Thomas 2023 application/pdf https://orbit.dtu.dk/en/publications/8dd15fb6-1cc5-4979-92a5-9a3574b9d70c https://backend.orbit.dtu.dk/ws/files/311599680/Scheer_Ingeman_Nielsen_2023_Classification_of_frozen_cores_from_Ilulissat_Greenland_Boreholes_drilled_in_2018_and_2021.pdf eng eng DTU Sustain info:eu-repo/semantics/openAccess Scheer , J & Ingeman-Nielsen , T 2023 , Classification of frozen cores from Ilulissat, Greenland : Boreholes drilled in 2018 and 2021 . DTU Sustain , Kgs. Lyngby . book 2023 ftdtupubl 2023-03-09T00:01:08Z DTU Sustain has conducted soil classification experiments on permafrost cores, extracted during summer 2018 and spring 2021, from boreholes located in Ilulissat. These laboratory investigations included frozen state description of the cores, determination of bulk properties, ice saturation, pore water salinity, organic content and grain density, and grain size distribution analyses. In early spring 2021, cores were retrieved in the field when the active layer was still frozen. Results from the laboratory experiments show that samples from the active layer generally have a lower water content. The top of permafrost is characterized by very ice rich material, while the ice content decreases at greater depths. Pore water salinity is very low or negligible within the active layer and oppositely increases with depth. In comparison, cores were retrieved when the active layer was unfrozen in summer 2018. Samples from the active layer have a higher water content than frozen samples collected in 2021 at comparable depths. Similarly to the borehole profiles from 2021, ice rich layers are observed at the permafrost table, and the ground ice content decreases with depth in conjunction with rising pore water salinity. Book Ice Ilulissat permafrost Technical University of Denmark: DTU Orbit Ilulissat ENVELOPE(-51.099,-51.099,69.220,69.220)
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description DTU Sustain has conducted soil classification experiments on permafrost cores, extracted during summer 2018 and spring 2021, from boreholes located in Ilulissat. These laboratory investigations included frozen state description of the cores, determination of bulk properties, ice saturation, pore water salinity, organic content and grain density, and grain size distribution analyses. In early spring 2021, cores were retrieved in the field when the active layer was still frozen. Results from the laboratory experiments show that samples from the active layer generally have a lower water content. The top of permafrost is characterized by very ice rich material, while the ice content decreases at greater depths. Pore water salinity is very low or negligible within the active layer and oppositely increases with depth. In comparison, cores were retrieved when the active layer was unfrozen in summer 2018. Samples from the active layer have a higher water content than frozen samples collected in 2021 at comparable depths. Similarly to the borehole profiles from 2021, ice rich layers are observed at the permafrost table, and the ground ice content decreases with depth in conjunction with rising pore water salinity.
format Book
author Scheer, Johanna
Ingeman-Nielsen, Thomas
spellingShingle Scheer, Johanna
Ingeman-Nielsen, Thomas
Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021
author_facet Scheer, Johanna
Ingeman-Nielsen, Thomas
author_sort Scheer, Johanna
title Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021
title_short Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021
title_full Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021
title_fullStr Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021
title_full_unstemmed Classification of frozen cores from Ilulissat, Greenland:Boreholes drilled in 2018 and 2021
title_sort classification of frozen cores from ilulissat, greenland:boreholes drilled in 2018 and 2021
publisher DTU Sustain
publishDate 2023
url https://orbit.dtu.dk/en/publications/8dd15fb6-1cc5-4979-92a5-9a3574b9d70c
https://backend.orbit.dtu.dk/ws/files/311599680/Scheer_Ingeman_Nielsen_2023_Classification_of_frozen_cores_from_Ilulissat_Greenland_Boreholes_drilled_in_2018_and_2021.pdf
long_lat ENVELOPE(-51.099,-51.099,69.220,69.220)
geographic Ilulissat
geographic_facet Ilulissat
genre Ice
Ilulissat
permafrost
genre_facet Ice
Ilulissat
permafrost
op_source Scheer , J & Ingeman-Nielsen , T 2023 , Classification of frozen cores from Ilulissat, Greenland : Boreholes drilled in 2018 and 2021 . DTU Sustain , Kgs. Lyngby .
op_rights info:eu-repo/semantics/openAccess
_version_ 1766027103070846976

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