Radar stratigraphy of the glaciotectonically deformed deposits in the Isoniemi area, Haukipudas, Finland

The study of deposits in the central areas of Weichselian Scandinavian Ice Sheet (SIS) is im-portant for understanding behaviour of the ice sheet. This study provides new information on the deposits in the previously poorly known glaciofluvial Isoniemi complex in Haukipu-das, Finland, located in the...

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Bibliographic Details
Main Author: Antti Pasanen
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
Corresponding author
Rip
Ice Sheet
Sea ice
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.567.6200
http://www.geologinenseura.fi/bulletin/Volume81/Pasanen_2009.pdf
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Summary:The study of deposits in the central areas of Weichselian Scandinavian Ice Sheet (SIS) is im-portant for understanding behaviour of the ice sheet. This study provides new information on the deposits in the previously poorly known glaciofluvial Isoniemi complex in Haukipu-das, Finland, located in the central part of SIS. The deposits are studied using ground pen-etrating radar (GPR) to delineate the depositional and glaciotectonic environments and events that have occurred in the area. The results are interpreted using the principles of ra-dar stratigraphy and correlated with an earlier sedimentological study from the area. Bore-hole logs of old boreholes made for ground water and aggregate investigations are used as an aid in the interpretation alongside the previously obtained sedimentological data. GPR data show 10 radar facies separated by seven radar surfaces. The sequence of events inter-preted from GPR data and earlier sedimentological study include: 1) deposition of the gla-ciofluvial sediments, 2) deposition of till and the first stage of deformation by an advancing glacier, 3) retreat of the glacier, and cutting and infilling of the proglacial channels, 4) progla-cial deformation forming the Runteli ridge, 5) glacioisostatic uplift close to the water level, 6) possible forming of the rip current channels and 7) reworking of the earlier sediments by wave and sea-ice action.

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