Large Meteorite Impacts and Planetary Evolution IV
Architecture of the northeastern rim of the Kärdla impact crater, Estonia, based on ground-penetrating radar studies
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Published:September 01, 2010
A ground-penetrating radar (GPR) survey was carried out in order to characterize reflection patterns at Paluküla Hill, at the NE portion of the rim of the 4-km-diameter, Upper Ordovician Kärdla impact crater. The results allow us to distinguish between the Quaternary overburden and layered postimpact marine sedimentary rocks that cover the crystalline rim. The bedrock is indicated by reflections parallel to bedding that are tilted inward and outward with respect to the crater along the inner and outer rim slope, respectively. It is obvious that the uppermost part of the Paluküla crystalline rim was eroded and leveled in the Late Ordovician prior to having been covered by subhorizontally layered sediments. The unexpected position and low height of the crystalline rim at the northernmost edge of Paluküla Hill indicate that the rim of the Kärdla structure has collapsed to different degrees. This is consistent with the different heights of the crystalline rim. Our results favor the interpretation that the observed geology is not due to erosion by sea resurging into the crater but is rather a result of collapse of the crater rim.
- Baltic region
- bedding
- carbonate rocks
- Cenozoic
- crystalline rocks
- erosion
- Estonia
- Europe
- geophysical surveys
- ground-penetrating radar
- impact craters
- impact features
- layered materials
- Ordovician
- overburden
- Paleozoic
- planar bedding structures
- Quaternary
- radar methods
- resurgence
- sedimentary cover
- sedimentary rocks
- sedimentary structures
- surveys
- Upper Ordovician
- Kardla Crater
- Palukula Hill