Rémi Charbonneau scite author profile

Rémi Charbonneau

4Publications

27Citation Statements Received

40Citation Statements Given

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Natural Resources Canada

Publications

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Glacial dispersal of rock debris in central Gaspésie, Quebec, Canada

Charbonneau¹,

David²

1993

Can. J. Earth Sci.

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The lithological content of tills in central Gaspésie is evaluated by pebble counting of 231 samples collected in excavation pits and containing 200 pebbles each. The results are used here to establish the pattern of debris dispersal and to infer the glacial history of the area. The dispersal pattern is characterized by well-defined southeasterly (160–170°) and northeasterly (40–60°) trending trains. Half-distance values of glacial transport along the trains range from 5 to 9 km for both directions, suggesting ice flow events of considerable magnitude. The volume of material in the trains represents 1–6 m of glacial erosion of the bedrock. Glacial cirques and short U-shaped valleys, about 100–200 m deep, are incised into the McGerrigle Mountains granite pluton as well as the adjacent metabasalt. The corresponding trains are aligned with these erosional features, indicating that their clast content was derived from those features during an early Alpine Glacier Phase. The southeasterly trending dispersal trains are associated with an invasion of central Gaspésie by the Laurentide Ice Sheet during the Early Wisconsinan, whereas the northeasterly trending trains are associated with a local centre of outflow over Gaspésie during the Late Wisconsinan.

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A shear‐diffusion model of till genesis based on the dispersal pattern of indicator rocks in the Grand‐Volume Till of central Gaspésie, Québec, Canada

Charbonneau¹,

David²

1995

Boreas

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Dispersal patterns of indicator rocks in central Gaspésie reveal that glacial debris is entrained in a basal debris‐rich zone of shearing where clast diffusion takes place. The Grand‐Volume Till forms a thin till sheet over the high plateaus of Gaspésie Peninsula and resulted from a succession of two Wisconsinan ice flows of distinct orientations (SSE and NE). The lithological composition of this till determined by pebble counts and the three‐dimensional dispersal patterns of indicator rocks in it suggest that debris transport occurred principally by simple shear deformation of glacial debris. In addition, the intermixing of clasts at the intersection of two lithologically distinct dispersal trains of SSE and NE orientations, respectively, suggests that extensive mixing takes place during shearing. Physical interactions among the clasts lead to both upward and downward movements which cause the clasts to diffuse across the zone of shearing. This process of shear‐diffusion results in continuous incorporation and mixing of the newly encountered rock types during glacial transport.

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Predicting Geographic Variations in Indoor Radon using Airborne Gamma - Ray Spectrometry

Doyle¹,

Grasty²,

Charbonneau

1990

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Stratigraphy and geochemistry of the McGerrigle granite trains of Gaspésie, Quebec

David¹,

Bédard

Charbonneau

1988

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