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J ournal OF Sedimentary Petrology, Vol. 41, No.1 (1971), 60-68
A TEST OF VALIDITY OF QUARTZ GRAIN ORIENTATION AS
A PALEOCURRENT AND PALEOENVJRONMENTAL INDICATOR
I.P. MARTINI
Department of Soil Science, University of Guelph, Guelph,
Ontario
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 The analysis of quartz grain orientation in a set of 261 thin
sections obtained from the Thorold and Grimsby Sandstones (Silurian, S. W.
Ontario and New York State) indicates that: (1) The number of measurements
needed for a petrographic analysis of grain orientation varies from 50-100 in
thin sections cut perpendicular to the depositional surface, to 150-250 in thin
sections cut parallel to the depositional surface. (2) Preferred grain
imbrications are encountered in the vast majority of the samples examined,
regardless of the direction of cut of the vertical thin sections with respect to
the vector mean of the grain orientation measured parallel to the depositional
surface (H). However, the vertical thin sections cut parallel to the vector mean
of the H-grain orientation show a tendency to have an average imbrication value
significantly different from zero, hence usable for paleocurrent determinations.
(3) Non-significant grain orientation distributions are useful in focusing
attention on sedimentological characteristics needed for paleoenvironmental
reconstructions. (4) Erroneous results are obtained by considering the principal
bedding surface as the reference plane for the grain imbrications of apparently
massive beds when these are in fact, cross-bedded units. The grain imbrication
populations measured in apparently massive beds are a mixture of grain
imbrications and of H -grain orientations. The vector means of such a grain
imbrication populations cannot be utilized for paleocurrent determinations. The
vector means of the H-grain orientation of the massive beds can, instead, be
utilized as valid line of movement data although, in this case, the possibility
exists of accepting a non-preferred grain orientation as a significant one.
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