Detection of sedimentary cyclicity and stratigraphic completeness by wavelet analysis: An application to Late Albian cyclostratigraphy of the WesternCanada Sedimentary Basin
A. Prokoph et Fp. Agterberg, Detection of sedimentary cyclicity and stratigraphic completeness by wavelet analysis: An application to Late Albian cyclostratigraphy of the WesternCanada Sedimentary Basin, J SED RES, 69(4), 1999, pp. 862-875
On the basis of the time-frequency scaling property of the wavelet transfor
m, accumulation rates and stratigraphic completeness can be calculated for
various observation time spans (ot) by using wavelet analysis. Wavelet anal
ysis also allows automatic detection of high-frequency sedimentary cyclicit
y, and abrupt and gradual variations in sedimentation rate. The preservatio
n of different frequency cycles is strongly dependent on variations of the
intensity-to-noise ratio of the original cycles and accumulation rate throu
gh time, as demonstrated by computer models.
Wavelet analysis was used to detect and correlate periodic-cyclic successio
ns of marine sediments in the Western Canada Sedimentary Basin in observati
on time spans ranging from 100 kyr to 3.8 Myr. Cycles in gamma-ray data are
in accordance with sonic logging, lithology, and biotic change. Cyclic uni
ts embedded in the upper Albian Westgate and Joli Fou Formations are almost
periodic with 11 and 10 repetitions, respectively. Accumulation rates at o
t = 100 kyr vary from 5-7 cm/kyr in mudstone successions to 29 cm/kyr in sa
ndstone successions of the Rocky Mountains Foothills, These 100 kyr cycles
are preserved from 30% in the Manitoba Escarpment to 100% in SE Alberta in
the Westgate Formation.
These cycles can be correlated throughout facies belts of siliciclastic sed
imentation in the entire basin, In gamma-ray logging the cyclicity is most
pronounced in the foredeep succession and almost without fluctuations in th
e basin center. Cyclic changes from wet to dry climate probably forced by M
ilankovitch cycles of 100 kyr eccentricity may have controlled the stable p
eriodic sedimentary cyclicity.