A. Strasser et al., Depositional sequences in shallow carbonate-dominated sedimentary systems:concepts for a high-resolution analysis, SEDIMENT GE, 128(3-4), 1999, pp. 201-221
Oxfordian and Berriasian sections representing shallow-water, carbonate-dom
inated sedimentary systems have been studied in the Swiss and French Jura,
in Spain, and in Normandy. They all display a hierarchical stacking of depo
sitional sequences. Facies evolution and stacking pattern allow to define e
lementary, small-scale, medium-scale, and large-scale sequences. Some depos
itional sequences display well-marked sequence boundaries, others are limit
ed by transgressive or maximum-flooding surfaces. The hierarchical organisa
tion of such sequence-stratigraphic elements implies that sea-level fluctua
tions were an important factor in their formation, and that these fluctuati
ons had different frequencies. The superposition of high-frequency sea-leve
l changes on a long-term sea-level trend leads to repetition of diagnostic
surfaces, defining sequence-boundary and maximum-flooding zones wherein the
corresponding high-frequency surfaces are well developed. Chronostratigrap
hic tie points permit us to estimate the duration of large-scale sequences.
This time control and the observed hierarchical stacking suggest that the
high-frequency sea-level changes were controlled by climatic cycles in the
Milankovitch frequency band. The variability of stacking pattern and facies
evolution between sections illustrates the complexity of the studied envir
onments. Furthermore, because of the minimal accommodation space available
in these shallow-water settings, much of the geologic time is not recorded.
Nevertheless, detailed analysis of the depositional sequences allows the i
nterpretation of the evolution of the sedimentary system with a high time r
esolution. Thus, there is a potential to monitor sedimentological, ecologic
al, and diagenetic processes on a time scale of 20 to 100 ka. (C) 1999 Else
vier Science B.V. All rights reserved.