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W1819307536 endingPage "211" @default.
W1819307536 startingPage "185" @default.
W1819307536 abstract "Abstract Recent global change occurs within decades and leaves a significant imprint on shallow carbonate platforms. To what extent can rate and synchronicity of environmental changes in the past be evaluated in order to allow comparisons with the processes and products of today? Sections of a carbonate‐dominated platform of Late Oxfordian age have been logged in detail in the Swiss Jura Mountains. The time frame, based on ammonite biostratigraphy and the hierarchical stacking of the sedimentary sequences, suggests that these formed by low‐amplitude, high‐frequency sea‐level changes in tune with the orbital cycles. The smallest unit, the elementary sequence, can thus be attributed to the 20 kyr precession cycle. By identifying sequence‐stratigraphic elements such as maximum‐flooding surfaces within an elementary sequence, an even higher time resolution can be obtained and reconstructions of changes in water depth and sea‐level are attempted. Sedimentation rates were highly irregular and discontinuity surfaces are common. Correlation of such surfaces from one section to the other is tentative because they could also have formed locally and are not necessarily synchronous. On the scale of elementary sequences, the vertical facies evolution permits interpretation of changes in water depth, which were produced by eustatic sea‐level changes (allocyclic) and/or by autocyclic processes. The distribution of clay minerals indicates changes of sea‐level, as well as of rainfall in the hinterland. Biotic changes were controlled by water depth and water quality, and also by nutrient and clay input. Carbon and oxygen isotopes do not show significant shifts within the elementary sequences. The original ecological, mineralogical and geochemical signals have partly been homogenized because of time‐averaging through bioturbation and through reworking by storms, and because of diagenetic modifications. Consequently, there is potential to interpret environmental changes on the studied carbonate platform but the time resolution is not better than a few thousand years. The rates and the synchronicity of the processes leading to the observed environmental changes can thus be estimated only within this time frame." @default.
W1819307536 created "2016-06-24" @default.
W1819307536 creator A5022642389 @default.
W1819307536 creator A5045753718 @default.
W1819307536 creator A5088399825 @default.
W1819307536 date "2011-05-12" @default.
W1819307536 modified "2023-09-25" @default.
W1819307536 title "Rate and synchronicity of environmental changes on a shallow carbonate platform (Late Oxfordian, Swiss Jura Mountains)" @default.
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W1819307536 doi "https://doi.org/10.1111/j.1365-3091.2011.01236.x" @default.
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