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The AAPG/Datapages Combined Publications Database

Journal of Sedimentary Research (SEPM)

Abstract


Journal of Sedimentary Research
Vol. 77 (2007), No. 6. (June), Pages 461-468
Research Articles: Sequence Stratigraphy

Climatic Modulation of Timing of Systems-Tract Development with Respect to Sea-Level Changes (Middle Pleistocene of Crotone, Calabria, Southern Italy)

F. Massari, L. Capraro, D. Rio

Abstract

Climate change has traditionally played a secondary role in the literature behind eustasy and tectonics, with eustasy regarded as the main controlling factor in development of sedimentary sequences. Here, we emphasize the role of the interaction of climate-modulated sediment supply and sea-level change, particularly its potential impact on sequence development.

We discuss a case history from the lower–middle Pleistocene of the highly subsiding Valle di Manche shelf area (Crotone Basin, Calabria, southern Italy), where a stack of cyclothems spanning from late Marine Isotope Stage (MIS) 22 to full MIS 18 preserves a full record of eustatic cycles, glacials included. Tectonics certainly played a critical role in the creation of local accommodation, ultimately controlling the preservation of an almost complete sedimentary record. However, its role as a factor controlling the sediment flux on Milankovian scale can be ruled out. Direct comparisons between data concerning δ18O, pollen, and physical stratigraphy demonstrate that climate-induced changes in sediment load caused significant deviations from the predicted timing and magnitude of the responses to sea-level changes in the traditional sequence model. A phase lag occurred in the timing of systems tracts, leading to a significant delay of one-quarter of a sea-level cycle. Specifically, climate-driven sediment discharge during sea-level rise triggered progradation of shelf-margin wedges, which should thus be considered lowstand in their architecture and "transgressive" in their timing. This was generated by a shift toward drier conditions, leading to extensive deforestation and consequent lowering of the threshold for slope erosion and mass-wasting processes in the source area.

Due to the reduced extent of the transfer zone, sedimentary signals were conveyed rapidly from source to sink with little apparent attenuation, suggesting that the Milankovitch-scale climate changes can lead to rapid source-to-sink responses on tectonically active margins fed by high-gradient, short-headed streams. The studied case history demonstrates that the impact of Milankovitch-scale climatic forcing on sediment supply in an icehouse world can be more supluential than sediment redistribution due to corresponding sea-level fluctuations.

These findings emphasize that a reconstruction of the timing of systems-tract development with respect to sea-level changes based on a sequence-stratigraphic approach may be misleading, whenever independent chronological and climatic constraints are not available.


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