Foredeep inclusions into foreland molasse in the North Dalmatian foreland basin, Croatia – from sink to source?

The sedimentary infill of peripheral foreland basins records an intricate relationship between the development of the thrust wedge and related isostatic adjustments, eustasy, and sedimentation processes, posing challenges to the classical source-to-sink concept. The evolution of such basins commences with an “underfilled” flysch stage in the foredeep depozone and passes to a filled and finally an “overfilled” molasse stage in the orogen-proximal zone (Sinclair, 1997). On basin-scale, progressively younger sediments exhibit a regressive character, with the molasse commonly being deposited in alluvial environments.

This study from the North Dalmatian foreland basin in Croatia documents a peculiar gravel association in the alluvial conglomerates of the foreland molasse. These deposits are the youngest unit of the Promina Beds – a calciclastic succession that was deposited in the wedge-top depozone in shallow-marine, marginal marine, and terrestrial environments from the middle Eocene to the late Oligocene (Mrinjek et al., 2012). The alluvial conglomerates were deposited on Oligocene alluvial fans or in proximal braided-river settings (Mrinjek et al., 2012). Besides limestone clasts derived from Cretaceous bedrock, these conglomerates comprise well-rounded calciclastic cobbles and boulders. These clasts are fine-grained calcarenites, whose carbonate content ranges from 61 to 99%. Their macroscopic features resemble sandstones of Eocene flysch that crop out 16 km to the southwest, but samples from these two units show significant differences in microfossil content and heavy mineral associations. Large benthic foraminifera and sporadic planktic forms are found in the Eocene flysch, which was deposited in the prodelta zone of a river-fed delta (Babić & Zupanič, 2008). Contrarily, the calciclastic gravel clasts of the alluvial unit bear more planktic than benthic foraminifera, suggesting original deposition in a deeper and more distal marine environment. The clasts are rich in muscovite (32%), opaque heavy minerals (24%), and biotite (19%), with subordinate transparent heavy minerals (12%). Flysch samples show a coequal abundance of opaque (39%) and transparent heavy minerals (40%). Among the latter, garnet is the most abundant.

These preliminary results suggest that the calciclastic gravel clasts of the alluvial unit most likely derive from a foredeep setting older than the Eocene flysch, that was probably located in the hinterland of the present-day thrust-wedge. The heavy mineral assemblage suggests provenance from metamorphic, igneous, or recycled sedimentary rocks from the Internal Dinarides. Therefore, drastic geomorphic changes must have occurred during the development of the foreland basin, with deep-marine sediments being deposited, subsequently uplifted, eroded, transported, and deposited in continental environments, which will eventually become a new source for a future sink.

 

CITED REFERENCES:

Babić, Lj., Zupanič, J. 2008. Evolution of a river-fed foreland basin fill: the North Dalmatian flysch revisited (Eocene, Outer Dinarides). Natura Croatica, 17/4, 357–374.

Mrinjek, E., Nemec, W., Pencinger, V., Mikša, G., Vlahović, I., Ćosović, V., Velić, I., Bergant, S., Matičec, D. 2012. The Eocene-Oligocene Promina Beds of the Dinaric Foreland Basin in northern Dalmatia. Journal of Alpine Geology, 55, 409–451.

Sinclair, H.D. 1997. Tectonostratigraphic model for underfilled peripheral foreland basins: An Alpine perspective. GSA Bulletin, 109/3, 324–346.