Late Neogene evolution of the Taza-Guercif Basin (Rifian Corridor, Morocco) and implications for the Messinian salinity crisis
Publication date
1997-07-23
Authors
Krijgsman, W.
Langereis, C.G.
Zachariasse, W.J.
Boccaletti, M.
Moratti, G.
Gelati, R.
Iaccarino, S.
Papani, G.
Villa, G.
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Abstract
Magnetostratigraphic and biostratigraphic results are presented from Neogene deposits in the Taza-Guercif Basin,
located at the southern margin of the Rifian Corridor in Morocco. This corridor was the main marine passageway which
connected the Mediterranean with the Atlantic during Messinian times. Correlation of the biostratigraphy and polarity
sequence of the Taza-Guercif composite section to the astronomical time scale, allows an accurate dating of three
subsequent events in the Rifian Corridor. (1) The oldest marine sediments marking the opening of the Rifian Corridor were
deposited at 8 Ma. At this age, a deep (600 m) marine basin developed in the Taza-Guercif area, marked by deposition of
precession-controlled turbidite-marl cycles. (2) Paleodepth reconstructions indicate that a rapid (5 m/ka) shallowing of the
marine corridor took place at the Tortonian/Messinian boundary, at an age of 7.2 Ma. This shallowing phase is primarily
related to active tectonics, although a small glacio-eustatic sea level lowering also took place. (3) The Taza-Guercif Basin
was emergent at an age of 6.0 Ma and, subsequently, continental sedimentation continued well into the Early Pliocene. We
suggest that shallowing and restricting the marine passageway through the Rifian Corridor actually initiated the Messinian
salinity crisis, well before the deposition of the Messinian evaporites in the Mediterranean.
Keywords
Messinian, Morocco, calcareous plankton, biostratigraphy, magnetostratigraphy, geodynamics