Sediment reworking rates in deep sediments of the Mediterranean Sea

Different pelagic areas of the Mediterranean Sea have been investigated in order to quantify physical and biological mixing processes in deep sea sediments. Herein, results of eleven sediment cores sampled at different deep areas (> 2000 m) of the Western and Eastern Mediterranean Sea are presented.210Pbxs and 137Cs vertical profiles, together with 14C dating, are used to identify the main processes characterising the different areas and, finally, controlling mixing depths (SML) and bioturbation coefficients (Db). Radionuclide vertical profiles and inventories indicate that bioturbation processes are the dominant processes responsible for sediment reworking in deep sea environments.Results show significant differences in sediment mixing depths and bioturbation coefficients among areas of the Mediterranean Sea characterised by different trophic regimes. In particular, in the Oran Rise area, where the Almeria-Oran Front induces frequent phytoplankton blooms, we calculate the highest values of sediment mixing layers (13 cm) and bioturbation coefficients (0.187 cm2 yr−1), and the highest values of 210Pbxs and 137Cs inventories. Intermediate values of SML and Db (~ 6 cm and ~ 0.040 cm2 yr−1, respectively) characterise the mesothrophic Algero-Balearic basin, while in the Southern Tyrrhenian Sea mixing parameters (SML of 3 cm and Db of 0.011 cm2 yr−1) are similar to those calculated for the oligotrophic Eastern Mediterranean (SML of 2 cm and Db of ~ 0.005 cm2 yr−1).

Research highlights► Physical and biological mixing processes in the Mediterranean Sea are investigated. ► Results of 11 sediment cores in deep areas of the Mediterranean Sea are shown. ► 210Pbxs and 137Cs vertical profiles are analysed. ► New data on 210Pb and 137Cs inventories of Mediterranean deep sediments are given.