Ae. Aksu et al., ORIGIN OF LATE GLACIAL-HOLOCENE HEMIPELAGIC SEDIMENTS IN THE AEGEAN SEA - CLAY MINERALOGY AND CARBONATE CEMENTATION, Marine geology, 123(1-2), 1995, pp. 33-59
Four hemipelagic lithological units are identified in the late glacial
to Holocene sediments in the Aegean Sea. These lithologies are silty-
clay and clay in texture and include a varying mixture of loose terrig
enous sediments supplied from the adjacent landmass, gravel- to sand-s
ized cemented carbonate clasts and nodules, sand- to silt-sized air-bo
rn volcanic debris and biogenic remains. Sediment dispersal during the
past 14,000 years was controlled mainly by the fluvial discharge rate
, by sea-level variations which determined the proximity of basins to
river mouths and by oceanographic conditions in the Aegean Sea. Cement
ed carbonate clasts and nodules occur in all sediments except Unit C (
sapropel Si). They are well- to friably-cemented, mottled to peloidal
micrite or microcrystalline inter-granular cement between terrigenous
and bioclastic debris, and the carbonate is 10-11 mole % magnesium cal
cite. During the deposition of sapropel S1 (Unit C) the Aegean Sea was
strongly stratified, with colder, more saline water masses occupying
the deep basins, which prevented the development of cemented carbonate
nodules and clasts. Aragonite, as pteropods and microcrystalline arag
onite is present throughout the cores, and together with the cemented
carbonate clasts and nodules, show that shallow pore waters in the Aeg
ean Sea have been saturated to supersaturated with respect to both ara
gonite and magnesium calcite for at least the past 14,000 years. Resul
ts of XRD studies show that Unit C (sapropel S1) is characterized by l
ower smectite and kaolinite and higher illite and chlorite than the ot
her units. Lower smectite/illite and kaolinite/chlorite ratios in Unit
C may reflect increased supply of illite and chlorite from European l
owland rivers flowing into the Black Sea, from rivers discharging dire
ctly into the northern and eastern Aegean Sea, and decreased supply of
kaolinite which is mainly of North African origin.