Abstract
ODP Sites 967 and 968 (eastern Mediterranean) revisited and implications
for the global oxygen stable isotope chronology of the late Pleistocene
ODP Sites 967 and 968, located in the Eastern Mediterranean at the
Eratosthenes Seamount, are ideally situated to study both regional and
global climate signals. Evidently, changes in the titanium to aluminum
ratio of the bulk sediment reflect variations in North African aridity,
and hence North African monsoon strength: increased levels of titanium
are associated with enhanced windblown dust input from the Sahara and
increased levels of aluminum with enhanced runoff from the river Nile.
In addition, changes in the benthic foraminiferal stable isotope
composition reflect primarily changes in global ice volume and deep sea
temperature (Lourens et al., 2010; Ziegler et al., 2010). Here we
completed and spliced the Ti/Al and benthic d18O data sets of ODP Site
968 and 967 for the past one million years at approximately 200-400 year
resolution. The Ti/Al ratio reflect dominantly precession-controlled
African monsoon intensity changes and was used to build an
astronomically tuned age model for the composite record. This approach
enabled us in first instance to establish an alternative and highly
accurate chronology for sapropels in the Eastern Mediterranean, and lead
to revisions of existing age models, especially around MIS 11 and 19,
when the 405-kyr eccentricity cycle is at a minimum. Color reflectance,
typically indicative of sapropels, appears incongruent with insolation
forcing during these episodes. Secondly our Ti/Al-based chronology
provides an independent age model for the benthic d18O record, which may
shed new light upon the relationship between insolation and global
climate (e.g. ice volume) changes. Our research indicates negligible
differences between our record and the global benthic stack of Lisiecki
and Raymo (LR04) between the present and MIS 11. However, there are
significant discrepancies in the timing of terminations and onset of
glaciation for several isotope stages prior to MIS 11 of up to 10,000
years. The direct comparison of our stable isotope record to insolation
appears to suggest a dominant role of obliquity forcing in ice volume
behavior for much further into the Pleistocene than generally assumed.
References Lourens, L.J., J. Becker, R. Bintanja et al. (2010), Linear
and non-linear response of late Neogene glacial cycles to obliquity
forcing and implications for the Milankovitch theory. Quaternary Science
Reviews 29(1-2), pp.352-365. Ziegler, M., E. Tuenter & L.J.
Lourens. (2010), The precession phase of the boreal summer monsoon as
viewed from the eastern Mediterranean (ODP Site 968). Quaternary Science
Reviews 29(11-12), pp.1481-1490.
Original language | English |
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Publication status | Published - 1 Apr 2013 |
Event | EGU General Assembly 2013 - Vienna, Austria Duration: 7 Apr 2013 → … |
Conference
Conference | EGU General Assembly 2013 |
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City | Vienna, Austria |
Period | 7/04/13 → … |