Age estimates of ODP Hole 175-1085A bio-and paleomagnetic events (Table 1)

High-resolution benthic oxygen isotope and XRF (Fe and Ca) records from Site 1085 drilled in the Mid-Cape basin (ODP Leg 175) are used to investigate global climate changes during the Late Miocene in relation to Messinian geological events. The cyclic fluctuations of the time series at Site 1085 ena...

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Bibliographic Details
Main Authors: Vidal, Laurence, Bickert, Torsten, Wefer, Gerold, Röhl, Ursula
Format: Dataset
Language:English
Published: PANGAEA 2002
Subjects:
175-1085A
Age model
Berggren et al (1995) BKSA95
optional
Ageprofile Datum Description
Benguela Current
South Atlantic Ocean
Depth
composite
composite revised
sediment/rock
DRILL
Drilling/drill rig
DSDP/ODP/IODP sample designation
Joides Resolution
Leg175
Ocean Drilling Program
ODP
Sample code/label
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.759249
https://doi.org/10.1594/PANGAEA.759249
Description
Summary:High-resolution benthic oxygen isotope and XRF (Fe and Ca) records from Site 1085 drilled in the Mid-Cape basin (ODP Leg 175) are used to investigate global climate changes during the Late Miocene in relation to Messinian geological events. The cyclic fluctuations of the time series at Site 1085 enable us to establish a reliable chronology for the time interval 7.3–4.7 Ma. Spectral analysis of the d18O record indicates that the 41-kyr period of orbital obliquity dominates the Late Miocene record. A global climate record was extracted from the oxygen isotopic composition of benthic foraminifera. Both long- and short-term variabilities in the climate record are discussed in terms of sea-level and deep-water temperature changes. The time interval 7.3–6.25 Ma characterized by low-amplitude d18O variations is followed by a period marked by maximum in the d18O values (6.25–5.57 Ma). At about 5.56 Ma, a rapid decrease in d18O values is documented that may reflect a warming of deep-water temperature associated with a global warming period. Comparison between the timing of the oceanic isotope events and the chronology of the Mediterranean Salinity Crisis suggest that global eustatic processes were not essential in the Mediterranean Salinity Crisis history. From our data, we infer that the global warmth documented in the Early/mid-Pliocene probably started during the Late Miocene (at 5.55 Ma). At the same time, the onset of evaporite deposition in the central basin of the Mediterranean Sea took place. Sharp changes in the sedimentation rates, mainly driven by terrigenous input at this site, are observed during the Messinian Stage.

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