Abstract
Around 4-5 times per year the Atlantic Ocean receives warm, saline
waters from the Indo-Pacific Ocean through ring shedding events via the
Agulhas Current (AC) around the southern tip of Africa. This transfer of
heat and salt into the South Atlantic through the Indo-Atlantic Gateway,
the so called 'Agulhas Leakage (AL)', constitutes the 'warm' upper
return limb of the global oceans thermohaline circulation. As such AL is
believed to have an important role in controlling the variability of the
Atlantic meridional overturning circulation (AMOC). For example, recent
modelling evidence suggests that AL actively stabilises our present
climate, while palaeo-reconstructions highlight its important role as a
potential driver for the rapid resumption of global interglacial climate
change. Palaeo-reconstructions focussing on the upstream AC variability
itself and its potential connection with the downstream AL, as well as
its influence on the AMOC stability, are scarce. Thus the question of
what ultimately drives variability of the AL on a range of timescales
remains unclear. Here we present high-resolution (centennial-millennial
scale) sea surface temperature (SST), salinity (SSS) and thermocline
structure records from the "upstream" AC (Natal Valley) over the past
60,000 yrs. Results of surface (Globigerinoides ruber, sensu stricto)
and thermocline (Pulleniatina obliquiloculata) planktonic δ18O and
Mg/Ca-derived temperature records from the main flow path of the AC show
modulation which match Antarctic warming events A1, A3, A4, which are
more pronounced in the thermocline δ18O record. Mg/Ca derived SSTs
suggest temperatures of 20-21°C at the Last Glacial Maximum (LGM),
and show a progressive increase during Termination I (TI), which
coincides with an increased abundance of subtropical planktonic
foraminiferal marker species (Agulhas Leakage fauna, ALF) which
indicates a progressive warming due to an increased influence of
subtropical waters at the core site. Sortable silt mean grain sizes
together with δ18O and δ13C data measured on the benthic
foraminiferal species Cibicidoides wuellerstorfi are used to construct
high-resolution records of near-bottom flow vigour and deep water
ventilation at the core site (3300 m water depth), which is today
influenced by the Agulhas Undercurrent. The results highlight source
water change from North Atlantic Deep Waters (NADW) to Antarctic
originated Bottom Waters at the core site that can be linked with colder
surface temperatures and higher bottom water flow speed during Marine
Isotope Stage 2 (MIS 2), at around 26,000 years ago. A comparison of
our "upstream" SST variability with previously published records from
the immediate Agulhas Corridor (Martínez Méndez et al,
2010; Cape Basin Record (CBR), Schneider et al., 1999, Peeters et al.
2004), shows that our SST record has a more pronounced temperature
variability compared to reconstructions based on the biomarker UK'37
(Peeters et al. 2004), while the early warming trend observed prior to
TI (based on Mg/Ca of Globigerinoides bulloides; Martínez
Méndez et al. 2010) is not seen in our upstream record. All data
have been generated within the EU Marie Curie GATEWAYS project.
Original language | English |
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Article number | EGU2012-344-3 |
Journal | Geophysical Research Abstracts |
Volume | 14 |
Publication status | Published - 1 Apr 2012 |
Event | EGU General Assembly 2012 - Vienna, Austria Duration: 22 Apr 2012 → 27 Apr 2012 |