TY - JOUR
T1 - Persistent Nordic deep water overflow to the glacial North Atlantic
AU - Crocket, Kirsty C
AU - Vance, D
AU - Gutjahr, M
AU - Foster, GL
AU - Richards, DA
PY - 2011
Y1 - 2011
N2 - North Atlantic climate is very sensitive to overturning in the Greenland-Iceland-Norwegian
(GIN) Seas, overflow of deep water into the North Atlantic via the Greenland-Iceland-Scotland
Ridge, and compensating northward fl ow of warm surface water. Physical models suggest
that, in the absence of such overturning, oceanic heat transport to the Northern Hemisphere
is reduced by as much as 50%, open North Atlantic sea-surface temperatures are as much as
6 °C lower, and the winter sea-ice limit migrates as far south as 45°N. Although simulations
of the equilibrium climate state for the Last Glacial Maximum (LGM) suggest the absence
of GIN Seas overflow, tests of these model results have been hampered by ambiguity in sedimentary
proxies. Here we present a bottom-water neodymium (Nd) isotope record from the
Rockall Trough to investigate changes in the sources of circulating waters over the past 43 k.y.
Today and throughout most of the Holocene, water from the GIN Seas, along with water
from the North Atlantic Current (NAC) entrained during overflow, sets the bottom-water Nd
isotope composition of the Rockall Trough to ~–10. Our results suggest the persistence of this
scenario back into the LGM and beyond to mid-Marine Isotope Stage 3. Periodic radiogenic
excursions punctuate the record at times of meltwater events, implying either continued GIN
Seas overflow without NAC entrainment, or millennial-scale interruptions in the overflow
and shoaling of Southern Source Water. We conclude that overflow was at least intermittently
present during the LGM, if not continuous, and that the GIN Seas have remained a source of
deep water to the North Atlantic during the last glacial cycle.
AB - North Atlantic climate is very sensitive to overturning in the Greenland-Iceland-Norwegian
(GIN) Seas, overflow of deep water into the North Atlantic via the Greenland-Iceland-Scotland
Ridge, and compensating northward fl ow of warm surface water. Physical models suggest
that, in the absence of such overturning, oceanic heat transport to the Northern Hemisphere
is reduced by as much as 50%, open North Atlantic sea-surface temperatures are as much as
6 °C lower, and the winter sea-ice limit migrates as far south as 45°N. Although simulations
of the equilibrium climate state for the Last Glacial Maximum (LGM) suggest the absence
of GIN Seas overflow, tests of these model results have been hampered by ambiguity in sedimentary
proxies. Here we present a bottom-water neodymium (Nd) isotope record from the
Rockall Trough to investigate changes in the sources of circulating waters over the past 43 k.y.
Today and throughout most of the Holocene, water from the GIN Seas, along with water
from the North Atlantic Current (NAC) entrained during overflow, sets the bottom-water Nd
isotope composition of the Rockall Trough to ~–10. Our results suggest the persistence of this
scenario back into the LGM and beyond to mid-Marine Isotope Stage 3. Periodic radiogenic
excursions punctuate the record at times of meltwater events, implying either continued GIN
Seas overflow without NAC entrainment, or millennial-scale interruptions in the overflow
and shoaling of Southern Source Water. We conclude that overflow was at least intermittently
present during the LGM, if not continuous, and that the GIN Seas have remained a source of
deep water to the North Atlantic during the last glacial cycle.
U2 - 10.1130/G31677.1
DO - 10.1130/G31677.1
M3 - Article (Academic Journal)
SN - 0091-7613
VL - 39
SP - 515
EP - 518
JO - Geology
JF - Geology
IS - 6
ER -