Us. Ninnemann et Cd. Charles, REGIONAL DIFFERENCES IN QUATERNARY SUB-ANTARCTIC NUTRIENT CYCLING - LINK TO INTERMEDIATE AND DEEP-WATER VENTILATION, Paleoceanography, 12(4), 1997, pp. 560-567
Several fundamental issues regarding carbon cycling in the glacial oce
ans rest on the development: of reliable descriptions of high southern
latitude surface waters, Here we compare new Subantarctic planktonic
foraminiferal delta(13)C records with previously published records to
demonstrate two distinct regional patterns over glacial cycles: (1) a
lour-amplitude signal (similar to 0.7 parts per thousand), previously
observed in the Indian (primarily in Globigerina bulloides), that also
dominates the Pacific, and (2) a higher-amplitude signal, previously
observed in Neogloboquadrina Pachyderma, that is confined to the Atlan
tic and western Indian sectors. The near observations from the Southea
st Pacific, a primary region of Antarctic Intermediate Water (AAIW) fo
rmation, strengthen the suggestion that intermediate water acted as a
conduit for transferring delta(13)C variability to low latitudes, beca
use the timing and amplitude of the Indo-Pacific low-amplitude delta(1
3)C changes are similar to those observed in planktonic records from t
he tropical Pacific and Atlantic. A new benthic foraminiferal delta(13
)C record from intermediate depths in the South Atlantic is also simil
ar to the Southeast Pacific surface water records, further demonstrati
ng that this link between high- and low-latitude surface: waters might
be maintained. The widespread Indo-Pacific Subantarctic surface water
signal is obscured in records from the Atlantic sector by the large g
lacial-interglacial delta(13)C signal (>1.0 parts per thousand) that i
s most likely the result of nutrient changes related to variable North
Atlantic Deep Water (NADW) production, pachyderma delta(13)C records
is not matched in a new C, bulloides delta(13)C record. The confined r
egional extent of the high-amplitude signal and the discrepancy betwee
n the two species suggest that most of the excess nutrients in the gla
cial Atlantic (inferred from delta(13)C) may be removed seasonally by
increased production in the Subantarctic.