(Table 1) Age determination of sediment cores CH07-98-22 and KNR140-2-59, supplement to: Saenger, Casey; Came, Rosemarie E; Oppo, Delia W; Keigwin, Lloyd D; Cohen, Anne L (2011): Regional climate variability in the western subtropical North Atlantic during the past two millennia. Paleoceanography, 26(2), PA2206

Western subtropical North Atlantic oceanic and atmospheric circulations connect tropical and subpolar climates. Variations in these circulations can generate regional climate anomalies that are not reflected in Northern Hemisphere averages. Assessing the significance of anthropogenic climate change...

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Bibliographic Details
Main Authors: Saenger, Casey, Came, Rosemarie E, Oppo, Delia W, Keigwin, Lloyd D, Cohen, Anne L
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2011
Subjects:
Event label
Laboratory code/label
DEPTH, sediment/rock
Depth, top/min
Depth, bottom/max
Age, dated
Age, dated standard deviation
Calendar age
Calendar age, standard deviation
Age, comment
Age, dated material
MultiCorer
Giant gravity corer
Age, 14C AMS
Age, 14C milieu/reservoir corrected
KNR140
Knorr
North Atlantic
North Atlantic oscillation
Online Access:https://dx.doi.org/10.1594/pangaea.830724
https://doi.pangaea.de/10.1594/PANGAEA.830724
Description
Summary:Western subtropical North Atlantic oceanic and atmospheric circulations connect tropical and subpolar climates. Variations in these circulations can generate regional climate anomalies that are not reflected in Northern Hemisphere averages. Assessing the significance of anthropogenic climate change at regional scales requires proxy records that allow recent trends to be interpreted in the context of long-term regional variability. We present reconstructions of Gulf Stream sea surface temperature (SST) and hydrographic variability during the past two millennia based on the magnesium/calcium ratio and oxygen isotopic composition of planktic foraminifera preserved in two western subtropical North Atlantic sediment cores. Reconstructed SST suggests low-frequency variability of ~1°C during an interval that includes the Medieval Climate Anomaly (MCA) and the Little Ice Age (LIA). A warm interval near 1250 A.D. is distinct from regional and hemispheric temperature, possibly reflecting regional variations in ocean-atmosphere heat flux associated with changes in atmospheric circulation (e.g., the North Atlantic Oscillation) or the Atlantic Meridional Overturning Circulation. Seawater d18O, which is marked by a fresher MCA and a more saline LIA, covaries with meridional migrations of the Atlantic Intertropical Convergence Zone. The northward advection of tropical salinity anomalies by mean surface currents provides a plausible mechanism linking Carolina Slope and tropical Atlantic hydrology.

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