(Table 1) Age determination of sediment cores of the Labrador Sea

A close look at the sedimentology of Heinrich event 4 from the northwest Labrador Sea indicates that an extended ice margin, perhaps greater than before Heinrich events 1 or 2 (H-1 and H-2), existed in the Hudson Strait region pre-Heinrich event 4 (H-4) and, that on the basis of characteristics of t...

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Bibliographic Details
Main Authors: Kirby, Mathew E, Andrews, John T
Format: Dataset
Language:English
Published: PANGAEA 1999
Subjects:
Age
14C AMS
14C milieu/reservoir corrected (-450 yr)
dated
dated material
dated standard deviation
Calendar age
standard deviation
Depth
bottom/max
sediment/rock
top/min
Elevation of event
Event label
HU75009-IV-054
HU75009-IV-056
HU87-033-009
Labrador Sea
Latitude of event
Longitude of event
PC
Piston corer
Greenland
Hudson
Hudson Strait
Ungava Bay
Arctic
Ice Sheet
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.856936
https://doi.org/10.1594/PANGAEA.856936
Description
Summary:A close look at the sedimentology of Heinrich event 4 from the northwest Labrador Sea indicates that an extended ice margin, perhaps greater than before Heinrich events 1 or 2 (H-1 and H-2), existed in the Hudson Strait region pre-Heinrich event 4 (H-4) and, that on the basis of characteristics of the sediment unit, Heinrich event-4 was different than Heinrich events 1 or 2 (i.e., larger ice sheet collapse(?), longer duration(?), "dirtier" icebergs(?)). Other data from across the southern and eastern margin of the Laurentide Ice Sheet, as well as Greenland and the North Atlantic, support this interpretation, possibly indicating a relative mid-Wisconsin glacial maximum pre-Heinrich event 4. Many of these data also indicate that Heinrich event 4 (35 ka) resulted in serious climatic and oceanographic reorganizations. We suggest that Heinrich event 4 gutted the Hudson Strait, leaving it devoid of ice for Heinrich event 3. We further hypothesize that Heinrich event 3 did not originate from axial ice transport along the Hudson Strait; thus Heinrich event 3 may be more analogous to the proposed northward advancing ice from Ungava Bay during Heinrich event 0 than to the more typical down-the-strait flow during H-1, H-2, and H-4. Consequently, the climatic and oceanographic impacts resulting from Heinrich events are highly susceptible to the type, origin, and magnitude of ice sheet collapse, something which varied per Heinrich event during the last glacial period.

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