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(Table 1) Age determination of sediment cores HU89038_8 and OCE326-GGC5

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posted on 16.07.2019, 10:10 by Lloyd D Keigwin, Edwards A Boyle
Models indicate that a complete shutdown of deep and intermediate water production is a possible consequence of extreme climate conditions in the northern North Atlantic, and the high ratio of 231Pa to 230Th on Bermuda Rise is evidence that this might have happened ∼17 ka during Heinrich event 1 (H1). However, new radiocarbon data from bivalves that lived at ∼4.6 km on the Bermuda Rise during H1 lead to a different conclusion. The bivalve data do indeed indicate ventilation of the deep western North Atlantic was suppressed during H1 but not as much as it was during the last glacial maximum. We propose that high diatom flux to the Bermuda Rise during H1 is at least in part responsible for increased 231Pa/230Th at that time. Although we cannot say for sure why opal production was so high in a gyre center location at that time, increased leakage of silica rich waters from the Southern Ocean to the North Atlantic is one possibility. Sample OCE326-GGGC5 2.21 m depth, G. inflata reported on previously by McManus et al. (2004).





30 data points


* Median Latitude: 33.695 * Median Longitude: -57.57915 * South-bound Latitude: 33.69 * West-bound Longitude: -57.5833 * North-bound Latitude: 33.7 * East-bound Longitude: -57.575 * Minimum DEPTH, sediment/rock: 2.21m * Maximum DEPTH, sediment/rock: 2.21m


HU89038_8 * Latitude: 33.69 * Longitude: -57.575 * Elevation: -4500.0 * Location: Bermuda Rise * Device: Piston corer (PC) OCE326-GGC5 * Latitude: 33.7 * Longitude: -57.5833 * Elevation: -4550.0 * Location: North Atlantic * Device: Gravity corer (GC)


Sample OCE326-GGGC5 2.21 m depth, G. inflata reported on previously by McManus et al. (2004).



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