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Main Authors: Kellogg, Thomas B, Shackleton, Nicholas J, Duplessy, Jean-Claude
Format: Dataset Open Access
Language:en
Published: PANGAEA 1978
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Online Access:https://doi.org/10.1594/PANGAEA.726546
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author Kellogg, Thomas B
Shackleton, Nicholas J
Duplessy, Jean-Claude
author_facet Kellogg, Thomas B
Shackleton, Nicholas J
Duplessy, Jean-Claude
collection Datos científicos de ciencias marinas y ambientales
contents Three Norwegian Sea deep-sea cores, which penetrate to sediments at least 200,000 years old, were analyzed for oxygen isotope content, total calcium carbonate, and planktonic foraminifera. The oxygen isotopic stratigraphy was used to refine the time control for paleoclimatic and paleo-oceanographic events previously described for the region. Two pulses of relatively warm subpolar water entered the region between 124,000 B.P. and 115,000 B.P. (the last interglacial), and since about 13,000 B.P. The remaining portion of the last 150,000 years was characterized by extensive ice cover. The magnitude of the change in isotopic composition between peak glacial and peak interglacial conditions is larger than can be explained by the changing isotopic content of the oceans alone suggesting that large temperature and salinity effects are recorded in isotope curves from Norwegian Sea isotope curves. The magnitude of the isotopic change from substage 5e to 5d (greater than 1%) is attributed to a combination of changing oceanic isotopic composition combined with a large temperature effect due to a sudden sea-surface temperature decrease of about 6oC. The persistence of heavy isotope values throughout substages 5d through 5a may be related to the sea-ice cover which prevented dilution of the isotopically heavy waters by isotopically light run-off. Sedimentation rates calculated for each of the isotope stages show large changes from one stage to another with some tendency for odd numbered stages to have higher rates.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_726546
institution PANGAEA
language en
publishDate 1978
publisher PANGAEA
record_format pangaea
spellingShingle Stable oxygen isotope ratios of Neogloboquadrina pachyderma from sediment cores of the Norwegian Sea
Kellogg, Thomas B
Shackleton, Nicholas J
Duplessy, Jean-Claude
CLIMAP; Climate: Long-Range Investigation, Mapping, and Prediction; Quaternary Environment of the Eurasian North; QUEEN
Three Norwegian Sea deep-sea cores, which penetrate to sediments at least 200,000 years old, were analyzed for oxygen isotope content, total calcium carbonate, and planktonic foraminifera. The oxygen isotopic stratigraphy was used to refine the time control for paleoclimatic and paleo-oceanographic events previously described for the region. Two pulses of relatively warm subpolar water entered the region between 124,000 B.P. and 115,000 B.P. (the last interglacial), and since about 13,000 B.P. The remaining portion of the last 150,000 years was characterized by extensive ice cover. The magnitude of the change in isotopic composition between peak glacial and peak interglacial conditions is larger than can be explained by the changing isotopic content of the oceans alone suggesting that large temperature and salinity effects are recorded in isotope curves from Norwegian Sea isotope curves. The magnitude of the isotopic change from substage 5e to 5d (greater than 1%) is attributed to a combination of changing oceanic isotopic composition combined with a large temperature effect due to a sudden sea-surface temperature decrease of about 6oC. The persistence of heavy isotope values throughout substages 5d through 5a may be related to the sea-ice cover which prevented dilution of the isotopically heavy waters by isotopically light run-off. Sedimentation rates calculated for each of the isotope stages show large changes from one stage to another with some tendency for odd numbered stages to have higher rates.
title Stable oxygen isotope ratios of Neogloboquadrina pachyderma from sediment cores of the Norwegian Sea
topic CLIMAP; Climate: Long-Range Investigation, Mapping, and Prediction; Quaternary Environment of the Eurasian North; QUEEN
url https://doi.org/10.1594/PANGAEA.726546