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author Noble, Taryn L
Piotrowski, Alexander M
Robinson, Laura F
McManus, Jerry F
Hillenbrand, Claus-Dieter
Bory, Aloys J-M
author_facet Noble, Taryn L
Piotrowski, Alexander M
Robinson, Laura F
McManus, Jerry F
Hillenbrand, Claus-Dieter
Bory, Aloys J-M
collection Datos científicos de ciencias marinas y ambientales
contents Reconstructing past detrital flux and provenance in the Southern Ocean provides information about changes in source regions associated with climate variations and transport pathways. We present a Last Glacial Maximum (LGM) to Holocene comparison of 230Th normalised fluxes combined with sediment provenance data (Pb, Nd and Sr isotopes) from a latitudinal core transect in the eastern Atlantic sector of the Southern Ocean (ODP Leg 177 cores). We compare the radiogenic isotopic composition (IC) of detritus in these cores to that of cores proximal to potential source areas. We observe a well-defined latitudinal Holocene gradient in both detrital flux and provenance of sediment. High detrital fluxes in the north are associated with terrigenous material derived from southern Africa, while low detrital fluxes in the south are associated with supply from southern South America, West Antarctica and the South Sandwich Islands. The data suggest that this well-defined Holocene gradient in detrital flux and sediment provenance is controlled by the flow of the Antarctic Circumpolar Current (ACC) and the position of its frontal zones. The LGM is characterised by 2 to 6 times higher than modern detrital fluxes at most ODP Leg 177 sites. The LGM detrital fluxes do not show a latitudinal trend and suggest a greater supply of glaciogenic detritus sourced from southern South America. Glacial Patagonian outwash sediments (< 5 µm fraction) were analysed and compared to the bulk compositions of the marine sediments. The Pb IC of the Patagonian sediments is very similar to the glacial IC of sediments in the Scotia Sea and at ~ 49° S latitude in the eastern Atlantic sector. We propose that the glacial IC of sediments is controlled by increased delivery of Patagonian detritus initially supplied by glaciers and then transported at depth via the ACC.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_783844
institution PANGAEA
language en
publishDate 2012
publisher PANGAEA
record_format pangaea
spellingShingle Geochemistry of Southern Ocean sediments
Noble, Taryn L
Piotrowski, Alexander M
Robinson, Laura F
McManus, Jerry F
Hillenbrand, Claus-Dieter
Bory, Aloys J-M
177-1088B; 177-1089A; 177-1090B; 177-1093A; 177-1093B; 177-1094A; Amarillo; ANT-XIV/3; BC; Box corer; CD129; Cerro_Ataud; Charles Darwin; COMPCORE; Composite Core; DRILL; Drilling/drill rig; Esmeralda; GC; GC027; Giant box corer; GKG; Gravity corer; Gravity corer (Kiel type); Guayrabo; HAND; Isla_Dawson; Joides Resolution; KAL; Kasten corer; KC088; KC089; Leg177; Ocean Drilling Program; ODP; Otway; P_Hambre; Patagonia; Polarstern; PS2819-1; PS2820-1; PS43; PS43/050; PS43/052; Sampling by hand; Scotia Sea; SL; South Atlantic Ocean; Southwest Indian Ocean; St_Maria; Strait of Magellan, Chile; TPC288; TPC290; Weddell Sea; WIND; WIND-1B
Reconstructing past detrital flux and provenance in the Southern Ocean provides information about changes in source regions associated with climate variations and transport pathways. We present a Last Glacial Maximum (LGM) to Holocene comparison of 230Th normalised fluxes combined with sediment provenance data (Pb, Nd and Sr isotopes) from a latitudinal core transect in the eastern Atlantic sector of the Southern Ocean (ODP Leg 177 cores). We compare the radiogenic isotopic composition (IC) of detritus in these cores to that of cores proximal to potential source areas. We observe a well-defined latitudinal Holocene gradient in both detrital flux and provenance of sediment. High detrital fluxes in the north are associated with terrigenous material derived from southern Africa, while low detrital fluxes in the south are associated with supply from southern South America, West Antarctica and the South Sandwich Islands. The data suggest that this well-defined Holocene gradient in detrital flux and sediment provenance is controlled by the flow of the Antarctic Circumpolar Current (ACC) and the position of its frontal zones. The LGM is characterised by 2 to 6 times higher than modern detrital fluxes at most ODP Leg 177 sites. The LGM detrital fluxes do not show a latitudinal trend and suggest a greater supply of glaciogenic detritus sourced from southern South America. Glacial Patagonian outwash sediments (< 5 µm fraction) were analysed and compared to the bulk compositions of the marine sediments. The Pb IC of the Patagonian sediments is very similar to the glacial IC of sediments in the Scotia Sea and at ~ 49° S latitude in the eastern Atlantic sector. We propose that the glacial IC of sediments is controlled by increased delivery of Patagonian detritus initially supplied by glaciers and then transported at depth via the ACC.
title Geochemistry of Southern Ocean sediments
topic 177-1088B; 177-1089A; 177-1090B; 177-1093A; 177-1093B; 177-1094A; Amarillo; ANT-XIV/3; BC; Box corer; CD129; Cerro_Ataud; Charles Darwin; COMPCORE; Composite Core; DRILL; Drilling/drill rig; Esmeralda; GC; GC027; Giant box corer; GKG; Gravity corer; Gravity corer (Kiel type); Guayrabo; HAND; Isla_Dawson; Joides Resolution; KAL; Kasten corer; KC088; KC089; Leg177; Ocean Drilling Program; ODP; Otway; P_Hambre; Patagonia; Polarstern; PS2819-1; PS2820-1; PS43; PS43/050; PS43/052; Sampling by hand; Scotia Sea; SL; South Atlantic Ocean; Southwest Indian Ocean; St_Maria; Strait of Magellan, Chile; TPC288; TPC290; Weddell Sea; WIND; WIND-1B
url https://doi.org/10.1594/PANGAEA.783844