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Main Authors: Rahlf, Peer, Frank, Martin, Hathorne, Ed C
Format: Dataset Open Access
Language:en
Published: PANGAEA 2019
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.907825
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author Rahlf, Peer
Frank, Martin
Hathorne, Ed C
author_facet Rahlf, Peer
Frank, Martin
Hathorne, Ed C
collection Datos científicos de ciencias marinas y ambientales
contents In contrast to the vigorous deep ocean circulation system of the north- and southwestern Atlantic Ocean, no systematically sampled datasets of dissolved radiogenic neodymium (Nd) isotope signatures exist to trace water mass mixing and provenance for the more restricted and less well ventilated Angola Basin and the Cape Basin in the southeastern Atlantic Ocean, where important parts of the return flow of the Atlantic Meridional Overturning Circulation are generated. Here, to improve our understanding of water mass mixing and provenance, we present the first full water data for a section across the western Angola Basin from 3° to 30° S along the Zero Meridian and along an E-W section across the northern Cape Basin at 30° S sampled during GEOTRACES cruise GA08. Compared with the signatures reaching -17.6 in the uppermost 200 m of the Angola and Cape basins. In the western Angola Basin these signatures are the consequence of the admixture of waters of a coastal plume originating near 13 °S, carrying an unradiogenic Nd signal that likely resulted from the dissolution of Fe-Mn coatings of particles formed in river estuaries or near the West African coast. The highly unradiogenic Nd isotope signatures in the upper water column of the northern Cape Basin, in contrast, originate from old Archean terrains of southern Africa and are introduced into the Mozambique Channel via rivers like the Limpopo and Zambezi. These signatures allow tracing the advection of shallow waters via the Agulhas and Benguela currents into the southeastern Atlantic Ocean. The Nd isotope compositions of the deep water masses in both basins primarily reflect conservative water mass mixing with the only exception being the central Angola Basin, where the signatures are significantly overprinted by terrestrial inputs. Bottom waters of the Cape Basin show excess Nd concentrations of up to 6 pmol/kg (20%), originating from resuspended bottom sediments and/or dissolution of dust, but without significantly changing the isotopic composition of the waters -9.6 and -10.5. Given that bottom waters within the Cape Basin today are enriched in Nd, non-conservative Nd isotopic effects may have been resolvable under past glacial boundary conditions when bottom waters were more radiogenic. The data include station numbers, coordinates, depth, pot. temperatures, salinities, Nd concentrations in pmol/kg, epsilon Nd values and their 2SD.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_907825
institution PANGAEA
language en
publishDate 2019
publisher PANGAEA
record_format pangaea
spellingShingle Neodymium isotopes from water bottle samples measured during METEOR cruise M121 (GEOTRACES cruise GA08)
Rahlf, Peer
Frank, Martin
Hathorne, Ed C
24; 25; 26; 27; 27.1; 28; 29; 30; 31; 32; 33; 34; 35; 36; 37; 38; 39; 40; 41; 42; 43; Agulhas Current; Angola Basin; Cape Basin; CTD/Rosette; CTD-RO; DEPTH, water; Event label; GA08; IFISH; Iron fish; LATITUDE; LONGITUDE; M121; M121_1247-1; M121_1248-1; M121_1248-1_fish; M121_1250-1; M121_1252-1_fish; M121_1255-1; M121_1255-1_fish; M121_1257-1; M121_1259-1_fish; M121_1260-1_fish; M121_1262-1; M121_1262-1_fish; M121_1264-1; M121_1267-1; M121_1267-1_fish; M121_1270-1; M121_1270-1_fish; M121_1272-1; M121_1274-1_fish; M121_1277-1; M121_1279-1; M121_1279-1_fish; M121_1281-1_fish; M121_1284-1; M121_1284-1_fish; M121_1288-1; M121_1288-1_fish; M121_1290-1; M121_1292-1; M121_1292-1_fish; M121_1295-1; M121_1295-1_fish; M121_1297-1; M121_1299-1; M121_1299-1_fish; M121_1303-1; M121_1303-1_fish; M121_1307-1; M121_1310-1; M121_1310-1_fish; M121_1314-1; M121_1314-1_fish; M121_1317-1; M121_1317-1_fish; M121_1322-1; M121_1322-1_fish; Meteor (1986); Mozambique Channel; Neodymium, dissolved; Neodymium isotopes; Salinity; Southeast Atlantic; Station label; Temperature, water, potential; ε-Neodymium; ε-Neodymium, standard deviation
In contrast to the vigorous deep ocean circulation system of the north- and southwestern Atlantic Ocean, no systematically sampled datasets of dissolved radiogenic neodymium (Nd) isotope signatures exist to trace water mass mixing and provenance for the more restricted and less well ventilated Angola Basin and the Cape Basin in the southeastern Atlantic Ocean, where important parts of the return flow of the Atlantic Meridional Overturning Circulation are generated. Here, to improve our understanding of water mass mixing and provenance, we present the first full water data for a section across the western Angola Basin from 3° to 30° S along the Zero Meridian and along an E-W section across the northern Cape Basin at 30° S sampled during GEOTRACES cruise GA08. Compared with the signatures reaching -17.6 in the uppermost 200 m of the Angola and Cape basins. In the western Angola Basin these signatures are the consequence of the admixture of waters of a coastal plume originating near 13 °S, carrying an unradiogenic Nd signal that likely resulted from the dissolution of Fe-Mn coatings of particles formed in river estuaries or near the West African coast. The highly unradiogenic Nd isotope signatures in the upper water column of the northern Cape Basin, in contrast, originate from old Archean terrains of southern Africa and are introduced into the Mozambique Channel via rivers like the Limpopo and Zambezi. These signatures allow tracing the advection of shallow waters via the Agulhas and Benguela currents into the southeastern Atlantic Ocean. The Nd isotope compositions of the deep water masses in both basins primarily reflect conservative water mass mixing with the only exception being the central Angola Basin, where the signatures are significantly overprinted by terrestrial inputs. Bottom waters of the Cape Basin show excess Nd concentrations of up to 6 pmol/kg (20%), originating from resuspended bottom sediments and/or dissolution of dust, but without significantly changing the isotopic composition of the waters -9.6 and -10.5. Given that bottom waters within the Cape Basin today are enriched in Nd, non-conservative Nd isotopic effects may have been resolvable under past glacial boundary conditions when bottom waters were more radiogenic. The data include station numbers, coordinates, depth, pot. temperatures, salinities, Nd concentrations in pmol/kg, epsilon Nd values and their 2SD.
title Neodymium isotopes from water bottle samples measured during METEOR cruise M121 (GEOTRACES cruise GA08)
topic 24; 25; 26; 27; 27.1; 28; 29; 30; 31; 32; 33; 34; 35; 36; 37; 38; 39; 40; 41; 42; 43; Agulhas Current; Angola Basin; Cape Basin; CTD/Rosette; CTD-RO; DEPTH, water; Event label; GA08; IFISH; Iron fish; LATITUDE; LONGITUDE; M121; M121_1247-1; M121_1248-1; M121_1248-1_fish; M121_1250-1; M121_1252-1_fish; M121_1255-1; M121_1255-1_fish; M121_1257-1; M121_1259-1_fish; M121_1260-1_fish; M121_1262-1; M121_1262-1_fish; M121_1264-1; M121_1267-1; M121_1267-1_fish; M121_1270-1; M121_1270-1_fish; M121_1272-1; M121_1274-1_fish; M121_1277-1; M121_1279-1; M121_1279-1_fish; M121_1281-1_fish; M121_1284-1; M121_1284-1_fish; M121_1288-1; M121_1288-1_fish; M121_1290-1; M121_1292-1; M121_1292-1_fish; M121_1295-1; M121_1295-1_fish; M121_1297-1; M121_1299-1; M121_1299-1_fish; M121_1303-1; M121_1303-1_fish; M121_1307-1; M121_1310-1; M121_1310-1_fish; M121_1314-1; M121_1314-1_fish; M121_1317-1; M121_1317-1_fish; M121_1322-1; M121_1322-1_fish; Meteor (1986); Mozambique Channel; Neodymium, dissolved; Neodymium isotopes; Salinity; Southeast Atlantic; Station label; Temperature, water, potential; ε-Neodymium; ε-Neodymium, standard deviation
url https://doi.org/10.1594/PANGAEA.907825