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Bibliographic Details
Main Author: Tanhua, Toste
Format: Dataset Open Access
Language:en
Published: PANGAEA 2021
Subjects:
Bottle number; Climate - Biogeochemistry Interactions in the Tropical Ocean; CTD; CTD/Rosette; CTD 001; CTD 002; CTD 003; CTD 004; CTD 005; CTD 006; CTD 007; CTD 008; CTD 009; CTD 010; CTD 011; CTD 012; CTD 013; CTD 014; CTD 015; CTD 016; CTD 017; CTD 018; CTD 019; CTD 020; CTD 021; CTD 022; CTD 023; CTD 024; CTD 025; CTD 026; CTD 027; CTD 028; CTD 029; CTD 030; CTD 031; CTD 032; CTD 033; CTD 034; CTD 035; CTD 036; CTD 037; CTD 038; CTD 039; CTD 040; CTD 041; CTD 042; CTD 043; CTD 044; CTD 045; CTD 046; CTD 047; CTD 048; CTD 049; CTD 050; CTD 051; CTD 052; CTD 053; CTD 054; CTD 055; CTD 056; CTD 057; CTD 058; CTD 059; CTD 060; CTD 061; CTD 062; CTD 063; CTD 064; CTD 065; CTD 066; CTD 068; CTD 069; CTD 070; CTD 071; CTD 072; CTD 073; CTD 074; CTD 075; CTD 076; CTD 077; CTD 078; CTD 079; CTD 080; CTD 081; CTD 082; CTD 083; CTD 084; CTD 085; CTD 086; CTD 087; CTD 088; CTD 089; CTD 090; CTD 091; CTD 092; CTD 093; CTD 094; CTD 095; CTD 096; CTD 097; CTD 098; CTD-RO; DATE/TIME; DEPTH, water; Event label; Flag; Freon-12 (dichlorodifluoromethane); Latitude of event; Longitude of event; M145; M145_100-1; M145_10-1; M145_101-1; M145_102-1; M145_105-1; M145_106-1; M145_107-1; M145_108-1; M145_109-1; M145_110-1; M145_11-1; M145_111-1; M145_112-1; M145_113-1; M145_114-1; M145_115-1; M145_116-1; M145_117-1; M145_118-1; M145_119-1; M145_120-1; M145_12-1; M145_121-1; M145_122-1; M145_123-1; M145_13-1; M145_14-1; M145_15-1; M145_16-1; M145_18-1; M145_19-1; M145_2-1; M145_23-1; M145_25-1; M145_26-1; M145_27-1; M145_28-1; M145_29-1; M145_30-1; M145_3-1; M145_31-1; M145_32-1; M145_33-1; M145_34-1; M145_35-1; M145_37-1; M145_38-1; M145_39-1; M145_40-1; M145_4-1; M145_41-1; M145_42-1; M145_43-1; M145_44-1; M145_45-1; M145_46-1; M145_47-1; M145_48-1; M145_49-1; M145_50-1; M145_53-1; M145_56-1; M145_57-1; M145_58-1; M145_59-1; M145_60-1; M145_61-1; M145_62-1; M145_63-1; M145_64-1; M145_65-1; M145_66-1; M145_67-1; M145_68-1; M145_69-1; M145_70-1; M145_71-1; M145_72-1; M145_73-1; M145_74-1; M145_75-1; M145_76-1; M145_77-1; M145_78-1; M145_79-1; M145_80-1; M145_8-1; M145_84-1; M145_85-1; M145_86-1; M145_89-1; M145_90-1; M145_9-1; M145_91-1; M145_92-1; M145_98-1; M145_99-1; Meteor (1986); Nitrate; Nitrite; Oxygen; Phosphate; Pressure, water; Salinity; SFB754; Silicate; Station label; Sulfur hexafluoride, SF6; Temperature, water; Titration, Winkler
Online Access:https://doi.org/10.1594/PANGAEA.934461
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_version_ 1867171876744200192
author Tanhua, Toste
author_facet Tanhua, Toste
collection Datos científicos de ciencias marinas y ambientales
contents A physical - biogeochemical survey was carried out in the northeastern and southwestern tropical Atlantic on the German RV Meteor in 2018, M145. The main objective of the work in the oxygen minimum zone of the eastern tropical North Atlantic was to improve oxygen budget estimates including water mass age and consumption estimates. The Bottle file contains data from the discrete samples taken on CTD casts, including data from the S/T/P/O sensor. Biogeochemical observations during this cruise include discrete measurements of the transient tracers SF6 sand CFC12, the macronutrients nitrate/nitrite, phosphate and silicate, as well as oxygen by winkler titration.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_934461
institution PANGAEA
language en
publishDate 2021
publisher PANGAEA
record_format pangaea
spellingShingle Hydrochemistry of water samples during METEOR cruise M145
Tanhua, Toste
Bottle number; Climate - Biogeochemistry Interactions in the Tropical Ocean; CTD; CTD/Rosette; CTD 001; CTD 002; CTD 003; CTD 004; CTD 005; CTD 006; CTD 007; CTD 008; CTD 009; CTD 010; CTD 011; CTD 012; CTD 013; CTD 014; CTD 015; CTD 016; CTD 017; CTD 018; CTD 019; CTD 020; CTD 021; CTD 022; CTD 023; CTD 024; CTD 025; CTD 026; CTD 027; CTD 028; CTD 029; CTD 030; CTD 031; CTD 032; CTD 033; CTD 034; CTD 035; CTD 036; CTD 037; CTD 038; CTD 039; CTD 040; CTD 041; CTD 042; CTD 043; CTD 044; CTD 045; CTD 046; CTD 047; CTD 048; CTD 049; CTD 050; CTD 051; CTD 052; CTD 053; CTD 054; CTD 055; CTD 056; CTD 057; CTD 058; CTD 059; CTD 060; CTD 061; CTD 062; CTD 063; CTD 064; CTD 065; CTD 066; CTD 068; CTD 069; CTD 070; CTD 071; CTD 072; CTD 073; CTD 074; CTD 075; CTD 076; CTD 077; CTD 078; CTD 079; CTD 080; CTD 081; CTD 082; CTD 083; CTD 084; CTD 085; CTD 086; CTD 087; CTD 088; CTD 089; CTD 090; CTD 091; CTD 092; CTD 093; CTD 094; CTD 095; CTD 096; CTD 097; CTD 098; CTD-RO; DATE/TIME; DEPTH, water; Event label; Flag; Freon-12 (dichlorodifluoromethane); Latitude of event; Longitude of event; M145; M145_100-1; M145_10-1; M145_101-1; M145_102-1; M145_105-1; M145_106-1; M145_107-1; M145_108-1; M145_109-1; M145_110-1; M145_11-1; M145_111-1; M145_112-1; M145_113-1; M145_114-1; M145_115-1; M145_116-1; M145_117-1; M145_118-1; M145_119-1; M145_120-1; M145_12-1; M145_121-1; M145_122-1; M145_123-1; M145_13-1; M145_14-1; M145_15-1; M145_16-1; M145_18-1; M145_19-1; M145_2-1; M145_23-1; M145_25-1; M145_26-1; M145_27-1; M145_28-1; M145_29-1; M145_30-1; M145_3-1; M145_31-1; M145_32-1; M145_33-1; M145_34-1; M145_35-1; M145_37-1; M145_38-1; M145_39-1; M145_40-1; M145_4-1; M145_41-1; M145_42-1; M145_43-1; M145_44-1; M145_45-1; M145_46-1; M145_47-1; M145_48-1; M145_49-1; M145_50-1; M145_53-1; M145_56-1; M145_57-1; M145_58-1; M145_59-1; M145_60-1; M145_61-1; M145_62-1; M145_63-1; M145_64-1; M145_65-1; M145_66-1; M145_67-1; M145_68-1; M145_69-1; M145_70-1; M145_71-1; M145_72-1; M145_73-1; M145_74-1; M145_75-1; M145_76-1; M145_77-1; M145_78-1; M145_79-1; M145_80-1; M145_8-1; M145_84-1; M145_85-1; M145_86-1; M145_89-1; M145_90-1; M145_9-1; M145_91-1; M145_92-1; M145_98-1; M145_99-1; Meteor (1986); Nitrate; Nitrite; Oxygen; Phosphate; Pressure, water; Salinity; SFB754; Silicate; Station label; Sulfur hexafluoride, SF6; Temperature, water; Titration, Winkler
A physical - biogeochemical survey was carried out in the northeastern and southwestern tropical Atlantic on the German RV Meteor in 2018, M145. The main objective of the work in the oxygen minimum zone of the eastern tropical North Atlantic was to improve oxygen budget estimates including water mass age and consumption estimates. The Bottle file contains data from the discrete samples taken on CTD casts, including data from the S/T/P/O sensor. Biogeochemical observations during this cruise include discrete measurements of the transient tracers SF6 sand CFC12, the macronutrients nitrate/nitrite, phosphate and silicate, as well as oxygen by winkler titration.
title Hydrochemistry of water samples during METEOR cruise M145
topic Bottle number; Climate - Biogeochemistry Interactions in the Tropical Ocean; CTD; CTD/Rosette; CTD 001; CTD 002; CTD 003; CTD 004; CTD 005; CTD 006; CTD 007; CTD 008; CTD 009; CTD 010; CTD 011; CTD 012; CTD 013; CTD 014; CTD 015; CTD 016; CTD 017; CTD 018; CTD 019; CTD 020; CTD 021; CTD 022; CTD 023; CTD 024; CTD 025; CTD 026; CTD 027; CTD 028; CTD 029; CTD 030; CTD 031; CTD 032; CTD 033; CTD 034; CTD 035; CTD 036; CTD 037; CTD 038; CTD 039; CTD 040; CTD 041; CTD 042; CTD 043; CTD 044; CTD 045; CTD 046; CTD 047; CTD 048; CTD 049; CTD 050; CTD 051; CTD 052; CTD 053; CTD 054; CTD 055; CTD 056; CTD 057; CTD 058; CTD 059; CTD 060; CTD 061; CTD 062; CTD 063; CTD 064; CTD 065; CTD 066; CTD 068; CTD 069; CTD 070; CTD 071; CTD 072; CTD 073; CTD 074; CTD 075; CTD 076; CTD 077; CTD 078; CTD 079; CTD 080; CTD 081; CTD 082; CTD 083; CTD 084; CTD 085; CTD 086; CTD 087; CTD 088; CTD 089; CTD 090; CTD 091; CTD 092; CTD 093; CTD 094; CTD 095; CTD 096; CTD 097; CTD 098; CTD-RO; DATE/TIME; DEPTH, water; Event label; Flag; Freon-12 (dichlorodifluoromethane); Latitude of event; Longitude of event; M145; M145_100-1; M145_10-1; M145_101-1; M145_102-1; M145_105-1; M145_106-1; M145_107-1; M145_108-1; M145_109-1; M145_110-1; M145_11-1; M145_111-1; M145_112-1; M145_113-1; M145_114-1; M145_115-1; M145_116-1; M145_117-1; M145_118-1; M145_119-1; M145_120-1; M145_12-1; M145_121-1; M145_122-1; M145_123-1; M145_13-1; M145_14-1; M145_15-1; M145_16-1; M145_18-1; M145_19-1; M145_2-1; M145_23-1; M145_25-1; M145_26-1; M145_27-1; M145_28-1; M145_29-1; M145_30-1; M145_3-1; M145_31-1; M145_32-1; M145_33-1; M145_34-1; M145_35-1; M145_37-1; M145_38-1; M145_39-1; M145_40-1; M145_4-1; M145_41-1; M145_42-1; M145_43-1; M145_44-1; M145_45-1; M145_46-1; M145_47-1; M145_48-1; M145_49-1; M145_50-1; M145_53-1; M145_56-1; M145_57-1; M145_58-1; M145_59-1; M145_60-1; M145_61-1; M145_62-1; M145_63-1; M145_64-1; M145_65-1; M145_66-1; M145_67-1; M145_68-1; M145_69-1; M145_70-1; M145_71-1; M145_72-1; M145_73-1; M145_74-1; M145_75-1; M145_76-1; M145_77-1; M145_78-1; M145_79-1; M145_80-1; M145_8-1; M145_84-1; M145_85-1; M145_86-1; M145_89-1; M145_90-1; M145_9-1; M145_91-1; M145_92-1; M145_98-1; M145_99-1; Meteor (1986); Nitrate; Nitrite; Oxygen; Phosphate; Pressure, water; Salinity; SFB754; Silicate; Station label; Sulfur hexafluoride, SF6; Temperature, water; Titration, Winkler
url https://doi.org/10.1594/PANGAEA.934461