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Main Authors: Fernández-Carrera, Ana, Steinkopf, Markus, Liskow, Iris, Wodarg, Dirk, Voss, Maren, Loick-Wilde, Natalie
Format: Dataset Open Access
Language:en
Published: PANGAEA 2026
Subjects:
Alanine; Alanine, δ15N; Alanine, δ15N, standard deviation; Amazon River plume; amino acids mol%; Ammonium; Aspartamine and Aspartic acid; Aspartamine and Aspartic acid, δ15N; Aspartamine and Aspartic acid, δ15N, standard deviation; Based on HPLC pigments according to Bricaud et al (2004); Brunt-Väisälä frequency, maximum; Campaign; Carbon, particulate; ChemTax v 1.9.5 (Wright, S., 2017); Chlorophyll a; Compound-specific stable isotope analyses of amino acids; Cryptophytes; CTD/Rosette; CTD-RO; DATE/TIME; Depth, deep chlorophyll maximum; Depth, phosphocline; Depth, silicocline; DEPTH, water; Depth of nitracline; Depth with 1% of photosynthetic active radiation; Diatoms; Dinoflagellates; Elemental analyzer, Thermo Finnigan, 1112 Flash; coupled with Isotope ratio mass spectrometer, Thermo Finnigan, Delta Plus; continuous-flow carrier-gas system, Thermo Finnigan, ConFlo III; ELEVATION; Event label; Filamentous Cyanobacteria; Gas chromatographer mass spectrometer, Thermo Finnigan, Trace GCMS DSQ II; coupled with TriPlus Autosampler, Thermo Finnigan; Glutamine and Glutamic acid; Glutamine and Glutamic acid, δ15N; Glutamine and Glutamic acid, δ15N, standard deviation; Habitat; Habitat Delineation in Highly Variable Marine Environments (Weber et. al, 2019); Haptophytes; High performance liquid chromatography (HPLC), Agilent 1200; High-pressure liquid chromatography size index; Isoleucine; Isoleucine, δ15N; Isoleucine, δ15N, standard deviation; Isotope ration mass spectrometer (IRMS), Thermo Fischer Scientific, MAT253; universal continuous flow interface, Thermo Scientific, ConFlo IV; gas chromatography, Thermo Scientific, GC Isolink II; gas chromatography, Thermo Scientific, Trace GC 1300; LATITUDE; Leucine; Leucine, δ15N; Leucine, δ15N, standard deviation; Linear interpolation depth of 35 PSU; Linear interpolation in nutrient depth profile; Location; LONGITUDE; Lysine; Lysine, δ15N; Lysine, δ15N, standard deviation; M174; M174_10-8; M174_12-2; M174_14-2; M174_17-17; M174_19-6; M174_20-5; M174_21-7; M174_24-1; M174_25-5; M174_26-10; M174_28-2; M174_30-12; M174_31-11; M174_32-6; M174_7-4; M174_8-7; M174_9-7; Meteor (1986); Methods of Seawater Analysis, Third Edition (Grasshoff et al., 1999); Mixed layer depth; Nitrate; Nitrite; Nitrogen, particulate; North Atlantic Ocean; Oxygen; Phenylalanine; Phenylalanine, δ15N; Phenylalanine, δ15N, standard deviation; Phosphate; Prasinophytes; Prochlorococcus; Proline; Proline, δ15N; Proline, δ15N, standard deviation; PUMP; River plume thickness; Salinity; Serine; Serine, δ15N; Serine, δ15N, standard deviation; seston; Silicate; South Atlantic Ocean; Stable carbon isotopes δ13C; stable nitrogen isotope (δ15N); Station label; Synechococcus; Temperature, water; Threonine; Threonine, δ15N; Threonine, δ15N, standard deviation; Tyrosine; Tyrosine, δ15N; Tyrosine, δ15N standard, deviation; Valine; Valine, δ15N; Valine, δ15N, standard deviation; Water pump; δ13C, seston; δ15N, seston
Online Access:https://doi.org/10.1594/PANGAEA.971279
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https://doi.org/10.1594/PANGAEA.971279

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