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Assmy, Philipp; Henjes, Joachim; Klaas, Christine; Smetacek, Victor (2007): Diatom biomass as carbon measured on water bottle samples at station PS58/048-3 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.323706, In supplement to: Assmy, P et al. (2007): Mechanisms determining species dominance in a phytoplankton bloom induced by the iron fertilization experiment EisenEx in the Southern Ocean. Deep Sea Research Part I: Oceanographic Research Papers, 54(3), 340-362, https://doi.org/10.1016/j.dsr.2006.12.005

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Coverage:
Latitude: -48.593000 * Longitude: 20.717500
Date/Time Start: 2000-11-17T13:19:00 * Date/Time End: 2000-11-17T13:19:00
Minimum DEPTH, water: 10 m * Maximum DEPTH, water: 150 m
Event(s):
PS58/048-3 (CTD70) * Latitude: -48.593000 * Longitude: 20.717500 * Date/Time: 2000-11-17T13:19:00 * Elevation: -4742.0 m * Location: South Atlantic Ocean * Campaign: ANT-XVIII/2 (PS58 EISENEX) * Basis: Polarstern * Method/Device: CTD/Rosette (CTD-RO) * Comment: max gear depth: 500 m; out patch 3; in/out patch: Out; day: T9
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1DEPTH, waterDepth watermGeocode
2Thalassionema nitzschioides, biomass as carbonT. nitzschioides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<20 µm
3Thalassionema nitzschioides, biomass as carbonT. nitzschioides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)20-30 µm
4Thalassionema nitzschioides, biomass as carbonT. nitzschioides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>30 µm
5Cylindrotheca closterium, biomass as carbon, fractionatedC. closterium C fracµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)size: < 40 µm
6Cylindrotheca closterium, biomass as carbon, fractionatedC. closterium C fracµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)size: > 60 µm
7Chaetoceros neglectus, biomass as carbonC. neglectus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
8Diatoms, centrales, biomass as carbonDiatom cen Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)of disc-like shape <30 µm
9Diatoms, centrales, biomass as carbonDiatom cen Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)of disc-like shape 30-60 µm
10Diatoms, centrales, biomass as carbonDiatom cen Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)of disc-like shape >60 µm
11Pseudo-nitzschia lineola, biomass as carbonP-n lineola Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<90 µm
12Pseudo-nitzschia lineola, biomass as carbonP-n lineola Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)90-100 µm
13Pseudo-nitzschia lineola, biomass as carbonP-n lineola Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
14Pseudo-nitzschia turgidula, biomass as carbonP-n turgidula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<40 µm
15Pseudo-nitzschia turgidula, biomass as carbonP-n turgidula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)40-50 µm
16Pseudo-nitzschia turgidula, biomass as carbonP-n turgidula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
17Pseudo-nitzschia turgiduloides, biomass as carbonP-n turgiduloides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
18Pseudo-nitzschia turgiduloides, biomass as carbonP-n turgiduloides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
19Pseudo-nitzschia turgiduloides, biomass as carbonP-n turgiduloides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
20Pseudo-nitzschia heimii, biomass as carbonP-n heimii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
21Pseudo-nitzschia heimii, biomass as carbonP-n heimii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
22Pseudo-nitzschia heimii, biomass as carbonP-n heimii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
23Fragilariopsis kerguelensis, biomass as carbonF. kerguelensis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
24Fragilariopsis kerguelensis, biomass as carbonF. kerguelensis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
25Fragilariopsis kerguelensis, biomass as carbonF. kerguelensis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
26Rhizosolenia chunii, biomass as carbonR. chunii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<70 µm
27Rhizosolenia chunii, biomass as carbonR. chunii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)70-90 µm
28Rhizosolenia chunii, biomass as carbonR. chunii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>90 µm
29Rhizosolenia hebetata forma semispina, biomass as carbonR. hebetata f semispina Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
30Rhizosolenia curvata, biomass as carbonR. curvata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
31Proboscia alata, biomass as carbonP. alata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<300 µm
32Proboscia alata, biomass as carbonP. alata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)300-500 µm
33Proboscia alata, biomass as carbonP. alata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>500 µm
34Corethron pennatum, biomass as carbonC. pennatum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
35Corethron pennatum, biomass as carbonC. pennatum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
36Corethron pennatum, biomass as carbonC. pennatum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
37Corethron inerme, biomass as carbonC. inerme Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
38Corethron inerme, biomass as carbonC. inerme Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
39Corethron inerme, biomass as carbonC. inerme Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
40Guinardia delicatula, biomass as carbonG. delicatula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
41Guinardia delicatula, biomass as carbonG. delicatula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
42Guinardia delicatula, biomass as carbonG. delicatula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
43Guinardia cylindrus, biomass as carbonG. cylindrus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<70 µm
44Guinardia cylindrus, biomass as carbonG. cylindrus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)70-90 µm
45Guinardia cylindrus, biomass as carbonG. cylindrus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>90 µm
46Thalassiothrix antarctica, biomass as carbonT. antarctica Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
47Dactyliosolen antarcticus, biomass as carbonD. antarcticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<150 µm
48Dactyliosolen antarcticus, biomass as carbonD. antarcticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)150-300 µm
49Dactyliosolen antarcticus, biomass as carbonD. antarcticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>300 µm
50Membraneis imposter, biomass as carbonM. imposter Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
51Membraneis imposter, biomass as carbonM. imposter Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
52Membraneis imposter, biomass as carbonM. imposter Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
53Haslea sp., biomass as carbonHaslea sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
54Pleurosigma atlanticus, biomass as carbonP. atlanticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
55Leptocylindrus mediterraneus, biomass as carbonL. mediterraneus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<70 µm
56Leptocylindrus mediterraneus, biomass as carbonL. mediterraneus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)70-100 µm
57Leptocylindrus mediterraneus, biomass as carbonL. mediterraneus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
58Pseudo-nitzschia prolongatoides, biomass as carbonP-n prolongatoides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
59Fragilariopsis obliquecostata, biomass as carbonF. obliquecostata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<60 µm
60Fragilariopsis obliquecostata, biomass as carbonF. obliquecostata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)60-80 µm
61Fragilariopsis obliquecostata, biomass as carbonF. obliquecostata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>80 µm
62Fragilariopsis rhombica, biomass as carbonF. rhombica Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
63Chaetoceros dichaeta, biomass as carbonC. dichaeta Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
64Chaetoceros atlanticus, biomass as carbonC. atlanticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
65Chaetoceros curvisetus, biomass as carbonC. curvisetus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
66Chaetoceros convolutus, biomass as carbonC. convolutus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
67Chaetoceros aequatoriale, biomass as carbonC. aequatoriale Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
68Chaetoceros bulbosus, biomass as carbonC. bulbosus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
69Chaetoceros peruvianus, biomass as carbonC. peruvianus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
70Chaetoceros spp., biomass as carbonChaetoceros spp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
71Nitzschia bicapitata, biomass as carbonN. bicapitata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
72Nitzschia sp., biomass as carbonNitzschia sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
73Thalassionema nitzschioides var. lanceolata, biomass as carbonT. nitzschioides var. lanceolata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
74Thalassionema nitzschioides var. lanceolata, biomass as carbonT. nitzschioides var. lanceolata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
75Thalassionema nitzschioides var. lanceolata, biomass as carbonT. nitzschioides var. lanceolata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
76Thalassiosira lentiginosa, biomass as carbonT. lentiginosa Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
77Thalassiosira lentiginosa, biomass as carbonT. lentiginosa Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
78Thalassiosira lentiginosa, biomass as carbonT. lentiginosa Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
79Thalassiosira oliverana, biomass as carbonT. oliverana Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
80Thalassiosira oliverana, biomass as carbonT. oliverana Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
81Thalassiosira oliverana, biomass as carbonT. oliverana Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
82Thalassiosira gracilis, biomass as carbonT. gracilis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<15 µm
83Thalassiosira gracilis, biomass as carbonT. gracilis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)15-20 µm
84Thalassiosira gracilis, biomass as carbonT. gracilis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>20 µm
85Thalassiosira oestrupii, biomass as carbonT. oestrupii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<15 µm
86Thalassiosira oestrupii, biomass as carbonT. oestrupii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)15-20 µm
87Thalassiosira oestrupii, biomass as carbonT. oestrupii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>20 µm
88Thalassiosira tumida, biomass as carbonT. tumida Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<60 µm
89Thalassiosira tumida, biomass as carbonT. tumida Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)60-90 µm
90Thalassiosira tumida, biomass as carbonT. tumida Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>90 µm
91Asteromphalus hookeri, biomass as carbonA. hookeri Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<50 µm
92Asteromphalus hookeri, biomass as carbonA. hookeri Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)50-70 µm
93Asteromphalus hookeri, biomass as carbonA. hookeri Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>70 µm
94Asteromphalus hyalinus, biomass as carbonA. hyalinus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<15 µm
95Asteromphalus hyalinus, biomass as carbonA. hyalinus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)15-20 µm
96Asteromphalus hyalinus, biomass as carbonA. hyalinus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>20 µm
97Azpeitia tabularis, biomass as carbonA. tabularis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<20 µm
98Azpeitia tabularis, biomass as carbonA. tabularis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)20-30 µm
99Azpeitia tabularis, biomass as carbonA. tabularis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>30 µm
100Eucampia antarctica, biomass as carbonE. antarctica Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
101Navicula sp., biomass as carbonNavicula sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
102Navicula sp., biomass as carbonNavicula sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-40 µm
103Navicula sp., biomass as carbonNavicula sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>40 µm
104Actinocyclus curvatulus, biomass as carbonA. curvatulus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-40 µm
105Actinocyclus curvatulus, biomass as carbonA. curvatulus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>40 µm
106Dictyocha speculum, biomass as carbonD. speculum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)empty
107Dictyocha speculum, biomass as carbonD. speculum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)full
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