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Data Publisher for Earth & Environmental Science

Assmy, Philipp; Henjes, Joachim; Klaas, Christine; Smetacek, Victor (2007): Diatom biomass as carbon measured on water bottle samples at station PS58/108-1 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.323695, 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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Project(s):
European Iron Enrichment Experiment in the Southern Ocean (EisenEx)
Coverage:
Latitude: -47.668167 * Longitude: 20.647333
Date/Time Start: 2000-11-29T15:33:00 * Date/Time End: 2000-11-29T15:33:00
Minimum DEPTH, water: 10 m * Maximum DEPTH, water: 150 m
Event(s):
PS58/108-1 (CTD149) * Latitude: -47.668167 * Longitude: 20.647333 * Date/Time: 2000-11-29T15:33:00 * Elevation: -4150.0 m * Location: South Atlantic * Campaign: ANT-XVIII/2 (PS58 EISENEX) * Basis: Polarstern * Method/Device: CTD/Rosette (CTD-RO) * Comment: max gear depth: 500 m; out patch 5; in/out patch: Out; day: T21
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
DEPTH, waterDepth watermGeocode
Pseudo-nitzschia lineola, biomass as carbonP-n lineola Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<90 µm
Pseudo-nitzschia lineola, biomass as carbonP-n lineola Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)90-100 µm
Pseudo-nitzschia lineola, biomass as carbonP-n lineola Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
Pseudo-nitzschia turgidula, biomass as carbonP-n turgidula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<40 µm
Pseudo-nitzschia turgidula, biomass as carbonP-n turgidula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)40-50 µm
Pseudo-nitzschia turgidula, biomass as carbonP-n turgidula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
Pseudo-nitzschia turgiduloides, biomass as carbonP-n turgiduloides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
Pseudo-nitzschia turgiduloides, biomass as carbonP-n turgiduloides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
10 Pseudo-nitzschia turgiduloides, biomass as carbonP-n turgiduloides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
11 Pseudo-nitzschia heimii, biomass as carbonP-n heimii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
12 Pseudo-nitzschia heimii, biomass as carbonP-n heimii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
13 Pseudo-nitzschia heimii, biomass as carbonP-n heimii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
14 Fragilariopsis kerguelensis, biomass as carbonF. kerguelensis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
15 Fragilariopsis kerguelensis, biomass as carbonF. kerguelensis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
16 Fragilariopsis kerguelensis, biomass as carbonF. kerguelensis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
17 Rhizosolenia chunii, biomass as carbonR. chunii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<70 µm
18 Rhizosolenia chunii, biomass as carbonR. chunii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)70-90 µm
19 Rhizosolenia chunii, biomass as carbonR. chunii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>90 µm
20 Rhizosolenia hebetata forma semispina, biomass as carbonR. hebetata f semispina Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
21 Rhizosolenia curvata, biomass as carbonR. curvata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
22 Proboscia alata, biomass as carbonP. alata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<300 µm
23 Proboscia alata, biomass as carbonP. alata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)300-500 µm
24 Proboscia alata, biomass as carbonP. alata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>500 µm
25 Corethron pennatum, biomass as carbonC. pennatum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
26 Corethron pennatum, biomass as carbonC. pennatum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
27 Corethron pennatum, biomass as carbonC. pennatum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
28 Corethron inerme, biomass as carbonC. inerme Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
29 Corethron inerme, biomass as carbonC. inerme Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
30 Corethron inerme, biomass as carbonC. inerme Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
31 Guinardia delicatula, biomass as carbonG. delicatula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
32 Guinardia delicatula, biomass as carbonG. delicatula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
33 Guinardia delicatula, biomass as carbonG. delicatula Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
34 Guinardia cylindrus, biomass as carbonG. cylindrus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<70 µm
35 Guinardia cylindrus, biomass as carbonG. cylindrus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)70-90 µm
36 Guinardia cylindrus, biomass as carbonG. cylindrus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>90 µm
37 Thalassiothrix antarctica, biomass as carbonT. antarctica Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
38 Dactyliosolen antarcticus, biomass as carbonD. antarcticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<150 µm
39 Dactyliosolen antarcticus, biomass as carbonD. antarcticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)150-300 µm
40 Dactyliosolen antarcticus, biomass as carbonD. antarcticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>300 µm
41 Membraneis imposter, biomass as carbonM. imposter Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
42 Membraneis imposter, biomass as carbonM. imposter Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)80-100 µm
43 Membraneis imposter, biomass as carbonM. imposter Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
44 Haslea sp., biomass as carbonHaslea sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
45 Pleurosigma atlanticus, biomass as carbonP. atlanticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
46 Leptocylindrus mediterraneus, biomass as carbonL. mediterraneus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<70 µm
47 Leptocylindrus mediterraneus, biomass as carbonL. mediterraneus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)70-100 µm
48 Leptocylindrus mediterraneus, biomass as carbonL. mediterraneus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
49 Pseudo-nitzschia prolongatoides, biomass as carbonP-n prolongatoides Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
50 Fragilariopsis obliquecostata, biomass as carbonF. obliquecostata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<60 µm
51 Fragilariopsis obliquecostata, biomass as carbonF. obliquecostata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)60-80 µm
52 Fragilariopsis obliquecostata, biomass as carbonF. obliquecostata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>80 µm
53 Fragilariopsis rhombica, biomass as carbonF. rhombica Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
54 Chaetoceros dichaeta, biomass as carbonC. dichaeta Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
55 Chaetoceros atlanticus, biomass as carbonC. atlanticus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
56 Chaetoceros curvisetus, biomass as carbonC. curvisetus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
57 Chaetoceros convolutus, biomass as carbonC. convolutus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
58 Chaetoceros aequatoriale, biomass as carbonC. aequatoriale Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
59 Chaetoceros bulbosus, biomass as carbonC. bulbosus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
60 Chaetoceros peruvianus, biomass as carbonC. peruvianus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
61 Chaetoceros spp., biomass as carbonChaetoceros spp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
62 Cylindrotheca closterium, biomass as carbon, fractionatedC. closterium C fracµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)size: > 60 µm
63 Nitzschia bicapitata, biomass as carbonN. bicapitata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
64 Nitzschia sp., biomass as carbonNitzschia sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
65 Thalassionema nitzschioides var. lanceolata, biomass as carbonT. nitzschioides var. lanceolata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<80 µm
66 Thalassionema 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
67 Thalassionema nitzschioides var. lanceolata, biomass as carbonT. nitzschioides var. lanceolata Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>100 µm
68 Thalassiosira lentiginosa, biomass as carbonT. lentiginosa Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
69 Thalassiosira lentiginosa, biomass as carbonT. lentiginosa Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
70 Thalassiosira lentiginosa, biomass as carbonT. lentiginosa Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
71 Thalassiosira oliverana, biomass as carbonT. oliverana Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
72 Thalassiosira oliverana, biomass as carbonT. oliverana Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-50 µm
73 Thalassiosira oliverana, biomass as carbonT. oliverana Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>50 µm
74 Thalassiosira gracilis, biomass as carbonT. gracilis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<15 µm
75 Thalassiosira gracilis, biomass as carbonT. gracilis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)15-20 µm
76 Thalassiosira gracilis, biomass as carbonT. gracilis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>20 µm
77 Thalassiosira oestrupii, biomass as carbonT. oestrupii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<15 µm
78 Thalassiosira oestrupii, biomass as carbonT. oestrupii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)15-20 µm
79 Thalassiosira oestrupii, biomass as carbonT. oestrupii Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>20 µm
80 Thalassiosira tumida, biomass as carbonT. tumida Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<60 µm
81 Thalassiosira tumida, biomass as carbonT. tumida Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)60-90 µm
82 Thalassiosira tumida, biomass as carbonT. tumida Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>90 µm
83 Diatoms, 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
84 Diatoms, centrales, biomass as carbonDiatom cen Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)of disc-like shape >60 µm
85 Asteromphalus hookeri, biomass as carbonA. hookeri Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<50 µm
86 Asteromphalus hookeri, biomass as carbonA. hookeri Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)50-70 µm
87 Asteromphalus hookeri, biomass as carbonA. hookeri Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>70 µm
88 Asteromphalus hyalinus, biomass as carbonA. hyalinus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<15 µm
89 Asteromphalus hyalinus, biomass as carbonA. hyalinus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)15-20 µm
90 Asteromphalus hyalinus, biomass as carbonA. hyalinus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>20 µm
91 Azpeitia tabularis, biomass as carbonA. tabularis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<20 µm
92 Azpeitia tabularis, biomass as carbonA. tabularis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)20-30 µm
93 Azpeitia tabularis, biomass as carbonA. tabularis Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>30 µm
94 Eucampia antarctica, biomass as carbonE. antarctica Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)
95 Navicula sp., biomass as carbonNavicula sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)<30 µm
96 Navicula sp., biomass as carbonNavicula sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-40 µm
97 Navicula sp., biomass as carbonNavicula sp. Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>40 µm
98 Actinocyclus curvatulus, biomass as carbonA. curvatulus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)30-40 µm
99 Actinocyclus curvatulus, biomass as carbonA. curvatulus Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)>40 µm
100 Dictyocha speculum, biomass as carbonD. speculum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)empty
101 Dictyocha speculum, biomass as carbonD. speculum Cµg/lAssmy, PhilippCalculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5)full
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
700 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


Depth water [m]
P-n lineola C [µg/l]
(<90 µm)
P-n lineola C [µg/l]
(90-100 µm)
P-n lineola C [µg/l]
(>100 µm)
P-n turgidula C [µg/l]
(<40 µm)
P-n turgidula C [µg/l]
(40-50 µm)
P-n turgidula C [µg/l]
(>50 µm)
P-n turgiduloides C [µg/l]
(<80 µm)
P-n turgiduloides C [µg/l]
(80-100 µm)		10 
P-n turgiduloides C [µg/l]
(>100 µm)		11 
P-n heimii C [µg/l]
(<80 µm)		12 
P-n heimii C [µg/l]
(80-100 µm)		13 
P-n heimii C [µg/l]
(>100 µm)		14 
F. kerguelensis C [µg/l]
(<30 µm)		15 
F. kerguelensis C [µg/l]
(30-50 µm)		16 
F. kerguelensis C [µg/l]
(>50 µm)		17 
R. chunii C [µg/l]
(<70 µm)		18 
R. chunii C [µg/l]
(70-90 µm)		19 
R. chunii C [µg/l]
(>90 µm)		20 
R. hebetata f semispina C [µg/l]		21 
R. curvata C [µg/l]		22 
P. alata C [µg/l]
(<300 µm)		23 
P. alata C [µg/l]
(300-500 µm)		24 
P. alata C [µg/l]
(>500 µm)		25 
C. pennatum C [µg/l]
(<80 µm)		26 
C. pennatum C [µg/l]
(80-100 µm)		27 
C. pennatum C [µg/l]
(>100 µm)		28 
C. inerme C [µg/l]
(<80 µm)		29 
C. inerme C [µg/l]
(80-100 µm)		30 
C. inerme C [µg/l]
(>100 µm)		31 
G. delicatula C [µg/l]
(<30 µm)		32 
G. delicatula C [µg/l]
(30-50 µm)		33 
G. delicatula C [µg/l]
(>50 µm)		34 
G. cylindrus C [µg/l]
(<70 µm)		35 
G. cylindrus C [µg/l]
(70-90 µm)		36 
G. cylindrus C [µg/l]
(>90 µm)		37 
T. antarctica C [µg/l]		38 
D. antarcticus C [µg/l]
(<150 µm)		39 
D. antarcticus C [µg/l]
(150-300 µm)		40 
D. antarcticus C [µg/l]
(>300 µm)		41 
M. imposter C [µg/l]
(<80 µm)		42 
M. imposter C [µg/l]
(80-100 µm)		43 
M. imposter C [µg/l]
(>100 µm)		44 
Haslea sp. C [µg/l]		45 
P. atlanticus C [µg/l]		46 
L. mediterraneus C [µg/l]
(<70 µm)		47 
L. mediterraneus C [µg/l]
(70-100 µm)		48 
L. mediterraneus C [µg/l]
(>100 µm)		49 
P-n prolongatoides C [µg/l]		50 
F. obliquecostata C [µg/l]
(<60 µm)		51 
F. obliquecostata C [µg/l]
(60-80 µm)		52 
F. obliquecostata C [µg/l]
(>80 µm)		53 
F. rhombica C [µg/l]		54 
C. dichaeta C [µg/l]		55 
C. atlanticus C [µg/l]		56 
C. curvisetus C [µg/l]		57 
C. convolutus C [µg/l]		58 
C. aequatoriale C [µg/l]		59 
C. bulbosus C [µg/l]		60 
C. peruvianus C [µg/l]		61 
Chaetoceros spp. C [µg/l]		62 
C. closterium C frac [µg/l]
(size: > 60 µm)		63 
N. bicapitata C [µg/l]		64 
Nitzschia sp. C [µg/l]		65 
T. nitzschioides var. lanceolata C [µg/l]
(<80 µm)		66 
T. nitzschioides var. lanceolata C [µg/l]
(80-100 µm)		67 
T. nitzschioides var. lanceolata C [µg/l]
(>100 µm)		68 
T. lentiginosa C [µg/l]
(<30 µm)		69 
T. lentiginosa C [µg/l]
(30-50 µm)		70 
T. lentiginosa C [µg/l]
(>50 µm)		71 
T. oliverana C [µg/l]
(<30 µm)		72 
T. oliverana C [µg/l]
(30-50 µm)		73 
T. oliverana C [µg/l]
(>50 µm)		74 
T. gracilis C [µg/l]
(<15 µm)		75 
T. gracilis C [µg/l]
(15-20 µm)		76 
T. gracilis C [µg/l]
(>20 µm)		77 
T. oestrupii C [µg/l]
(<15 µm)		78 
T. oestrupii C [µg/l]
(15-20 µm)		79 
T. oestrupii C [µg/l]
(>20 µm)		80 
T. tumida C [µg/l]
(<60 µm)		81 
T. tumida C [µg/l]
(60-90 µm)		82 
T. tumida C [µg/l]
(>90 µm)		83 
Diatom cen C [µg/l]
(of disc-like shape 30-60 µm)		84 
Diatom cen C [µg/l]
(of disc-like shape >60 µm)		85 
A. hookeri C [µg/l]
(<50 µm)		86 
A. hookeri C [µg/l]
(50-70 µm)		87 
A. hookeri C [µg/l]
(>70 µm)		88 
A. hyalinus C [µg/l]
(<15 µm)		89 
A. hyalinus C [µg/l]
(15-20 µm)		90 
A. hyalinus C [µg/l]
(>20 µm)		91 
A. tabularis C [µg/l]
(<20 µm)		92 
A. tabularis C [µg/l]
(20-30 µm)		93 
A. tabularis C [µg/l]
(>30 µm)		94 
E. antarctica C [µg/l]		95 
Navicula sp. C [µg/l]
(<30 µm)		96 
Navicula sp. C [µg/l]
(30-40 µm)		97 
Navicula sp. C [µg/l]
(>40 µm)		98 
A. curvatulus C [µg/l]
(30-40 µm)		99 
A. curvatulus C [µg/l]
(>40 µm)		100 
D. speculum C [µg/l]
(empty)		101 
D. speculum C [µg/l]
(full)
100.4060.3640.0200.0390.0970.0430.0220.0430.0580.1210.7180.1070.1600.7620.0000.0000.2330.6600.0000.0000.0002.5370.0000.0610.4661.4090.0000.3441.2310.0000.0000.0000.1070.6530.1890.6620.0000.9403.4310.0000.0000.0000.1720.3280.0000.0930.0000.0340.0000.0000.0000.0030.0070.2240.0290.0940.0300.0000.0080.0000.0460.0000.0070.0130.0340.0280.0000.0600.4750.0000.2400.0000.0230.0000.0220.0000.0000.0000.0000.3350.7170.1910.0000.0950.2260.0000.0180.0860.0000.0540.0000.0950.0000.0410.0960.0940.0000.0001.3220.000
200.4750.4530.0270.0720.1170.0590.0120.0390.0000.0290.2790.2890.1690.0200.1280.0000.2331.8870.2350.0000.0811.5220.0000.1020.3102.9930.0000.0000.0000.0000.0000.0000.0891.1190.4720.6620.0571.8801.7150.0830.0000.0000.6880.1640.0890.2800.3080.0590.0000.0000.0000.0120.0330.0790.0500.1530.0300.0000.0000.0000.1300.0000.0070.0130.0340.0000.0000.0600.4750.0000.1200.0000.0460.0240.0220.0030.0000.0000.0000.3350.0000.0000.0000.0000.2260.0000.0000.1080.0000.0270.0000.0950.0000.0250.1600.0630.0000.0001.7630.055
400.3850.4440.0880.0400.1840.0910.0690.0170.0000.1640.2260.0000.2900.3810.1760.0000.4661.8870.2350.0000.3252.5370.0000.0610.1550.8800.0000.0000.0000.0000.0000.0000.0360.5600.7550.1100.0000.9400.8580.0000.0000.0000.2580.0000.0000.1870.6160.0550.0000.0000.0000.0060.0000.0290.0000.0000.0300.0000.0000.0040.0650.0000.0070.0000.0000.0000.0000.0000.1580.0000.0000.0000.0360.0610.0000.0000.1830.0000.0000.0000.0000.0000.0000.0000.2260.0000.0090.0430.0500.0360.0000.0000.0000.0500.0480.0310.0000.0001.6530.055
600.2510.6420.0880.0110.0840.0210.0320.0000.0000.1431.0360.0460.0710.4410.0000.0000.3731.2260.2350.0000.0000.0000.0000.0200.4141.2330.0000.0000.0000.0000.0860.0000.0890.9331.1320.1100.0000.6274.2880.0000.0000.0000.3440.0000.0180.1870.1030.0800.0000.0000.0000.0030.0000.0510.0080.0000.0300.0000.0160.0000.1500.0000.0130.0260.0170.0280.0000.1200.1580.0000.0000.0000.0330.0730.0000.0000.0120.0000.0000.0000.0000.0950.0000.0950.0000.0000.0000.0650.0500.0360.0000.0000.3170.0500.0320.0940.0000.0001.7080.000
800.4010.1350.0000.0550.0840.1070.0250.0650.0800.1140.3850.1830.2280.7020.0000.0000.0931.1320.0000.0000.0002.0291.4810.0610.5172.2890.0000.6881.4370.0000.0000.0000.1240.2800.3770.4410.1711.2530.0000.0000.0000.0000.5160.0000.0530.4200.6160.0460.0000.0000.0000.0060.0000.0000.0080.0000.0000.0000.0000.0000.1690.0000.0080.0000.0340.0280.0370.1200.3170.0000.0000.0000.0390.0370.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.4530.0000.0180.0860.0500.0450.0000.0950.0000.0660.1280.1250.0000.0000.8810.000
1000.0710.0670.0000.0070.0230.0000.0250.0000.0000.0000.1060.0000.0550.1300.0640.0000.1870.0000.0000.0000.0000.0000.0000.0000.3101.7610.0000.0000.0000.0000.0000.0000.1781.0260.2830.3310.0570.9400.0000.0420.0000.0000.4300.0000.0000.1870.1030.0060.0120.0000.0000.0030.0130.0000.0110.0000.0450.0000.0080.0000.0200.0000.0100.0130.0340.0000.0000.1800.1580.0000.0000.0000.0360.0370.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0220.0500.0360.0000.0000.0000.0500.1120.0310.0000.0000.2750.000
1500.0050.0270.0000.0050.0030.0000.0000.0000.0000.0000.0530.0230.0250.0700.0240.0000.0000.0000.0000.0000.0000.0000.0000.0100.0520.0000.0000.0000.0000.0000.0000.0000.0090.0230.0000.0000.0570.4700.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0000.0030.0000.0070.0170.0000.0000.0000.0000.0000.0000.0000.0020.0070.0000.0000.0000.0300.0790.0000.0300.0000.0020.0000.0000.0000.0000.0000.0570.0000.3590.0000.0000.0000.0000.0000.0000.0110.0000.0050.0000.0480.0000.0040.0240.0000.0000.0000.1380.000