Assmy, Philipp; Henjes, Joachim; Klaas, Christine; Smetacek, Victor (2007): Diatom biomass as carbon measured on water bottle samples at station PS58/088-4 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.323709, 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):
Coverage:
Latitude: -47.983500 * Longitude: 21.083167
Date/Time Start: 2000-11-24T03:18:00 * Date/Time End: 2000-11-24T03:18:00
Minimum DEPTH, water: 10 m * Maximum DEPTH, water: 150 m
Event(s):
PS58/088-4 (CTD117) * Latitude: -47.983500 * Longitude: 21.083167 * Date/Time: 2000-11-24T03:18:00 * Elevation: -5184.0 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; in patch 10; in/out patch: In; day: T16
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | DEPTH, water | Depth water | m | Geocode | ||
2 | Thalassionema nitzschioides, biomass as carbon | T. nitzschioides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <20 µm |
3 | Thalassionema nitzschioides, biomass as carbon | T. nitzschioides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 20-30 µm |
4 | Thalassionema nitzschioides, biomass as carbon | T. nitzschioides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >30 µm |
5 | Cylindrotheca closterium, biomass as carbon, fractionated | C. closterium C frac | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | size: < 40 µm |
6 | Cylindrotheca closterium, biomass as carbon, fractionated | C. closterium C frac | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | size: > 60 µm |
7 | Chaetoceros neglectus, biomass as carbon | C. neglectus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
8 | Diatoms, centrales, biomass as carbon | Diatom cen C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | of disc-like shape <30 µm |
9 | Diatoms, centrales, biomass as carbon | Diatom cen C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | of disc-like shape 30-60 µm |
10 | Diatoms, centrales, biomass as carbon | Diatom cen C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | of disc-like shape >60 µm |
11 | Pseudo-nitzschia lineola, biomass as carbon | P-n lineola C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <90 µm |
12 | Pseudo-nitzschia lineola, biomass as carbon | P-n lineola C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 90-100 µm |
13 | Pseudo-nitzschia lineola, biomass as carbon | P-n lineola C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
14 | Pseudo-nitzschia turgidula, biomass as carbon | P-n turgidula C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <40 µm |
15 | Pseudo-nitzschia turgidula, biomass as carbon | P-n turgidula C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 40-50 µm |
16 | Pseudo-nitzschia turgidula, biomass as carbon | P-n turgidula C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >50 µm |
17 | Pseudo-nitzschia turgiduloides, biomass as carbon | P-n turgiduloides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <80 µm |
18 | Pseudo-nitzschia turgiduloides, biomass as carbon | P-n turgiduloides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 80-100 µm |
19 | Pseudo-nitzschia turgiduloides, biomass as carbon | P-n turgiduloides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
20 | Pseudo-nitzschia heimii, biomass as carbon | P-n heimii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <80 µm |
21 | Pseudo-nitzschia heimii, biomass as carbon | P-n heimii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 80-100 µm |
22 | Pseudo-nitzschia heimii, biomass as carbon | P-n heimii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
23 | Fragilariopsis kerguelensis, biomass as carbon | F. kerguelensis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <30 µm |
24 | Fragilariopsis kerguelensis, biomass as carbon | F. kerguelensis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 30-50 µm |
25 | Fragilariopsis kerguelensis, biomass as carbon | F. kerguelensis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >50 µm |
26 | Rhizosolenia chunii, biomass as carbon | R. chunii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <70 µm |
27 | Rhizosolenia chunii, biomass as carbon | R. chunii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 70-90 µm |
28 | Rhizosolenia chunii, biomass as carbon | R. chunii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >90 µm |
29 | Rhizosolenia hebetata forma semispina, biomass as carbon | R. hebetata f semispina C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
30 | Rhizosolenia curvata, biomass as carbon | R. curvata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
31 | Proboscia alata, biomass as carbon | P. alata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <300 µm |
32 | Proboscia alata, biomass as carbon | P. alata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 300-500 µm |
33 | Proboscia alata, biomass as carbon | P. alata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >500 µm |
34 | Corethron pennatum, biomass as carbon | C. pennatum C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <80 µm |
35 | Corethron pennatum, biomass as carbon | C. pennatum C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 80-100 µm |
36 | Corethron pennatum, biomass as carbon | C. pennatum C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
37 | Corethron inerme, biomass as carbon | C. inerme C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <80 µm |
38 | Corethron inerme, biomass as carbon | C. inerme C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 80-100 µm |
39 | Corethron inerme, biomass as carbon | C. inerme C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
40 | Guinardia delicatula, biomass as carbon | G. delicatula C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <30 µm |
41 | Guinardia delicatula, biomass as carbon | G. delicatula C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 30-50 µm |
42 | Guinardia delicatula, biomass as carbon | G. delicatula C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >50 µm |
43 | Guinardia cylindrus, biomass as carbon | G. cylindrus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <70 µm |
44 | Guinardia cylindrus, biomass as carbon | G. cylindrus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 70-90 µm |
45 | Guinardia cylindrus, biomass as carbon | G. cylindrus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >90 µm |
46 | Thalassiothrix antarctica, biomass as carbon | T. antarctica C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
47 | Dactyliosolen antarcticus, biomass as carbon | D. antarcticus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <150 µm |
48 | Dactyliosolen antarcticus, biomass as carbon | D. antarcticus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 150-300 µm |
49 | Dactyliosolen antarcticus, biomass as carbon | D. antarcticus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >300 µm |
50 | Membraneis imposter, biomass as carbon | M. imposter C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <80 µm |
51 | Membraneis imposter, biomass as carbon | M. imposter C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 80-100 µm |
52 | Membraneis imposter, biomass as carbon | M. imposter C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
53 | Haslea sp., biomass as carbon | Haslea sp. C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
54 | Pleurosigma atlanticus, biomass as carbon | P. atlanticus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
55 | Leptocylindrus mediterraneus, biomass as carbon | L. mediterraneus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <70 µm |
56 | Leptocylindrus mediterraneus, biomass as carbon | L. mediterraneus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 70-100 µm |
57 | Leptocylindrus mediterraneus, biomass as carbon | L. mediterraneus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
58 | Pseudo-nitzschia prolongatoides, biomass as carbon | P-n prolongatoides C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
59 | Fragilariopsis obliquecostata, biomass as carbon | F. obliquecostata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <60 µm |
60 | Fragilariopsis obliquecostata, biomass as carbon | F. obliquecostata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 60-80 µm |
61 | Fragilariopsis obliquecostata, biomass as carbon | F. obliquecostata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >80 µm |
62 | Fragilariopsis rhombica, biomass as carbon | F. rhombica C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
63 | Chaetoceros dichaeta, biomass as carbon | C. dichaeta C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
64 | Chaetoceros atlanticus, biomass as carbon | C. atlanticus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
65 | Chaetoceros curvisetus, biomass as carbon | C. curvisetus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
66 | Chaetoceros convolutus, biomass as carbon | C. convolutus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
67 | Chaetoceros aequatoriale, biomass as carbon | C. aequatoriale C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
68 | Chaetoceros bulbosus, biomass as carbon | C. bulbosus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
69 | Chaetoceros peruvianus, biomass as carbon | C. peruvianus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
70 | Chaetoceros spp., biomass as carbon | Chaetoceros spp. C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
71 | Nitzschia bicapitata, biomass as carbon | N. bicapitata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
72 | Nitzschia sp., biomass as carbon | Nitzschia sp. C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
73 | Thalassionema nitzschioides var. lanceolata, biomass as carbon | T. nitzschioides var. lanceolata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <80 µm |
74 | Thalassionema nitzschioides var. lanceolata, biomass as carbon | T. nitzschioides var. lanceolata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 80-100 µm |
75 | Thalassionema nitzschioides var. lanceolata, biomass as carbon | T. nitzschioides var. lanceolata C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >100 µm |
76 | Thalassiosira lentiginosa, biomass as carbon | T. lentiginosa C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <30 µm |
77 | Thalassiosira lentiginosa, biomass as carbon | T. lentiginosa C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 30-50 µm |
78 | Thalassiosira lentiginosa, biomass as carbon | T. lentiginosa C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >50 µm |
79 | Thalassiosira oliverana, biomass as carbon | T. oliverana C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <30 µm |
80 | Thalassiosira oliverana, biomass as carbon | T. oliverana C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 30-50 µm |
81 | Thalassiosira oliverana, biomass as carbon | T. oliverana C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >50 µm |
82 | Thalassiosira gracilis, biomass as carbon | T. gracilis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <15 µm |
83 | Thalassiosira gracilis, biomass as carbon | T. gracilis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 15-20 µm |
84 | Thalassiosira gracilis, biomass as carbon | T. gracilis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >20 µm |
85 | Thalassiosira oestrupii, biomass as carbon | T. oestrupii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <15 µm |
86 | Thalassiosira oestrupii, biomass as carbon | T. oestrupii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 15-20 µm |
87 | Thalassiosira oestrupii, biomass as carbon | T. oestrupii C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >20 µm |
88 | Thalassiosira tumida, biomass as carbon | T. tumida C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <60 µm |
89 | Thalassiosira tumida, biomass as carbon | T. tumida C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 60-90 µm |
90 | Thalassiosira tumida, biomass as carbon | T. tumida C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >90 µm |
91 | Asteromphalus hookeri, biomass as carbon | A. hookeri C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <50 µm |
92 | Asteromphalus hookeri, biomass as carbon | A. hookeri C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 50-70 µm |
93 | Asteromphalus hookeri, biomass as carbon | A. hookeri C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >70 µm |
94 | Asteromphalus hyalinus, biomass as carbon | A. hyalinus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <15 µm |
95 | Asteromphalus hyalinus, biomass as carbon | A. hyalinus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 15-20 µm |
96 | Asteromphalus hyalinus, biomass as carbon | A. hyalinus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >20 µm |
97 | Azpeitia tabularis, biomass as carbon | A. tabularis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <20 µm |
98 | Azpeitia tabularis, biomass as carbon | A. tabularis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 20-30 µm |
99 | Azpeitia tabularis, biomass as carbon | A. tabularis C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >30 µm |
100 | Eucampia antarctica, biomass as carbon | E. antarctica C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | |
101 | Navicula sp., biomass as carbon | Navicula sp. C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | <30 µm |
102 | Navicula sp., biomass as carbon | Navicula sp. C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 30-40 µm |
103 | Navicula sp., biomass as carbon | Navicula sp. C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >40 µm |
104 | Actinocyclus curvatulus, biomass as carbon | A. curvatulus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | 30-40 µm |
105 | Actinocyclus curvatulus, biomass as carbon | A. curvatulus C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | >40 µm |
106 | Dictyocha speculum, biomass as carbon | D. speculum C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | empty |
107 | Dictyocha speculum, biomass as carbon | D. speculum C | µg/l | Assmy, Philipp | Calculated from biovolume (Edler, 1979, The Baltic Marine Biologist Pub 5) | full |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
742 data points