Citation:

PANGAEA.815103

Name: Mesozooplankton biomass data from Disko Bay, West Greenland, 2008
Published: 2013-06-03
License: https://creativecommons.org/licenses/by/3.0/

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Published: 2013-06-03 • DOI registered: 2013-07-16

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Abstract:

The study site was located in the Disko Bay off Qeqertarsuaq, western Greenland. Due to land-connected sea ice coverage during winter, 2 sampling sites were combined. At the first site in winter (21 February to 23 March 2008), sampling was conducted through a hole in the ice at ca. 65 to 160 m depth approximately 0.5 nautical mile (n mile) south of Qeqertarsuaq (69° 14' N, 53° 29' W). In spring and summer (9 April to 18 July), sampling was done at a monitoring station 1 n mile south from Qeqertarsuaq (69° 14' N, 53° 23' W) at 300 m depth. Sampling was carried out between 10:00 and 17:00 h. During sampling from the ice, mesozooplankton was collected using a modified WP-2 net (45 µm) equipped with a closing mechanism (Hydrobios). Samples were collected in 3 depth strata (0-50, 50-100, and 100-150 m). During ship-based sampling, mesozooplankton was collected with a multinet (50 µm) equipped with a flow meter (Multinet, Hydrobios type midi), and 2 additional depth strata (150-200m and 200-250 m) were included. In addition to the seasonal study one diurnal investigation with sampling every 6 h was conducted from 29 April at 12:00 h to 30 April 30 at 12:00 h. Samples were immediately preserved in buffered formalin (5% final concentration) for later analyses. Biomass values of the different copepod species were calculated based on measurements of prosome length, and length/weight relationships. Two regressions for Calanus spp. were established for biomass calculations: one applicable prior to and during the phytoplankton bloom until 4 May, and another from 9 May onwards.

Related to:

Dünweber, Michael; Swalethorp, Rasmus; Kjellerup, Sanne; Nielsen, Torkel Gissel; Arendt, Kristine Engel; Hjorth, Morten; Tönnesson, Kajsa; Møller, Eva Friis (2010): Succession and fate of the spring diatom bloom in Disko Bay, western Greenland. Marine Ecology Progress Series, 419, 11-29, https://doi.org/10.3354/meps08813

Swalethorp, Rasmus; Kjellerup, Sanne; Dünweber, Michael; Nielsen, Torkel Gissel; Møller, Eva Friis; Rysgaard, Søren; Hansen, Benni Winding (2011): Grazing, egg production, and biochemical evidence of differences in the life strategies of Calanus finmarchicus, C. glacialis and C. hyperboreus in Disko Bay, western Greenland. Marine Ecology Progress Series, 429, 125-144, https://doi.org/10.3354/meps09065

Project(s):

Basin Scale Analysis, Synthesis and Integration (EURO-BASIN)

Funding:

Seventh Framework Programme (FP7), grant/award no. 264933 : Basin Scale Analysis, Synthesis and Integration

Coverage:

Median Latitude: 69.235549 * Median Longitude: -53.412171 * South-bound Latitude: 69.233583 * West-bound Longitude: -53.461350 * North-bound Latitude: 69.242100 * East-bound Longitude: -53.397417

Date/Time Start: 2008-02-21T12:00:00 * Date/Time End: 2008-07-18T12:00:00

Minimum DEPTH, water: 25 m * Maximum DEPTH, water: 25 m

Event(s):

Diskobay_2008_5-1 (Station 5) * Latitude: 69.233583 * Longitude: -53.397417 * Date/Time: 2008-04-09T12:00:00 * Location: Greenland * Method/Device: Multiple opening/closing net (MSN) * Comment: mesh size net = 50 µm; net area = 0.25 square meter; filtered water volume: 0-50m = 20 cubic meter; 50-100m = 21 cubic meter; 100-150m = 26 cubic meter; 150-200m = 24 cubic meter; 200-250m = 26 cubic meter

Diskobay_2008_5-2 (Station 5) * Latitude: 69.233583 * Longitude: -53.397417 * Date/Time: 2008-04-16T12:00:00 * Location: Greenland * Method/Device: Multiple opening/closing net (MSN) * Comment: mesh size net = 50 µm; net area = 0.25 square meter; filtered water volume: 0-50m = 25 cubic meter; 50-100m = 22 cubic meter; 100-150m = 20 cubic meter; 150-200m = 17 cubic meter; 200-250m = 15 cubic meter

Diskobay_2008_5-3 (Station 5) * Latitude: 69.233583 * Longitude: -53.397417 * Date/Time: 2008-04-20T12:00:00 * Location: Greenland * Method/Device: Multiple opening/closing net (MSN) * Comment: mesh size net = 50 µm; net area = 0.25 square meter; filtered water volume: 0-50m = 38 cubic meter; 50-100m = 34 cubic meter; 100-150m = 33 cubic meter; 150-200m = 30 cubic meter; 200-250m = 23 cubic meter

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Event label	Event
2	Sample code/label	Sample label
3	Date/Time of event	Date/Time
4	Latitude of event	Latitude
5	Longitude of event	Longitude
6	DEPTH, water	Depth water	m			Geocode
7	Depth, top/min	Depth top	m
8	Depth, bottom/max	Depth bot	m
9	Acartia longiremis, c5, biomass as carbon	A. longiremis c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
10	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Acartia longiremis, c5, biomass as carbon
11	Acartia longiremis, female, biomass as carbon	A. longiremis f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
12	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Acartia longiremis, female, biomass as carbon
13	Acartia longiremis, male, biomass as carbon	A. longiremis m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
14	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Acartia longiremis, male, biomass as carbon
15	Acartia spp., c4, biomass as carbon	Acartia spp. c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
16	Acartia spp., c5, biomass as carbon	Acartia spp. c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
17	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Acartia spp., c5, biomass as carbon
18	Acartia spp., copepodites, biomass as carbon	Acartia spp. c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
19	Acartia spp., nauplii, biomass as carbon	Acartia spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
20	Calanus finmarchicus, c3, biomass as carbon	C. finmarchicus c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
21	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus finmarchicus, c3, biomass as carbon
22	Calanus finmarchicus, c4, biomass as carbon	C. finmarchicus c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
23	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus finmarchicus, c4, biomass as carbon
24	Calanus finmarchicus, c5, biomass as carbon	C. finmarchicus C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
25	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus finmarchicus, c5, biomass as carbon
26	Calanus finmarchicus, female, biomass as carbon	C. finmarchicus f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
27	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus finmarchicus, female, biomass as carbon
28	Calanus finmarchicus, male, biomass as carbon	C. finmarchicus m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
29	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus finmarchicus, male, biomass as carbon
30	Calanus glacialis, c3, biomass as carbon	C. glacialis c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
31	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus glacialis, c3, biomass as carbon
32	Calanus glacialis, c4, biomass as carbon	C. glacialis c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
33	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus glacialis, c4, biomass as carbon
34	Calanus glacialis, c5, biomass as carbon	C. glacialis c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
35	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus glacialis, c5, biomass as carbon
36	Calanus glacialis, female, biomass as carbon	C. glacialis f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
37	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus glacialis, female, biomass as carbon
38	Calanus glacialis, male, biomass as carbon	C. glacialis m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
39	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus glacialis, male, biomass as carbon
40	Calanus hyperboreus, c1, biomass as carbon	C. hyperboreus c1 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
41	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, c1, biomass as carbon
42	Calanus hyperboreus, c2, biomass as carbon	C. hyperboreus c2 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
43	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, c2, biomass as carbon
44	Calanus hyperboreus, c3, biomass as carbon	C. hyperboreus c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
45	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, c3, biomass as carbon
46	Calanus hyperboreus, c4, biomass as carbon	C. hyperboreus c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
47	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, c4, biomass as carbon
48	Calanus hyperboreus, c5, biomass as carbon	C. hyperboreus c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
49	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, c5, biomass as carbon
50	Calanus hyperboreus, female, biomass as carbon	C. hyperboreus f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
51	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, female, biomass as carbon
52	Calanus hyperboreus, male, biomass as carbon	C. hyperboreus m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
53	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus hyperboreus, male, biomass as carbon
54	Calanus spp., c1, biomass as carbon	Calanus spp. c1 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
55	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus spp., c1, biomass as carbon
56	Calanus spp., c2, biomass as carbon	Calanus spp. c2 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
57	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus spp., c2, biomass as carbon
58	Calanus spp., c3, biomass as carbon	Calanus spp. c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
59	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus spp., c3, biomass as carbon
60	Calanus spp., c4, biomass as carbon	Calanus spp. c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
61	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus spp., c4, biomass as carbon
62	Calanus spp., nauplii, biomass as carbon	Calanus spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
63	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Calanus spp., nauplii, biomass as carbon
64	Metridia longa, c1, biomass as carbon	M. longa c1 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
65	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, c1, biomass as carbon
66	Metridia longa, c2, biomass as carbon	M. longa c2 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
67	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, c2, biomass as carbon
68	Metridia longa, c3, biomass as carbon	M. longa c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
69	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, c3, biomass as carbon
70	Metridia longa, c4, biomass as carbon	M. longa c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
71	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, c4, biomass as carbon
72	Metridia longa, c5, biomass as carbon	M. longa c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
73	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, c5, biomass as carbon
74	Metridia longa, female, biomass as carbon	M. longa f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
75	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, female, biomass as carbon
76	Metridia longa, male, biomass as carbon	M. longa m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
77	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Metridia longa, male, biomass as carbon
78	Microcalanus pusillus, copepodites, biomass as carbon	M. pusillus c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
79	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus pusillus, copepodites, biomass as carbon
80	Microcalanus pusillus, female, biomass as carbon	M. pusillus f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
81	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus pusillus, female, biomass as carbon
82	Microcalanus pusillus, male, biomass as carbon	M. pusillus m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
83	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus pusillus, male, biomass as carbon
84	Microcalanus pygmaeus, copepodites, biomass as carbon	M. pygmaeus c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
85	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus pygmaeus, copepodites, biomass as carbon
86	Microcalanus pygmaeus, female, biomass as carbon	M. pygmaeus f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
87	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus pygmaeus, female, biomass as carbon
88	Microcalanus pygmaeus, male, biomass as carbon	M. pygmaeus m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
89	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus pygmaeus, male, biomass as carbon
90	Microcalanus spp., copepodites, biomass as carbon	Microcalanus spp. c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
91	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus spp., copepodites, biomass as carbon
92	Microcalanus spp., nauplii, biomass as carbon	Microcalanus spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
93	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microcalanus spp., nauplii, biomass as carbon
94	Microsetella norvegica, copepodites, biomass as carbon	M. norvegica c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
95	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microsetella norvegica, copepodites, biomass as carbon
96	Microsetella norvegica, nauplii, biomass as carbon	M. norvegica naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
97	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Microsetella norvegica, nauplii, biomass as carbon
98	Oithona atlantica, copepodites, biomass as carbon	O. atlantica c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
99	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona atlantica, copepodites, biomass as carbon
100	Oithona atlantica, female, biomass as carbon	O. atlantica f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
101	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona atlantica, female, biomass as carbon
102	Oithona atlantica, male, biomass as carbon	O. atlantica m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
103	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona atlantica, male, biomass as carbon
104	Oithona similis, copepodites, biomass as carbon	O. similis c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
105	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona similis, copepodites, biomass as carbon
106	Oithona similis, female, biomass as carbon	O. similis f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
107	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona similis, female, biomass as carbon
108	Oithona similis, male, biomass as carbon	O. similis m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
109	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona similis, male, biomass as carbon
110	Oithona spp., copepodites, biomass as carbon	Oithona spp. c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
111	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona spp., copepodites, biomass as carbon
112	Oithona spp., female, biomass as carbon	Oithona spp. f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
113	Oithona spp., nauplii, biomass as carbon	Oithona spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
114	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oithona spp., nauplii, biomass as carbon
115	Oncaea borealis, female, biomass as carbon	O. borealis f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
116	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oncaea borealis, female, biomass as carbon
117	Oncaea borealis, male, biomass as carbon	O. borealis m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
118	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oncaea borealis, male, biomass as carbon
119	Oncaea spp., copepodites, biomass as carbon	Oncaea spp. c C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
120	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oncaea spp., copepodites, biomass as carbon
121	Oncaea spp., female, biomass as carbon	Oncaea spp. f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
122	Oncaea spp., male, biomass as carbon	Oncaea spp. m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
123	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oncaea spp., male, biomass as carbon
124	Oncaea spp., nauplii, biomass as carbon	Oncaea spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
125	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Oncaea spp., nauplii, biomass as carbon
126	Paraeuchaeta glacialis, female, biomass as carbon	P. glacialis f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
127	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta glacialis, female, biomass as carbon
128	Paraeuchaeta norvegica, c4, biomass as carbon	P. norvegica c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
129	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta norvegica, c4, biomass as carbon
130	Paraeuchaeta norvegica, c5, biomass as carbon	P. norvegica c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
131	Paraeuchaeta norvegica, female, biomass as carbon	P. norvegica f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
132	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta norvegica, female, biomass as carbon
133	Paraeuchaeta norvegica, male, biomass as carbon	P. norvegica m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
134	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta norvegica, male, biomass as carbon
135	Paraeuchaeta spp., c1, biomass as carbon	Paraeuchaeta spp. c1 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
136	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta spp., c1, biomass as carbon
137	Paraeuchaeta spp., c2, biomass as carbon	Paraeuchaeta spp. c2 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
138	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta spp., c2, biomass as carbon
139	Paraeuchaeta spp., c3, biomass as carbon	Paraeuchaeta spp. c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
140	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta spp., c3, biomass as carbon
141	Paraeuchaeta spp., c4, biomass as carbon	Paraeuchaeta spp. c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
142	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta spp., c4, biomass as carbon
143	Paraeuchaeta spp., c5, biomass as carbon	Paraeuchaeta spp. c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
144	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta spp., c5, biomass as carbon
145	Paraeuchaeta spp., female, biomass as carbon	Paraeuchaeta spp. f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
146	Paraeuchaeta spp., male, biomass as carbon	Paraeuchaeta spp. m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
147	Paraeuchaeta spp., nauplii, biomass as carbon	Paraeuchaeta spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
148	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Paraeuchaeta spp., nauplii, biomass as carbon
149	Pseudocalanus acuspes, c3, biomass as carbon	P. acuspes c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
150	Pseudocalanus acuspes, female, biomass as carbon	P. acuspes f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
151	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus acuspes, female, biomass as carbon
152	Pseudocalanus acuspes, male, biomass as carbon	P. acuspes m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
153	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus acuspes, male, biomass as carbon
154	Pseudocalanus minutus, c1, biomass as carbon	P. minutus c1 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
155	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus minutus, c1, biomass as carbon
156	Pseudocalanus minutus, c3, biomass as carbon	P. minutus c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
157	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus minutus, c3, biomass as carbon
158	Pseudocalanus minutus, c4, biomass as carbon	P. minutus c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)
159	Pseudocalanus minutus, c5, biomass as carbon	P. minutus c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
160	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus minutus, c5, biomass as carbon
161	Pseudocalanus minutus, female, biomass as carbon	P. minutus f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
162	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus minutus, female, biomass as carbon
163	Pseudocalanus minutus, male, biomass as carbon	P. minutus m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
164	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus minutus, male, biomass as carbon
165	Pseudocalanus spp., c1, biomass as carbon	Pseudocalanus spp. c1 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
166	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., c1, biomass as carbon
167	Pseudocalanus spp., c2, biomass as carbon	Pseudocalanus spp. c2 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
168	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., c2, biomass as carbon
169	Pseudocalanus spp., c3, biomass as carbon	Pseudocalanus spp. c3 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
170	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., c3, biomass as carbon
171	Pseudocalanus spp., c4, biomass as carbon	Pseudocalanus spp. c4 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
172	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., c4, biomass as carbon
173	Pseudocalanus spp., c5, biomass as carbon	Pseudocalanus spp. c5 C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
174	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., c5, biomass as carbon
175	Pseudocalanus spp., female, biomass as carbon	Pseudocalanus spp. f C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
176	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., female, biomass as carbon
177	Pseudocalanus spp., male, biomass as carbon	Pseudocalanus spp. m C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
178	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., male, biomass as carbon
179	Pseudocalanus spp., nauplii, biomass as carbon	Pseudocalanus spp. naup C	mg/m³	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Average
180	Standard deviation	Std dev	±	Swalethorp, Rasmus	Calculated, using biomass conversion factor from Riisgaard et al. (submitted)	Pseudocalanus spp., nauplii, biomass as carbon

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