Citation:

PANGAEA.947425

Name: Particle counts from Underwater Vision Profiler 5hd measurements during Akademik Tryoshnikov cruise ARCTIC2018 (Transdrift-XXIV / AT2018)
Creator: Andreas Rogge
Published: 2022-08-24
License: https://creativecommons.org/licenses/by/4.0/
Keywords: Arctic; detrital; East Siberian Sea; Laptev Sea; Zooplankton

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Abstract:

Results from Underwater Vision Profiler 5hd measurements from campaign ARCTIC2018 (Transdrift XXIV). Depth profiles for optical particle quantification (>~0.1 mm) and particle image acquisition (>~0.8 mm) were performed in August and September 2018 in the Laptev and East Sibirian Sea as well as the Nansen and Amundsen Basin onboard RV Akademik Tryoshnikov.

This dataset describes the particle quantification as concentrations (particle number per L) as well as volumes (particle volume per L) of pre-defined and binned size classes, calculated using Zooprocess (Gorsky et al. 2010; doi:10.1093/plankt/fbp124) and Ecotaxa (Picheral, M., Colin, S. & Irisson, J.-O. (2017): EcoTaxa, a tool for the taxonomic classification of images. http://ecotaxa.obs-vlfr.fr.).

Keyword(s):

Arctic; detrital; East Siberian Sea; Laptev Sea; Zooplankton

Related to:

Ivanov, Vladimir (2019): Physical oceanography from CTD measurements during Akademik Tryoshnikov cruise AT2018 to the Arctic Ocean [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.905471

Ivanov, Vladimir (2019): Physical oceanography obtained from the water sampling bottle files collected during Akademik Tryoshnikov cruise AT2018 to the Arctic Ocean [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.905472

Project(s):

CATS-Synthesis: The Changing Arctic Transpolar System (CATS-Synthesis)

CATS - The Changing Arctic Transpolar System (CATS)

Funding:

Federal Ministry of Education and Research (BMBF), grant/award no. 03F0776E : CATS; Das arktische transpolare System im Wandel; Vorhaben: Ökologische Konsequenzen des Klimawandels in sibirischen Schelfmeeren (TP 4)

Federal Ministry of Education and Research (BMBF), grant/award no. 03F0831D : CATS-Synthese: Das arktische transpolare System im Wandel; Vorhaben: Ökologische Risiken des Klimawandels in sibirischen Schelfmeeren

Coverage:

Median Latitude: 79.043594 * Median Longitude: 125.810964 * South-bound Latitude: 75.473000 * West-bound Longitude: 90.026170 * North-bound Latitude: 82.581000 * East-bound Longitude: 168.840000

Date/Time Start: 2018-08-22T00:04:04 * Date/Time End: 2018-09-24T23:16:35

Minimum DEPTH, water: 2.5 m * Maximum DEPTH, water: 4017.5 m

Event(s):

AT18_001-02 * Latitude: 82.518670 * Longitude: 90.026170 * Date/Time: 2018-08-22T00:04:04 * Elevation: -2888.0 m * Location: Arctic Ocean * Campaign: (AT2018, TICE, NABOS) * Basis: Akademik Tryoshnikov * Method/Device: (CTD-RO_UVP)

AT18_002-02 * Latitude: 82.389000 * Longitude: 95.268830 * Date/Time: 2018-08-22T09:11:00 * Elevation: -2844.0 m * Campaign: (AT2018, TICE, NABOS) * Basis: Akademik Tryoshnikov * Method/Device: (CTD-RO)

AT18_002-04 * Latitude: 82.399000 * Longitude: 95.409500 * Date/Time: 2018-08-22T13:16:00 * Elevation: -2914.0 m * Campaign: (AT2018, TICE, NABOS) * Basis: Akademik Tryoshnikov * Method/Device: (CTD-RO)

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Comment
1	Event label	Event		Rogge, Andreas
2	Project	Project		Rogge, Andreas
3	Profile ID	Profile ID		Rogge, Andreas
4	DATE/TIME	Date/Time		Rogge, Andreas	Geocode
5	DEPTH, water	Depth water	m	Rogge, Andreas	Geocode
6	File name	File name		Rogge, Andreas	raw
7	Sample volume	Samp vol	l	Rogge, Andreas
8	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (1-1.26 µm)
9	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (1.26-1.59 µm)
10	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (1.59-2 µm)
11	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (2-2.52 µm)
12	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (2.52-3.17 µm)
13	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (3.17-4 µm)
14	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (4-5.04 µm)
15	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (5.04-6.35 µm)
16	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (6.35-8 µm)
17	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (8-10.1 µm)
18	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (10.1-12.7 µm)
19	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (12.7-16 µm)
20	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (16-20.2 µm)
21	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (20.2-25.4 µm)
22	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (25.4-32 µm)
23	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (32-40.3 µm)
24	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (40.3-50.8 µm)
25	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (50.8-64 µm)
26	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (64-80.6 µm)
27	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (80.6-102 µm)
28	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (102-128 µm)
29	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (128-161 µm)
30	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (161-203 µm)
31	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (203-256 µm)
32	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (256-323 µm)
33	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (323-406 µm)
34	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (406-512 µm)
35	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (512-645 µm)
36	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (645-813 µm)
37	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (0.813-1.02 mm)
38	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (1.02-1.29 mm)
39	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (1.29-1.63 mm)
40	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (1.63-2.05 mm)
41	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (2.05-2.58 mm)
42	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (2.58-3.25 mm)
43	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (3.25-4.1 mm)
44	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (4.1-5.16 mm)
45	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (5.16-6.5 mm)
46	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (6.5-8.19 mm)
47	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (8.19-10.3 mm)
48	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (10.3-13 mm)
49	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (13-16.4 mm)
50	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (16.4-20.6 mm)
51	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (20.6-26 mm)
52	Particle concentration	Part conc	#/l	Rogge, Andreas	LPM (>26 mm)
53	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (1-1.26 µm)
54	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (1.26-1.59 µm)
55	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (1.59-2 µm)
56	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (2-2.52 µm)
57	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (2.52-3.17 µm)
58	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (3.17-4 µm)
59	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (4-5.04 µm)
60	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (5.04-6.35 µm)
61	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (6.35-8 µm)
62	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (8-10.1 µm)
63	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (10.1-12.7 µm)
64	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (12.7-16 µm)
65	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (16-20.2 µm)
66	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (20.2-25.4 µm)
67	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (25.4-32 µm)
68	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (32-40.3 µm)
69	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (40.3-50.8 µm)
70	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (50.8-64 µm)
71	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (64-80.6 µm)
72	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (80.6-102 µm)
73	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (102-128 µm)
74	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (128-161 µm)
75	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (161-203 µm)
76	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (203-256 µm)
77	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (256-323 µm)
78	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (323-406 µm)
79	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (406-512 µm)
80	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (512-645 µm)
81	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (645-813 µm)
82	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (0.813-1.02 mm)
83	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (1.02-1.29 mm)
84	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (1.29-1.63 mm)
85	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (1.63-2.05 mm)
86	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (2.05-2.58 mm)
87	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (2.58-3.25 mm)
88	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (3.25-4.1 mm)
89	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (4.1-5.16 mm)
90	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (5.16-6.5 mm)
91	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (6.5-8.19 mm)
92	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (8.19-10.3 mm)
93	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (10.3-13 mm)
94	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (13-16.4 mm)
95	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (16.4-20.6 mm)
96	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (20.6-26 mm)
97	Particle volume per sample volume	Part v/sample v	mm³/l	Rogge, Andreas	LPM biovolume (>26 mm)

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Status:

Curation Level: Enhanced curation (CurationLevelC)

Size:

2070162 data points

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