-
Zooplankton abundance from microscopic analyses of Multinet and WP2 net sampl...
Depth-stratified mesozooplankton samples were collected in the Arctic Ocean from 2019 to 2020 multinet midi (Hydrobios, 150 µm mesh, opening 0.25 m2) and with a WP2 net (150 µm,... -
Zooplankton biomass from Rectangular Midwater Trawl1 (RMT1) samples during PO...
Drymass (mg DM m-3) of zooplankton taxa was calculated using conversion factors from biovolume to dry mass as described in Cornils et al. (2022) from samples of Polarstern... -
Zooplankton biovolume from Rectangular Midwater Trawl1 (RMT1) samples during ...
Biovolume (mm3 m-3) of zooplankton taxa was calculated as described in Cornils et al. (2022) from samples of Polarstern cruise PS106 (SIPKA). . Prior to the analysis each sample... -
Zooplankton abundance from Rectangular Midwater Trawl1 (RMT1) samples during ...
Abundance (ind. m-3) of zooplankton taxa was calculated from samples of Polarstern cruise PS106.2. Samples were taken with the Rectangular Midwater Trawl with a mesh size of 320... -
Zooplankton biovolume from ROV net samples during the MOSAiC expedition (PS12...
Biovolume (mm3 m-3) of zooplankton taxa was calculated as described in Cornils et al. (2022) from samples of Polarstern cruise PS122 (MOSAiC). Samples were taken with the ROV... -
Abundance of planktonic Calanoida (Copepoda, Crustacea) during POLARSTERN cru...
This dataset has no description
-
Average length of zooplankton in the Aral Sea
This dataset has no description
-
Average mass of zooplankton in the Aral Sea
This dataset has no description
-
Average mass of zooplankton in the Aral Sea
This dataset has no description
-
Biomass of zooplankton in the Aral Sea
This dataset has no description
-
Biomass of zooplankton in the Aral Sea
This dataset has no description
-
Abundance of zooplankton in the Aral Sea
This dataset has no description
-
Mesozooplankton average mass during Professor Vodyanitskiy cruise PV12, Part IV
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Professor Vodyanitskiy cruise PV12, Part III
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Professor Vodyanitskiy cruise PV12, Part II
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Professor Vodyanitskiy cruise PV12, Part I
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Professor Kolesnikov cruise PK17, Part II
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Professor Kolesnikov cruise PK17, Part I
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Mikhail Lomonosov cruise ML30, Part V
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80... -
Mesozooplankton average mass during Mikhail Lomonosov cruise ML30, Part IV
Mesozooplankton was sampled by open-closing JUDAY net with a 36 cm ring diameter and mesh size of 125 µm. Additionally, the JUDAY oceanic model JOM with 300 µm mesh size and 80...