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KOSMOS 2017 Peru mesocosm study: Biomass of zooplankton taxa determined by Zo...
Biomass of zooplankton taxa in µg DM per liter as determined by ZooScan, using published area to dry weight relationships (Lehette & Hernandez-Leon 2009). Each data point is... -
Freshwater zoobenthos abundance in different water bodies from a polygonal tu...
Patterned ground of the polygonal tundra yields sensitive indicators of environmental and climate change. Polygon ponds, mires and cryosoils are typical components of Arctic... -
Abundance of zooplankton during POLARSTERN cruise ARK-XI/1 (PS36)
Abundances of zooplankton taxa were calculated in the Arctic Ocean during Polarstern cruise ARK-XI/1. Samples were taken with the Multinet midi (Hydrobios, Kiel), which is... -
Abundance of zooplankton during POLARSTERN cruise ARK-IV/3 (PS11)
Abundances of zooplankton taxa were calculated in the Arctic Ocean during Polarstern cruise ARK-IV/3. Samples were taken with the Multinet midi (Hydrobios, Kiel), which is... -
Monthly data of mesozooplankton abundance and biomass for a shelf station off...
Abundance and biomass of mesozooplankton (>200µm) in monthly samples collected in a shelf station off A Coruña (NW Spain) between 1990 and 2018. Zooplankton sampled... -
Ichthyoplankton composition from PC-BELAP cruise 3, Southern Brazilian Shelf,...
The PC-BELAP project was coordinated by Laboratório de Crustáceos Decápodos and Laboratório de Ictiologia of the Department of Oceanography of the Federal University of Rio... -
Ichthyoplankton composition from PC-BELAP cruise 2, Southern Brazilian Shelf,...
The PC-BELAP project was coordinated by Laboratório de Crustáceos Decápodos and Laboratório de Ictiologia of the Department of Oceanography of the Federal University of Rio... -
Abundance of large protists from the Infrakingdom Rhizaria in the global ocean
This dataset has no description
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Time series of zooplankton abundance at station L4 in the English Channel fro...
Samples were collected by vertical net hauls (WP2 net, mesh 200 µm; UNESCO 1968) from the sea floor (approximately 50m) to the surface and stored in 5% formalin. Find more... -
(Table 3) Abundance of plankton and of its main groups in the water column of...
This dataset has no description
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Bottom layer zooplankton abundance and biomass at station M42/2_436
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station M42/2_438
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station M42/2_419
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station M42/2_417
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station M42/2_373
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station M42/2_370
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station 13078-038
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station 13077-078
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station 13077-047
Depth, water was calculated between event depth (elevation) and depth above ground. -
Benthic nepheloid layer zooplankton abundance and biomass at station 13077-036
Depth, water was calculated between event depth (elevation) and depth above ground.
