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Mesozooplankton abundance in waters of the Aegean Sea in September 1994
A Folsom splitter has been used for biomass and abundance estimations in 4% formaldehyde buffered sub-samples. A Stempel pipette has been used for subsamples in taxonomic... -
Mesozooplankton abundance in waters of the Aegean Sea in March 1994
A Folsom splitter has been used for biomass and abundance estimations in 4% formaldehyde buffered sub-samples. A Stempel pipette has been used for subsamples in taxonomic... -
Mesozooplankton abundance in waters of the Aegean Sea in June 1994
A Folsom splitter has been used for biomass and abundance estimations in 4% formaldehyde buffered sub-samples. A Stempel pipette has been used for subsamples in taxonomic... -
Mesozooplankton abundance in waters of the Aegean Sea in December 1994
A Folsom splitter has been used for biomass and abundance estimations in 4% formaldehyde buffered sub-samples. A Stempel pipette has been used for subsamples in taxonomic... -
Zooplankton abundance during cruise CD85
This dataset has no description
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(Table 3) Abundance of plankton and of its main groups in the water column of...
This dataset has no description
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Time series of zooplankton abundance at station L4 in the English Channel in ...
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... -
Time series of zooplankton abundance at station L4 in the English Channel in ...
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... -
Time series of zooplankton abundance at station L4 in the English Channel in ...
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... -
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 zooplankton near the ice edge in the Pechora Sea
This dataset has no description
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(Table 3) Organisms formed more than 80% of total mesozooplankton biomass in ...
This dataset has no description
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(Table 4) Abundance of common macroplankton groups in the water column from d...
The way down was from 11:00 until 13:47; the way up - from 18:00 until 20:35. -
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.
