-
Abundance of zooplankton at the Cape Verde Ocean Observatory (CVOO) as quanti...
Zooplankton samples were collected during different cruises (2012-2019) using the same Hydrobios Multinet Midi (0.25m^2 net opening, 200µm mesh, five nets) in vertical hauls... -
Jellyfish Sightings Along the Italian Coastline from 2009 to 2017
The lack of gelatinous blooms data reveals scant attention to such phenomena due to their irregular occurrence (Boero et al. 2008), to modern publication trends that give no... -
Explore Your Shore
Marine Species Records submitted to the National Biodiversity Data Centre’s Citizen Science Portal from 01/01/2019 onwards -
Temporal evolution of zooplankton by WP2 net in the Northwestern Mediterranea...
The Observatoire of Villefranche sur Mer supports the daily sampling of zooplankton since 1966 at a time series station located at the entrancy of the Bay of Villefranche sur... -
Mesozooplankton abundance from 1959-2017 in the Middle Adriatic Sea
Monthly mesoozooplankton samplings started in 1959, performed by vertical tows of Hensen net (73 cm mouth diameter, 330 µm mesh size) from 100–0 m at towing speed of 0.3 m s-1.... -
Gelatinous zooplankton validated sightings reported in the Mediterranean Sea ...
Sampling Methods avvistAPP is a free citizen science tool that allows everyone to actively contribute to the monitoring of marine animals. Available both in Google and Apple app... -
Abundance of zooplankton groups collected along the west coast of Baja Califo...
This dataset contains the values of abundance of zooplankton collected along the west coast of Baja California on board the R/V BIPO INAPESCA within the Mexican Economic... -
Station list and observations from net hawls ("Fangprotokoll") during cruise ...
Die biologischen Arbeiten der Deutschen Antarktischen Expedition 1938/39 wurden in übereinstimmung mit dem Institut für Walforschung der damaligen Reichsanstalt für Fischerei in... -
(Table II) Abundance of epibenthic phyla and classes during RSS James Clark R...
This dataset has no description
-
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. -
Benthic nepheloid layer zooplankton abundance and biomass at station 13077-026
Depth, water was calculated between event depth (elevation) and depth above ground.