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Datasets from public available databases (WP9)
Datasets from SESAME cruises (WP2)
Datasets from national cruises supported by SESAME (WP3)
Datasets generated by modelers (WP4-6)
Historical datasets (WP1)
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Azerbaijan
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Time period from:
1825
1826
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1828
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Standard parameters:
All
Neoxanthin (hplc)
Violaxanthin (hplc)
137cs activity in seawater
19-Butanoyloxyfucoxanthin (hplc)
19'butanoyloxyfucoxanthine
19'hexanoyloxyfucoxanthine
Acoustic backscatter in the water column
Active chlorophyll-a
Air pressure
Air temperature
Alkalinity, acidity and ph of the water column
Alloxanthine
Ammonium concentration parameters in the water column
Bacteria non taxonomy-related abundance in sediment
Bacteria non taxonomy-related abundance per unit volume of the water column
Bacteria non taxonomy-related biomass expressed as carbon per unit volume of the water column
Bacteria non taxonomy-related biomass expressed as protein per unit volume of the water column
Bacteria taxonomy-related biomass expressed as carbon per unit volume of the water column
Bacterial biomass at surface
Bacterial carbon production in the sea water column
Bacterial carbon productionin the sea water column
Bacterial consumption in the water column
Bacterial growth
Bacterial production in the water column
Bacterial production in water column
Bacterio_chl_a (hplc)
Bacterioplankton biomass in the sea water column
Bathymetric depth
Beam attenuation coefficient at 407 nm
Beam attenuation coefficient at 422 nm
Beam attenuation coefficient at 427 nm
Beam attenuation coefficient at 457 nm
Beam attenuation coefficient at 465 nm
Beam attenuation coefficient at 530 nm
Beam attenuation coefficient at 540 nm
Beam attenuation coeffiecient at 660 nm
Beam Transmission, Chelsea/Seatech/Wetlab CStar
BTL number
Carbon concentrations in sediment
Carbon dioxide concentrations in the atmosphere
Carbon dioxide concentrations in the surface seawater
Carotenoid pigment concentrations in the water column
Chl-a(less divinylchl-a)
Chl-b(less divinylchl-b)
Chlorophyll a- total and size fractionated
Chlorophyll pigment concentrations in the water column
Chlorophyll-a (hplc)
Chlorophyll-a (spectrophotometric method)
Chlorophyll-a total
chlorophyll-a, ctd fluorescence SeaTech Chelsea
Chlorophyll-a, fraction >3.0 micrometers
Chlorophyll-a, fraction 0.2 - 1.2 micrometers
Chlorophyll-a, fraction 1.2 - 3.0 micrometers
Chlorophyll-b
Chlorophyll-b total
Chlorophyll-c
Chlorophyll-c1+c2
chlorophyll-c2
Chlorophyll-c3
chlorophyllid-a (hplc)
Concentration of carbohydrates in sediment
Concentration of proteins in sediment
Concentration of proteins in the water column
Concentration of suspended particulate material in the water column
Copepod ingestion
Copepod production
CTD number
Current east component
Current north component
Dark carbon absorption
Date and time
Density (sigma-theta)
Density of the water column
Depth below sea surface
Diadinoxanthine
Diatom taxonomy-related abundance per unit mass of sediment
Diatoms, wet biomass
Diatoxanthine
Din concentration in the atmosphere
Dinoflagellates, wet biomass
Dip concentration in the atmosphere
Direction rel. true north
Dissolved 234 th act. error
Dissolved 234th
Dissolved inorganic nitrogen concentration in the water column
Dissolved organic carbon concentration in the water column
Dissolved Organic Nitrogen
Dissolved oxygen
Dissolved oxygen (ctd-probe)
Dissolved oxygen by ctd
Dissolved oxygen in the water column, ctd
Dissolved oxygen in the water column, winkler
Dissolved oxygen parameters in the water column
Dissolved silicic acid concentration in the water column
Dissolved total and organic nitrogen concentrations in the water column
Dissolved total or organic phosphorus concentration in the water column
Divinyl chlorophyll-a
Electrical conductivity of the water column
Error on 137cs activity in water [mbq/l]
Filtered water volume
Fish non taxonomy-related abundance per unit volume of the water column
Fish taxonomy-related abundance per unit area of the bed
Fish taxonomy-related counts
Flow cytometry
Fluorescence by ctd
Fluorescence, ctd
Fodder mesozooplankton biomass (150 litre big bottle)
Fodder mesozooplankton biomass (br 113/140 net)
Fodder mesozooplankton biomass (cone 50 net)
Fodder mesozooplankton biomass (jom 80/113 net)
Fucoxanthine
Horizontal current speed
Horizontal velocity of the water column (currents)
Hplc pigments
Humic matter
Hydrogen sulfide (iodine back titration)
Hydrogen sulphide (h2s)
individual per cubic meter
Ingestion rates on ciliates and chl-? >0,2 ?m
Latitude degrees
Light attenuation coefficient
Light carbon absorption
Light irradiance immerged par
Light irradiance surface par
Light transmission
Light transmission at 600 nm
Lipid (fatty acids, sterols or isoprenoid compounds) concentrations in sediment
Longitude degrees
Long-wave incoming radiation
Lower layer depth
Lutein (hplc)
Manganese (ii) in water column
Mcrobial community respiration
Meiobenthos total biomass
Meiobenthos total density
Mesozooplancton dry weight
Mesozooplankton f2 ("fodder" ) number
Mesozooplankton f2("fodder" ) biomass
Mesozooplankton f6 ("fodder",greze net,w/o pleur., aurel, mnemiop.) number
Mesozooplankton f6 ("fodder",greze net,w/o pleur., aurel., mnemiop.) biomass
Mesozooplankton t2 (total, juday net, w/o aurelia and mnemiopsis) biomass
Mesozooplankton t2 (total, juday net, w/o aurelia and mnemiopsis) number
Mesozooplankton taxonomy-related abundance
Mesozooplankton total abundance
Mesozooplankton total Carbon biomass
Mesozooplankton wet weight biomass
Mesozooplankton wet weight total biomass per unit volume of the water column
Metal ligand parameters in the water column
MicroChla-euphotic-layer
Microphytoplankton (>15 microns), average cell density in water column
Microphytoplankton (>15 microns), average wet biomass in water column
Microphytoplankton carbon biomass
Microphytoplankton, wet biomass
Microzooplankton grazing
Microzooplankton non taxonomy-related abundance per unit volume of the water column
Microzooplankton non taxonomy-related biomass expressed as carbon per unit volume of the water column
Msozooplankton taxonomy-related abundance
NanoChla-euphotic layer
Nanophytoplankton (2-15 microns), average cell density in water column
Nanophytoplankton (2-15 microns), average wet biomass in water column
Nanophytoplankton carbon biomass
Nanophytoplankton, wet biomass
Nb of heterotrophic bacteria
Nitrate (no3-n) content
Nitrate + nitrite content
Nitrate concentration parameters in the water column
Nitrate+nitrite concentration parameters in the water column
Nitrite (no2-n) content
Nitrite concentration parameters in the water column
Num. of sw phytoplankton cells
Number of chlorophyceae
Number of cryptophyceae
Number of euglenoid
Number of nanoflagellate
Number of total phytoplankton cells
Number of unidentified phytoplankton
Number of zygnemaphyceae
Number of bacillariophyceae
Number of bacteria cells sw
Number of chrysophyceae
Number of cyanophyceae
Number of dinophyceae
Number of sw coccolithophorids
Number of sw diatoms
Number of sw dinoflagellates
Number of sw nanoflagellates
Number of sw synechococcus
Observed sea level
'other' halocarbon concentrations in the water column
Oxygen saturation
Part. organic carbon (c)
Part. organic nitrogen (n)
Part. organic phosphorus (p)
Partial pressure (pco2) and fugacity (fco2) of carbon dioxide in the atmosphere
Partial pressure (pco2) and fugacity (fco2) of carbon dioxide in the water column
Particle abundance size spectra in water column
Particulate 234 th act. error
Particulate 234th activty
Particulate organic carbon/poc
Particulate organic nitrogen
Particulate total and organic carbon concentrations in the water column
Particulate total and organic nitrogen concentrations in the water column
Particulate total and organic phosphorus concentrations in the water column
Particulate total nitrogen
Particulate total phosphorus
Peridinine
pH, ctd
phaeophorbide_a (hplc)
Phaeophytin_a (hplc)
Phaeopigment concentrations in the water column
Pheophytin-a
Phosphate (po4-p) content
Phosphate concentration parameters in the water column
Photosynthetically active radiation
Phytoplankton non taxonomy-related abundance per unit volume of the water column
Phytoplankton non taxonomy-related biomass expressed as carbon per unit volume of the water column
Phytoplankton taxonomy-related abundance per unit volume of the water column
Phytoplankton taxonomy-related biomass expressed as carbon per unit volume of the water column
Phytoplankton total, wet biomass
PicoChla-euphotic layer
Picophytoplankton (< 2 micron), average cell density in water column
Picophytoplankton (< 2 microns), average wet biomass in water column
Picophytoplankton carbon biomass
Potential temperature
Prasinoxanthine
Primary production at selected depth
Primary production at surface
Primary production in the water column
Primary production in the water column, fraction >3.0 micrometers
Primary production in the water column, fraction 0.2-1.2 micrometers
Primary production in the water column, fraction 1.2 - 3.0 micrometers
Primary production total and size fractionated
QualityFlag c0mscm
QualityFlag flC
QualityFlag potemp090
QualityFlag sal00
QualityFlag sbeoxOV
QualityFlag sbeoxumolkg
QualityFlag sigma-e00
QualityFlag t090 (0:OK;1:unknown;4:questionnable;8:bad)
Raw fluorometer output
Raw oxygen sensor output
Raw temperature and/or salinity instrument output
Redox potential in sw
Relative humidity
Salinity of the water column
Sea level
Sea level expressed as pressure
Sea pressure sea surface=0
Sea surface practical salinity
Sea surface temperature
Secchi disk depth
Secchi disk visibility depth
Sediment pollen content
Sedimentation flux of carbon, nitrogen or organic matter in the water column
Sigma-t, kilograms per cubic metre - 1000
Silicate (sio4-si) content
Silicate concentration parameters in the water column
Sulfite
Sulfur-o
Sum Carotenes (hplc)
Taxon-specific meiobenthos biomass
Taxon-specific meiobenthos density
Temperature of the water column
Temperature variation in the water column
Thiosulfate
Time within day
tot_num_Thunnus_tyhnnus
tot_weight_Thunnus_sp
tot_weight_Thunnusthynnus
Total (dissolved+particulate) phosphorus
Total alkalinity in water column
Total co2
Total cyanobacteria, cell density
Total dissolved inorganic carbon (tco2) concentration in the water column
Total inorganic carbon
Total mesozooplankton biomass (br 113/140 net)
Total mesozooplankton biomass (cone 50 net)
Total mesozooplankton biomass (jom 80/113 net)
Total mesozooplankton carbon biomass (150 litre big bottle)
Total particulate phosphorus
Total phytoplankton average wet biomass in water column
Total phytoplankton carbon biomass (layer)
Total phytoplankton carbon biomass at surface
Total phytoplankton, cell density
Total phytoplankton, wet biomass
Total sulfides (spectrophotometric)
Total suspended matter
Transmittance and attenuance of the water column
Turbidity
Unclassified pigment concentrations in the water column
Urea concentration parameters in the water column
Vertical tow maximum depth
Virus abundance in the water column
Wave direction
Wave height estimates
weight_of_fish
Wind direction rel. true north
Wind speed
Wind speed and direction
Zeaxanthine
Zoobenthos non taxonomy-related abundance per unit area of the bed
Zoobenthos taxonomy-related counts
Zoobenthos taxonomy-related wet weight biomass per unit area of the bed
Zoobentos 1 (0.05 m2 van veen grab)
Zoobentos 2 (0.1 m2 grab) biomass
Zoobentos 2 (0.1 m2 grab) number
Zooplankton dry weight biomass per unit volume of the water column
Zooplankton egg hatch proportion
Zooplankton gut pigments
Zooplankton non taxonomy-related abundance per unit volume of the water column
Zooplankton non taxonomy-related biomass expressed as carbon per unit volume of the water column
zooplankton taxonomy related biomass -
Zooplankton taxonomy-related abundance per unit volume of the water column
Zooplankton taxonomy-related biomass expressed as carbon per unit volume of the water column
Originator Parameters:
All
(not for all sampling)Type of measurementsPhytoplankton pigments (e.g. chlorophyll, flu Chlorophyll a ZooplanktonZoobenthosPhosphatesSilicatesCTD-StationsPhytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
.Mesozooplankton species composition, biomas and abundance (taxonomic list, ex. m-3, Ind. m-3)
1) Chla (µg.L-1) 2) Primary Production (mgCm-3h-1)
1) Chl-a < 0.2µm (µg/l) 2) Chl-a 0.2-2.0µm (µg/l) 3) Chl-a 2.0-5.0µm (µg/l) 4) Chl-a > 5.0µm (µg/l) 5) PP < 0.2µm (mgC/m3/h) 6) PP 0.2-2.0µm (mgC/m3/h) 7) PP 2.0-5.0µm (mgC/m3/h) 8) PP > 5.0µm (mgC/m3/h)
1) Chl-a < 0.2µm (µg/l) 2) Chl-a 0.2-2.0µm (µg/l) 3) Chl-a 2.0-5.0µm (µg/l) 4) Chl-a > 5.0µm (µg/l) 5) PP < 0.2µm (mgC/m3/h) 6) PP 0.2-2.0µm (mgC/m3/h) 7) PP 2.0-5.0µm (mgC/m3/h) 8) PP > 5.0µm (mgC/m3/h)
1) Chlorophyll a (µg.L-1), total and size fractionated 2) Primary production (mgC m-3 h-1), total and size fractionated
1) Chlorophyll a (µg.L-1), total and size fractionated 3) Primary production (mgC m-3 h-1), total and size fractionated
1) Ciliate Abundance (cell/l) 2) Ciliate Biomass (ugC/l)
1) Microplankton species composition and groups/total abundance (cells L-1)
1) Microplankton species composition and groups/total abundance (cells/L)
1) NH4 excretion rate, 2) PO4 excretion rate, 3) O2 consumption rate, 4) Carbon specific CO2 respiration rate, 5) Carbon specific NH4 excretion rate, 6) Carbon specific PO4 excretion rate
1) Particulate Matter Concentration (mg/l)
1) Primary production (particulate-POCp), (mgC m-3 h-1) at 6-7 depths in the 0-100m layer 2) Exudated Primary production (dissolved-DOCp), (mgC m-3 h-1) at 5 depths in the 0-100m 3) Bacterial Production (µg C L-1 h-1), 3H-leucine method 4) Bacterial respiration (µMO2 m-3d-1) at 2 depths in the 0-100m layer 5) Total community respiration (µMO2 m-3d-1) at 2 depths in the 0-100m layer
1) Taxon-specific microplankton abundance (cell/l)
1) Taxon-specific microplankton abundance (cell/l)
1) Temperature in Celcius Degrees 2) Salinity in P.S.U.
1) Temperature in Celcius Degrees 2) Salinity in P.S.U.
1. Siphonophores, Hydromedusae (ind/100m3)
1. Total mass flux, 2. Organic C flux, 3. Inorganic C flux, 4. Opal flux, 5. Lithogenic flux
1. SEA TEMPERATURE, Celsius degree, TEMP by CTD 2. PRACTICAL SALINITY, P.S.U., PSAL by CTD; 3. FLUORESCENCE, relative unit, FLUO, by CTD; 4. Dissolved oxygen (Winkler), micromole/liter 5. Nutrients: a. phosphate, micromole/liter b. silicic acid, micromole/liter c. nitrite+nitrate, micromole/liter d. dissolved organic phosphorus, micromole/liter 6. Chlorophyll a , microgram/liter 7. Flow cytometry cells/liter 8. Samples for HPLC pigments (microgram/liter)
a) Bacterial Production (ngC/l/h) b) Heterotrophic bacteria abundance (cell/ml)/ biomass (µgC/l) c) Cyanobacteria (Synechococcus, Prochlorococcus) abundance (cell/ml)/ biomass (µgC/l) d) Virus abundnace (cell/ml) e) Heterotrophic Flagellates abundance (cell/ml)/ biomass (µgC/l) f) Ciliate abundance (cell/l)/ biomass (µgC/l)
a) Bacterial production (ngC/l/h) b) Bacterial abundance (cells ml-1^10^6) c) Bacterial biomass (µgC/l)
a) Bacterial Production [BP] at discrete layers. b) Heterotrophic bacteria [BACT] abundance / biomass. c) Cyanobacteria (Synechococcus, Prochlorococcus) [SYN, PROC] abundance / biomass. d) Virus [VIR] abundance. e) Heterotrophic Flagellates [HNAN] abundance / biomass. f) Ciliate [CIL] abundance / biomass.
a) Chlorophyll a in ug/l
a) Chlorophyll a in ug/l b) Primary Production in mg C m-3 h-1
a) Chlorophyll a- total and size fractionated (µg/L) b) Primary Production-total and size fractionated (mgC/m3/h)
a) CO2 flux (mM/m2/day) b) Oxygen flux (mM/m2/day) c) Ammonium flux (mM/m2/day) d) Phosphate flux (mM/m2/day) e) Nitrite flux (mM/m2/day) f) Nitrate flux (mM/m2/day) g) Silicate flux (mM/m2/day) h) Porosity (% volume of pore space in total volume of sediment) i) Pore water ammonium (µ?) j) Pore water nitrite and nitrate (µ?) k) Pore water CO2 (mM) l) Pore water H2S (hydrogen sulphide) (mgr/l) m) Pore water SO4 (sulphate) (mgr/l) n) Pore water phosphates (µ?)
a) Copepod ingestion on chla (µgCprey µgCcop-1 day-1) b) Copepod ingestion on ciliates (µgCprey µgCcop-1 day-1) c) Copepod ingestion on dinoflagellates (µgCprey µgCcop-1 day-1)
a) Copepode egg production in mgC m-2 d-1
a) Depth (m) b) SSS c) SST (Celcius Degrees) d)Sea Surface Density(Kg/m3) e) PO4 (µM) f) NO3 (µM) g) Si(OH)4 (µM) h) Total Chl-a(mg/m3) i) Mesozooplankton Carbon biomass((mgC/m3) j) Integrated Primary Production (mgC/m2/day) k) Integrated Bacterial Production (mgC/m2/day)
a) Dissolved inorganic carbon (µmol/kg) b) Total alaklinity (µeq/kg)
a) Dissolved oxygen (mL/L) b) Nitrate+Nitrite (µmol/L) c) Nitrite (µmol/L) d) Silicate (µmol/L) e) Phosphate (µmol/L)
a) Dissolved oxygen (mL/L) b) Nitrate+Nitrite (µmol/L) c) Nitrite (µmol/L) d) Silicate (µmol/L) e) Phosphate (µmol/L) f) Ammonium (µmol/L)
a) Egg production of copepods in eggs female-1 d-1
a) faecal pellet production (pellets ind-1 h-1), b) Carbon-Specific faecal pellet production (mgC gC-1 h-1)
a) Heterotrophic Nanoflagellates abundance (cells/ml) at discrete layers (2, 5, 10, 20, 50, 75, 100m). b) Heterotrophic Nanoflagellates biomass (µgC/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). c) Phototrophic Nanoflagellates abundance (cells/ml) at discrete layers (2, 5, 10, 20, 50, 75, 100m). d) Phototrophic Nanoflagellates biomass (µgC/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). e) Bacterial abundance (cell/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). f) Bacterial biomass (µgC/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m).
a) Heterotrophic Nanoflagellates abundance (cells/ml) at discrete layers (2, 5, 10, 20, 50, 75, 100m). b) Heterotrophic Nanoflagellates biomass (µgC/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). c) Phototrophic Nanoflagellates abundance (cells/ml) at discrete layers (2, 5, 10, 20, 50, 75, 100m). d) Phototrophic Nanoflagellates biomass (µgC/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). e) Bacterial abundance (cell/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). f) Bacterial biomass (µgC/l) at discrete layers (2, 5, 10, 20, 50, 75, 100m). g) Bacterial production (ngC/l/h) at discrete layers (2, 5, 10, 20, 50, 75, 100m).
a) Heterotrophic Nanoflagellates abundance (cells/ml) at discrete layers (5, 10, 30, 50, 75, 100m) b) Heterotrophic Nanoflagellates biomass (µgC/l) at discrete layers (5, 10, 30, 50, 75, 100m) c) Bacterial abundance (cells/ml) at discrete layers (5, 10, 30, 50, 75, 100m) d) Bacterial biomass (µgC/l) at discrete layers (5, 10, 30, 50, 75, 100m) e) Bacterial Production (ngC/l/h) at discrete layers (5, 10, 30, 50, 75, 100m)
a) Heterotrophic Nanoflagellates abundance (cells/ml) at discrete layers (5, 10, 30, 50, 75, 100m) b) Heterotrophic Nanoflagellates biomass (µgC/l) at discrete layers (5, 10, 30, 50, 75, 100m c) Bacterial abundance (cells/ml) at discrete layers (5, 10, 30, 50, 75, 100m) d) Bacterial biomass (µgC/l) at discrete layers (5, 10, 30, 50, 75, 100m) e) Bacterial Production (ngC/l/h) at discrete layers (5, 10, 30, 50, 75, 100m)
a) Ingestion rates of copepods on autotrophs in ng chl-a cop-1 h-1
a) Ingestion rates on autotrophs in ng Chl-a ind-1 h-1
a) Ingestion rates on autotrophs in ng Chl-a ind-1.
a) Ingestion rates on ciliates and phytoplankton (Chl-a >2 µm) µgCprey/µgCcop/day b) Ingestion rates on ciliates and phytoplankton (Chl-a >2 µm) µgCprey/µgCcop/day
a) Ingestion rates on ciliates and phytoplankton (Chl-a >2 µm) µgCprey/µgCcop/day b) Ingestion rates on ciliates and phytoplankton (Chl-a >2 µm) µgCprey/µgCcop/day
a) Ingestion rates on ciliates in ug C copepod -1day-1
a) Mesozooplankton abundance (ind/m3) b) Mesozooplankton total abundance (ind/m3)
a) Mesozooplankton biomass in mg/m3
a) Mesozooplankton Biomass, mgDW m-3
a) Mesozooplankton faecal pellet production (pellets ind-1 h-1) b) Carbon-Specific faecal pellet production (mgC gC-1 h-1)
a) Mesozooplankton taxonomy-related abundance b) Mesozooplankton wet weight biomass
a) Mesozzoplankton abundance (ind/m3) b) Mesozooplankton total abundance (ind/m3)
a) Microplankton composition and abundance in cell/l b) Chlorophyll a in ug/l
a) Microplankton composition and abundance in cell/l b) Chlorophyll a in ug/l c) Primary Production in mgC m-3 h-1
a) Microplankton species composition and abundance in cells/l at 10 sampling depths in the 0-100 m layer b) Chlorophyll a in ug/l at the 0-500 m layer. c) Primary production in mgC/m3/h at 10 sampling depths in the 0-100 m layer
a) Microplankton species composition and abundance in cells/l at 10 sampling depths in the 0-100 m layer b) Primary production in mgC/m3/h at 10 sampling depths in the 0-100 m layer
a) Molar fraction of CO2 in the atmosphere (ppm) b) Molar fraction of CO2 in surface seawater (ppm) c) Partial pressure of CO2 in seawater (µatm) d) Partial pressure of CO2 in the atmosphere (µatm)
a) NH4 excretion rate b) PO4 excretion rate c) O2 consumption rate d) Carbon specific CO2 respiration rate e) Carbon specific NH4 excretion rate f) Carbon specific PO4 excretion rate
a) NH4 excretion rate b) PO4 excretion rate c) O2 consumption rate d) Carbon specific CO2 respiration rate e) Carbon specific NH4 excretion rate f) Carbon specific PO4 excretion rate
a) Nirtate (NO3) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) b) Nirtite (NO2) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) c) Phosphate (PO4) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) d) Silicate (SIO4) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) e) Dissolved oxygen in mL/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth)
a) Nitrate (NO3) concentration (uM) in the 0-1500 m layer. b) Nitrite (NO2) concentration (uM) in the 0-1500 m layer. c) Nitrate (NO3) + Nitrite (NO2) concentrations (uM) in the 0-1500 m layer. d) Phosphate (PO4) concentration (uM) in the 0-1500 m layer. e) Silicate (SIO2) concentration (uM) in the 0-1500 m layer.
a) Nitrate (NO3) concentration (umol/L) in the 0-1500 m layer. b) Nitrite (NO2) concentration (umol/L) in the 0-1500 m layer. c) Nitrate (NO3) + Nitrite (NO2) concentrations (umol/L) in the 0-1500 m layer. d) Phosphate (PO4) concentration (umol/L) in the 0-1500 m layer. e) Silicate (SIO2) concentration (umol/L) in the 0-1500 m layer.
a) Nitrate (NO3) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. b) Nitrite (NO2) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. c) Phosphate (PO4) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. d) Silicate (SIO4) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. e) Dissolved oxygen in mL/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m.
a) Nitrate (NO3) concentration in umol/L at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. b) Nitrite (NO2) concentration in umol/L at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. c) Phosphate (PO4) concentration in umol/L at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. d) Silicate (SIO4) concentration in umol/L at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m.
a) Nitrate (NO3) concentration in umol/L at 2, 20, 50, (75), 100, 200, 300, 500, 600, 800, 1000, 1250, 1500, 1700, 2000, 2250, 2500, 2800 m. (depending on station depth) b) Nitrite (NO2) concentration in umol/L at 2, 20, 50, (75), 100, 200, 300, 500, 600, 800, 1000, 1250, 1500, 1700, 2000, 2250, 2500, 2800 m. (depending on station depth) c) Phosphate (PO4) concentration in umol/L at 2, 20, 50, (75), 100, 200, 300, 500, 600, 800, 1000, 1250, 1500, 1700, 2000, 2250, 2500, 2800 m. (depending on station depth) d) Silicate (SIO4) concentration in umol/L at 2, 20, 50, (75), 100, 200, 300, 500, 600, 800, 1000, 1250, 1500, 1700, 2000, 2250, 2500, 2800 m. (depending on station depth) e) Dissolved oxygen in mL/L at 2, 20, 50, (75), 100, 200, 300, 500, 600, 800, 1000, 1250, 1500, 1700, 2000, 2250, 2500, 2800 m. (depending on station depth)
a) Nitrate (NO3) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. b) Nitrite (NO2) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. c) Phosphate (PO4) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. d) Silicate (SIO4) concentration in umol/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m. e) Dissolved oxygen in mL/L at 2, 20, 50, 100, 200, 300, 400, 500, 600, 800, 1000, 1500, 1800, 2000 m.
a) Nitrate (NO3) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) b) Nitrite (NO2) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) c) Phosphate (PO4) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) d) Silicate (SIO4) concentration in umol/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth) e) Dissolved oxygen in mL/L at 2, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. (Depending on station depth)
a) NO3 concentration in umol/L b) NO2 concentration in umol/L c) PO4 concentration in umol/L d) SiO4 concentration in umol/L e) Dissolved oxygen in mL/L f) NH4 concentration in umol/L
a) Particulate Organic Carbon (ug/L) in the 0-1500 m layer. b) Particulate Organic Nitrogen (ug/L) in the 0-1500 m layer
a) Particulate Organic Carbon (ug/l) in the 0-1500 m layer. b) Particulate Organic Nitrogen (ug/l) in the 0-1500 m layer.
a) Particulate Organic Carbon in µmol/L at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m. b) Particulate Organig Nitrogen in µmol/L at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m.
a) pCO2_wet water (ppm) b) pCO2_wet atm (ppm)
a) POC (µmol/l) b) PN (µmol/l) c) PP (µmol/l)
a) POC b) PN c) PP
a) Pore water Silicate (Si) b) Sedimentary Reactive Silica (Si-HCl+ Si-Alk) c) Dissolved inorganic carbon Stable carbon isotopes
a) Pressure b) Depth c) Temperature d) SigmaTheta e) Salinity f) Oxygen g) Fluorescence h) Beam attenuation i) Beam transmission i) pH k) Total sulfides
a) Pressure b) Depth c) Temperature d) SigmaTheta e) Salinity f) Oxygen g) Fluorescence h) Beam attenuation i) Beam transmission j) pH-1 k) pH-2 l) Total sulfides
a) Pressure b) Temperature c) Salinity d) Oxygen e) Light transmission f) Fluorescence
a) Primary production in mgC m-3 h-1
a) Sediments: Organic Carbon (%)
a) Taxon-specific macrobenthos density b) Taxon-specific macrobenthos biomass
a) Taxon-specific meiobenthos density b) Taxon-specific meiobenthos biomass c) Meiobenthos total density d) Meiobenthos total biomass
a) Taxon-specific mesozooplankton abundance in ind/m3 b) Mesozooplankton total abundance in ind/m3
a) Taxon-specific mesozooplankton abundance
a) Taxon-specific microplankton abundance in cell/l b) Chlorophyll a in ug/l c) Primary Production in mg C m-3 h-1
a) Taxon-specific microplankton abundance in cell/L b) Total microplankton abundance in cell/ L
a) Taxon-specific microplankton abundance in cell/L b) Total microplankton abundance in cell/ L c) Chla in ug/L
a) Taxon-specific zooplankton abundance in ind/m3 b) Mesozooplankton total abundance in ind/m3
a) Taxon-specific zooplankton abundance in ind/m3 b) Mesozooplankton total abundance in ind/m3 c) Mesozooplankton biomass in mg/m3
a) Temperature in Celsius Degrees b) Salinity in P.S.U.
a) Temperature in Celsius Degrees. b) Salinity in p.p.t.
a) Temperature in Celsius Degrees. b) Salinity in p.p.t. c) O2 in ml/l
a) Temperature b) Salinity c) Fluorescence
a) Total Carbon flux (mg m-2 d-1) b) Organic Carbon flux (mg m-2 d-1)
a) Total dissolved nitrogen (µmol/L) b) Total dissolved phosphorus (µmol/L)
a) Bacterial Production (BP) at discrete layers (1, 5, 10, 20, 30, 40, 50, 75, 100, 120, 150, 200, 300, 400, 500, 700, 1000, 1200, 1500m) b) Bacterial abundance at discrete layers (1, 5, 10, 20, 30, 40, 50, 75, 100, 120, 150, 200, 300, 400, 500, 700, 1000, 1200, 1500m)
a) Bacterial Production (ngC/l/h) at discrete layers (1, 5, 10, 20, 30, 40, 50, 75, 100, 120, 150, 200, 300, 400, 500, 700, 1000, 1200, 1500m) b) Bacterial abundance (bact/ml) at discrete layers (1, 5, 10, 20, 30, 40, 50, 75, 100, 120, 150, 200, 300, 400, 500, 700, 1000, 1200, 1500m)
a)Mesozooplankton Biomass (mgDW m-3)
Abundance & biomass of copepod species
Abundance of copepod species
Abundance of 5 major copepod species
Abundance, biomass of copepod species
Annamaria Zoppini, Alberto Puddu, Stefano Amalfitano
BCCW NUMBER OF BACTERIA CELLS SW #/l Number per litre UCPL BCMW BACTERIAL BIOMASS IN SEA WATER mg/m^3 Milligrams per cubic metreUMMC HBAW NB OF HETEROTROPHIC BACTERIA #/l Number per litre UCPL SNCW NUMBER OF SW SYNECHOCOCCUS #/l Number per litre UCPL
Biomasses from OPC size-spectrum and taxonomy
Carbon (µg/l); Nitrogen (µg/l)
Chl a; Paeophytin a; Primary production; bacteria abundance; bacteria biomass; phytoplankton abundance; phytoplankton biomass
Ciliate abundance (cell/l) / biomass (ugC/l) at discrete layers (2, 10, 20, 50, 80, 100m).
Ciliate abundance (cell/l) and biomass (ugC/l) at discrete layers (1, 10, 20, 50, 75, 100m) at 4 stations in the South Aegean Sea and 7 stations in the North Aegean Sea.
Ciliate abundance (cell/l) and biomass (ugC/l) at discrete layers (1, 10, 20, 50, 75, 100m).
Ciliate abundance (cell/l) and biomass (ugC/l) at discrete layers (2, 10, 20, 50, 75, 100m)
Ciliate abundance (cell/l) at discrete layers (2, 10, 20, 50, 80, 100m).
CO2 molar fraction in wet air at in-situ temperature = xCO2 (ppm) O2 concentration in µmol/kg= DOXY %O2 saturation level = %O2 (%) Sea surface temperature in °C = TEMP Water temperature in equilibrator = Teq (°C) Sea surface salinity = PSAL
Copepod ingestion
Copepod ingestion (µgCprey µgCcop-1 day-1)
Copepod production
Copepod production (µgCegg µgCcop-1 day-1)
Copepod production (µgCegg µgCcop-1 day-1)
CTD (T, S) and fluorescence profiles, O2, hydrogen sulphide, nutrients, pH, primary production, chlorophyll a by Fast repetition rate fluorometry, phytoplankton, zooplankton, benthos, observations of benthic community by remotely operated vehicle/camerasTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3) .
CTD (T,S), fluorometric profile (chlorophyle a), biomass derived from OPC size-spectrum.Mesozooplankton species composition and abundance (taxonomic list, Ind. m-3), biomass derived from OPC size-spectrum.
CTD (T,S), fluorometric profile (chlorophyle a), Biomasses from OPC size-spectrumMesozooplankton species composition and abundance (taxonomic list, Ind. m-3), biomass derived from OPC size-spectrum.
CTD (T,S), fluorometric profile (chlorophyle a), mesozooplankton biomassMesozooplankton species composition and abundance (taxonomic list, Ind. m-3), wet weights and dry weights.
CTD (T,S), fluorometric profile (chlorophyle a)Mesozooplankton species composition and abundance (taxonomic list, Ind. m-3), biomass derived from OPC size-spectrum.
CTD parameters O2, H2S, Chl.a,HPLC pigments, NO2, NO3+NO2, PO4 , Si(OH)4, pH, NH4-N, phytoplankton taxonomy related abundance, phytoplankton taxonomy related biomass,zooplankton taxonomy related abundance, zooplankton taxonomy related biomass, size fractionated pigments, Primary Production
CTD parameters O2, H2S, Chl.a,HPLC pigments, NO2, NO3+NO2, PO4 , Si(OH)4, pH, NH4-N, phytoplankton taxonomy related abundance, phytoplankton taxonomy related biomass,zooplankton taxonomy related abundance, zooplankton taxonomy related biomass, size fractionated pigments
CTD parameters O2, H2S, Chl.a,HPLC pigments, NO2, NO3+NO2, PO4 , Si(OH)4, pH, NH4-N, phytoplankton taxonomy related abundance, phytoplankton taxonomy related biomass,zooplankton taxonomy related abundance, zooplankton taxonomy related biomass, size fractionated pigments, Primary Production
CTD parameters O2, H2S, Chl.a,HPLC pigments, NO2, NO3+NO2, PO4 , Si(OH)4, pH, NH4-N, phytoplankton taxonomy related abundance, phytoplankton taxonomy related biomass,zooplankton taxonomy related abundance, zooplankton taxonomy related biomass, size fractionated pigments, Primary Production
CTD temp090, potemp090, sbeoxOV, salinity, pressure,fluorescenceC,sigma-e00, BeamTransmission, quality flags
CTD/fluorescence profiles, pH, total alkalinity, total CO2, nutrients (NO2, NO3, NH4, Ntot,tot org N, total oxydised nitrogen, PO4, Ptot, SiO4), phytoplankton pigments (HPLC), bacterial abundance and bacterial carbon production at 1, 5, 10, 15 and 20 m; Total mesozooplankton biomass as dry weight (mg m-3) and ash free dry weight. Species composition and abundance (taxonomic list, Ind. m-3)in future
CTD/fluorescence profiles; nutrients (NO2, NO3, NH4, Ptot, Ntot, Tot N org, PO4, SiO4),temperature, salinity, pH, alkalinity and tot CO2 at 0,5,10,15, 21m; Chl a at 0, 5,10, 15, 21, m;Gelatinous mesozooplankton biomass as dry weight (mg m-3) and 5 group-specific Carbon and Nitrogen contents (Hydromedusae, Siphonophora, Chaetognatha, Appendicularia, Thaliacea).Gelatinous mesozooplankton species composition and abundance (taxonomic list, Ind. m-2)
daily river sediment fluxes
daily water discharge
date time depth temp psal CurrentEastComp CurrentNorthComp
Date, Average monthly water temperatures are available (see Relevant publications),
Date, Average monthly water temperatures are available (see Relevant publications), Taxon-specific mesozooplankton abundance
Date, Average monthly water temperatures are available, Taxon-specific mesozooplankton abundance
Date, Temperature,
Date/time, Latitude, Longitude, Bottom depth, Three to five sampling depths for chlorophyll biomass per station.
Department of Animal Biology and Ecology, University of Cagliari
Department of Animal Biology and Ecology, University of Cagliari
Depth, Temperature, Salinity
Depth, Temperature, Salinity O2, PO4, SiO4, NO3, NO2, NH4, H2S, PH, Turbidity, Alkalinity
Depth, Temperature, Salinity, Density (sigma-t), DOW, PO4, NO2+NO3, NO2, Si, Act.chl-a, Tot.chl-a
Depth, Temperature, Salinity, Density (sigma-t), DOW, PO4, NO2+NO3, NO2, Si, Act.chl-a, Tot.chl-a, H2S, NH4
Depth, Temperature, Salinity, Density, Dissolved Oxygen (Winkler), Ammonia, PO4, SiO4, NO3, NO2, NH4, H2S, PH, Chlorophyll-a (Fluorometric method),Particulate Organic Carbon, Particulate Organic Nitrogen, Total Nitrogen, Total Phosphorus, Total Suspended Matter (116 parameters, including - Physics 13, Chemistry 27, and Biology 76)
Depth, Temperature, Salinity, O2, PO4, PH, SiO4, NO3, NO2, NH4, H2S, Chlorophyll, alkalinity
Depth, Temperature, Salinity, O2, PO4, SiO4, NO3, NO2, NH4, H2S, Alkalinity ()
Depth, Temperature, Salinity, O2, PO4, SiO4, NO3, NO2, NH4, H2S, PH
Depth, Temperature, Salinity, O2, PO4, SiO4, NO3, NO2, NH4, H2S, PH (116 parameters, including - Physics 13, Chemistry 27, and Biology 76)
depth[m];temperature[deg.C];salinity[PSU];secchi disk depth[m];dissolved oxygen[ml/l];dissolved oxygen[micromoles];oxygen saturation[%];po4-p[micromoles];total phosphorus[micromoles];sio4-si[micromoles];no2-n[micromoles];no3-n[micromoles];nh4-n[micromoles];chlorophyll a[micrograms/l]
Diatoms density (cell L-1); Dinoflagellates density (cell L-1); Coccolithophores density (cell L-1); Nanoflagellates density (cell L-1); Others density (cell L-1); Total phytoplankton density (cell L-1); Diatoms biomass (mg C L-1); Dinoflagellates biomass (mg C L-1); Coccolithophores biomass (mg C L-1); Nanoflagellates biomass (mg C L-1); Others biomass (mg C L-1); Total phytoplankton biomass (mg C L-1).
DIN and DIP atmospheric deposition fluxes
Dissolved organic carbon (DOC)
Dissolved organic carbon (DOC, µmol C/l)
Dissolved Organic Carbon (µmolC/L)
DISSOLVED OXYGEN, micromole/kg, DOX2 by CTD, correction by Winkler titration; SEA TEMPERATURE, Celsius degree, TEMP by CTD; PRACTICAL SALINITY, P.S.U., PSAL by CTD; FLUORESCENCE, relative unit, FLUO, by CTD; LIGHT ATTENUATION COEFFICIENT, m-1, TUR2 by CTD;
Dr. Aldo Drago International Ocean Institute - Malta Operational Centre Physical Oceanography Unit University of Malta Tel/Fax +356-21-440972
Dr. Aldo Drago Physical Oceanography Unit International Ocean Institute - Malta Operational Centre University of Malta Tel/Fax + 356-21-440972
Dr. Aldo Drago Physical Oceanography Unit International Ocean Institute-Malta Operational Centre University of Malta Tel/Fax +356-21-440972
Dr. Aldo Drago Physical Oceanography Unit IOI Malta Operational Centre, University of Malta Tel/Fax +356-21-440972
dv-chl a, µg/l; chl a, µg/l; Tchla, µg/l; dv-chl b, µg/l; chl b, µg/l; Tchlb, µg/l
Eastward Abs. Current Velocity: u[m/s]; Northward Abs. Current Velocity: v[m/s].
Egg production of copepods (µg Cegg/µg Cfem/day)
Electrical conductivity of the water column Density (sigma-theta), Sigma-t, kilograms per cubic metre - 1000 Temperature of the water column Potential temperature Sea pressure sea surface=0 Beam attenuation coeffiecient at 660 nm Oxygen saturation Fluorescence, ctd Salinity of the water column Dissolved oxygen in the water column, ctd
Electrical conductivity of the water column Density (sigma-theta), Sigma-t, kilograms per cubic metre - 1000 Temperature of the water column Potential temperature Sea pressure sea surface=0 Beam attenuation coeffiecient at 660 nm Oxygen saturation Fluorescence, ctd Salinity of the water column Dissolved oxygen in the water column, ctd Total Alkalinity (Micromoles per kilogram) pH (pH units) Nitrite concentration (umol/l) Silicate concentration (umol/l) Phosphate concentration (umol/l) Nitrate concentration (umol/l) Dissolved oxygen (umol/kg) Chlorophyll-a (Micrograms per litre) Phaeopigment concentrations (Micrograms per litre) Dissolved Organic Nitrogen (micromoles per litre) Dissolved Organic Carbon(micromoles per litre)
Electrical conductivity of the water column Density (sigma-theta), Sigma-t, kilograms per cubic metre - 1000 Temperature of the water column Potential temperature Sea pressure sea surface=0 Oxygen saturation Fluorescence, ctd Salinity of the water column Dissolved oxygen in the water column, ctd Total Alkalinity (Micromoles per kilogram) pH (pH units) Nitrite concentration (umol/l) Silicate concentration (umol/l) Phosphate concentration (umol/l) Nitrate concentration (umol/l) Dissolved oxygen (umol/kg) Chlorophyll-a (Micrograms per litre) Phaeopigment concentrations (Micrograms per litre) Turbidity, FTU Dissolved Organic Carbon (micromoles per litre) Dissolved Organic Nitrogen (micromoles per litre)
Electrical conductivity of the water column Sigma-t, kilograms per cubic metre - 1000 Density (sigma-theta) Temperature of the water column Potential temperature Sea pressure sea surface=0 Fluorescence, ctd Salinity of the water column Dissolved oxygen in the water column, ctd Photosynthetically active radiation Turbidity of the water column Oxygen saturation
Fish egg abundance, fish larva abundance
for total surveyStart_date 10.05.97End_date 23.05.97Start_hour 6 a.m.End_hour 7-8.a.mLatitude_start 44.12 NLongitude_start 29.20 E.Latitude_end 45.30 NLongitude_end 31.20 EStart_depth (m) 24 mEnd_depth (m) 32 mDistance covered (trawl)Speed (trawl) 2 knots
for total surveyStart_date 18.08.99End_date 5 .09.99Start_hour 6 a.m.End_hour 7-8.a.mLatitude_start 44.34.2 NLongitude_start 37.58.4 E.Latitude_end 44.31.4 NLongitude_end 37.56.5 EStart_depth (m) 50 mEnd_depth (m) 500 mDistance covered (trawl)Speed (trawl) 2 knots
Gelatinous plankton Mesozooplankton Ichthyoplankton Phytoplankton Microplankton Biochemistry
Gelatinous zooplankton abundance; Gelatinous zooplankton biomass
Gross Primary production (µmol O2 l-1 d-1), Net community production (µmol O2 l-1 d-1), Community respiration (µmol O2 l-1 d-1),
H2S, µM; O2 (Winkler); PO4, µM; Ptot, µM; Porg, µM; Alkalinity; pH; Nmin µM; Norg, µM; NH4, µM; NO3, µM; NO3, µM; Si, µM
HCDT, HCSP, TEMP, PSAL
HYDROMETRIC LEVEL, m; WATER TEMPERATURE,°C
ID Ship Cruise Date Time Station.CTD Lat Deg Lon Deg Depth Site Profile No. Sdy Investigator Chlc3 Chlc1c2 TChlc Chlidea Peri Phaeoa But Fuco Neo Prasino Viola Hex Diad Allo Diato Zea Lut DVChlb Chlb TChlb DVChla Chla TChla Phytinea TCaro wDP f.micro f.nano f.pico Chla.micro Chla.nano Chla.pico Zeu
In AkhaliAtoni area was drilled 6 bores No 55,128,149,182,239,511. Selected 35 samles of marine sediments and 37 of alluvial sediments. Maxsimum depth is 24m , minimum - 9m.Excel file (see EDMED_form_PointB.pdf file and/or the HCMR example))Total palynomorphs quantity in AkhaliAtoni area is 64 in marine deposits and 82 in alluvial. Redeposited (secondary) taxons in list of species differed by italic type print. Big amount of redeposited pollen was in layers of marine sediments, dating of Boreal and Subboreal periods of Holocene with cold climatic phase and regressive erossion activity. Cold-like species (Abies, Picea, Betula, Fagus) is prevalence in Early Holocene . Chronolical spreading of warm-like species and their abundance (Castanea sativa, Pterocarya pterocarpa, Quercus, Zelkova) show few climatic optimums in Preboreal, Atlantic and Subatlantic periods.
In Gagra area was drilled 7 bores Gagra1, 424,471,603,607,609, 613. Selected 43 samples of marine sediments and 76 of peats with lake sediments samples.Maxsimume depth of drilling is 37m, minimume - 70cm. Excel file (see EDMED_form_PointB.pdf file and/or the HCMR example))Total palynomorphs quantity in Gagra area is 116. Redeposite taxons pollen is not much. For palynospectra of Earle Holocene sediments (bure 471) indicate high mountain forest elements. It is cold-like taxons Abies,Picea, Betula, and Fagus. In beginning of Middle-Holocene (Atlantic Period) in pollenspectra thermophyleus components is incriase Castanea sativa, Quercus, Zelkova, Pterocarya. Their maximum quantity was in 6000 - 5500, 3800-2500,1350-800 Cal.yr BP.
In Gudauta area was drilled 2 marine sediments bore No 120, 521. Selected 37 samples. Maximume depth is 31.8m, minimume - 9.5m.Excel file (see EDMED_form_PointB.pdf file and/or the HCMR example))Total palynomorphs quantity in Gudauta area is low - 63 taxons. Secondary pollen incriased in beginning of Holocene. This fact indicate of strong erossion processes in this area ( landslide activity) in cold and regression phases of Early Holocene and Subboreal periods. In palynospectra dominated Abies, Picea, Betula, Fagus. Pollen preservation and concentration was poor. In Preboreal and Atlantic periods Castanea pollen dominates, all thermophilous taxa quantity is incriases, climate was warm.
In Kobuleti area was drilled 4 bore (No 22,33,39, Ispani) and excavated 4 profile. Selected 99 marine, 150 alluvial with peat (Choloki), 109 samples alluvial witl lake clay (Supsa) and 47 peat samples (Ispani). Maxsimum depth of Holocene is 27m, minimume - 1.5m. Excel file (see EDMED_form_PointB.pdf file and/or the HCMR example))Total palynomorphs quantity in Kobuleti area is 176. In Atlantic periods palynospectra dominated Pterocarya and Castanea pollen. Very rich taxonomicaly composition is in Sphagnum bog Ispani II deposits. Pollen evidence from bog in lowland Kobuleti area shows that 4500 years ago Castanea (chestnut) dominated woods rapidly declined to be replaced by alder swamps and later, during the first millenium BC, by open, marshly landscapes in which fire played a prominent part. Around 1900 years ago Sphagnum blanket bog encroached on the marshes and dense Fagus-Carpinus (beech-hornbeam) forest were clear-felled and marshes were drained for large-scale, mechanized agriculture. To a much greater degree, episodes of coastal subsidence, sea-level rise and human impact have shaped the vegetation history of coastal zone of Kobuleti.
In Sochumi area drilled 3 bores No. 36,721, 723. Selected 110 samples of marine sediments and 120 alluvial with peat. Maximume depth is 45 m, minimume - 21 m. Excel file (see EDMED_form_PointB.pdf file and/or the HCMR example))Total palynomophs quantity in Sochumi area is 82 taxons. Maximume quantity of cold-like species (high mountain coniferous forests from Abies, and Picea) to be in Early Holocene, were the lowest forest limit was observed. This species pollen minimume observed in Middle Holocene time (6000-5500 BC). During the Atlantic climatic optimum the upper forest limit was 300-350 m higher that one existing today. In the palynospectra Castanea, Quercus, Zelkova,Pterocarya and sinantropic elements was incriased.
latitude logitude conductivity temperature logitude salinity altitude
Latitude, Longitude, Bottom Depth, Date, Hour, Sampled layer,
Latitude, Longitude, Bottom Depth, Date, Hour, Sampled layer, Mesozooplankton total abundance, Copepods total abundance, Taxon-specific mesozooplankton abundance
Latitude, Longitude, Bottom Depth, Date, Hour, Sampled layer, Mesozooplankton total abundance, Copepods total abundance, Taxon-specific mesozooplankton abundance
Latitude, Longitude, Bottom Depth, Date, Hour, Sampled layer, Mesozooplankton total abundance, Copepods total abundance, Taxon-specific mesozooplankton abundance
LIST OF (to be filled in the task1.3_Fishpopfisherydata_v01.xls) The data are monthly-total landings (in tons) representative for all the region, but also by landing ports (16).There are two kinds on nets trawling and purse seine, but it is not easy to get the data on the net used from the ancient documents; however we can consider that the main net used is purse seine. With purse seine the hauls are superficial, from 30 m to surface, that is the height of the purse seine. At this moment we ha
list of parameters
LongitudeBottom depthTotal phytoplankton abundance (cells l-1)Total phytoplankton biomass (?g l-1)Phytoplankton groups abundance (cells l-1)Phytoplankton groups biomass (?g l-1)Total phytoplankton abundance; Total diatom abundance Total dinoflagellate abundance; Total coccolithophorid abundance; Total silicoflagellates abundance; Total small phytoflagellate abundance; Total phytoplankton biomass; Total diatom biomass Total dinoflagellate biomass; Total coccolithophorid biomass; Total small phytoflagellate biomass; Total silicoflagellates biomass1-2 l samples Filtration over 1 µm Nuclepore filter30-50 ml concentrates Samples collected at different depths from sea surface to 60-100m in open waters and from surface to bottom on shelf. Some stations have only surface samples.
LongitudeDate timeDepth of sampling (m)TemperatureOxygen (µmol kg-1)NO3 (µmol kg-1)PO4 (µmol kg-1)TCO2 (µmol kg-1) when availableBIOCHEMICAL DATAT, S, CTD data, O2, NO3, PO4, TCO2, discrete analysed data
LongitudeDepth of trap deployment (m)Sampling frequencyHour of the dayTotal particulate lipids (µg h-1)Total particulate amino acids (µg h-1) when availableTotal particulate carbohydrates (µg h-1) when availableParticulate carbon(µg h-1)TLip/POC TProtein/POC TCarbohydrates/POCBIOCHEMICAL DATAPOC, Total lipids, Total amino acids; Total carbohydrates
Measured pigments: C3, C2, PER, BUT, FUC, HEX, DIAD, ALLO, ZEA, CHL-B, DIV-A, CHL-A, B-CAR
Medusae Aurelia aurita, Mnemiopsis leidyi, Noctiluca miliaris, Pleurobrachia pileus
Mesozooplankton Biomass (mgDW m-3 and C & N content).
Mesozooplankton Biomass (mgDW m-3 and C & N content).
Mesozooplankton biomass estimated as dry-weight (mg/m3)
Mesozooplankton dry weight (mg/m3) Filtered water volume(m3) Vertical tow max depth(m)
Mesozooplankton excretion and respiration
Mesozooplankton faecal pellet production
Mesozooplankton size-fractionated biomass as dry mass (mg m-3) and Mesozooplankton size-fractionated biomass as carbon content(mg C m-3)
Mesozooplankton size-fractionated biomass as dry mass (mg m-3) and Mesozooplankton size-fractionated biomass as carbon content (mg C m-3)
Mesozooplankton size-fractionated biomass as dry mass (mg m-3) and Mesozooplankton size-fractionated biomass as carbon content (mg C m-3)
Mesozooplankton size-fractionated biomass as dry mass (mg/m3)
Mesozooplankton species composition and abundance (ind. m-3)
Mesozooplankton species composition and abundance (Ind. m-3).
Mesozooplankton species composition and abundance (Ind.m-3). Environmental data published in Manca et al. (2006)Manca, B.B., Ibello, V., Pacciaroni, M., Scarazzato, P., Giogietti, A. (2006) Ventilation of deep waters in the Adriatic and Ionian Seas following changes in thermohaline circulation of the Eastern Mediterranean. Clim Res, 31 239-256.
Mesozooplankton species composition and abundance (taxonomic list, Ind. m3)
Mesozooplankton species composition and abundance (taxonomic list, Ind. m-3)
Mesozooplankton species composition and abundance (taxonomic list, Ind./m3)
Mesozooplankton species composition, abundance and total biomass (Dry weight)from discrete depths.
Mesozooplankton species composition, abundance,total biomass (Wet weight,Dry weight)and total organic carbon from discrete depths.
Mesozooplankton species composition, biomas and abundance (taxonomic list, ex. m-3, Ind. m-3)
Microplankton
Microplankton composition and abundance (cells/l).
Microplankton species composition (cells/L)
Monthly mean values forTemperature, Salinity, O2, PO4, PH, SiO4, NO3, NO2, NH4, H2S, Chlorophyll, alkalinity, Primary Productivity, CO2, ocean colour
N-NO2, µmol/l; N-NO3, µmol/l; P-PO4, µmol/l; Si-Si(OH)4, µmol/l;
NO3, NH4, HPO4
NPP (mg C /m2/ d)
Organic Carbon flux (mg m-2 d-1)
oxygene, ml02/l
parameters list
ParameterSymbolUnitTotal Suspended SedimentTSSmg/LPhosphate PO4-PµMTotal phosphorusTPµMNitrate(as nitrate+nitrite)NO3-NµMAmmoniumNH3-NµMSilicateSiµMBiochemical Oxygen DemandBOD5mg/LChemical Oxygen DemandCODmg/LVolume FluxQm3/day
Particulate matter concentration (mg/l)
Particulate matter concentration in mg/l
Particulate Organic Carbon (POC) in µmol/L
Particulate Organic Carbon (umol C/L).
Particulate Organic Carbon in ug/l at 2, 10, 20, 50, 75, 100, 200, 300, 500, 600, 800, 1000, 1300 m.
Particulate Organic Carbon in µmol/L
Particulate proteins (µg L-1); Dissolved proteins (µg L-1); Particulate DNA (µg L-1); Dissolved DNA (µg L-1); Alkaline phosphatase activity (nmol L-1 h-1); ß-glucosidase activity (nmol L-1 h-1); Aminopeptidase activity (nmol L-1 h-1); Prokariote C production (µg C L-1 h-1); Prokariote abundance (n L-1); Viruses (n L-1); Pico autotrophic cells (n cell L-1); Nano autotrophic cells (n cell L-1); Nano heterotrophic cells (n cell L-1).
pH in the total hydrogen scale = pH total alkalinity = TA [µmol/kg]
pH in the total hydrogen scale = pH total alkalinity = TA in µmol/kg
pH in the total hydrogen scale = pH total alkalinity = TA in µmol/kg
Phytoplankton abundance in the water column.
Phytoplankton species composition and abundance (taxonomic list, cells ml-1)
phytoplankton taxonomy related abundance, phytoplankton taxonomy related biomass,zooplankton taxonomy related abundance, zooplankton taxonomy related biomass
POC; Chl a; Paeophytin a; Primary production; bacteria abundance; bacteria biomass; phytoplankton abundance; phytoplankton biomass
POC; Chl a; Primary production; microzooplankton abundance; microzooplankton biomass; bacteria abundance; bacteria biomass; phytoplankton abundance; phytoplankton biomass
prDM Theta[°C] Sal00 OxCTD mg/L T068C FlSP
PrDM T090C Sal00 FlSP Sigma-t00(S,T,0) Chl µg/L NO3+NO2 µM PO4 µM Si(OH)4 µM
PRES: Pressure, Digiquartz [db] TEMP: Temperature, 2 [ITS-90, deg C] PSAL: Salinity [PSU] DOX1: Oxygen, SBE 43 [ml/l] FLU: Fluorescence, Chelsea Aqua 3 Chl Con [ug/l]
PRES: Pressure, Digiquartz [db] TEMP: Temperature, 2 [ITS-90, deg C] PSAL: Salinity [PSU] DOX1: Oxygen, SBE 43 [ml/l] FLU: Fluorescence, Chelsea Aqua 3 Chl Con [ug/l] PAR: PAR/Irradiance, Biospherical/Licor S-PAR: SPAR/Surface Irradiance
PRES: Pressure, Digiquartz [db] TEMP: Temperature, 2 [ITS-90, deg C] PSAL: Salinity [PSU] DOX1: Oxygen, SBE 43 [ml/l] FLU: Fluorescence, Chelsea Aqua 3 Chl Con [ug/l] PAR: PAR/Irradiance, Biospherical/Licor S-PAR: SPAR/Surface Irradiance Beam Transmission, Chelsea/Seatech/Wetlab CStar [%] BAT: Beam Attenuation, Chelsea/Seatech/Wetlab CStar [1/m]
PRES: Pressure, Digiquartz [db] TEMP: Temperature, 2 [ITS-90, deg C] PSAL: Salinity [PSU] DOX1: Oxygen, SBE 43 [ml/l] FLU: Fluorescence, Chelsea Aqua 3 Chl Con [ug/l] S-PAR: SPAR/Surface Irradiance Beam Transmission, Chelsea/Seatech/Wetlab CStar [%] BAT: Beam Attenuation, Chelsea/Seatech/Wetlab CStar [1/m]
PRES-CTD, TEMP-CTD, DENS-CTD, PSAL-CTD
PRES-CTD, TEMP-CTD, DENS-CTD, PSAL-CTD, FLUO-CTD, Beam attenuation-CTD
PRES-CTD, TEMP-CTD, PSAL-CTD, FLUO-CTD, Beam attenuation-CTD
Pressure Decibars Temperature, Salinity, Pot. Temperature
pressure(dBar); temperature(deg.C); salinity(PSU); DO ctd(mg/l);DO Winkler(ml/l); DO Winkler(micromoles/l); oxygen saturation(%); no2-n(micromoles/l); no3-n(micromoles/l); nitrate+nitrite(micromoles/l); po4-p(micromoles/l); total phosphorus(micromoles/l); sio4-si(micromole/l); dissolved organic carbonn(micromoles/l); total inorganic carbon(micromoles/l); chlorophyll a(micrograms/l)
pressure(dBar); temperature)deg.C); salinity(PSU); DO ctd(mg/l); DO Winkler(ml/l); DO Winkler(micromoles/l); oxygen saturation(%); no2-n(micromoles/l); no3-n(micromoles/l); nitrate+nitrite(micromoles/l); nh4-n(micromoles/l); po4-p(micromoles/l); total phosphorus(micromoles/l); sio4-si(micromoles/l); dissolved organic carbon(micromoles/l); total inorganic carbon(micromoles/l); chlorophyll a(micrograms/l).
Pressure, db; Salinity; Pot. Temp, °C; Alkalinity, µmole kg-1; Total CO2, µmole, kg-1; pHT at 25°C; O2, µmole kg-1;
Pressure, depSM, Temperature, Potential Temperature, Salinity, Density, sigma-theta, Oxygen, Oxygen % saturation, PAR, flag
Pressure, depSM, Temperature, Potential Temperature, Salinity, Density, sigma-theta, Oxygen, Oxygen % saturation, PAR, Turbidity, Fluorescence, flag
Pressure, depSM, Temperature, Potential Temperature, Salinity, Density, sigma-theta, Oxygen, Oxygen % saturation, PAR/Irradiance, Fluorescence, flag
Pressure,Temp,Sal,Dens,O2, pH,Alk,PO4, Ptot, Si, NO3, NO2, NH4, Ntot, H2S, CH4
pressuredb, ctdno, btlno, o2w_uM
Primary production in situ (time series from 1962 - 2006)(0, 5, 10, 20, 30, 50, 75; 0, 5, 10, 20, 30, 35 m)
PSAL TEMP (°C) Temp_Pot Dens (sigma_theta) ChlA_CTD OxCTD ml/L NO3+NO2 µM PO4 µM Si(OH)4 µM TotalDis P µM TotalDis N µM DOC POC_µM PON_µM POP_µM
PSAL TEMP (°C) Temp_Pot Dens (sigma_theta) ChlA_CTD OxCTD ml/L OxWinkl ml/L O2Wink µM NO3+NO2 µM PO4 µM Si(OH)4 µM TotalDis P µM TotalDis N µM DOC POC_µM PON_µM POP_µM
PTEMP SSAL DOX1 DENS
PTEMP SSAL DOX1 DENS
Riedl (1959); Pérès & Picard (1964); Corine (1991); Habitat Directive (1992); Dauvin et al. 1993; Bellan-Santini et al. (1994); Paleartic habitat classification (2001); EUNIS Habitat Classification (2003); ZNIEFF (2004); O'Connor et al. 2004; RAC/SPA (2006).
river nutrient concentrations
River water discharge (m3/s)
Sample number;Ship name;Cruise name;Date; Time; CTD or station number; Latitude; Longitude; Depth below the surface;Site number or name;Profile number;Solar day of year;Name of person responsible for data;Chlorophyll c3;Chlorophyll c1 + c2;Chlorophylls c1 + c2 + c3;Chlorophyllide a ;Peridinin;Phaeophorbide a; 19'-Butanoyloxyfucoxanthin; Fucoxanthin; Neoxanthin; Prasinoxanthin;Violaxanthin (for method A, this column represents Violaxanthin + Neoxanthin); 19'-Hexanoyloxyfucoxanthin; Diadinoxanthin; Alloxanthin;Diatoxanthin;Zeaxanthin;Lutein;Divinyl chlorophyll b;Chlorophyll b; Total Chlorophyll b; Divinyl chlorophyll a; Chlorophyll a;Total Chlorophyll a; Phaeophytin a; Total Carotenes; Sum of weighted diagnostic pigments; Relative Microphytoplankton content; Relative Nanophytoplankton content; Relative Picophytoplankton content; Concentration of microphytoplankton; Concentration of nanophytoplankton; Concentration of picophytoplankton; Euphotic layer depth; Integrated Tcha content over the euphotic layer;Integrated Tcha content over 1.5 times the euphotic layer; Flags; Comments
Satellite Sea Surface Temperature, Salinity, Topography, Winds Brightness
Sea Level
Sea Level, Dir Wind avarage 10min (GN), Vel Wind average 10min (m/s), Temp Air(C),Humidity Rel (%), Pressure (hPa), Rad solar (W/m2), Temp Water (C)
Sea Surface Temperature (ºC), Sea Surface Salinity (P.S.U.)
SEA TEMPERATURE, Celsius degree, TEMP by CTD; PRACTICAL SALINITY, P.S.U., PSAL by CTD; DISSOLVED OXYGEN, micromole/kg, DOX2 by CTD, correction by Winkler titration; FLUORESCENCE by CTD, relative unit;
secchi disk depth[m], temperature[deg.C], salinity[PSU], dissolved oxygen[mg/l], dissolved oxygen[micromoles/l], oxygen saturation[%], no2-n[micromoles], no3-n[micromoles], nitrates+nitrites[micromoles], nh4-n[micromoles], po4-p[micromoles],total phosphorus[micromoles], sio4-si[micromoles], chl a[micrograms/l], total suspended matter[g/m3]
See attached excel file.Benthos groups composition and abundance (taxonomic list, ind. m-2) in the bottom sediment.
See attached excel file.Benthos groups or species composition and abundance (taxonomic list, ind. m-2) in the bottom sediment.
See attached excel file.fouling groups or species composition and abundance (taxonomic list, ind. / panel area) in the fouling samples.
See attached excel file.Isopoda species composition and abundance (taxonomic list, ind. m-2) in the scraped fouling samples.
See Cruise Summary Report of Ad. Branimir Ormanov cruise BO091999Type of measurementsPhytoplankton pigments (e.g. chlorophyll, flu Chlorophyll aZooplanktonZoobenthosPhosphatesCTD-StationsPhytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
See Cruise Summary Report of Ad. Branimir Ormanov cruise BO092000Type of measurementsPhytoplankton pigments (e.g. chlorophyll, flu Chlorophyll aZooplanktonZoobenthosPhosphatesCTD-StationsPhytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
See Cruise Summary Report of Akademik cruise AK071992. Type of measurements: Phytoplankton pigments (e.g. chlorophyll, flu Chlorophyll a, Zooplankton, Phosphates, CTD-Stations.
See Cruise Summary Report of Akademik cruise AK071992Type of measurementsPhytoplankton pigments (e.g. chlorophyll, flu Chlorophyll aZooplanktonPhosphatesCTD-StationsPhytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
See Cruise Summary Report of Akademik cruise AK072006_BSRP. Type of measurements: Phytoplankton pigments (e.g. chlorophyll, flu Chlorophyll a) Zooplankton, nutrients, CTD-Stations, Phytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
See Cruise Summary Report of Akademik cruise AK091991Type of measurementsPhytoplankton pigments (e.g. chlorophyll, flu Phytoplankton pigments (e.g. chlorophyll, fluorescence)ZooplanktonPhosphatesCTD-StationsPhytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
See Cruise Summary Report of RV Akademik cruise- Ak082001 Parameters of measurements: Phytoplankton pigments (e.g. chlorophyll, flu Chlorophyll a); Zooplankton, Zoobenthos, Phosphates, CTD-Stations, Phytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
see http//www.com.univ-mrs.fr/SLT/CTD and fluorescence profiles; salinity, oxygen, nutrients (NO2, NO3, NH4, PO4, SiO4) at 3 depths (1m, max Chl, 55m); phytoplankton taxonomy (max Chl).Total densities from OPCDry weight by size classes < 200 µm; 200-300 µm; 300-500 µm; 500-1000 µm; 1000-2000µm; > 2000 µmTaxonomy for some years
sioh4uM ,sidepth, pressuredb, ctdno, btlno
Small zooplankton abundance; small zooplankton biomass
Species composition and abundance (taxonomic list, cells ml-1) at 0 m at all stations and at 4 additional optical depth at 6 stations
T(660)
T, S, DO, Nutrients, Chlorophyll a, b, cPhytoplankton species composition (nano- and microphytoplankton), abundance by species [cells/100 ml] and bulk chlorophyll a, b, c [mg/m3]
T, S, DO, Nutrients, Chlorophyll a, b, cPhytoplankton species composition (nano- and microphytoplankton), abundance by species [cells/ml] and bulk chlorophyll a, b, c [mg/m3]
TEMP,SALIN
Temperature (°C) Potential Temperature (°C) Density Particulate 234 TH activity error Dissolved 234 TH activity error Particulate 234 TH activity Dissolved 234 TH Sea Pressure TDP TDN NO3+NO2 PO4 POP Silicate TCO2 TDP DOC Dissolved oxygen winkler (ml/l) POC PON Total Alkalinity Dissolved oxygen CTD (micromoles/liter) Dissolved oxygen winkler (micromoles/liter) Salinity Fluorescence CTD (Fluorecence units)
Temperature salinity
Temperature SalinityMEASURED PARAMETERSSBE 25 CTDPressure, Strain GaugeDescent RateConductivityTemperature Top of FormBottom of FormSBE 25 CTD, Fluorescence and oxygen probePressure, Strain GaugeDescent RateTemperature Oxygen, SBE 43FluorescenceBeam AttenuationConductivityOxygen Saturation,
Temperature Salinity Horizontal current velocity Dissolved oxygen Chlorophyll Zooplantkon C Bacteria C Particulated organic Carbon
Temperature, Conductivity, Dissolved Oxygen, Fluorescence, Light Transmission (440 &670nµ) and Salinity
Temperature, ITS-90 [deg C] T090; Potential temperature, ITS-90 [deg C] Potemp090; Salinity, PSS-78 [PSU] Sal00; Density, sigma-theta [kg/m^3] Sigma-?00; Fluorometer, chelsea FlC; Oxygen [ml/l] OxML/L; Oxygen, percent saturation OxPS; FIS
Temperature, Salinity
Temperature, salinity, density at 0 and every 10 m till bottom; occasionally NO3 and PO4 at different depths; phytoplankton, ichtyoplankton.Mesozooplankton species composition, abundance and volume settlement (taxonomic list, Ind. m3, ml)
Temperature, salinity, density, O2, nutrients (PO4, NO3, NO2, NH3, SiO4, total P), Chl a at 0, 5, 10, 20, bottom.Total mesozooplankton biomass as dry weight and organic C and N content (mg m-3)
temperature, salinity, fluorescence, turbidity, particle size spectra (100µm-2000µm)
Temperature, salinity, nitrates, nitrites, ortophosphates, silicates , oxygen, chlorophyll ( 0,1 5, 25, 50 and 75 mdepth). CTD profiles (temperature and salinity). ZooplanktonBiomass as dry weight and ash free dry weight (mg/m3) and organism (ind /m3)
Temperature, salinity, oxygen, density (CTD/fluorescence profiles from 1992 on) nutrients (NO2, NO3, NH4, Ptot, PO4, SiO4), pH, alkalinity and tot CO2 at 0, 5, 10, 15, 20m; BOD5 at 0 and 21m; Chl a at 0, 5, 10, 15, 20, m; photosynthetic pigments HPLC (from 1997) and bacterioplankton (from 1989-1996) at 0, 5, 10, 15, 20m; phytoplankton and microzooplankton at 0m.Total mesozooplankton biomass as dry weight (mg m-3) and ash free dry weightSpecies composition and abundance (taxonomic list, Ind. m-3)
Temperature, salinity, oxygen, density (CTD/fluorescence profiles from 1992 on) nutrients (NO2, NO3, NH4, Ptot, PO4, SiO4, Ntot, total organic N, Total oxydised N), pH, alkalinity and tot CO2 at 0, 5, 10, 15, 20m; Chl a at 0, 5, 10, 15, 20, m; Total mesozooplankton biomass as dry weight (mg m-3) and ash free dry.
Temperature, salinity, oxygen, pH, total alkalinity, total CO2,density nutrients (NO2, NO3, NH4, PO4, total P, total N, total org N, SiO4, urea) at 0, 2, 5, 10, 15, 20/bottom m.Total mesozooplankton biomass as dry weight and organic C and N content (mg m-3)
Temperature, Salinity, oxygen, phosphates, nitrates, chlorophyll aTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3) .
Temperature, salinity, oxygen, phosphates, nitrates, chlorophyll aTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3) .
Temperature, Salinity, Oxygen, Phosphates, Nitrates, Phytoplankotn, Total zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3)
Temperature, Salinity, Oxygen, Phosphates, Nitrates, Total zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance (ind/m3), Meroplankton abundance (ind/m3) .
Temperature, salinity, oxygen, phosphates, nitratesTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance (ind/m3), Meroplankton abundance (ind/m3) .
Temperature, Salinity, Oxygen, Phosphates, NitratesTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3) .
Temperature, Salinity, Oxygen, Phosphates, NitratesTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3) .
Temperature, salinity, pH, total alkalinity, nutrients (NO2, NO3, PO4, total P, SiO4) at 0, 2, 5, 10, 15, 20/bottom m.Total mesozooplankton biomass as dry weight and ash free dry weight (mg m-3) Species composition and abundance (taxonomic list, Ind. m-3)
Temperature, salinityTotal zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance, Meroplankton abundance (ind/m3) .Species abundance (ind/m3) was performed according to Dimov's method [1].
The dataset includes samples analyzed for macrogelatinous species abundance and biomass (wet weight) from discrete depths.
The dataset includes samples analyzed for macrogelatinous species abundance and biomass (wet weight).
Theta[°C] Sal00 OxCTD mg/L T068C FlSP
TOC, N_CYANO, SD, T(660), PAR
Total catch from 1968 to 1985.
total copepod numbers (ind/m3), biomass (gC/m2)
Total mesozooplankton biomass (mg/m3), copepod species biomass (mg/m3), cladocera species biomass (mg/m3, meroplankton biomass (mg/m3), Appendicularia biomass (mg/m-3), total Chaetognaths biomass (mg/m3), Noctiluca scintillans biomass (mg/m3)
Total mesozooplankton biomass (mg/m3), copepod species biomass (mg/m3),cladocera species biomass (mg/m3), chaetognaths biomass (mg/m3), N. scintillans biomass, Meroplankton group biomass (mg/m3)
Total mesozooplankton biomass (mg/m3), copepod species biomass (mg/m3),cladocera species biomass (mg/m3), chaetognaths biomass (mg/m3), N. scintillans biomass, Meroplankton group biomass (mg/m3)
Total mesozooplankton biomass (mg/m3), copepods species biomass (ind/m3), cladocerans species biomass (mg/m3), chaetognath biomass, N. scintillans biomass, Meroplankton biomas.
Total mesozooplankton biomass (mg/m3), total copepod biomass(mg/m3), total cladocera biomass (mg/m3), total chaetognath biomass (mg/m3), Appendicularia biomass (mg/m3), N. scintillans biomass (mg/m3),Meroplankton biomass(mg/m3).
Total mesozooplankton biomass as dry weight (mg m3) according to Lovegrove (1966).Lovegrove, T. 1966. The determination of the dry weight of plankton and effect of various factors on the values obtained. In H. Barnes (ed.), Some contemporary studies in marine science, pp. 429467. G. Allen and Unwin, London.
Total mesozooplankton biomass as dry weight (mg m-3) according to Lovegrove (1966).Lovegrove, T. 1966. The determination of the dry weight of plankton and effect of various factors on the values obtained. In H. Barnes (ed.), Some contemporary studies in marine science, pp. 429467. G. Allen and Unwin, London.
Total number of individuals caught by species; Total weight of each species; Species Length frequency distributions (total length, cm); Biomass (g/h).
Total number of individuals caught by species; Total weight of each species; Species Length frequency distributions (total length, cm); Biomass (g/h).
Total number of individuals caught by species; Total weight of each species; Species Length frequency distributions (total length, cm); Biomass (g/h).
total number of individuals caught; year; species name;
Total Organic Carbon (µmol C/L) in the water column
Total protein (mg g-1); Total carbohydrate (mg g-1); Total lipid (mg g-1); Prokaryote abundance (cell g-1); Prokaryote production (ngC g-1 h-1); Total meiofaunal abundance (ind m-2); Nematode genus richness (n genus).
total weight of individuals caught (kg); total number of individuals caught (where available); year; species name;
Total wet biomass (g/m3)Total abundance (ind/m3)
Total zooplankton abundance (ind/m3), total copepod abundance (ind/m3), total cladocera abundance (ind/m3), N. scintillans abundance (ind/m3), Meroplankton abundance (ind/m3).
Total zooplankton abundance (ind/m3), total copepod abundance, total cladocera abundance, total chaetognaths number, N. scintillans abundance, Meroplankton abundance (ind/m3).
Type of measurementsPhytoplankton pigments (e.g. chlorophyll, flu Chlorophyll aZooplanktonZoobenthosPhosphatesSilicatesCTD-StationsPhytoplankton species composition (nano- and microphytoplankton), abundance [cells/l] and biomass [mg/m3], chlorophyll a [mg/m3]
Wave parameters
Wind speed (m/s), wind direction relative tru north (º), air temperature (ºC), relative humidity (%), long-wave incoming radiation (w/m2), atmospheric pressure (mBar).
Zooplankton abundance; Zooplankton biomass
Zooplankton dry weight biomass(mg/m3) Filtered water volume(m3) Vertical tow max depth(m)
Zooplankton historical data set
Center name:
All
CEFREM - Centre de Formation et de Recherche sur l'Environnement Marin (UMR 5110)
Centre dEstudis Avaneats de Blanes (CEAB)
Centro Euro-Mediterraneo per i Cambiamenti Climatici (CMCC) Istituto Nazionale di Geofisica e Vulcanologia (INGV)
CNR - Istituto di Scienze Marine
CNRS - Laboratoire d'Océanographie de Villefranche sur mer - UMR 7093
Consejo Superior de Investigaciones Científicas
Consorzio Nazionale Interuniversitario per le Scienze de Mare, CoNISMa (UniBo, DiSTeBA), ITALY.
Departamento de Biología, Facultad de Ciencias del Mar y Ambientales Universidad de, Spain
Department of Animal Biology and Ecology, University of Cagliari
Department of Marine Science (DiSMar), Polytechnic University of Marche
EC-Joint Research Centre-IES-Global Environment Monitoring Unit
Environmental Chemical Processes Laboratory
Environmental Chemical Processes Laboratory (ECPL) - University of Crete
Global Environment Monitoring Unit
GTSPP Global Temperature and Salinity Profile Program National Oceanographic Data Center
Hellenic Centre for Marine Research (HCMR)
ICES International Council for the Exploration of the Sea
INSTITUT DE CIENCIES DEL MAR (CSIC)
Institute for coastal marine environment
Institute of Marine Sciences, Laboratory of Trieste
Institute of Marine Sciences, Middle East Technical University
Institute of Oceanography and Fisheries, Split, Croatia
Institute of Oceanology - Bulgarian Academy of Sciences
Institute of Palaeobiology of Georgian National Museum (IPGNM)
Instituto de Ciencias Marinas de Andalucia (CSIC)
Instituto Mediterraneo de Estudios Avanzados (IMEDEA), CSIC-UIB
International Marine Centre IMC
Israel Marine Data Center (ISRAMAR)
Istituto Ambiente Marino Costiero IAMC-CNR U.O di Messina
Istituto di Biofisica (Pisa), Consiglio Nazionale delle Ricerche (CNR-IBF Pisa)
Istituto di Ricerca Sulle Acque (IRSA)
Istituto Nazionale di Oceanografia e di Geofisica Sperimentale
Istituto Superiore per la Protezione e la Ricerca Ambientale (ISPRA)
Italian National Agency for new Technologies, Energy and the Environment
JPL PODAAC Jet Propulsion Lab. Physical Oceanography Distributed Active Archive Center
Laboratoire de Microbiologie, Geochimie et Ecologie Marines (LMGEM-CNRS UMR 6117)
Laboratoire dOceanographie de Villefranche (LOV)
Laboratoire dOceanographie et de Biogeochimie Unite Mixte de Recherche 6535 - C.N.R.S.
MARE Interfacultary Research Centre, ULg, Belgium.
Marine Biology and Fisheries Laboratories of Bologna University in Fano
Marine Biology and Fisheries Laboratories of Bologna University in Fano.
MEDATLAS (MEDAR) Mediterranean Data Archaeology and Rescue 2002
MODB Mediterranean Oceanic Data Base
Mugla Universitesi - Muhendislik Fakultesi. NATO TU-WAVES Project
National Institut of Biology, Marine Biology Station (NIB, MBP,Slovenia)
National Institute for Marine Research and Development "Grigore Antipa", Romania
National Institute of Fisheries Research of Marocco
National Institute of Marine Geology and Geoecology, GeoEcoMar
National Institute of Oceanography and Fisheries (NIOF, Egypt)
Observatoire Océanologique de Villefranche sur Mer - Base de Données LEFE-CYBER
Ocean Climate Laboratory (OCL), National Oceanographic Data Center (NODC USA)
P.P. Shirshov Institute of oceanology of Russian Academy of Sciences
Physical Oceanography Unit
Plankton Department, IBSS, Ukraine
Spanish Institute of Oceanography Baleares Centre
Stazione Zoologica Anton Dohrn di Napoli (SZN)
U.S. JGOFS Synthesis & Modelling Project The United States Joint Global Ocean Flux Study
UNEP GRID - OCEAN United Nations Environment ProgrammeGlobal Resource Information Database (GRID) - Europe BSEIN Black Sea Environmental Internet Node
Universitat de Barcelona
University of Liège
University of Liege, MARE Interfacultary Research Centre
Contact:
All
Erhan Mutlu
Suzan Kholeif
Zahit Uysal
?. Nin?evi? ENTRY-DATE March, 19, 2007
A. Giannakourou
A. Zingone
Akoumianaki Ioanna
Alberto Puddu
Aldo Drago, PO-Unit, University of Malta
Alexander Mikaelyan
ALEXANDRA PAVLIDOU
Ali Cemal Gucu
Antonia Giannakourou
Antonio Cruzado
Aristomenis Karageorgis
Arthur Capet
B. Grbec ENTRY-DATE March, 19, 2007
C. Frangoulis
C. Liquete, M. Canals
Cecilia Totti
Chiara Santinelli
Christina Zeri
D. Altukhov, A. Gubanova ENTRY-DATE January, 31, 2007
D. Altukhov, A. Gubanova; ENTRY-DATE: January, 31, 2007
D. Altukhov, A. GubanovaENTRY-DATE January, 31, 2007
D. Georgopoulos
Dan Secrieru
Dan Vasiliu
Dominique Lefevre
Doris De Vito
Dr. Aldo Drago, Physical Oceanography Unit, University of Malta
Dr. Hasan Orek
Dr. Sana Ben Ismail
E. Krasakopoulou
E. Souvermezoglou
E.D. Christou
E.Kvavadze
Elena Arashkevich
Erhan Mutlu
F. Carlotti
Florin TIMOFTE
G. Assimakopoulou
G. Gorsky, L. Mousseau
Georgia Assimakopoulou
Giannakourou Antonia
H. Kontoyanis
I. Siokou
I. Varkitzi
I.Siokou
I.Siokou-Frangou
Isaac Gertman
Isabel Palomera
J. Ras, Database Lefe-Cyber : MP Torre, PI : T. Moutin
J.Ras and H.Claustre
JAVIER RUIZ
JAVIER RUIZ AND GABRIEL NAVARRO
Josephine Ras
Karine LEBLANC, Dabase Lefe-Cyber : MP. Torre , PI : T. Moutin
Kremena Stefanova
Lars Stemmann
LAURA URSELLA, VEDRANA KOVACEVIC, MIHAI BURCA
Lefevre Dominique, Dabase Lefe-Cyber : MP. Torre , PI : T. Moutin
M.G. Mazzocchi
M.L.Fernandez de Puelles
M.V. Comma rieu & A.V. Borges (data request = alberto.borges@ulg.ac.be)
Madeleine Goutx
Maria Grazia Mazzocchi
Matias Bonet Fullana
Michalopoulos Panagiotis
Michele Giani
Michele Giani, Mihai Burca, Vedrana Kovacevic
Mihai Burca
Mihai Burca, V Kovacevic
Mihai Burca, Vedrana Kovacevic
Mihalopoulos Nikoloaos, Markaki Zambia, Marie-Do Pilot
OljaVidjak, Natalia Bojanic: 27. 02. 2009.
Olympia Gotsis-Skretas
P. Pagou
P. Pitta
Pagou Kalliopi
Paola Pesci
Paolo Lazzari
Pavlidou Alexandra
Prieur Louis, DataBase Lefe-Cyber : MP Torre | PI : T. Moutin
R. Danovaro, A. Pusceddu
S. Psarra
S. Zervoudaki
Santinelli C., Seritti A.
Snejana Moncheva
Soukaina ZIZAH
Spyros Stavrakakis
Suleyman Tugrul
Suzan Kholeif
T. Kogovsek
T.Shiganova
Tamara Shiganova
V. Chasovnikov
V. Myroshnychenko
V. Yakubenko
V.Myroshnychenko
Valentina Tirelli
Vasiliu Dan
Vedrana Kovacevic
Vedrana Kovacevic, Mihai Burca
Viacheslav Kremenetskiy
Volodymyr Myroshnychenko
WODSELECT software
Zahit Uysal
Platform:
All
R/V “Akademik”
R/V AEGAEO
R/V AKADEMIK
50 cruises on different vessels
A. Mohorovicic, Vila Velebita
Ad. Branimir Ormanov
Al Amir Moulay Abdellah R/V
Antedon II and Armandia
are data from more than one ship? Please specifySHIP TONNAGE is total ship tonnage known? Please spe
Argonaut 1, Zlatorog, Argonaut 2
Arola and Odon de Buen
Atalante
BC Malaspina; BC Tofiño; BIO Hesperides
BILIM-2
Camogli
CTD – BILIM-2
Directional wave buoys and Non-directional wave gages
Egyptian r/v El- Yarmouk
Endeco Type 1029/1150 differential pressure tide gauge (May 1993 – April 2000); then Endeco 600XLM
Fishery trawlerSHIP TONNAGE (trawl) pelagic trawl from the bottom to the surface with the speed of s
Glider
Isola Piana, Porto Scuso, Porto Paglia
Italian R/V Minerva
Italian R/V Urania
Local ship
Local Ships
Mare Nigrum
N/V “Adm. Branimir Ormanov”
N/V Adm. Branimir Ormanov
Numerical model simulation
Numerous expeditions
O/V URANIA
Oceanographic research vessel
Paroscientific - model 8DP0601; Setra model 470
PI-50, Tesni
R/V "Shikmona"
r/v ?BIOS?
R/V “9th September”; R/V“Prof. Valkanov”; R/V “Akademik”
R/V “Akademik”
R/V AEGAEO
R/V AEGAEO, R/V AKADEMIK
R/V AKADEMIK
R/V Akademik, RV9 September, RV Prof. Valkanov, Ad. Branomir Ormanov
R/V Aquanavt (SIO), R/V Ashamba (SIO) at al.
R/V Atalante and Thalassa
R/V Bilim
R/V Bilim 2
R/V Bilim-2
r/v BIOS
R/v Hannibal
R/V Knorr Cruise 162
R/V Lemas and Erdemli
R/V Loran and R/V R. DOHRN
R/V Loran, R/V Posillipo and R/V Cormoran
R/V MARE NIGRUM
R/V Palamida
R/V Palamida, R/V Steaua de Mare
R/V PHILIA
R/V PHILIA, R/V AEGAEO
R/V PHILIA, R/V AEGEIO, R/V URANIA, R/V UNIVERSITATIS
R/V Professor Vodyanitsky (IBSS)
R/V S. LO BIANCO; R/V URANIA; R/V ALLIANCE; R/V CIPREA; R/V TETHIS; M/N COOPERNAUT FRANCA; R/V DALLA
R/V Steaua de Mare
R/V Urania
R/V Vettoria
R/V Vladimir Parshin, Ukraine
Research vessel Faras El-Bahar NIOF
Russian R/V Moskovskij Universitet
Russian R/V Strakhov
RV "Akademik"
RV Akademik
RV Atalante
RV Atalante (MOOGLI 1) , RV Suro?t (MOOGLI 3)
RV Bilim, 433 gross tons
RV Europe
RV Lamas, 28 Gross tons
RV Lamas, 28 Gross tons
RV Mare Nigrum
RV Steaua de Mare
RV Thalassa
Sagita
Sagita, PI-50
SAGITTA
Sampling on land, bridge or small boat
Several1
SHIP GARCIA DEL CID
SHIP REGINA MARIS
small boat
space satellites
Tethys II
Thousands
Thousands cruises
Thousands expeditions
UKRAINA
Unnamed
Urania Ship SIT1 cruise
Urania Ship S-IT1 cruise
Urania Ship S-IT2 cruise
Urania Ship S-IT6 cruise
Urania Ship S-IT7 cruise
Various Research vessels
VESSEL APOLLON, R/V AEGAEO
Contact
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