Image Cross Fader Redux



MAMBO buoy (Monitoraggio AMBientale Operativo == operational environmental monitoring)
Specifications of the measuring system in different periods
























April 2016 - ongoing


PARAMETER SENSOR RANGE ACCURACY ACQUISITION SYSTEM
Atmospheric pressure Young mod. 61201 800 ÷ 1100 hPa ± 0.5 hPa
Air temperature Young mod. 41372VC -50 ÷ +50 °C ± 0.3 °C
Wind speed Young Wind Monitor 0 ÷ 60 m/s ± 0.5 m/s
Wind direction Young Wind Monitor 0 ÷ 360° ± 3°
Relative humidity Young mod. 41372VC 0 ÷ 100% 3% from 10 to 90 %
R.M. Young Company

Wind monitor-MA
Model 05106


+4 m msl - 30' NRT
(Near Real Time)

Seawater temperature Sea Bird -5 ÷ +35 °C ± 0.005 °C
Electric conducibility Sea Bird 0 ÷ 90 mS/cm ± 0.005 mS/cm
Sea Bird SBE37-SM
-1 m - 30' NRT
Hydrostatic pressure Sea Bird 0 ÷ 110 dbar 0.1% f.s.
Dissolved oxygen Sea Bird 0 ÷ 120 % 2% saturation
SBE37- ODO
-1 m - 30' NRT
pH
(total scale)
Sunburst 0 ÷ 14 pH 0.1 pH
SAMI pH PRO
-1 m - 30' NRT
CO2 concentration

PRO Oceanus 0 ÷ 600 ppm ± 1 ppm
CO2-Pro
-1 m - 4h NRT

Hydrostatic pressure Sea Bird 16 0 ÷ 110 dbar 0.1% f.s.
Seawater temperature Sea Bird 16 -5 ÷ +35 °C ± 0.002 °C
Electric conducibility Sea Bird 16 0 ÷ 70 mS/cm ± 0.003 mS/cm
Dissolved oxygen Sea Bird 43 0 ÷ 120 % 2% saturation
pH (NBS scale) Sea Bird 18 0 ÷ 14 0.1 pH
Fluorescence Wetlab Eco-AFL/FL 0.01 ÷ 50 µg/l ± 0.025µg/l
Turbidity; Wetlab Eco-NTU 0.01 ÷ 25 NTU ± 0.01 NTU
Irradiance Wetlab Eco-PAR 0 ÷ 6500 µmol
photons/m^2/s
< 3% from 0 to 60 °C

Sea Bird Electronics
Sea Cat SBE 16 v2

-10 m - 1h
delayed mode

Seawater temperature Sea Bird 16 -5 ÷ +35 °C ± 0.002 °C
Electric conducibility Sea Bird 16 0 ÷ 70 mS/cm ± 0.003 mS/cm
pH (NBS scale) Sea Bird 16 0 ÷ 14 0.1 pH
Dissolved oxygen Sea Bird 16 0 ÷ 120 % 2% saturation


Sea Bird Electronics
Sea Cat SBE 16 v2

-15 m - 1h
delayed mode

average wind calculated using measurements made at 2 Hz in the last minute of each half-hour
the gust is the maximum value of 120 samples




April 16, 2015 - January 21, 2016


PARAMETER SENSOR RANGE ACCURACY ACQUISITION SYSTEM
Atmospheric pressure Young mod. 61201 800 ÷ 1100 hPa ± 0.5 hPa
Air temperature Young mod. 41372VC -50 ÷ +50 °C ± 0.3 °C
Wind speed Young Wind Monitor 0 ÷ 60 m/s ± 0.5 m/s
Wind direction Young Wind Monitor 0 ÷ 360° ± 3°
Relative humidity Young mod. 41372VC 0 ÷ 100% 3% from 10 to 90 %
R.M. Young Company

Wind monitor-MA
Model 05106


+4 m msl - 30' NRT
(Near Real Time)

Seawater temperature Sea Bird -5 ÷ +35 °C ± 0.005 °C
Electric conducibility Sea Bird 0 ÷ 90 mS/cm ± 0.005 mS/cm
Sea Bird SBE37-SM
-1 m - 30' NRT
Hydrostatic pressure Sea Bird 0 ÷ 110 dbar 0.1% f.s.
Dissolved oxygen Sea Bird 0 ÷ 120 % 2% saturation
SBE37- ODO
-1 m - 30' NRT
pH Sunburst 0 ÷ 14 pH 0.1 pH
SAMI pH PRO
-1 m - 30' NRT
CO2 concentration PRO Oceanus 0 ÷ 600 ppm ± 1 ppm
CO2-Pro
-1 m - 4h NRT

Hydrostatic pressure Sea Bird 16 0 ÷ 110 dbar 0.1% f.s.
Seawater temperature Sea Bird 16 -5 ÷ +35 °C ± 0.002 °C
Electric conducibility Sea Bird 16 0 ÷ 70 mS/cm ± 0.003 mS/cm
Dissolved oxygen Sea Bird 43 0 ÷ 120 % 2% saturation
pH Sea Bird 18 0 ÷ 14 0.1 pH
Fluorescence Wetlab Eco-AFL/FL 0.01 ÷ 50 µg/l ± 0.025µg/l
Turbidity Wetlab Eco-NTU 0.01 ÷ 25 NTU ± 0.01 NTU
Irradiance Wetlab Eco-PAR 0 ÷ 6500 µmol
photons/m^2/s
< 3% from 0 to 60 °C

Sea Bird Electronics
Sea Cat SBE 16 v2

-10 m - 1h NRT

Seawater temperature Sea Bird 16 -5 ÷ +35 °C ± 0.002 °C
Electric conducibility Sea Bird 16 0 ÷ 70 mS/cm ± 0.003 mS/cm
pH Sea Bird 16 0 ÷ 14 0.1 pH
Dissolved oxygen Sea Bird 16 0 ÷ 120 % 2% saturation

Sea Bird Electronics
Sea Cat SBE 16 v2


-15 m - 1h
delayed mode

average wind calculated using measurements made at 2 Hz in the last minute of each half-hour
the gust is the maximum value of 120 samples




January 27, 2012 - 2014


PARAMETER SENSOR RANGE ACCURACY ACQUISITION SYSTEM
Atmospheric pressure Young mod. 61201 800 ÷ 1100 hPa ± 0.5 hPa
Seawater temperature Young mod. 41372VC -50 ÷ +50 °C ± 0.3 °C
Wind speed Young Wind Monitor 0 ÷ 60 m/s ± 0.5 m/s
Wind direction Young Wind Monitor 0 ÷ 360° ± 3°
Relative humidity Young mod. 41372VC 0 ÷ 100% 3% from 10 to 90 %
Solar radiation Eppley 0 ÷ 2800 W/m^2 ± 9 µV/W/m^2

R.M. Young Company

Wind monitor-MA
Model 05106


+4 m msl - 30' NRT

Hydrostatic pressure Sea Bird 0 ÷ 110 dbar 0.1% f.s.
Seawater temperature Sea Bird -5 ÷ +35 °C ± 0.005 °C
Electric conducibility Sea Bird 0 ÷ 90 mS/cm ± 0.005 mS/cm
Dissolved oxygen Sea Bird SBE43 0 ÷ 120 % 2% saturation
pH Sea Bird SBE18 0 ÷ 14 pH 0.1 pH
Fluorescence Wetlab Eco-AFL/FL 0.01 ÷ 50 µg/l ± 0.025µg/l
Torbidity Wetlab Eco-NTU 0.01 ÷ 25 NTU ± 0.01 NTU
Irradiance Wetlab Eco-PAR 0 ÷ 6500 µmol
photons/m^2/s
< 3% from 0 to 60 °C

Sea Bird Electronics
Sea Cat SBE 16 v2


-10 m - 30' - NRT

Seawater temperature
Sea Bird -5 ÷ +35 °C ± 0.002 °C
Electric conducibility
Sea Bird 0 ÷ 70 mS/cm ± 0.003 mS/cm
Sea Bird Electronics
Sea Cat SBE 37

-15 m - 1h delayed mode

CO2 concentration PSI CO2-Pro 0 ÷ 600 ppm ± 1 ppm Pro-Oceanus CO2-Pro
-15 m - 30' NRT

average wind calculated using measurements made at 2 Hz in the last minute of each half-hour
the gust is the maximum value of 120 samples




2005 - January 12, 2012


PARAMETER SENSOR RANGE ACCURACY ACQUISITION SYSTEM
Atmospheric pressure Young mod. 61201 800 ÷ 1100 hPa ± 0.5 hPa
Air temperature Young mod. 41372VC -50 ÷ +50 °C ± 0.3 °C
Wind speed Young Wind Monitor 0 ÷ 60 m/s ± 0.5 m/s
iWind direction Young Wind Monitor 0 ÷ 360° ± 3°
Relative hmidity Young mod. 41372VC 0 ÷ 100% 3% from 10 to 90 %
R.M. Young Company
Wind monitor-MA
Model 05106

4 m msl - 1h NRT
until 07.06.2007
after every 30'

Hydrostatic pressure Sea Bird 0 ÷ 69 dbar 0.25 % f.s.
Seawater temperature Sea Bird -5 ÷ +35 °C ±0.01 °C
Electric conducibility Sea Bird 0 ÷ 70 mS/cm ±0.01 mS/cm
Sea Bird Electronics
Sea Cat SBE 19

3 m - 1h NRT
until 07.06.2007
after every 30'

average wind calculated using measurements made at 2 Hz in the last minute of each hour
but of each half-hour since June 7, 2007
the gust is the maximum value of 120 samples




August 14, 2002 - 2004


PARAMETER SENSOR RANGE ACCURACY ACQUISITION SYSTEM
Atmospheric pressure Young mod. 61201 800 ÷ 1100 hPa ± 0.5 hPa
Air temperature Young mod. 41372VC -50 ÷ +50 °C ± 0.3 °C
Wind speed Young Wind Monitor 0 ÷ 60 m/s ± 0.5 m/s
Wind direction Young Wind Monitor 0 ÷ 360° ± 3°
Relative hmidity Young mod. 41372VC 0 ÷ 100% 3% from 10 to 90 %
Teledyne, Micromet MM100
Meteorological data
acquisition system


4 m msl - 30' NRT

wind average calculated on the last 10 minutes of each hour

Hydrostatic pressure Idronaut 0 ÷ 20 dbar ±0.04 dbar
iSeawater temperature Idronaut -3 ÷ +50 °C ±0.003 °C
Electric conducibility Idronaut 0 ÷ 64 mS/cm ±0.003 mS/cm
Salinity Idronaut 0 ÷ 40 psu ±0.01 psu
Dissolved oxygen Idronaut 0 ÷ 50 ppm ±0.1 ppm
pH Idronaut 0 ÷ 14 pH; ±0.01 pH;
Turbidity Seapoint 0 ÷ 750 FTU; ±2%
Clorophill concentration Seapoint 0.02 ÷ 15 µg/l ±0.1 µg/l
Idronaut
Ocean Seven 316
Multiparameter Probe


a CTD profile on
entire water column
every 3 h

In January 2003, the breakdown of the balance-tripod caused the overturning of the buoy.




1999 - August 5, 2002


PARAMETER SENSOR RANGE ACCURACY ACQUISITION SYSTEM
Atmospheric pressure Setra mod.270 800 ÷ 1100 hPa ± 0.3 hPa
Air temperature Teledyne PRT mod. 951 -50 ÷ +50 °C ± 0.1 °C
Wind speed Teledyne mod. WS-201 0 ÷ 90 m/s ± 0.5 m/s
Wind direction Teledyne mod. WS-201 0 ÷ 360° ± 3°
Compass direction B&G mod. Halcyon 3 0 ÷ 360° ± 1.5°

Teledyne, Micromet MM100
Meteorological data
acquisition system


barometer at 1m msl
other sensors at 4 m msl
3h -- NRT

wind average calculated on the last 10 minutes every 3 h

Hydrostatic pressure Idronaut 0 ÷ 20 dbar ±0.04 dbar
Seawater temperature Idronaut -3 ÷ +50 °C ±0.003 °C
Electric conducibility Idronaut 0 ÷ 64 mS/cm ±0.003 mS/cm
Salinity Idronaut 0 ÷ 40 psu ±0.01 psu
Dissolved oxygen Idronaut 0 ÷ 50 ppm ±0.1 ppm
pH Idronaut 0 ÷ 14 pH; ±0.01 pH;
Turbiditry Seapoint 0 ÷ 750 FTU; ±2%
Chlorophill concentration Seapoint 0.02 ÷ 15 µg/l ±0.1 µg/l
Idronaut
Ocean Seven 316
Multiparameter Probe


a CTD profile on
entire water column
every 3 h



For more informations, please contact: B. Cataletto -- M. Lipizer
Last update: February 10, 2017 -- Webmaster: R.Iungwirth