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National Oceanographic
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EDMED Details

General

Dataset Name
Radiation budget data for Tyrrhenian Sea during project TEMPO (1989-92)
Data Holding Centre
ISAC - Institute of Atmospheric Sciences and Climate (Rome)
Time Period
TEMPO 1: from 26 September to 7 October 1989; TEMPO 2: from 16 to 22 February 1990; TEMPO 3: from 22 October to 11 November 1991; TEMPO 4: from 16 April to 5 May 1992
Start Date
1989-01-01
End Date
1992-12-31
Project

Geographic Area

Geocoverage
TEMPO 1 and TEMPO 2, North Tyrrhenian Sea; TEMPO 3 and TEMPO 4, South Tyrrhenian Sea and Sardinian channel
Geographic Box (south,north,west,east)
37, 9, 16, 43
Sea Area
Mediterranean Sea
Tyrrhenian Sea

Observations

Parameters
Visible waveband radiance and irradiance measurements in the atmosphere
Horizontal platform movement
Air pressure
Air temperature
Atmospheric humidity
Solar Radiation
Wind strength and direction
Platform or instrument orientation
Temperature of the water column
Instruments
meteorological packages
radiometers

Description

Summary
TEMPO (TYRRHENIAN EDDY MULTI-PLATFORM OBSERVATIONS), CEE-MAST-1 - The series of TEMPO experiments has been designed to provide a coherent description of the dynamics of the whole Tyrrhenian and its seasonal response to atmospheric forcing. Radiation budget data were collected during four different hydrographic cruises. Measurements were made from the CNR oceanographic vessel Minerva. The measurements were carried out continuously when the ship was either under way or when she was at a hydrographic station or anchored for shelter in the lee of small islands. The only rejected data were those collected in the ports. The R/V Minerva was equipped to measure the incoming irradiance (shortwave and long-wave) continuously and the sea surface temperature. Shortwave irradiance was measured using two Eppley PSP pyranometers. Long-wave irradiance was measured by two Eppley Precision Infrared Radio-meters (PIR). To overcome the difficulties in making measurements of incident radiation on board, an experimental solution was ad hoc developed, based on the use of a couple of sensors for each measured term, as well as an analytical method to control the quality of the data. These four upward-looking hemispheric radiometers were mounted on the upper deck of the R/V Minerva, about 12 m above the sea level. The instrument locations were carefully selected to minimize the influence of the ship's structure on the measurements (i.e., avoiding having two sensors of the same kind simultaneously in the shadow of the ship's superstructure). The data were collected on a PC via an ADC card and recorded on the hard disk with a sampling time of 1 Hz. The sea surface temperature was measured by infrared thermometers: a PRT-5 was used during TEMPO 1, while a Minarad RS-20 was employed during all the others. In any case, the thermometer was mounted on a boom over the bow of R/V Minerva, about 6 m above the sea level. The sea surface temperature was measured in the absence of breaking waves because in such instances the foam wetted the dome of the instrument invalidating the readings. The data were collected on a PC via an ADC card and recorded on the hard disk with a sampling time of 1 Hz. Long-wave upward radiation was computed from the sea surface temperature using the Stefan Boltzmann Law, while the reflected shortwave radiation using the Payne's table. Therefore the radiation budget was estimated. Hourly observations of the principal meteorological parameters were carried out during all the cruises. An Assmann psychrometer was used to make measurements of air temperature and humidity, pressure values were obtained from the ship's barometer and the fractional cloud cover was visually estimated. All these observations were carried out from the main deck of the R/V Minerva, about 8 m above sea level. The navigation data were collected from the LORAN of the ship and recorded on a PC. The data set provides a continuous time series of 1-min average values of: solar radiation, atmospheric radiation, sea surface temperature, infrared radiation from the sea, radiation budget, latitude and longitude data for all the cruises. Moreover data set of hourly values of the above parameters and air temperature, humidity, vapour pressure, atmospheric pressure are also available.
Originator
ISAC - Institute of Atmospheric Sciences and Climate (Rome)
References

Availability

Availability
by negotiation
Organization
ISAC - Institute of Atmospheric Sciences and Climate (Rome)
Contact
Santolieri R.
Address
ISAC - Institute of Atmospheric Sciences and Climate (Rome)
Rome
00133
Italy
lia@oceano.ifa.rm.cnr.it
http://www.isac.cnr.it

Administration

Local identifier
1313
Creation Date
2014-10-02
Revision Date
2013-07-26