http://www.moist.itMultidisciplinary Oceanic Information SysTem (MOIST)2024-03-29T05:58:52+00:00INGV Integrated Systems for Marine Environmental Infrastructures (SIIAM)paolo.favali@ingv.ithttp://roma2.rm.ingv.it/en/units/6/integrated_systems_for_marine_environmental_infrastructuresMOIST Dataset feedhttp://www.moist.it/images/MOIST.icohttp://www.moist.it/images/IEEG.jpgCreative Commons Attribution 4.0 International License (CC BY 4.0)MOIST has been the contribution of INGV to the data dissemination within the ESONET NoE EC project (2007-2011) and is the web interface for the management of the seafloor marine multidiscinary data and metadata related to GEOSTAR-type observatories used in the ESONET Demonstration Mission. MOIST also include the seafloor data acquired by the observatories by INGV from 1998. MOIST allows the access through the following selection criteria: site; time interval; instrument / sensor / parameter; project / campaign. The web interface allows the submissions of queries for data download. MOIST intends to host all the data and metadata coming from EMSO ESFRI and hopefully all collaborating projects. Current areas with data: East Sicily, East Sicily, Greek, Gulf of Cadiz, Marmara Sea, Marsili Basin, Weddell Sea.10999999http://www.moist.it/sites/southern_tyrrhenian_sea/3/ORION1/adcp/84ADCP dataset (RDI WorkHorse 300 kHz @ 1 sample / hour) from INGV/GEOSTAR - SN-3 seafloor platform during ORION-GEOSTAR3 project in Southern Tyrrhenian Sea site (Marsili Basin), part of ORION network.2022-01-28T12:57:43+00:00Nadia Lo Buenadia.lobue@ingv.ithttp://www.moist.it/personnel/nadia_lo_bue/2
<p><img src='http://maps.google.com/maps/api/staticmap?center=39.488330,14.172220&zoom=5&size=180x180&maptype=satellite&sensor=false&markers=color:0x61E34A|label:X|39.488330,14.172220&markers=size:tiny
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<p><b>Area:</b> Marsili Basin</p>
<p><b>Instrument:</b> Teledyne RDI WorkHorse Sentinel ADCP 300 kHz</p>
<p><b>Period:</b> December 14, 2003 - April 24, 2004</p>
<p><b>Abstract:</b> The Acoustic Doppler Current Profiler measures the water velocity using the physical Doppler shift principle. The transducer generates a pulse of sound at a known frequency that travels through the water and is reflected in all directions by particulate matter (e.g., sediment, biological matter, bubbles). Some portion of the reflected energy travels back at the transducer where the processing electronics measure the change in frequency. The Doppler shift measured by the transducer reflects the velocity of the water along the axis of the acoustic beam. The ADCP operates using three transducers generating beams with different orientations relative to the water flow then the measured velocity by each ADCP transducer is the projection of the 3D velocity onto the axis of its acoustic beam.</p>
<p><b>Purpose:</b> </p>
<p><b>Quality of data:</b> </p>
Istituto Nazionale di Geofisica e Vulcanologia2003-12-14T08:23:00+00:0039.488330 14.1722202003-12-14T08:23:00+00:002004-04-24T17:23:00+00:00