GO
Geophysical oceanography a new tool to understand the thermal structure and dynamics of oceans
Informazioni Generali
- Coordinatore:
- UNIV. DURHAM (Regno Unito)
- Responsabile:
- ARTALE VINCENZO - SSPT-MET (FRASCATI)
- Ruolo ENEA:
- PARTNER
- Sito WEB:
- http://www.dur.ac.uk/eu.go/
Programmi Europei
- Programma:
- Sesto Programma Quadro UE (2002-2006) -> NEST (2002-2006) (STREP - Progetti Specifici Mirati)
Descrizione e Attività
Descrizione Generale
In this cross-disciplinary proposal we will investigate new seismic imaging techniques and develop quantitative and qualitative methods to analyse them and link the results with data from physical oceanography. In particular, we will examine internal waves and their interaction with the continental slope where enhanced mixing of water masses is expected; and using the extensive marine geophysical database acquired over the past 4 decades, evaluate longer term changes in the ocean structure. Large scale circulation in the oceans is an important process on the Earth for the redistribution of heat. Water masses of different temperature move past each other separated by relatively thin boundary layers. It is across these boundaries that thermal transfer and mixing must occur to maintain the circulation. The processes involved in thermal mixing are poorly understood. It is known that mixing in the open ocean is too low to maintain the large scale circulation patterns and that mixing is enhanced around areas of complex topography and over continental slopes. Understanding this mixing is important: for global circulation issues, because it affects the density distribution of the different water masses and enhances the overturning circulation, and its influence on climate; and for controlling local biochemistry, nutrients, and the fate of biogenic particles. The key is in the role played by the thermal boundary layers and the ubiquitous internal waves that propagate along them, whose dissipation is critical in quantify ing thermal mixing of different water masses. The detailed internal structure of these boundaries and the internal waves is difficult to map with sufficient spatial resolution using standard oceanographic techniques. Geophysical oceanography can resolve these features and will create new research opportunities to understand ocean mixing processes.
Attività svolta da ENEA
Studio della variabilità e della correlazione spaziale e temporale dei profili oceanografici nella zona del golfo di Cadiz;
- raccolta ed analisi dei dati sperimentali già disponibili in tale area;
- simulazione della circolazione e dei profili termini salini nell'area del golfo di Cadiz, in condizioni il più possibile realistiche, quindi includendo le forzanti mareali astronomiche e quelle atmosferiche (vento e pressione superficiali) e confronto con i dati disponibili;
- confronto e analisi delle simulazioni con le immagini MCS ottenute durante le campagne precedenti da quelle realizzate nell'ambito del progetto.