Numerical modelling of the benthic-pelagic coupling in coastal marine ecosystems at contrasting sites

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dc.contributor.advisor Masina, Simona it_IT
dc.contributor.author Amadio, Carolina <1985> it_IT
dc.date.accessioned 2019-12-09 it_IT
dc.date.accessioned 2020-10-14T07:10:52Z
dc.date.available 2020-10-14T07:10:52Z
dc.date.issued 2020-03-02 it_IT
dc.identifier.uri http://hdl.handle.net/10579/17862
dc.description.abstract Continental shelves cover less than 5% of the global ocean, but play a crucial role in marine biogeochemical cycling, since they account for 30% of primary production, 80% of organic matter burial, 50% of marine denitrification. Coastal waters biogeochemical cycling is subject to multiscale anthropogenic pressures ranging from climate change to nutrient loading input. The processes connecting the pelagic and benthic realms define the benthic– pelagic coupling (BPC) and comprises the physically, biologically and chemically mediated two-way exchange of matter (particulate and dissolved). Despite the importance of the benthic domain and the enhancement of models resolution, BPC is mostly approximated through a closure term. Moreover, data focusing on the BPC dynamics are sparse, hampering model parameterization and validation. The objectives of this study are: develop a parametrized numerical model addressing BPC and assess the skills of the 1DNEMO-BFM model in simulating the BPC in marine areas with different climatic characteristics. The benthic sub-model is based on two crucial parameters: the sinking velocity of particulate matter and the diffusion of inorganic matter at the benthic-pelagic interface. Beyond the apparent simplicity, the benthic sub-model has been calibrated considering a complex pelagic food web and for the main ecological and physical characteristic. The model has been implemented in three different sites: Gulf of Trieste, St Helena Bay (South Africa), Svinoy Fyr (Norway). For all the station, model results have been compared with observational data. Sensitivity tests have been performed, to statistically investigate the response of the benthic sub-model in changing it_IT
dc.language.iso en it_IT
dc.publisher Università Ca' Foscari Venezia it_IT
dc.rights © Carolina Amadio, 2020 it_IT
dc.title Numerical modelling of the benthic-pelagic coupling in coastal marine ecosystems at contrasting sites it_IT
dc.title.alternative it_IT
dc.type Doctoral Thesis it_IT
dc.degree.name Scienza e gestione dei cambiamenti climatici it_IT
dc.degree.level Dottorato di ricerca it_IT
dc.degree.grantor Dipartimento di Economia it_IT
dc.description.academicyear Dottorato - Ciclo32° - Appello 17-01-20 it_IT
dc.description.cycle 32
dc.degree.coordinator Carraro, Carlo it_IT
dc.location.shelfmark D002060
dc.location Venezia, Archivio Università Ca' Foscari, Tesi Dottorato it_IT
dc.rights.accessrights openAccess it_IT
dc.thesis.matricno 956323 it_IT
dc.format.pagenumber V, 164 p. : ill.
dc.subject.miur GEO/12 OCEANOGRAFIA E FISICA DELL'ATMOSFERA it_IT
dc.description.note Cotutela con Centro Euro-Mediterraneo sui Cambiamenti Climatici (CMCC) it_IT
dc.degree.discipline it_IT
dc.contributor.co-advisor Zavatarelli, Marco it_IT
dc.contributor.co-advisor Lovato, Tomas <1979> it_IT
dc.contributor.co-advisor Butenschon, Momme it_IT
dc.provenance.upload Carolina Amadio (956323@stud.unive.it), 2019-12-09 it_IT
dc.provenance.plagiarycheck Simona Masina (simona.masina@unive.it), 2020-01-17 it_IT


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