SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3130366050> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W3130366050 endingPage "103528" @default.
W3130366050 startingPage "103528" @default.
W3130366050 abstract "Coastal systems represent the most dynamic natural systems on Earth, making their study particularly challenging. A holistic approach that integrates a set of monitoring tools for data collection (i.e., satellite imagery, numerical models and in situ observations) may provide different information about coastal ecosystems at different spatial and temporal scales. Of course, none of these tools are perfect, being that each is characterized by intrinsic errors and therefore specific uncertainties, which is also an important subject of investigation. Long-term high-resolution in situ observations of the phytoplankton biomass at a coastal site (Civitavecchia, Tyrrhenian Sea), provided by the Civitavecchia Coastal Environment Monitoring System (C-CEMS) observational platform, are presented, discussed and integrated with data from the Copernicus Marine Environment Monitoring Services (CMEMS) for the Mediterranean Sea, which are generated by the MedBFM model system, and satellite observations from the CMEMS Ocean Colour database. The analysis of the time series of phytoplankton provided by in situ, satellite and model data show the typical dynamics of coastal temperate systems, which are characterized by spring and autumn blooms and significant interannual variability. The empirical orthogonal function (EOF) analysis highlights the consistency among the multiplatform datasets, whereas integrating the local in situ time series with a spatial analysis from model and satellite data provides information about the extent of coastal bloom phenomena and the relevance of the observation location with respect to surroundings. Our study of the dynamics of coastal blooms in the Civitavecchia coastal system allows us to propose a best practice framework that may be of general interest, and potentially applied to any multiplatform monitoring system (MPMS). The MPMS approach allows us to investigate the interannual variability over different horizontal and vertical scales, reflecting the variability in natural drivers (i.e., atmospheric forcings, coastal currents, upwelling, and land inputs), as typically expected in coastal areas." @default.
W3130366050 created "2021-03-01" @default.
W3130366050 creator A5000717820 @default.
W3130366050 creator A5029319154 @default.
W3130366050 creator A5045875347 @default.
W3130366050 creator A5050004710 @default.
W3130366050 creator A5057066255 @default.
W3130366050 date "2021-06-01" @default.
W3130366050 modified "2023-10-17" @default.
W3130366050 title "Coastal phytoplankton bloom dynamics in the Tyrrhenian Sea: Advantage of integrating in situ observations, large-scale analysis and forecast systems" @default.
W3130366050 cites W1241661968 @default.
W3130366050 cites W1831608283 @default.
W3130366050 cites W1970146893 @default.
W3130366050 cites W1975428514 @default.
W3130366050 cites W1982463508 @default.
W3130366050 cites W1984506656 @default.
W3130366050 cites W1995811252 @default.
W3130366050 cites W2001135673 @default.
W3130366050 cites W2002642012 @default.
W3130366050 cites W2014485081 @default.
W3130366050 cites W2023265367 @default.
W3130366050 cites W2028921645 @default.
W3130366050 cites W2032001267 @default.
W3130366050 cites W2034725826 @default.
W3130366050 cites W2036386566 @default.
W3130366050 cites W2038734101 @default.
W3130366050 cites W2051745229 @default.
W3130366050 cites W2055398142 @default.
W3130366050 cites W2062924058 @default.
W3130366050 cites W2066962270 @default.
W3130366050 cites W2082947954 @default.
W3130366050 cites W2091358764 @default.
W3130366050 cites W2094719033 @default.
W3130366050 cites W2099572029 @default.
W3130366050 cites W2110514075 @default.
W3130366050 cites W2117062091 @default.
W3130366050 cites W2121814567 @default.
W3130366050 cites W2130984553 @default.
W3130366050 cites W2138329568 @default.
W3130366050 cites W2149295235 @default.
W3130366050 cites W2152095333 @default.
W3130366050 cites W2152926444 @default.
W3130366050 cites W2158416662 @default.
W3130366050 cites W2169840803 @default.
W3130366050 cites W2285801436 @default.
W3130366050 cites W2319400256 @default.
W3130366050 cites W2322480672 @default.
W3130366050 cites W2410225593 @default.
W3130366050 cites W2417966514 @default.
W3130366050 cites W2739576906 @default.
W3130366050 cites W2787669532 @default.
W3130366050 cites W2850906773 @default.
W3130366050 cites W2885754806 @default.
W3130366050 cites W2889780616 @default.
W3130366050 cites W2895864680 @default.
W3130366050 cites W2900852342 @default.
W3130366050 cites W2910167100 @default.
W3130366050 cites W2946547034 @default.
W3130366050 cites W3003340454 @default.
W3130366050 cites W83214379 @default.
W3130366050 doi "https://doi.org/10.1016/j.jmarsys.2021.103528" @default.
W3130366050 hasPublicationYear "2021" @default.
W3130366050 type Work @default.
W3130366050 sameAs 3130366050 @default.
W3130366050 citedByCount "5" @default.
W3130366050 countsByYear W31303660502022 @default.
W3130366050 countsByYear W31303660502023 @default.
W3130366050 crossrefType "journal-article" @default.
W3130366050 hasAuthorship W3130366050A5000717820 @default.
W3130366050 hasAuthorship W3130366050A5029319154 @default.
W3130366050 hasAuthorship W3130366050A5045875347 @default.
W3130366050 hasAuthorship W3130366050A5050004710 @default.
W3130366050 hasAuthorship W3130366050A5057066255 @default.
W3130366050 hasConcept C110872660 @default.
W3130366050 hasConcept C111368507 @default.
W3130366050 hasConcept C127313418 @default.
W3130366050 hasConcept C127413603 @default.
W3130366050 hasConcept C13724139 @default.
W3130366050 hasConcept C142796444 @default.
W3130366050 hasConcept C146978453 @default.
W3130366050 hasConcept C151152651 @default.
W3130366050 hasConcept C155567681 @default.
W3130366050 hasConcept C158709400 @default.
W3130366050 hasConcept C166957645 @default.
W3130366050 hasConcept C18903297 @default.
W3130366050 hasConcept C19269812 @default.
W3130366050 hasConcept C205649164 @default.
W3130366050 hasConcept C2777489503 @default.
W3130366050 hasConcept C2779043415 @default.
W3130366050 hasConcept C2780892065 @default.
W3130366050 hasConcept C39432304 @default.
W3130366050 hasConcept C4646841 @default.
W3130366050 hasConcept C49204034 @default.
W3130366050 hasConcept C62649853 @default.
W3130366050 hasConcept C86803240 @default.
W3130366050 hasConcept C97832226 @default.
W3130366050 hasConceptScore W3130366050C110872660 @default.
W3130366050 hasConceptScore W3130366050C111368507 @default.