FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1989071305> ?p ?o ?g. }

• W1989071305 endingPage "754" @default.
• W1989071305 startingPage "741" @default.
• W1989071305 abstract "To provide an accurate water budget over a whole basin, hydrological models need to know the spatial variability of evapotranspiration at the watershed scale. The three-dimensional (3D) atmospheric models can provide such estimations at a regional scale, since they calculate the different energy and water fluxes by accounting for the landscape heterogeneity with a mesh grid varying from a few metres to several kilometres. We have used such a transfer model (Meso-NH) at a high spatial scale (50 m) to simulate the small agricultural region of the Alpilles (4 km × 5 km), where an experiment took place in 1997 and included intense ground measurements on different types of crops and airborne and satellite data collection. It was the first time that this model was used at such a fine resolution. The aim of this paper is to analyze the effects of the various crops on the spatial variability of the main energy fluxes, particularly evapotranspiration. We also wished to validate Meso-NH from this important available dataset. All input parameters were derived from remote sensing or airborne data: leaf area index (LAI) and albedo were computed from polarization and directionality of the earth's reflectances (POLDER) images. Roughness length was estimated combining both a land-use map obtained from Satellite pour l'Observation de la Terre (SPOT) images and the POLDER images. Maps of the main energy fluxes and temperatures were simulated for two periods in April and June and showed large spatial variations because of differences in soil moisture and in roughness of the crop types. Comparisons between the simulations and the measurements gave satisfactory results. Thermal images acquired by the infrared airborne camera were in good agreement with the surface temperatures estimated by the model. Significant differences were observed when we compared, on the same area, the value of averaged fluxes with the value of fluxes calculated with averaged surface parameters. This was due to the nonlinearity processes associated with averaging of environmental variables. The interest in using a mesoscale model applied at microscale is that coherent structures can be observed in the surface boundary layer, particularly on transects of the vertical wind speed. Such structures cannot be simulated at a larger scale or analyzed with simplified models. Remote sensing data acquired at a fine spatial resolution are a useful tool to provide accurate surface parameters to such a model. This allows quantification of the effect of each crop type on the spatial variation of temperature and evapotranspiration and thus improves our knowledge of the water budget of an agricultural landscape and the watershed functioning." @default.
• W1989071305 created "2016-06-24" @default.
• W1989071305 creator A5007336435 @default.
• W1989071305 creator A5011691901 @default.
• W1989071305 creator A5032569130 @default.
• W1989071305 creator A5055542893 @default.
• W1989071305 creator A5061093849 @default.
• W1989071305 creator A5061539267 @default.
• W1989071305 creator A5063295521 @default.
• W1989071305 creator A5065161398 @default.
• W1989071305 date "2003-12-01" @default.
• W1989071305 modified "2023-10-05" @default.
• W1989071305 title "Estimation of surface fluxes in a small agricultural area using the three-dimensional atmospheric model Meso-NH and remote sensing data" @default.
• W1989071305 cites W1582378409 @default.
• W1989071305 cites W1978160572 @default.
• W1989071305 cites W1979119316 @default.
• W1989071305 cites W2001155071 @default.
• W1989071305 cites W2002169344 @default.
• W1989071305 cites W2028137720 @default.
• W1989071305 cites W2037915681 @default.
• W1989071305 cites W2039363399 @default.
• W1989071305 cites W2044650556 @default.
• W1989071305 cites W2046141162 @default.
• W1989071305 cites W2062378293 @default.
• W1989071305 cites W2065871044 @default.
• W1989071305 cites W2066657524 @default.
• W1989071305 cites W2077140048 @default.
• W1989071305 cites W2094420085 @default.
• W1989071305 cites W2105748500 @default.
• W1989071305 cites W2139273826 @default.
• W1989071305 cites W2176234939 @default.
• W1989071305 cites W2179812382 @default.
• W1989071305 doi "https://doi.org/10.5589/m03-044" @default.
• W1989071305 hasPublicationYear "2003" @default.
• W1989071305 type Work @default.
• W1989071305 sameAs 1989071305 @default.
• W1989071305 citedByCount "10" @default.
• W1989071305 countsByYear W19890713052019 @default.
• W1989071305 crossrefType "journal-article" @default.
• W1989071305 hasAuthorship W1989071305A5007336435 @default.
• W1989071305 hasAuthorship W1989071305A5011691901 @default.
• W1989071305 hasAuthorship W1989071305A5032569130 @default.
• W1989071305 hasAuthorship W1989071305A5055542893 @default.
• W1989071305 hasAuthorship W1989071305A5061093849 @default.
• W1989071305 hasAuthorship W1989071305A5061539267 @default.
• W1989071305 hasAuthorship W1989071305A5063295521 @default.
• W1989071305 hasAuthorship W1989071305A5065161398 @default.
• W1989071305 hasBestOaLocation W19890713052 @default.
• W1989071305 hasConcept C105795698 @default.
• W1989071305 hasConcept C119857082 @default.
• W1989071305 hasConcept C127413603 @default.
• W1989071305 hasConcept C142362112 @default.
• W1989071305 hasConcept C146978453 @default.
• W1989071305 hasConcept C150547873 @default.
• W1989071305 hasConcept C176783924 @default.
• W1989071305 hasConcept C18903297 @default.
• W1989071305 hasConcept C19269812 @default.
• W1989071305 hasConcept C195886398 @default.
• W1989071305 hasConcept C205649164 @default.
• W1989071305 hasConcept C25989453 @default.
• W1989071305 hasConcept C2778755073 @default.
• W1989071305 hasConcept C33923547 @default.
• W1989071305 hasConcept C39432304 @default.
• W1989071305 hasConcept C41008148 @default.
• W1989071305 hasConcept C52119013 @default.
• W1989071305 hasConcept C554144382 @default.
• W1989071305 hasConcept C58640448 @default.
• W1989071305 hasConcept C62649853 @default.
• W1989071305 hasConcept C86803240 @default.
• W1989071305 hasConcept C94747663 @default.
• W1989071305 hasConceptScore W1989071305C105795698 @default.
• W1989071305 hasConceptScore W1989071305C119857082 @default.
• W1989071305 hasConceptScore W1989071305C127413603 @default.
• W1989071305 hasConceptScore W1989071305C142362112 @default.
• W1989071305 hasConceptScore W1989071305C146978453 @default.
• W1989071305 hasConceptScore W1989071305C150547873 @default.
• W1989071305 hasConceptScore W1989071305C176783924 @default.
• W1989071305 hasConceptScore W1989071305C18903297 @default.
• W1989071305 hasConceptScore W1989071305C19269812 @default.
• W1989071305 hasConceptScore W1989071305C195886398 @default.
• W1989071305 hasConceptScore W1989071305C205649164 @default.
• W1989071305 hasConceptScore W1989071305C25989453 @default.
• W1989071305 hasConceptScore W1989071305C2778755073 @default.
• W1989071305 hasConceptScore W1989071305C33923547 @default.
• W1989071305 hasConceptScore W1989071305C39432304 @default.
• W1989071305 hasConceptScore W1989071305C41008148 @default.
• W1989071305 hasConceptScore W1989071305C52119013 @default.
• W1989071305 hasConceptScore W1989071305C554144382 @default.
• W1989071305 hasConceptScore W1989071305C58640448 @default.
• W1989071305 hasConceptScore W1989071305C62649853 @default.
• W1989071305 hasConceptScore W1989071305C86803240 @default.
• W1989071305 hasConceptScore W1989071305C94747663 @default.
• W1989071305 hasIssue "6" @default.
• W1989071305 hasLocation W19890713051 @default.
• W1989071305 hasLocation W19890713052 @default.
• W1989071305 hasLocation W19890713053 @default.
• W1989071305 hasOpenAccess W1989071305 @default.
• W1989071305 hasPrimaryLocation W19890713051 @default.

• next