6533b820fe1ef96bd127a467

RESEARCH PRODUCT

Proximal-sensing-powered modelling of energy-water fluxes in a vineyard: A spatial resolution analysis

Nicola PaciollaAntonino MalteseChiara CorbariGiuseppe CiraoloMarco Mancini

subject

Spatial resolutionPixelEvapotranspirationEnergy-balance modelScienceQVineyardSpatial heterogeneityFlux (metallurgy)Approximation errorEvapotranspirationUpscalingCalibrationGeneral Earth and Planetary SciencesEnvironmental scienceImage resolutionEnergy (signal processing)Settore ICAR/06 - Topografia E CartografiaRemote sensing

description

Spatial resolution is a key parameter in energy–water surface flux modelling. In this research, scale effects are analyzed on fluxes modelled with the FEST-EWB model, by upscaling both its inputs and outputs separately. The main questions are: (a) if high-resolution remote sensing images are necessary to accurately model a heterogeneous area; and (b) whether and to what extent low-resolution modelling provides worse/better results than the upscaled results of high-resolution modelling. The study area is an experimental vineyard field where proximal sensing images were obtained by an airborne platform and verification fluxes were measured via a flux tower. Modelled fluxes are in line with those from alternative energy-balance models, and quite accurate (NSE = 0.78) with respect to those measured in situ. Field-scale evapotranspiration has resulted in both the tested upscaling approaches (with relative error within ±30%), although fewer pixels available for low-resolution calibration may produce some differences. When working at low resolutions, the model has produced higher relative errors (20% on average), but is still within acceptable bounds. This means that the model can produce high-quality results, partially compensating for the loss in spatial heterogeneity associated with low-resolution images.

yearjournalcountryeditionlanguage
2021-11-20
10.3390/rs13224699http://hdl.handle.net/10447/536752