Your search keyword '"Isabel Pôças"' showing total 2 results

1. Satellite-based evapotranspiration of a super-intensive olive orchard: Application of METRIC algorithms

Author

Isabel Pôças, Teresa A. Paço, Francisco L. Santos, Richard G. Allen, José Silvestre, Luis S. Pereira, Adélia Sousa, José A. Andrade, and Mário Cunha

Subjects

Canopy, 010504 meteorology & atmospheric sciences, Soil Science, 01 natural sciences, Surface energy balance, momentum roughness lenght, Evapotranspiration, Landsat images, Leaf area index, Momentum roughness length, 0105 earth and related environmental sciences, Mathematics, 2. Zero hunger, Momentum (technical analysis), 04 agricultural and veterinary sciences, 15. Life on land, Remote sensing, Surface temperature, Roughness length, Control and Systems Engineering, Metric (mathematics), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Satellite, Orchard, Agronomy and Crop Science, Algorithm, Food Science

Abstract

Special issue: Irrigated Agriculture METRIC™ is a satellite-based surface energy balance model aimed at estimating and mapping crop evapotranspiration (ET). It has been applied to a large range of vegetation types, mostly annual crops. When applied to anisotropic woody canopies, such as olive orchards, extensions are required to algorithms for estimating the leaf area index (LAI), surface temperature, and momentum roughness length (Zom). The computation of the radiometric surface temperature needs to consider a three-source condition, thus differentiating the temperature of the canopy (Tc), of the shaded ground surface (Tshadow), and of the sunlit ground surface (Tsunlit). The estimation of the Zom for tall and incomplete cover is based upon the LAI and crop height using the Perrier equation. The LAI, Zom, and temperature derived from METRIC after these adjustments were tested against field collected data with good results. The application of METRIC to a two year set of Landsat images to estimate ET of a super-intensive olive orchard in Southern Portugal produced good ET estimates that compared well with ground-based ET. The analysis of METRIC performance showed a quantitative improvement of ET estimates when applying the three-source condition for temperature estimation, as well as the Zom computation with the Perrier equation. Results show that METRIC can be used operationally to estimate and mapping ET of super-intensive olive orchards aiming at improving irrigation water use and management. info:eu-repo/semantics/publishedVersion

Published

2014

2. An evaluation of changes in a mountainous rural landscape of Northeast Portugal using remotely sensed data

Author

André R. S. Marçal, Isabel Pôças, Luis S. Pereira, and Mário Cunha

Subjects

geography, supervised classification, geography.geographical_feature_category, Ecology, ved/biology, Range (biology), ved/biology.organism_classification_rank.species, Forestry, Vegetation, Land cover, Management, Monitoring, Policy and Law, Shrub, Grassland, Normalized Difference Vegetation Index, semi-natural mountain meadows, Urban Studies, Sustainable management, Arable land, agroenvironmental policies, landscape dynamics, Landsat, Nature and Landscape Conservation

Abstract

Available at ScienceDirect Image data from Earth Observation Satellites (EOS) were used to analyse mountain landscape changes in Northeast Portugal. Three Landsat images, from April 30th 1979, March 14th 1989 and May 29th 2002 were used. A supervised classification was performed for each image based on the radiometric information and the Normalised Difference Vegetation Index (NDVI). Eleven classes were selected considering the main land cover types in the region. The classification results showed high overall accuracy (above 92.5%) and kappa coefficient (above 0.91). Broadly, the range of dates of the Landsat images used allowed for the differentiation between classes. Nevertheless, some problems occurred in differentiating between classes of forest and shrub vegetation due to similar characteristics and vegetation conditions in some periods of the year, and also due to the effects of topographic shadows associated to mountain areas. Meadows and annual crops were the classes having greater changes from 1979 to 2002: meadows area increased 60% while annual crops decreased 43.5%. The increase in meadows area was likely due to policies supporting agroenvironmental conservation and autochthon bovine livestock production. Differently, the decrease in annual crops was likely due to the loss of economical competitiveness of main annual crops and to the rural population decrease and ageing, which favoured the replacement of arable lands by permanent meadows. These results may help developing policies and measures for sustainable management of traditional mountain rural landscapes

Published

2011