Observation de la Terre

Méthodologie et Rapport d’avancement Source de données
O. Rojas, A. Vrieling b, F. Rembold: Assessing drought probability for agricultural areas in Africa with coarse resolution remote sensing imagery
M.Meroni, D.Fasbender, etc: Early detection of biomass production deficit hot-spots in semi-arid environment using FAPAR time series and a probabilistic approach
R.V. Hoolst, H. Eerens, etc: FAO’s AVHRR-based Agricultural Stress Index System (ASIS) for global drought monitoring
indice différentiel normalisé de végétation
METOP: http://www.vito-eodata.be/PDF/portal/Application.html#Home
NOAA-AVHRR: http://www.star.nesdis.noaa.gov/smcd/emb/vci/VH/vh_browse.php
Cartes des circonscriptions : GAUL 2014 (CLAUSES DE NON-RESPONSABILITÉ). Plus d'informations sur GAUL: http://www.fao.org/geonetwork/srv/en/metadata.show?id=12691
Masque des cultures
Masque des cultures : Global Land Cover - SHARE (GLC-SHARE)
Manuel de l'utilisateur et matériel de formation Sélection de documents de recherche fondés sur ASIS
Video: Agricultural Stress Index System - ASIS
GIEWS Earth Observation website: A brief user guide
Country-Level ASIS: an agriculture drought monitoring system
O. Rojas, Shukri Ahmed: Feasibility of using the FAO-Agricultural Stress Index System (ASIS) as a Remote Sensing based Index for Crop Insurance.
O. Rojas, Y. Li, R.Cumani: Understanding the drought impact of El Niño on the global agricultural areas: An assessment using FAO’s Agricultural Stress Index (ASI)
M. Cumani, O. Rojas: Characterization of the Agricultural Drought Prone Areas on a Global Scale, using the FAO Agricultural Stress Index System (ASIS) to enhance the understanding of, and boost resilience to, water stress conditions in drought-prone areas

Liens connexes
FAO's work on Geospatial
E-learning course: Hyper-temporal remote sensing to support agricultural monitoring
FAO Irrigation and drainage paper 56: Crop evapotranspiration - Guidelines for computing crop water requirements