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Programme  Poster session 2  abstract 642

SAMIR, a tool for irrigation monitoring using remote sensing for landcover mapping and evapotranspiration estimation

Author(s): Vincent Simonneaux(1), S.Thomas(1), M. Lepage(1), B. Duchemin(1), H. Kharrou(2), B. Berjami(3), G. Boulet (1),G. Chehbouni(1)
(1) CESBIO (UMR 5126 CNES-CNRS-UPS-IRD), Toulouse, France, simonneaux@ird.fr (2) ORMVAH – Office Régional de Mise en Valeur Agricole du Haouz, Marrakech, Maroc

Keyword(s): Irrigation, Evapotranspiration, Remote sensing, Spatialisation

Article: abs642_article.pdf
Poster: abs642_poster.pdf		 Get Adobe Reader

Session: Poster session 2
AbstractIrrigation is the world major consumer of water, using

about 65% of the resources. As more and more arid areas are facing water shortage problems, the optimization of

irrigation is a major challenge in these areas. Besides the improvement of irrigation techniques at the field level (crop

budget calculation, drip irrigation, etc.), the design of tools providing with spatialized estimates of water budget over

a whole region is useful for manager. This is one of the objective of the SudMed project, which is carried out by

CESBIO (Toulouse, France) and the University Cadi Ayyad (Marrakech, Morocco) in the Haouz plain around

Marrakech (10000 km2).
Evapotranspiration (ET) of the irrigated crops is one of the major fluxes conditioning

the water budget. ET assessment basically requires information about climate, soil moisture and vegetation state, the

latter being efficiently obtained from satellite images (vegetation type and development stage). High resolution remote

sensing time series are now available quite easily (Landsat, SPOT) and ongoing missions will improve the offer

providing images at higher frequency (4 days frequency : FORMOSAT, Venµs). These images allow an accurate

monitoring of vegetation development over large areas, which is critical for estimating ET.
We developed a tool

for spatializing ET and water balance based on the FAO method (Allen et al. 1998 mettre la réf entière) and satellite

data. This method requires three types of data, linked to climate, land cover and crop development stages. The

climatic data is obtained from ground measurements or from meteorological model outputs, and is used to compute

the reference evapotranspiration ET0. The land cover in the area is complex and characterised by a high inter annual

variability, especially for annual crops. The tool is based on simplified classes, namely trees, annual crops and bare

soil, which are suitable at this stage for water budget. The trees class was mapped using a very high resolution image

and is considered stable from one year to another. The annual crops distribution is unknown at the beginning of each

season and thus obtained from scenarios based on water availability in dams and rainfall hypothesis. Then, this land

cover is adjusted along the season when images are acquired. The crop coefficients (Kc) used in the FAO method

are also derived from images using NDVI time series
The tool has the ability to compute past budget from the

beginning of the season until the date of observation. Moreover, forecasts of the water needs for the rest of the

season are computed based on simulation of crop phenology.

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