Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)

Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)

A model has been developed to compute the transpiration and the dynamic of water flows in individual plants, by J. Dauzat (Laboratoire de Modélisation, CIRAD-GERDAT). It is based on the use of computer representations plants (AMAP) to calculate the radiative balance and transpiration of each leaf. Input values needed to run this model on a coffee plantation in costa Rica have been measured during a work in CATIE (Centro Agronómico Tropical de Investigación y Enseñanza). We developed a model to calculate stomatal conductance of leaves using meteorological input data. Hydraulic architecture of coffee plants has been measured in the laboratory. Control measurements in the fields have been performed. The comparisons with outputs of the model show close correspondence. However, knowledge about eddy fluxes in arid above an heterogeneous canopy is lacking. Moreover, the soil water extraction has to be better taken into account. Comparisons between the results of this model and that of classical evapotranspiration models lead to identify the methodological contributions of this approach. From a practical point of view, this model should be useful simulating competitions in agroforestry systems. Simulations of shade effects on coffee transpiration are also discussed.

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Main Authors: 109284 Rapidel, B., 20461 Universite Montpellier II, Montpellier (Francia). Sciences et Techniques du Languedoc
Format: biblioteca
Published: Montpellier (Francia) 1995
Subjects:COFFEA ARABICA, BALANCE HIDRICO, TRANSPIRACION, MODELOS DE SIMULACION, APLICACIONES DEL COMPUTADOR,
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id KOHA-OAI-BVE:87083
record_format koha
spelling KOHA-OAI-BVE:870832020-02-03T21:54:33ZEtude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.) 109284 Rapidel, B. 20461 Universite Montpellier II, Montpellier (Francia). Sciences et Techniques du Languedoc Montpellier (Francia)1995A model has been developed to compute the transpiration and the dynamic of water flows in individual plants, by J. Dauzat (Laboratoire de Modélisation, CIRAD-GERDAT). It is based on the use of computer representations plants (AMAP) to calculate the radiative balance and transpiration of each leaf. Input values needed to run this model on a coffee plantation in costa Rica have been measured during a work in CATIE (Centro Agronómico Tropical de Investigación y Enseñanza). We developed a model to calculate stomatal conductance of leaves using meteorological input data. Hydraulic architecture of coffee plants has been measured in the laboratory. Control measurements in the fields have been performed. The comparisons with outputs of the model show close correspondence. However, knowledge about eddy fluxes in arid above an heterogeneous canopy is lacking. Moreover, the soil water extraction has to be better taken into account. Comparisons between the results of this model and that of classical evapotranspiration models lead to identify the methodological contributions of this approach. From a practical point of view, this model should be useful simulating competitions in agroforestry systems. Simulations of shade effects on coffee transpiration are also discussed.Tesis (Ph D)A model has been developed to compute the transpiration and the dynamic of water flows in individual plants, by J. Dauzat (Laboratoire de Modélisation, CIRAD-GERDAT). It is based on the use of computer representations plants (AMAP) to calculate the radiative balance and transpiration of each leaf. Input values needed to run this model on a coffee plantation in costa Rica have been measured during a work in CATIE (Centro Agronómico Tropical de Investigación y Enseñanza). We developed a model to calculate stomatal conductance of leaves using meteorological input data. Hydraulic architecture of coffee plants has been measured in the laboratory. Control measurements in the fields have been performed. The comparisons with outputs of the model show close correspondence. However, knowledge about eddy fluxes in arid above an heterogeneous canopy is lacking. Moreover, the soil water extraction has to be better taken into account. Comparisons between the results of this model and that of classical evapotranspiration models lead to identify the methodological contributions of this approach. From a practical point of view, this model should be useful simulating competitions in agroforestry systems. Simulations of shade effects on coffee transpiration are also discussed.COFFEA ARABICABALANCE HIDRICOTRANSPIRACIONMODELOS DE SIMULACIONAPLICACIONES DEL COMPUTADOR
institution IICA
collection Koha
country Costa Rica
countrycode CR
component Bibliográfico
access En linea
databasecode cat-sibiica
tag biblioteca
region America Central
libraryname Sistema de Bibliotecas IICA/CATIE
topic COFFEA ARABICA
BALANCE HIDRICO
TRANSPIRACION
MODELOS DE SIMULACION
APLICACIONES DEL COMPUTADOR
COFFEA ARABICA
BALANCE HIDRICO
TRANSPIRACION
MODELOS DE SIMULACION
APLICACIONES DEL COMPUTADOR
spellingShingle COFFEA ARABICA
BALANCE HIDRICO
TRANSPIRACION
MODELOS DE SIMULACION
APLICACIONES DEL COMPUTADOR
COFFEA ARABICA
BALANCE HIDRICO
TRANSPIRACION
MODELOS DE SIMULACION
APLICACIONES DEL COMPUTADOR
109284 Rapidel, B.
20461 Universite Montpellier II, Montpellier (Francia). Sciences et Techniques du Languedoc
Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)
description A model has been developed to compute the transpiration and the dynamic of water flows in individual plants, by J. Dauzat (Laboratoire de Modélisation, CIRAD-GERDAT). It is based on the use of computer representations plants (AMAP) to calculate the radiative balance and transpiration of each leaf. Input values needed to run this model on a coffee plantation in costa Rica have been measured during a work in CATIE (Centro Agronómico Tropical de Investigación y Enseñanza). We developed a model to calculate stomatal conductance of leaves using meteorological input data. Hydraulic architecture of coffee plants has been measured in the laboratory. Control measurements in the fields have been performed. The comparisons with outputs of the model show close correspondence. However, knowledge about eddy fluxes in arid above an heterogeneous canopy is lacking. Moreover, the soil water extraction has to be better taken into account. Comparisons between the results of this model and that of classical evapotranspiration models lead to identify the methodological contributions of this approach. From a practical point of view, this model should be useful simulating competitions in agroforestry systems. Simulations of shade effects on coffee transpiration are also discussed.
format
topic_facet COFFEA ARABICA
BALANCE HIDRICO
TRANSPIRACION
MODELOS DE SIMULACION
APLICACIONES DEL COMPUTADOR
author 109284 Rapidel, B.
20461 Universite Montpellier II, Montpellier (Francia). Sciences et Techniques du Languedoc
author_facet 109284 Rapidel, B.
20461 Universite Montpellier II, Montpellier (Francia). Sciences et Techniques du Languedoc
author_sort 109284 Rapidel, B.
title Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)
title_short Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)
title_full Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)
title_fullStr Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)
title_full_unstemmed Etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (Coffea arabica L.)
title_sort etude expérimentale et simulation des transferts hydriques dans les plantes individuelles application au caféier (coffea arabica l.)
publisher Montpellier (Francia)
publishDate 1995
work_keys_str_mv AT 109284rapidelb etudeexperimentaleetsimulationdestransfertshydriquesdanslesplantesindividuellesapplicationaucafeiercoffeaarabical
AT 20461universitemontpellieriimontpellierfranciasciencesettechniquesdulanguedoc etudeexperimentaleetsimulationdestransfertshydriquesdanslesplantesindividuellesapplicationaucafeiercoffeaarabical
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