Remote Sensing of Environment. Estimation of regional evapotranspiration and soil moisture conditions using remotely sensed crop surface temperatures / Soer, R. J. G.

Public ISBD Titre de série : Remote Sensing of Environment Titre : Estimation of regional evapotranspiration and soil moisture conditions using remotely sensed crop surface temperatures Type de document : texte imprimé Auteurs : Soer, R. J. G. Année de publication : 1980 ISBN/ISSN/EAN : CI-10470 Note générale : Crop surface temperature gives information on the evapotranspiration rate and on soil moisture conditions. The use of crop surface temperatures remotely sensed by infrared line scanning (IRLS) can provide this information over large hydrologically nonuniform areas. A composite method has been develop in this paper to calculate actual evapotranspiration rates from remotely sensed crop surface temperature with the aid of the energy budget equation and aerodynamic heat and water vapor transport equation while incorporating soil - plant-water relations. Langues : Anglais (eng) Mots-clés : Evapotranspiration  Evaluation  Himidité  Température  Télédétection  Mesure et observation  Calcul Index. décimale : 551.3 Phénomènes de surface et exogènes et leurs agents : érosion Résumé : Crop surface temperature gives information on the evapotranspiration rate and on soil moisture conditions. The use of crop surface temperatures remotely sensed by infrared line scanning (IRLS) can provide this information over large hydrologically nonuniform areas. A composite method has been develop in this paper to calculate actual evapotranspiration rates from remotely sensed crop surface temperature with the aid of the energy budget equation and aerodynamic heat and water vapor transport equation while incorporating soil - plant-water relations. Note de contenu : Crop surface temperature gives information on the evapotranspiration rate and on soil moisture conditions. The use of crop surface temperatures remotely sensed by infrared line scanning (IRLS) can provide this information over large hydrologically nonuniform areas. A composite method has been develop in this paper to calculate actual evapotranspiration rates from remotely sensed crop surface temperature with the aid of the energy budget equation and aerodynamic heat and water vapor transport equation while incorporating soil - plant-water relations. Remote Sensing of Environment. Estimation of regional evapotranspiration and soil moisture conditions using remotely sensed crop surface temperatures [texte imprimé] / Soer, R. J. G. . - 1980. ISSN : CI-10470 Crop surface temperature gives information on the evapotranspiration rate and on soil moisture conditions. The use of crop surface temperatures remotely sensed by infrared line scanning (IRLS) can provide this information over large hydrologically nonuniform areas. A composite method has been develop in this paper to calculate actual evapotranspiration rates from remotely sensed crop surface temperature with the aid of the energy budget equation and aerodynamic heat and water vapor transport equation while incorporating soil - plant-water relations. Langues : Anglais (eng) Mots-clés : Evapotranspiration  Evaluation  Himidité  Température  Télédétection  Mesure et observation  Calcul Index. décimale : 551.3 Phénomènes de surface et exogènes et leurs agents : érosion Résumé : Crop surface temperature gives information on the evapotranspiration rate and on soil moisture conditions. The use of crop surface temperatures remotely sensed by infrared line scanning (IRLS) can provide this information over large hydrologically nonuniform areas. A composite method has been develop in this paper to calculate actual evapotranspiration rates from remotely sensed crop surface temperature with the aid of the energy budget equation and aerodynamic heat and water vapor transport equation while incorporating soil - plant-water relations. Note de contenu : Crop surface temperature gives information on the evapotranspiration rate and on soil moisture conditions. The use of crop surface temperatures remotely sensed by infrared line scanning (IRLS) can provide this information over large hydrologically nonuniform areas. A composite method has been develop in this paper to calculate actual evapotranspiration rates from remotely sensed crop surface temperature with the aid of the energy budget equation and aerodynamic heat and water vapor transport equation while incorporating soil - plant-water relations.

Réservation

Réserver ce document

Exemplaires(8)

Code-barres	Cote	Support	Localisation	Section	Disponibilité
CI04B470.102123	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102124	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102125	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102126	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102127	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102128	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102129	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B470.102130	CI-10470	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible

Remote Sensing of Environment. Interpretation of a landsat image of an unusal flood phenomenan in Australia / Robinove, C. J.

Public ISBD Titre de série : Remote Sensing of Environment Titre : Interpretation of a landsat image of an unusal flood phenomenan in Australia Type de document : texte imprimé Auteurs : Robinove, C. J. Année de publication : 1978 ISBN/ISSN/EAN : CI-10724 Note générale : A Landsat image of part of the flooded area of cooper creek, queensland, Australia, in February 1974, shows large dark areas within the flooded valley. The dark area rae believed to be wet, but unflooded, areas of dark alluvial soil. These striking features, which have not previously been identified on landsat images/ must be properly interpreted so as not to confuse them with clear water. Langues : Anglais (eng) Mots-clés : Image satellite  Inondation  Télédétection  Environnement  Ruissellement Index. décimale : 363.7 Environnement : classer ici la protection de l'environnement Résumé : A Landsat image of part of the flooded area of cooper creek, queensland, Australia, in February 1974, shows large dark areas within the flooded valley. The dark area rae believed to be wet, but unflooded, areas of dark alluvial soil. These striking features, which have not previously been identified on landsat images/ must be properly interpreted so as not to confuse them with clear water. Note de contenu : A Landsat image of part of the flooded area of cooper creek, queensland, Australia, in February 1974, shows large dark areas within the flooded valley. The dark area rae believed to be wet, but unflooded, areas of dark alluvial soil. These striking features, which have not previously been identified on landsat images/ must be properly interpreted so as not to confuse them with clear water. Remote Sensing of Environment. Interpretation of a landsat image of an unusal flood phenomenan in Australia [texte imprimé] / Robinove, C. J. . - 1978. ISSN : CI-10724 A Landsat image of part of the flooded area of cooper creek, queensland, Australia, in February 1974, shows large dark areas within the flooded valley. The dark area rae believed to be wet, but unflooded, areas of dark alluvial soil. These striking features, which have not previously been identified on landsat images/ must be properly interpreted so as not to confuse them with clear water. Langues : Anglais (eng) Mots-clés : Image satellite  Inondation  Télédétection  Environnement  Ruissellement Index. décimale : 363.7 Environnement : classer ici la protection de l'environnement Résumé : A Landsat image of part of the flooded area of cooper creek, queensland, Australia, in February 1974, shows large dark areas within the flooded valley. The dark area rae believed to be wet, but unflooded, areas of dark alluvial soil. These striking features, which have not previously been identified on landsat images/ must be properly interpreted so as not to confuse them with clear water. Note de contenu : A Landsat image of part of the flooded area of cooper creek, queensland, Australia, in February 1974, shows large dark areas within the flooded valley. The dark area rae believed to be wet, but unflooded, areas of dark alluvial soil. These striking features, which have not previously been identified on landsat images/ must be properly interpreted so as not to confuse them with clear water.

Réservation

Réserver ce document

Exemplaires(8)

Code-barres	Cote	Support	Localisation	Section	Disponibilité
CI04B724.111123	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111124	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111125	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111126	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111127	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111128	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111129	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible
CI04B724.111130	CI-10724	Périodique	Bibliothèque CDI-Ouaga	Fond documentaire	Disponible

---

1 (1 - 2 / 2) Par page : 25 50 100 200