of crops 
/IELOGORSKA (2) 
addow, 
lamesfield House, 
443 
vegetated surfaces 
°asadena, USA. 
uirk. 
ISA 451 
; using 
l Engineering 
457 
/e radiometer 
iE (NASA GSFC 
>f Massachussets, 
(1) University of Bern, Institute of Applied Physics, Bern, Switzerland 
(2) University of Bern, Department of Geography, Bern, Switzerland 519 
Physical modeling of microwave emission from bare soils. Intercomparison of models 
and ground data 
L. LAGUERRE (I), S. RAJU (2), A. CHANZY (2), Y.-H. KERR (I), J.-C. CALVET (3), 
J.-P. WIGNERON (4). (I) LERTS Unité mixte CNES-CNRS, Toulouse, France. (2) INRA- 
Science du Sol, Montfavet, France. (3) INRA-Bioclimatologie, Montfavet, France. 
(4) CNRM, Toulouse, France 527 
Microwave emissivity of plant constituents at 37 GHZ 
G. MARCELLONI, S. PALOSCIA, P. PAMPALONI, R. RUISI and C. SUSINI 
(Istituto di Ricerca sulle Onde Elettromagnetiche - CNR, Firenze, Italy) 535 
Estimation of total atmospheric water vapour content over oceans from ERS1/ATSR data 
C. OTTLE, S. LE MAGUER, C. FRANÇOIS, L. EYMARD and L. TABARY 
(CETP, Centre Universitaire, Vélizy, France) 541 
Microwave radiometer observations in HAPEX-Sahel 
T.-J. SCHMUGGE (USDA Hydrology Lab., Beltsville MD, USA), Y. KERR 
(LERTS, CNES, Toulouse, France) 549 
Evolution diurne de l’émission micro-onde d’une culture de soja simulée 
à partir d’un modèle couplé 
J.-P. WIGNERON (I), A. OLIOSO (2), A. CHANZY (3), B. SEGUIN (I) 
(I) INRA, Bioclimatologie, Montfavet, France. (2) INRA, Bioclimatologie, 
Thivernal-Grignon, France. (3) INRA, Science du Sol, Montfavet, France 551 
467 THEME V : Domaine optique : effets directionnels et polarimétriques 
475 
Optical domain : polarimetrie and directional effects 
ive microwave measurements 
R (1) 
477 
licrowave radiometry 
:A (3), M. ALBERTONE (3) 
gia, Italy. (2) Dipartimento 
\quila, Italy. 
i » of Roma, Roma, Italy 489 
3E 
497 
ence de l’humidité du sol 
-C. CALVET (4), 
l) CARTEL, Université 
ivet, France. (4) CNRM, 
505 
ction de mesures 
ulouse, France) 513 
Directional radiance measurements : challenges in the sampling of landscapes 
D.-W. DEERING (Biospheric Sciences Branch, Code 923, NASA/Goddard 
Space Flight Center, Greenbelt, USA) 561 
Observations in the solar spectrum interest for remote sensing purposes 
M. HERMAN (1) and V. VANDERBILT (2). (1) Laboratoire d’Optique Atmosphérique. 
URA 713, Université de Lille, Villeneuve-dAscq, France. 
(2) NASA Ames Research Center, Moff'et Field, California, USA) 569 
Application of AI techniques to infer vegetation characteristics from directional reflectance (s) 
D.-S. KIMES and J.-A. SMITH (NASA/Goddard Space Flight Center, 
Greenbelt, Maryland, USA), P.-A. HARRISON (JJM Systems Inc., Arlington, 
Virginia USA), P.-R. HARRISON (US Naval Academy, Annapolis, Maryland, USA) 581 
Vegetation canopy reflectance modeling, recent developments and remote sensing perspectives 
A.-H. STRAHLER (Center for Remote Sensing, Boston University, Boston, USA) 593 
Détection des variations du taux de matière organique de parcelles sous cultures 
intensives pour une cartographie des risques de dégradation des sols. 
Evaluation de l’apport spécifique de la bande MIR 
D. ARROUAYS (1), C. KING (2) et I. VION (3) 
(1) INRA SESCPF, Bordeaux, Pont-de-la-Maye, France. (2) BRGM, Orléans, France. 
(3) Univ. Bordeaux I, Sc. de la Terre, Talence, France 601 
Shortwave radiative budget of sahelian vegetation during HAPEX-Sahel experiment. Results of 
measurement and modeling 
A. BEGUE (1), J.-L. ROUJEAN (2), N.-P. HANAN (I), S.-D. PRINCE (I),