4), J. FRANKLIN (4)
c, USA
ni and Water Science,
hy,
611
The angular vegetation index : an atmospherically resistant index
for the second along track scanning radiometer (ATSR-2)
S.-E. PLUMMER, P.-R. NORTH and S.-A. BRIGGS (British National Space Centre,
Remote Sensing Application Development Unit, Monks Wood,
Abbots Ripton, Cambridgeshire, UK) 717
neasurements
nation du Climat
<cq, France) 619
External factor consideration in vegetation index development
J. QI (1), Y. KERR (2) and A. CHEHBOUNI (3). (1) USDA-ARS Water Conservation
Laboratory, Broadway, Phoenix, Arizona, USA. (2) LERTS-CNES-CNRS, Toulouse, France.
(3) Jet Propulsion Laboratory, Pasadena, California, USA 723
•ements : results and
( 1 ) LERTS, Toulouse, France.
627
ind near-infrared range
ical Geography, Fredry 1,
mtfavet, France) 635
Bidirectional leap reflectance & trasmittance of stressed and unstressed leaves
S. RUBIE (University College London, Dept, of Geography, London, England. Sira Limited,
Sira/UCL Postgraduate Research Centre, South Hill, Chislehurst, Kent, England) 731
First deployment of a ground-based instrument to retrieve atmospheric optical parameters and
surface BRDF during the Hapex-Sahel experiment, Niger 1992
A.-K. WILSON (British National Space Centre, Remote Sensing Applications
Development Unit, Monks Wood, Abbots Ripton, Huntingdon, Cambridgeshire, UK) 739
[gricultural University,
■theHands) 643 THEME VI : Infrarouge thermique
radiation
nsitivity analysis
of Terrestrial Ecology,
651
neasurements
Thermal infrared
Directional infrared temperature and emissivity of vegetation : measurements and models
J.-M. NORMAN, S. CASTELLO and L.-K. BALICK (Department of soil Science,
Univ. of Wisconsin, Madison, USA and E G & G Energy Measurements, Las Vegas, USA) 749
Optique Atmosphérique, LOA)
scq, France.
ranсe 659
d sunlight
pps Institution of Oceanography,
mat
665
me POLDER Instrument
’.). (1) Laboratoire d’Optique
'.) Scripps Institution
ISA 675
ot to an optically thin canopy
■e de Météorologie
683
Infrared measurements of land surface temperature from space and the effects of viewing geometry
Dr F. PRATA (CSIRO, Division of Atmospheric Research, PMB I Mordialloc, Australia) 759
Utilisation d’une méthode d’étalonnage basée sur l’utilisation de surfaces naturelles pour
la correction des effets atmosphériques sur les mesures
de température de surface de la Mer Baltique
I.-A. BYCHKOVA (State Oceanographic Institute, SPO GOIN, Saint-Petersbourg, Russie) 773
On the use of radiative surface temperature to estimate sensible heat flux
over sparse shrubs in Nevada
A. CHEHBOUNI (I), W.-D. NICHOLS (2), E.-G. NJOKU (1 ), Y.-H. KERR (4), J. QI (3)
and F. CABOT (4). (I) Jet Propulsion Laboratory, Pasadena, CA, USA
(2) USGS, Carson City, Nevada. (3) USDA-ARS, Tucson, Arizona.
(4) LERTS/CNES, Toulouse, France 777
Emissivity and land surface temperature determination for the Spanish and sahelian regions
C. COLL, E. VALOR, V. CASELLES, C. BADENAS and E. RUBIO (Department
of Thermodynamics, Faculty of Physics, University of Valencia, Burjassot, Spain) 785
691
Mboratoire d’Etudes
;e, France.
’ 699
f the earth surface albedo
nent of Geography,
.' 707
Evaluation and comparison of atmospheric correction methods for thermal data
measured by ERS1-ATSR, NOAA11-AVHRR, and Iandsat5-TM sensors
X.-F. GU, B. SEGUIN, J.-F. HANOCQ and J.-P. GUINOT (INRA Bioclimatologie,
Montfavet, France) 793
Utilisation de la température de surface sur la forêt de pin maritime des Landes
(Sud-Ouest de la France) : résultats préliminaires
J.-P. LAGOUARDE (1), Y. BRUNEL (1), R.-G.-B. ANDRE (2), D. MONTEMBAULT (1),
G. COURRIER (1). (1) INRA Bioclimatologie, Villenave-d’Ornon, France.
(2) UNESP, Jaboticabal, Brésil.
801