the 
cing 
July 
ting 
the 
Ver, 
cul- 
ares 
rted 
7 sit 
the 
ling 
i an 
map 
3 dm 
nake 
of 
for 
odel 
the 
nual 
ural 
Ore, 
the 
ring 
nore 
kful 
for 
lar- 
this 
also 
VHRR 
king 
NOAA 
M. E. 
NASA 
data 
dard 
hive 
pace 
EC) 
Anonymous, 198 7i1X2A7780Cciail sand 
economic atlas of India, 
Oxford Press, Delhi. 
Asrar, G., Fuchs, M:;Kanenmasu, 
ET. and Hatfield, J.L. 
1984. Estimating absorbed 
photosynthetic radiation. and 
jeaf area index from^' spec- 
tral reflectance in wheat. 
Agron. J., 76:300-306. 
Dubey, R.P., Ajwani, NaN gg 
purme,  M.H.,' Sridhar, V.N., 
Navalgund, R.R., Mahey, BR. 
K., Sidhu, Se So gnorartr, 
O.P. Cheema, Sag. and 
Narang, R.S. 1994. Pre- 
harvest wheat yield and 
production estimation for 
Punjab, india. Ent. J. 
Remote Sens. 15: 2137-2144. 
pye, D.G. 1995. Intercomparison 
of global PAR data sets. 
Geophys Res.Lett. Submitted. 
Dye, Da. and Goward, S.N. 
1993: Photosynthetically 
active radiation, by . global 
land | vegetation in August 
1984. 1. NL. i.. JS 11 Remote. Sens... 
14:3361-3364. 
ECk, ^T.E.:sandqd 'Dye, "D.G.*19941. 
Satellite estimation cf 
Incident Photosynthetically 
Active radiation using 
ultraviolet reflectance. 
Remote Sens. Environ. 38: 
135-146. 
Goward, S.N., Tucker, C.J. and 
Dye, D.G. 1985" North 
American vegetation patterns 
observed with the NOAA-7 
Advanced Very High Resol- 
ution Radiometer. Vegetatio, 
64: 3-14. 
Hooda, R.S. and Dye, 
Identification and mapping 
of irrigated vegetation 
using NDVI-Climatological 
modeling. Proc. Asian "Conf. 
Remote Sens., 20-24 November 
2995, Nakhon Rachasima, 
Thailand. pp. Q-9-1 - Q-9-6 
Hunt, E.R.Jr. 1994. Relation- 
ship between woody biomass 
and PAR conversion effic- 
lency for estimating net 
primary production from 
NDVI. Int. J. Remote Sens. 
15. 1725-1730. 
IGBP, $992. Improved global 
dataosfoxi land applications. 
International Geosphere Bio- 
D.G. 1995. 
Sphere Program; IGBP 
Secretariate, Stockholm, 
Sweden. Report no. 20. 
Kumarg Mod and oMonteíth, dL. 
1981. Remote sensing of crop 
growth" Tm; "Ho U"smithXed,, 
Plants and the daylight 
spectrum. Academic Press, 
London, pp. 133-144. 
Monteith, J Li. 1977. Climate 
and efficiency OF Crop 
production: in Britain. Phil. 
Trans. Royal Soc. London,.B 
291: 7293-294. 
Myneni, R.B. and Williamsioebib. 
1994. On the relationship 
303 
between FAPAR and NDVI. 
Remote Sens. Environ. 49: 
200-211. 
Price, S.D. 1991. A model otf 
regional primary production 
for use with course 
resolution Satellite data. 
Tnt. J. Remote Sens. 12: 
1313-1330. 
Prince, D. and Goward, S.N. 
¥gogdglobal primary produe- 
tion: a remote sensing ap- 
proach. J. Biogeography, 22: 
2829-2849. 
Ru imys Ber Saugier, Be and 
Dedieu, GCG. 1994. Methodology 
for estimation Of 
terrestrial net primary 
production from remotely 
sensed data. d. 
99: 5263-5283. 
Geophy.:R. 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B7. Vienna 1996