Full text: XVIIIth Congress (Part B7)

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 
 
	        
Waiting...

Note to user

Dear user,

In response to current developments in the web technology used by the Goobi viewer, the software no longer supports your browser.

Please use one of the following browsers to display this page correctly.

Thank you.