Agriculture Reference
In-Depth Information
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
yields using eastern equatorial Pacific sea-surface temperature. Nature 370:
204-205.
Ce catto, P., S. Flasse, S. Tarantola, S. Jacquemoud, and J.M. Gregoire. 2001.
Detecting vegetation leaf water content using reflectance in the optical domain.
Remote Sens. Environ. 77:22-33.
D aughtry, C.S.T., K.P. Galio, and M.E. Bauer. 1983. Spectral estimates of solar
radiation intercepted by corn canopies. Agron. J. 75:527-531.
D eering, D.W., J.W. Rouse, R.H. Haas, and J.A. Schell. 1975. Measuring “forage
production” of grazing units from Landsat MSS data. In: Proceedings of the
10th International Symposium on Remote Sensing of Environment, II, Univer-
sity of Michigan, pp. 1169-1178.
Fung, T., and E. LeDrew. 1988. The determination of optimal threshold levels
for change detection using various accuracy indices. Photogram. Eng. Remote
Sens. 54:1449-1454.
G ao, B.C. 1996. NDWI—A normalized difference water index for remote sensing
of vegetation liquid water from space. Remote Sens. Environ. 58:257-266.
G ates, D.M., H.J. Keegan, J.C. Schleter, and V.P. Weidner. 1965. Spectral proper-
ties of plants. Appl. Optics 4:11.
G illies, R.R., T.N. Carlson, J. Cui, W.P. Kustas, and K.S. Humes. 1997. A verifi-
cation of the “triangle” method for obtaining surface soil water content and
energy fluxes from remote measurements of the Normalized Difference Veg-
etation Index (NDVI) and surface radiant temperature. Intl. J. Remote Sens.
18:3145-3166.
Hatfield, J.L., G. Asrar, and E.T. Kanemasu. 1984. Intercepted photosynthetically
active radiation in wheat canopies estimated by spectral reflectance. Remote
Sens. Environ. 14:65-76.
H ielkema, J.U., S.D. Prince, and W.L. Astle. 1986. Rainfall and vegetation moni-
toring in the Savanna Zone of the Democratic Republic of Sudan using NOAA
advanced very high-resolution radiometer. Intl. J. Remote Sens. 7:1499-1514.
H uete, A.R. 1988. A soil-adjusted vegetation index (SAVI). Remote Sens. Environ.
25:53-70.
H uete, A., C. Justice, and H. Liu. 1994. Development of vegetation and soil indices
for MODIS-EOS. Remote Sens. Environ. 49:224-234.
Huete, A., K. Didan, T. Miura, E.P. Rodriguez, X. Gao, and L.G. Ferreira. 2002.
Overview of the radiometric and biophysical performance of the MODIS veg-
etation indices. Remote Sens. Environ. 83:195-213.
Jackson, R.D., and A.R. Huete. 1991. Interpreting vegetation indices. Prev. Vet.
Med. 11:185-200.
Ju stice, C.O. 1986. Monitoring the grasslands of semi-arid Africa using NOAA-
AVHRR data. Intl. J. Remote Sens. 7.
Ju stice, C.O., B.N. Holben, and M.D. Gwynne. 1986. Monitoring East African
vegetation using AVHRR data. Intl. J. Remote Sens. 7:1453-1474.
Ju stice, C.O., J.R.G. Townshend, E.F. Vermote, E. Masuoka, R.E. Wolfe, N. Sale-
ous, D.P. Roy, and J.T. Morissette. 2002. An overview of MODIS Land data
processing and products. Remote Sens. Environ. 83:3-15.
Ka rnieli, A., Y.J. Kaufman, L. Remer, and A. Wald. 2001. AFRI—aerosol free
vegetation index. Remote Sens. Environ. 77:10-21.
Kaufman, Y.J., and D. Tanré. 1992. Atmospherically resistant vegetation index
(ARVI) for EOS-MODIS. IEEE Trans. Geosci. Remote Sens. 30:261-270.
Kauth, R.J., and G.S. Thomas. 1976. The tasseled cap—a graphic description of
the spectral temporal development of agricultural crops as seen by Landsat.
[76],
Line
——
2.0
——
Long
PgEn
[76],
 
Search WWH ::




Custom Search