8796960308

78

1992, Spectral estimates of asorbed radiation and phytomass production in corn and soybean canopies, Remote Sens. Env. 39, 141-152.

Dąbrowska-Zielińska K., 1989, Określenie ewapotranspiracji i wilgotności gleb w strefie korzeniowej roślin metodami teledetekcyjnymi, Prace Inst. Geod. i Kartogr. 36, 1-2.

-    199la, Wykorzystanie zdjęć satelitarnych NOAA do oszacowania ewapotranspiracji i wilgotności gleb_y Przeg. Geofiz. 36, 4, 309-320.

-    1991 b, Application of A VHRR data for hydrological studies of grassland in Poland, Proc. of the 5th NOAA Users Meeting, Tromso, Norway, 25-28 June, 1991, Eumetsat.

-    1993, Prognozowanie plonów pasz zielonych na podstawie danych satelitarnych i meteorologi-cznychy Zesz. Nauk. AGH, Geodezja 117, 65-68.

Dąbrowska-Zielińska K., Gruszczyńska M., Lewiński S., 1991, From evapotranspiration to soil moisture investigation based on NOAA thermal infrared data_y Case Study - Poland, Proc. 5th Int. Colloą. Physical Measurements and Signatures in Remote Sen-sing, Courchevel, France.

Denmead O. T., 1969, Comparative micrometeorology of a wheat field and a forest of Pinus Radiata, Agric. Met. 6, 357-371.

Deschamps P. Y., P h u 1 p i n T., 1980, Atmospheric correction of infrared measurements ofsea surface temperaturę using channelsat 3.7,11,12 \xm, Boundary-Layer Met. 18,320-333.

D o o r e n b o s J., P r u i 11 W. O., 1977, Guidelines for predicting crop water reąuirements, FAO Irrig. Drain. Pap. 24.

D y e r A. J., H i c k s B. B., 1970, Flux gradient relationship in the contrast flux layer, Ouart. J. Roy. Met. Soc. 96, 715-721.

F r i t s c h e n L. J., H s i a J., D o r a i s w a m y P., 1977, Evapotranspiration of a Douglas fir determined with a weighing lisymeter_t Water Resour. Res. 13, 145-148.

Galio K. P., D a u g h t r y C. S. T., B a u e r M. E., 1985, Spectral estimates of absorbed photosynthetically active radiation in corn canopies, Remote Sens. Env. 17, 221-232.

Geiger R., 1959, The climate near the ground, Cambridge, Mass, Harvard Univ. Press.

G o w a r d S. N., T u c k e r C. J., D y e D. G., 1985, North American vegetation patterns obser-ved with the NOAA-7 Advanced Very High Resolution Radiometer, Vegetatio 64, 3-14.

G r e e n C. F., 1987, Nitrogen nutrition and wheat growth in relation to absorbed solar radiation, Agric. Forest Met. 41, 207-248.

Gruszczyńska M., 1992, Pomiary użytków zielonych systemem LA1 i ich zastosowanie, Wiad. Melior. i Łąk. 3, 114-115.

G u t m a n G. G., 1991, Yegetation indices fromAVHRR: An update and futurę prospects, Remote Sens. Env. 35, 121-136.

H a t f i e 1 d J. L., 1982, Evapotranspiration obtainedfrom remote sensing methods, [W:] D. Hillel (ed.), Advances in irrigation, Acad. Press, New Jork, 395-415.

H a t f i e 1 d J. L, R e g i n a t o R. J., 1 d s o S. B., 1984, Evaluation of canopy temperaturę - evapotranspiration models over various crops, Agric. Forest Met. 32, 41-53.

H u e t e A. R., 1988, A soil adjusted vegetation index (SAV1), Remote Sens. Env. 25, 119-140.

I d s o S. B., J a c k s o n R. D., 1969, Thermal radiation from the atmosphere, J. Geophys. Res. 74, 5397-5403.

Jackson R.. D., Moran M. S., G a y L. W., Raymond L. E., 1987, Evaluating evapo-ration from field crops using airborne radiometry and ground based meteorological data, Irrigation Sci. 8, 324-332.

Jackson R. D., 1 d s o S. B., R e g i n a t o R. J., 1977, Wheat canopy temperaturę: a practi-cal tool for evaluating water reąuirements, Water Resour. Res. 13, 651-656.

Jackson RD., H a t f i e 1 d J. L., R e g i n a t o R. J., I d s o S. B., P i n t e r P. J., 1983, Estimation of daily evapotranspiration from one time of day measurements, Agric. Water Ma-nag. 7, 351-362.