SPECTRICAL REFLECTANCE OF AGRICULTURAL CROPS ANNUALS (I)
SPECTRORADIOMETRY
DOI:
https://doi.org/10.26512/2236-56562003e39714Keywords:
agriculture, canopy, spectral reflectance, spectroscopyAbstract
This paper reports a series of studies conducted towards the comprehension of spectral properties of crop canopies, from basic rationales to different applications. The spectral reflectance of crop canopies were studied in relation to their biophysical variables, with data collected in field and laboratory trials. The fundamental works focuses leaf reflectance as the elementary principle, with its causes and factors. This paper reports a series of studies conducted towards the comprehension of spectral properties of crop canopies, from basic rationales to different applications. The spectral reflectance of crop canopies were studied in relation to their biophysical variables, with data collected in field and laboratory trials. The fundamental works focuses leaf reflectance as the elementary principle, with its causes and factors.
References
AASE, J. K.; SIDDOWAY, F. H.; MILLARD, J. P. (1984). Spring wheat-leaf phytomass and yield estimates from airborne scanner and hand-held radiometerr measurements. International Journal of Remote Sensing, v.5, n.5, p.771-781.
ALLEN, W. A.; RICHARDSON, A. J. (1968). Interaction of light with a plant canopy. Journal of the Optical Society of America, v.58, n.8, p.1023-1028.
ASRAR, G.; FUCHS, M.; KANEMASU, E. T.; HATFIELD, J. L. (1984). Estimating absorbed photosynthetic radiation and leaf area index from spectral reflectance in wheat. Agronomy Journal, v.76, n.2, p.300-306.
BARET, F., JAQUEMOUD, S., GUYOT, G., AND LEPRIEUR, C. (1992). Modeled analysis of the biophysical nature of spectral shifts and comparison with information content of broad bands, Remote Sensing of Environment v.41, n.2/3, p.133-142.
BARET, F.; CHAMPION, I.; GUYOT, G.; PADAIRE, A. (1987). Monitoring wheat canopies with a high spectral resolution radiometer. Remote Sensing of Environment, v.22, n.3, p.367-378.
BEST, R. G.; HARLAN, J. C. (1985). Spectral estimation of green leaf area index of oats. Remote Sensing of Environment, v.17, n.1, p.27-36.
CLEVERS, J. G. P. W., BÜKER, C. (1991). Feasibility of the red edge index for the detection of nitrogen deficiency. Proceedings of the 5th International Colloquium - Physical Measurements and Signatures in Remote Sensing, Courchevel, France, January 1991, ESA SP-319, v.1, p.165.
DAUGHTRY, C. S. T.; BAUER, M. E.; CRECELIUS, D. W.; HIXSON, M. M. (1980). Effects of management practices on reflectance of spring wheat canopies, Agronomy Journal v.72, n.6, p.1055-1060.
DEMETRIADES-SHAH, T. H.; COURT, M. N. (1987). Oblique view reflectance for assessing nitrogen status of incomplete canopies. International Journal of Remote Sensing, v.8, n.7, p.1049-1050.
DUSEK, D. A.; JACKSON, R. D.; MUSICK, J. T. (1985). Winter Wheat Vegetation Indices Calculated from Combinations of Seven Spectral Bands, Remote Sensing of Environment, v.18, n.3, p.255-267.
ESAU, K. Anatomia das plantas com sementes. 10. ed. São Paulo: Edgar Blucher, 1974.
FORMAGGIO, A. R. (1989). Características agronômicas e espectrais para sensoriamento remoto de trigo e de feijão. Tese (Doutorado) - Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo, Piracicaba, 180 p.
GATES, D. M., KEEGAN, H. J., SCHLETER, J. C., AND WEIDNER, V. R. (1965). Spectral properties of plants. Applied Optics, v.4, n.1, p.11-20.
GAUSMAN, H. N.; ALLEN, W. A.; WIEGAND, C. L.; ESCOBAR, D. E.; RODRIGUES, R. R.; RICHARDSON, R. R. (1973). The leaf mesophyll of twenty crops, their light spectra, and optical and geometrical parameters. (USDA no. 1465 Technical Bulletin). Westlaco, TX, USDA.
GAUSMAN, H. W. (1985), Plant leaf optical properties in visible and near-infrared light, Graduate Studies, Texas Tech University, no 29.
GRANT, L.; DAUGHTRY, C. S. T., VANDERBILT, V. C. (1987). Variations in the Polarized Leaf Reflectance of Sorghum bicolor. Remote Sensing of Environment, v.21, n.3, p.333-339.
HATFIELD, J. L.: KANEMASU, E. T.: ASRAR, G.: JACKSON, R. D.: PINTER JR., R. J.: REGINATO, R. J.: IDSO, S. B. (1985). Leaf-area estimates from spectral measurements over various planting dates of wheat. International Journal of Remote Sensing, v.6, n.1, p.167-175.
HINZMAN, L. D.; BAUER, M. E.; DAUGHTRY, C. S. T. (1986). Effects of nitrogen fertilization on growth and reflectance characteristics of winter wheat. Remote Sensing of Environment, v.19, n.1, p.47-61.
HORLER, D. N., DOCKRAY, M., AND BARBER, J. (1983). The red edge of plant leaf reflectance, International Journal of Remote Sensing, v.4, n.2, p.273-288.
JACKSON, R. D.; PINTER JR., P. J. (1986). Spectral response of architecturally different wheat canopies. Remote Sensing of Environment, v.20, n.1, p.43-56.
KNIPLING, E. B. (1970). Physical and physiological basis for the reflectance of visible and near-infrared radiation from vegetation. Remote Sensing of Environment, v.1, n.2, p.155-159.
MADEIRA NETTO, J. S. M. (1991). Etude quantitative des relations constituants mineralogiques - réflectance difuse des latosols brésiliens/application a l’utilisation pedologique des données satellitaires TM (region de Brasilia), Thèse de doctorat, Université Pierre et Marie Curie, Paris, 224 p.
MILLERS, J. R., HARE, E. W., WU, J. (1990). Quantitative characterization of the vegetation red edge reflectance. I. An inverted-Gaussian model, International Journal of Remote Sensing, n.11, v.10, p.1755-1773.
MOSS, R. A.; LOOMIS, W. E. (1952). Absorption spectra of leaves. I. The visible spectrum, Plant Physiology, v. 27, p.370-391.
PERRY, C. R.; LAUTENSCHLAGER, L. F. (1984). Functional equivalence of spectral vegetation indices. Remote Sensing of Environment, v.14, n.1-3, p.169-182.
PINTER JR., P. J.; JACKSON, R. D.; EZRA, C. E.; GAUSMAN, H. W. (1985). Sunangle and canopy-architecture effects on the spectral reflectance of six wheat cultivars. International Journal of Remote Sensing, v.6, n.12, p.1813-1825.
PINTER JR., P. J.; JACKSON, R. D.; IDSO, S. B.; REGINATO, R. J. (1983). Diurnal patterns of wheat spectral reflectances. IEEE Transactions on Geoscience and Remote Sensing, v.21, n.2, p.156-163.
RIPPLE, W. J. (1986). Relationships of spectral reflectance to leaf water stress. Photogrammetric Engineering and Remote Sensing, v.52, n.10, p.1669-1675.
SCHIEVING, F; WERGER, M. J. A.; HIROSE, T. (1992). Canopy structure, nitrogen distribution and whole canopy photosynthetic carbon gain in growing and flowering stands of tall herbs. Vegetatio, v.102, n.2, p.173-181.
SINCLAIR, T., R.; SCHREIBER, M., M.; HOFFER, R., M. M. (1973). Diffuse reflectance hypothesis for the pathway of solar radiation through leaves. Agronomy Journal, v.65, n.2, p.276-283.
TUCKER, C. J. (1979). Red and photographic infrared linear combinations for monitoring vegetation. Remote Sensing of Environment, v.8, n.2, p.127-150.
VALERIANO, M. M. (1992) Reflectância espectral do trigo irrigado (Triticum aestivum, L.) por espectrorradiometria de campo e aplicação do modelo SAIL. Dissertação de mestrado em Sensoriamento Remoto, Instituto Nacional de Pesquisas Espaciais, INPE, São José dos Campos, 127p.
VANDERBILT, V. C.; GRANT, L. (1984). Light polarization measurements: a method to determine the specular and diffuse light scattering properties of both leaves and plant canopies. Coll. Int. Signatures Spectrales d’objects en télédétection, 2, Bordeaux, 12-16 Sept. 1983.
WIEGAND, C. L.; RICHARDSON, A. J. (1987). Spectral component analysis rationale, and results for three crops. International Journal of Remote Sensing, v.8, n.7, p.1011-1032
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