Abstract:
In this study, an analysis of the spectral brightness coefficients (SBC) of agricultural crops in the
steppe regions of Kazakhstan was carried out using remote field and space measurements during the growing
season. The possibility of assessing structural changes in plants using near-infrared data was explored.
An electronic database of corrected spectral data of SBC for the studied crops has been created. The results
obtained confirm that the dynamics of SBC values reflect morphophysiological changes in crops during their
growing season. Analysis of the seasonal dynamics of the spectral brightness of pests and diseases makes
it possible to diagnose their species composition and the physiological state of plants. Spectrophotometric
information obtained from satellite data of various crops can be used to build simulation models that provide
scientifically based forecasts of the dynamics of the spatial distribution of the species composition of
vegetation cover. The study highlights the potential of using subtle spectral differences to study the spatial
distribution of different vegetation types and their ecological status. The results of the analysis of satellite
information from Sentinel confirm the prospects of its use for assessing the morphophysiological state of
agricultural crops using ground-based spectrometric calibration, as well as for predicting yields.
