Reflective features of Norway spruce have been studied as a part of a multi‐level experiment in order to assess and to develop methods for early forecasting of forest damages by remote sensing. Discoloration and histological changes were investigated by high resolution reflectance spectroscopy and true‐color image interpretation of histological cuts, respectively. Major changes of reflectances were detected in the visible spectral range 480–680 nm depending on degree of tree's damages and/or needle discoloration. Related histological changes depending on degree of tree's damage were hypertrophy of chloroplasts, plasmolysis and partial loss of compartmentalization. Development and use of several highly sensitive channels with narrow bandwidths between 480 and 680 nm, e.g. 480, 550, 680, 760 nm, for early assessment of forest damages by remote sensing could be recommended.