THE LOSS OF STRUCTURAL INTEGRITY IN DAMAGED SPRUCE NEEDLES FROM LOCATIONS EXPOSED TO AIR-POLLUTION .1. MESOPHYLL AND CENTRAL CYLINDER

Abstract In connection with the new type of forest damage, the individual disease situation of two‐year‐old spruce (Picea abies) needles was analyzed histopathologically in forest areas exposed to different levels of O3‐, SO2‐ and NO3‐ pollution. Early damage results from losses of chlorophyll in the mesophyll cells. The bleaching is more intensive towards the apex in severely damaged needles. The cytoplasm is aggregated at the cell wall and the chloroplasts show definite structural damage as well. The mesophyll cells below the epidermis, or the cells adjacent to the vascular bundle sheath, appear to be particularly susceptible. Collapsed cells (bone cells), which increase in number with damage, can lead to tissue death in certain needle areas, (brown tips, transverse bands). Necrotic spots are manifested as groups of dissociated cells in which hypertrophic and collapsed cells as well as abnormal proliferations can be observed. Hypertrophy and cell collapse appear in the central cylinder in addition to severe phenol deposits. Bone cells and chlorophyll losses can already be detected in the green needles of damaged trees, indicating latent damage, which becomes macroscopically visible only after more extensive damage. Our results indicate that no biotic stress factors take part in the damage of the spruce needles investigated here. Anthropogenic air pollutants in addition to abiotic stress factors must be regarded as a main cause of damage. Copyright © 1990, Wiley Blackwell. All rights reserved