Ultrastructural and Morphological Characteristics of Cultivated Wheat Growing on Copper‐Polluted Fields

Abstract

AbstractA cultivated Greek variety of wheat (Triticum aestivum L. cv. Vergina) growing in fields naturally polluted by outcrops of copper ores was investigated. Wheat plants show a negative response to increasing quantities of soil copper, including reduced growth and chlorosis. Copper toxicity was demonstrated in the laboratory by a rooting test; the frequency of mitoses declines sharply with increasing copper concentration in the nutrient solution.The mesophyll cells of polluted plants display a circular shape (in transverse sections) with a few chloroplasts parietally distributed, in contrast with the elongate or pleomorphic shape of control leaves that contain numerous chloroplasts crowded at the cell periphery. Ultrastructurally, the chloroplasts of polluted plants contain a poorly developed internal membrane system consisting of thylakoids arranged parallel to each other with only a few, rudimentary grana. In addition, a number of statistically significant differences were found, including the number of starch grains and plastoglobuli, chloroplast surface area, volume fraction of starch grains and, most important, the volume fraction of the internal membrane system. All ultrastructural changes are attributed to the toxic effect of high concentrations of soil copper.