Responses of maize (Zea mays L.) plants to copper stress—I. Growth, mineral content and ultrastructure of roots

Abstract Changes in the morphology, physiology and ultrastructure of root systems of Zea mays cv. Aris under various Cu treatments were investigated. A progressive decrease of root length and biomass with increasing Cu in nutrient solution was observed. Mineral content and distribution were markedly affected by Cu. The roots accumulated significantly higher amounts of Cu than the above ground parts. Significant reduction of root calcium and iron contents as well as extensive damage to root epidermal cells occurred at the higher Cu concentration. In the remainder of the root, the effects of Cu (80 μM) varied within the same tissues. Thus, there were cortical or stelar cells with disintegrated cytoplasm, next to cells with well preserved plasmalemma, tonoplast and cytoplasm including cell organelles. Multi-lamellar bodies inside the vacuoles indicated an increased activity in digestion of the cytoplasmic components under Cu stress. Deposits of a less dense and less compact material were found behind the plasmalemma associated with the cell wall as well as an accumulation of dense material attached to the cell walls; cells with such deposits in their walls revealed extensive cytoplasmic damage. However, root ultrastructure was affected less than the morphology and physiology. The occurrence of well preserved cells indicates that Zea mays root cells do not respond uniformly to stressful conditions and suggests the development of a resistance strategy of maize roots to Cu-toxicity.