The growth of Acer pseudoplatanus L. (sycamore) callus tissue on solid
and liquid growth media containing elevated copper concentrations was
studied in an attempt to understand the responses of trees to metal c
ontamination and to provide an index of tolerance which may show a par
allel expression of tolerance to the whole plant. Callus growth on sol
id media was very variable, but was significantly reduced at 10 mg l-1
, with necrosis occurring at 20 mg l-1; copper was readily removed fro
m the media in direct proportion to its concentration. Cell suspension
cultures differed in their response to copper according to their site
of origin. In cultures originating from uncontaminated sites, growth
was inhibited at 12.5 and 15.0 mg l-1 Cu, but cultures originating fro
m mature trees at a metal-contaminated site were not affected by these
concentrations. This metal tolerance trait was stable in cell culture
through repeated sub-culturing on uncontaminated media for periods of
more than 12 months. The trait was not present in a culture derived f
rom a (non-tolerant) seedling at the metal-contaminated site, but it w
as induced in one non-tolerant culture by repeated exposure to high me
tal levels. The significance of these findings is discussed in the con
text of the possession of appropriate genetic variation in trees for s
urviving the impact of metal contamination.