I. Arduini et al., CADMIUM AND COPPER CHANGE ROOT-GROWTH AND MORPHOLOGY OF PINUS-PINEA AND PINUS-PINASTER SEEDLINGS, Physiologia Plantarum, 92(4), 1994, pp. 675-680
Heavy metal loads in forest soils have been increasing over time due t
o atmospheric inputs. Accumulation in the upper soil layers could affe
ct establishment of seedlings and forest regeneration. Mediterranean s
pecies show a high initial root development, allowing seedlings to rea
ch the moisture of deeper soil layers. In the present work seedlings o
f stone pine (Pinus pinea L.) and maritime pine (Pinus pinaster Ait.),
were grown in culture solution supplied with 0.0, 0.1, 1 or 5 mu M Cd
SO4 or with 1 mu M CdSO4 and 1 mu M CuSO4 combined. In both species ta
p-root elongation was drastically reduced in the 5 mu M Cd2+ and in th
e (Cd2+ + Cu2+) treatments. A supply of 0.1 or 1 mu M Cd2+, however, e
nhanced root elongation in Pious pinea without significantly influenci
ng root elongation in Finns pinaster. In both species the root density
(weight per unit length) and the width of the cortex increased in res
ponse to Cd2+ exposure. In Pinus pinaster the mitotic index decreased
at the higher Cd2+ concentrations and when Cd2+ and Cu2+ were combined
. The data suggest that cell elongation is more sensitive to Cd2+ than
cell division. The number and length of the lateral roots were also a
ffected by Cd2+ treatment to a higher degree in Pinus pinaster than in
Pinus pinea, reflecting the different Cd-tolerance of the two species
.