Aea. Paivoke et Lk. Simola, Arsenate toxicity to Pisum sativum: Mineral nutrients, chlorophyll content, and phytase activity, ECOTOX ENV, 49(2), 2001, pp. 111-121
significant mechanism of arsenate toxicity to Pisum sativum is interference
with its mineral nutrient balance. This conclusion is supported by assessm
ents made after exposing P, sativum L. cv, "Phenomen" for 12 days to 12.5,
20.8, and 33.3 mg, and for 32 days to 7.5, 22.1, 36.7, and 73.3 mg of sodiu
m arsenate/kg dry wt soil in the greenhouse. At 20.8 mg of arsenate, mobili
zation of manganese from the cotyledons was significantly increased and tha
t of zinc decreased. Nitrogen accumulated in the roots. On Day 32, at 22.1
mg of arsenate, magnesium, zinc, and manganese contents of the roots increa
sed, but that of phosphorus of the shoot decreased. The distribution patter
n and the ratios between individual elements were severely altered, Relativ
ely more arsenic accumulated from the low than the high soil concentrations
. Growth of the shoot was more affected than that of the roots. After a 32-
day exposure, chlorophyll content of the leaves increased, but the chloroph
yll a/b ratio decreased. On Day 12, at 12.5 mg and 20.8 mg of arsenate, in
vivo phytase activity was 64 and 66% that of the controls, respectively. (C
) 2001 Academic Press.