In acidic soils, monomeric aluminium (Al3+) can reach levels that are toxic
to plants, thus preventing many species from growing there. Organic acids
chelate Al and render it non-toxic. It has been shown that exudation of org
anic acids by Al-tolerant crops increases their tolerance to Al. We have ex
tended this observation to wild plants by comparing the ability of ten herb
s to exude organic acids in response to elevated Al levels. We hypothesized
that exudation of organic acids was related to the ability of plants to gr
ow on Al-rich soils. Two grasses were grown in rhizotrons in soils with 41
and 63 muM reactive Al. Organic acids were sampled from root tips connected
to an intact plant-root system. Deschampsia flexuosa (L.) Trin. exuded mor
e malic acid when grown in the soil with the highest Al content. Five forbs
and five grasses were also exposed to three Al levels (0, 25 and 75 muM) i
n a hydroponic system. Rumex acetosella L, and Viscaria vulgaris Bernh. inc
reased exudation of oxalic acid and Galium saxatile auct. non L. and Veroni
ca officinalis L, increased exudation of citric acid in response to elevate
d Al. The distribution of the forbs in the field as described by soil pH wa
s negatively related to the amount of organic acids exuded in response to A
l. In contrast, none of the grasses exuded higher amounts of organic acids
with increasing Al concentration in the hydroponic experiment. (C) 2001 Ann
als of Botany Company.