LAKES that have become acidified by airborne pollutants typically have
low biological productivity and support an impoverished flora and fau
na(1). In their natural state, these lakes were poorly buffered, and h
ad a pre-industrial pH on the acid side of neutral(2). Although they c
an be neutralized by adding base, the resulting calcium-rich water sup
ports plant and animal communities that are unlike those found in natu
ral softwater lakes(1). IL is known, however, that the long-term buffe
ring of soft waters can be appreciably influenced by their biological
productivity(3-5). Here we report field-study results that show that b
y adding phosphate fertilizer to stimulate primary productivity, it is
possible to generate sufficient: base by the assimilation of nitrate
to raise the pH of acid lake waters without drastically altering their
community structure. Owing to the high efficiency of base production,
only modest additions of phosphate are required, phytoplankton growth
is not excessive and there is a marked increase in biological product
ivity at all trophic levels. In the longer term, additional quantities
of base should be generated by the anoxic decomposition of organic ma
terial accumulating on the lake bed.