The response to different levels of metal pollution by assemblages of micro
benthic algae and bacteria was investigated in a lowland stream. Colonized
glass-discs and samples of natural assemblages on coarse sand were used to
test zinc tolerance. Tolerance was characterized by measuring inhibition of
C-14-incorporation in microalgae and inhibition of H-3-thymidine incorpora
tion in bacteria. Bacterial assemblages on both glass and sand from a high
zinc and cadmium site were resistant to zinc when compared to populations f
rom a cleaner upstream site. Algae from the strongly polluted site were onl
y slightly affected by the highest test concentrations of zinc, in contrast
to other algal communities. A change towards metal tolerant bacteria and a
lgae was indicated and seems to occur despite the strong binding of metals
by precipitates of iron hydroxide and organic deposits in the biofilm. The
observations were compared with published data on short-term and long term
zinc toxicity in algae and bacteria. The gradual changes in micro- and macr
obenthos under high metal loads is discussed. (C) 1999 Elsevier Science Ltd
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