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Scientific
Publications - Work Done by Microbiology Reader
Pauli, A.S.-L. and Kaitala, S., Optimal growth conditions for Acinetobacter isolates from activated sludge treating forest-industry wastewaters, Applied Microbiology and Biotechnology, 1995, vol. 43, pp. 746-754 ABSTRACT Three Acinetobacter isolates (identified by API 20 NE as A.
baumannii, A. junii, A. lwoffii) from activated sludge
treating forest-industry wastewaters were used as model organisms for
polyphosphate-accumulating bacteria to optimize growth conditions for
acinetobacters. The optimal concentrations of carbon, nitrogen, phosphorus,
magnesium and potassium for the growth of these isolates were determined by
using four sets of factorially designed experiments. Maximum growth was obtained
with an average C : N : P ratio of 100 : 14 : 1.5 (on a weight basis) in the
medium. The average N : P ratio of about 10 is twice the ratio that is usually
considered optimal for bacterial growth in activated sludge. Magnesium and
potassium are crucial for polyphosphate metabolism. A. baumannii did not
respond to either magnesium or potassium additions, and A. junii had a
linear response to potassium. Comparison of the optimal molar Mg : P (0.93-1.8)
and K : P (0.56) ratios obtained for A. lwoffii and A. junii in
the experiments to the corresponding ratios in the influent wastewaters
indicates that magnesium and potassium would not limit growth and concomitant
polyphosphate formation in acinetobacters. The results based on the optimal
concentrations of elements in the medium may provide a better basis for
optimizing the growth conditions than data on the chemical composition of
bacterial cells.
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