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ABSTRACT
A laboratory experiment was designed to determine the involvement of sulfur (S) in the reversal of acetylene (C2H2) inhibition of nitrous oxide (N2O) reduction in the denitrification process. Three soils varying with respect to sulfate and carbon (C) contents were included in the study. Amendments involving sources of S and C (alfalfa, cysteine + glucose, and Na2S + glucose) were compared with amendments involving only C sources (glucose, alanine + glucose).
Reversal of acetylene inhibition of N2O reduction did not occur with any of the untreated soils, suggesting that SO2-4 was not involved. While glucose and alanine treatments enhanced denitrification, there was no influence on the C2H2 inhibition of N2O reduction. On the other hand, Na2S (plus glucose), cysteine and alfalfa reversed the inhibition. Although the involvement of added S in the reversal of C2H2 inhibition of N2O reduction was confirmed, the exact nature of its involvement remains to be elucidated.
Key Words: acetylene • inhibition reversal • sulfur substrates • carbon substrates
1 Contribution of the University of Guelph, Guelph, Canada. Research supported by Natural Science and Engineering Research Council of Canada.
2 Research Associate and Professor, Dep. of Land Resource Science, University of Guelph, Guelph, Ontario.
Received for publication February 23, 1981. Accepted for publication September 15, 1981.
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