Applied and Environmental Microbiology, Volume 54, Pages 851-1642American Society for Microbiology, 1988 - Microbial ecology |
From inside the book
Results 1-3 of 85
Page 1188
About 0.9 % of the naturally occurring soil organic carbon could be mineralized
under denitrification conditions , and this accounted for the greater proportion of
the nitrate depletion . Mineralization of the labile fraction of the soil organic
carbon ...
About 0.9 % of the naturally occurring soil organic carbon could be mineralized
under denitrification conditions , and this accounted for the greater proportion of
the nitrate depletion . Mineralization of the labile fraction of the soil organic
carbon ...
Page 1195
Mineralization of soil organic carbon . Aside from the PAH compound , a portion
of the soil organic carbon is also utilized by soil - denitrifying microorganisms .
Many of the degradation tests reported here were performed at a soil - towater
ratio ...
Mineralization of soil organic carbon . Aside from the PAH compound , a portion
of the soil organic carbon is also utilized by soil - denitrifying microorganisms .
Many of the degradation tests reported here were performed at a soil - towater
ratio ...
Page 1196
C10Hg + 20H2O → 10CO2 ( s ) + 48H + + 48eorganic matter in soil is resistant to
microbial decomposition under denitrification conditions , and therefore the
mineralization of soil organic carbon via denitrification should have minimal effect
on ...
C10Hg + 20H2O → 10CO2 ( s ) + 48H + + 48eorganic matter in soil is resistant to
microbial decomposition under denitrification conditions , and therefore the
mineralization of soil organic carbon via denitrification should have minimal effect
on ...
What people are saying - Write a review
We haven't found any reviews in the usual places.
Other editions - View all
Common terms and phrases
acetate acid activity added addition agar amount anaerobic analysis antibiotic appeared Appl assay bacteria bacteriophage buffer carbon cells cellulose chemical chromatography coli colonies compared compounds concentration containing culture degradation described detected determined digestion dilution effect Environ enzyme ethanol experiments extract fermentation filter formed fraction fragment gene glucose grown growth hybridization increase incubated indicated infection inhibition initial inoculated isolated laboratory levels material measured medium methanogenic method microbial Microbiol Microbiology mixed mutant natural nitrate observed obtained occurred organic oxide period phase plant plasmid plates prepared present previously production protein range ratio reaction reduction relative removed reported resistance respectively samples sediments selected showed shown similar soil solution species spores standard strains substrate suggest Table temperature tion transfer transformation treatment University values various yeast