Principles and Applications in Aquatic Microbiology: Proceedings of Rudolfs Research Conference, Rutgers, the State University, New Brunswick, New JerseyHovhannes Heukelekian, Norman C. Dondero J. Wiley, 1964 - 452 pagine |
Dall'interno del libro
Risultati 1-3 di 58
Pagina 318
... fermentation to occur . However , some methane bacteria can survive under much less than optimum conditions , as is evidenced by methane fermentation in acid bogs and at relatively low temperatures . Optimum methane fermentation has ...
... fermentation to occur . However , some methane bacteria can survive under much less than optimum conditions , as is evidenced by methane fermentation in acid bogs and at relatively low temperatures . Optimum methane fermentation has ...
Pagina 324
... fermentation of hexoses is that three moles of methane are formed , two of which come from the methane fermentation of acetic acid which is formed as an intermediate . The other mole results from carbon dioxide reduction . This is true ...
... fermentation of hexoses is that three moles of methane are formed , two of which come from the methane fermentation of acetic acid which is formed as an intermediate . The other mole results from carbon dioxide reduction . This is true ...
Pagina 330
... fermentation of these substrates . From the results , it could be concluded either that ( 1 ) formic acid is an important in- termediate in the methane fermentation of all substrates and is readily fermented under most conditions , or ...
... fermentation of these substrates . From the results , it could be concluded either that ( 1 ) formic acid is an important in- termediate in the methane fermentation of all substrates and is readily fermented under most conditions , or ...
Sommario
The Bacteriology of Interfaces | 193 |
The Physiology of the Coliform Group | 202 |
The Actinomycetes | 230 |
Copyright | |
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Parole e frasi comuni
acetic acid actinomycetes activated sludge aerobic agar algae alkanes amino acids anaerobic aquatic Arthrobacter Bacteriol bacterium Biochem biological Bryant butyric carbohydrates carbon dioxide cells cent chemical chlorophyll coli coliform group compounds cultures cysteine digestion energy environment enzyme fatty acids fecal fermentation Flathead Lake flora formation fungi glucose growth Heukelekian Hungate hydrocarbons hydrogen incubation indicate indole inorganic iron isolated laboratory large numbers Leptothrix manganese marine materials medium melt index metabolism methane methane fermentation methionine microbial Microbiol microbiology microorganisms mineral Mulder natural nitrate nitrogen Nocardia non-fecal nutrient organic matter oxidation oxygen peptone phosphate phosphorus photosynthetic photosynthetic bacteria pigments plants pollution Poly vinyl chloride ponds populations present production propionic propionic acid protein protozoa reaction reduced rumen ruminant samples sea water self-purification sewage soil species Sphaerotilus strains studies substrate sulfate sulfide sulfur surface synthesis Table temperature types utilization vinyl chloride vitamin