Microbial Transformation and Degradation of Toxic Organic ChemicalsThis book examines the role of microbes, from theoretical, field, and applied perspectives, in the degradation of toxic organic chemicals. |
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Page 99
Ultimately , the method ( s ) chosen to evaluate the progress of a bioremediation
requires the direct measure of contaminant concentration , with additional
information gained from the indirect measure of biodegradation activity , e . g . ,
carbon ...
Ultimately , the method ( s ) chosen to evaluate the progress of a bioremediation
requires the direct measure of contaminant concentration , with additional
information gained from the indirect measure of biodegradation activity , e . g . ,
carbon ...
Page 651
... Sodium dodecyl benzenesulfonate ( SDBS ) , bioremediation , 511 - 513
chemical content , 487 - 488 degradation , 491 - 501 field methods , 501 - 503
laboratory methods , 501 - 503 leachate polycyclic aromatic hydrocarbons , 510
nitrogen ...
... Sodium dodecyl benzenesulfonate ( SDBS ) , bioremediation , 511 - 513
chemical content , 487 - 488 degradation , 491 - 501 field methods , 501 - 503
laboratory methods , 501 - 503 leachate polycyclic aromatic hydrocarbons , 510
nitrogen ...
Page 653
TNT , 54 TOL , plasmid , 17 Toluene dioxygenase , 227 – 229 , 230 Toluene
plasmids , 295 Toluene bioremediation aerobic , 523 - 531 anaerobic , 531 - 535
chemical / nutrient requirements , 521 - 523 microbial populations and
enumeration ...
TNT , 54 TOL , plasmid , 17 Toluene dioxygenase , 227 – 229 , 230 Toluene
plasmids , 295 Toluene bioremediation aerobic , 523 - 531 anaerobic , 531 - 535
chemical / nutrient requirements , 521 - 523 microbial populations and
enumeration ...
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Contents
MICROBIAL VERSATILITY | 13 |
Norberto J Palleroni | 27 |
CLEANUP OF PETROLEUM HYDROCARBON | 77 |
Copyright | |
14 other sections not shown
Common terms and phrases
acid activity added addition aerobic anaerobic Appl Environ Microbiol application Aroclor aromatic bacteria biodegradation biological bioremediation biphenyl carbon cells changes chemical chlorinated chlorophenols complete compounds concentration congeners contaminated cultures dechlorination dechlorination processes decreases degradation dehalogenation demonstrated detected determine effect electron enrichment environmental enzymes et al example experiments factors field Figure gene Gibson glyphosate groups growth Hudson River hydrocarbons important increased indicated industrial initial involved isolated laboratory Lake levels limited mechanisms meta metabolism methods microbial microorganisms mineralization mixture naphthalene natural observed occur organic oxidation oxygen PAHs pathway pattern phenols populations potential present Pseudomonas reactions recent reductive relative removal reported responsible ring samples sediment selective showed shown sludge soil specific strain structure studies substrate suggested sulfate Table tion toluene toxic transformation treatment Ware waste