Keyphrases
1,4-Dioxane
100%
Efficient Removal
100%
Biological Treatment
100%
Dioxane
100%
Single Culture
100%
Synthetic Consortia
100%
CB1190
27%
Azoarcus
27%
Degradation Gene
18%
New Jersey
9%
Effective Treatment
9%
In Situ
9%
Groundwater
9%
Environmental Conditions
9%
Contaminated Water
9%
Microorganisms
9%
Water Samples
9%
Field Sampling
9%
Metabolism
9%
Chlorinated Solvents
9%
Stabilizer
9%
Propane
9%
Trace Level
9%
Effluent
9%
Degradation Rate
9%
Microcosm
9%
High Cell Viability
9%
Toluene
9%
Bioreactor
9%
Trace Concentration
9%
Quantitative PCR
9%
Plume
9%
Source Zone
9%
Pseudonocardia
9%
Pump-and-treat
9%
Mycobacterium
9%
Monooxygenase
9%
Propane Monooxygenase
9%
Method Detection Limit
9%
Microbiome
9%
Monitoring Well
9%
Microcosm Study
9%
Co-metabolism
9%
Inoculation
9%
Metabolizer
9%
Relative Abundance
9%
Inoculum
9%
Gram-positive
9%
Landfill Site
9%
16S rRNA Gene Amplicon Sequencing
9%
Amplicon Sequencing Analysis
9%
Horizontal Transfer
9%
Field Factor
9%
Ex-situ Treatment
9%
Alpha Subunit
9%
Rhodococcus Species
9%
Immunology and Microbiology
Azoarcus
100%
Microorganism
33%
Bioreactor
33%
Pseudonocardia
33%
Real-Time Polymerase Chain Reaction
33%
Microbiome
33%
Metabolism
33%
Mycobacteria
33%
Inoculum
33%
Amplicon Sequencing
33%
Alpha Chain
33%
Pharmacology, Toxicology and Pharmaceutical Science
1,4-Dioxane
100%
Azoarcus
23%
Ground Water
15%
Unspecific Monooxygenase
15%
Microorganism
7%
Pseudonocardia
7%
Microbiome
7%
Mycobacteria
7%
RNA 16S
7%