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Spatial distribution and physiological state of bacteria in a sand column experiment during the biodegradation of toluene
Hyun su Kim,
Peter R. Jaffe
Civil & Environmental Engineering
Andlinger Center for Energy & the Environment
High Meadows Environmental Institute
Princeton Materials Institute
Research output
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Contribution to journal
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Article
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peer-review
18
Scopus citations
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Engineering & Materials Science
Biodegradation
100%
Toluene
86%
Bacteria
80%
Spatial distribution
78%
Sand
63%
Experiments
25%
Impurities
18%
Degradation
13%
Population distribution
7%
Substrates
6%
Biodegradability
6%
Biofilms
6%
Physiology
5%
Byproducts
4%
Porous materials
4%
Biomass
4%
Carbon
3%
Earth & Environmental Sciences
toluene
70%
biodegradation
61%
spatial distribution
49%
bacterium
45%
sand
43%
cell
32%
experiment
28%
degradation
12%
pollutant
11%
exposure
8%
substrate
6%
population distribution
5%
biodegradability
5%
loss
5%
toxic effect
4%
physiology
4%
turnover
4%
biofilm
4%
byproduct
4%
porous medium
4%
comparison
3%
reactor
3%
biomass
2%
carbon
2%
material
1%
method
1%
Chemical Compounds
Biodegradation
75%
Toluene
53%
Toxic
13%
Biodegradability
6%
Carbon Atom
2%