Post on 24-Jun-2020
Phytoremediation of Soil Contaminants
Paul SchwabKathy Banks
Purdue University
Phytoremediation Applications
Phytoextraction – removal of contaminants from soils.Phytodegradation – plant degradation of contaminants after uptake.Phytoaccumulation – contaminant accumulation in above ground biomass.
Phytoremediation Applications
Rhizosphere Degradation – enhancement of rhizosphere microbial bioremediation. Groundwater Interception – plants with large water requirements reduce contaminated groundwater movement. Living Caps – Reduction of leachate in landfills.
ROOTINGCHARACTERISTICS
TRANSPIRATION
CONTAMINANT(S)
PHYTOREMEDIATION
PLANT SPECIES
MICROBIALPOPULATIONS
Phytoremediation Processes Organic Contaminants
UPTAKE BIOMASS
CONTAMINANT(S)
PHYTOREMEDIATION
PLANT SPECIES
SOILCHARACTERISTICS
Phytoremediation Processes Heavy Metal Contaminants
AdvantagesLow-cost approach.Aesthetically pleasing and appealing to the public.Site use and remediation can occur simultaneously.
Disadvantages
Long time period required for remediation.Unknown impact on ecosystems and bioavailability.Scientific understanding of mechanisms is limited.
Field Sites
Port Hueneme Site - Fuel oil contaminated soil located in test cells at a DoD National Test Site.Bedford Site - Manufactured gas plant site with high PAH contamination at depths of 3 to 6 feet.
Port Hueneme Site (1997-2000)
Site was located at the Port Hueneme DOD National Test Site.Study area consisted of 60’ x 100’ plots with three treatments and four replicates. Fertilizer and irrigation was used as needed. Soil samples were analyzed for petroleum contaminants, microbial characteristics, and toxicity for 30 months.
Above-Ground BiomassPort Hueneme Site
0
200
400
600
800
3 6 9 11 14 18 21 24 26 29
Bio
mas
s (g
/sq.
m) FESCUE
MIX
LSD = 121
Time (months)
Microbial Analysis (Total Plate Counts)Port Hueneme Site
5
6
7
8
3 6 11 14 18 21 24 26 30
Log
CFU
s
BAREFESCUEMIX
Time (months)
Microbial Analysis (Petroleum Degraders)Port Hueneme Site
5
6
7
8
Bare Fescue Mix
Log
MPN
s
a
b b
Plant Treatment
Toxicity Analysis (Germination)Port Hueneme Site
0
40
80
120
6 9 11 14 18 21 24 26 29
% G
erm
inat
ion
UNVEG.FESCUEMIX
LSD = 17%
Time (months)
TPH Degradation (%)Port Hueneme Site
0
10
20
30
40
6 9 12 14 21 24
% T
PH D
egra
datio
n
BAREFESCUEMIX
LSD = 9.1%
Time (months)
Contaminant Analysis (PAHs)Port Hueneme Site
0
0.4
0.8
1.2
0 6 9 18
Tota
lPA
Hs
(mg/
kg)
BAREFESCUEMIX
Time (months)
Bedford Site (1999-2002)
MGP site with PAH contamination at depths between 3 and 6 feet.Two treatments are being compared; hybrid poplar/grass cover and natural attenuation.Fertilization and irrigation is used as needed.Soil from three depths are being analyzed for contaminant concentration, microbial characteristics, and toxicity over the three year study.
Toxicity Analysis (Germination)Bedford Site
0
20
40
60
80
100
0 6 12 18
% G
erm
inat
ion
UnvegetatedVegetated
Time (months)
Toxicity Analysis (Earthworm)Bedford Site
0
40
80
120
0 6 12 18
Bio
mas
s (m
g)
UnvegetatedVegetated
Time (months)
Microbial Analysis (Petroleum Degraders)Bedford Site
0
2
4
6
8
6 12 18
Log
CFU
UnvegetatedVegetated
Time (months)
Contaminant Analysis (PAHs)Bedford Site
0
100
200
300
0 6 12 18
Ant
hrac
ene
(mg/
kg) Unvegetated
Vegetated
Time (months)
Supporting Greenhouse StudyBedford Site
Soil cores were taken in the field and placed in the greenhouse.Trees (ash, poplar, and willow) were established in the columns with two takedowns (9 and 18 months).Water was added to the columns from the bottom to simulate field conditions.Contaminant concentrations, microbial characteristics, and toxicity was assessed.
0
2
4
6
8
Control Ash Poplar Willow
Treatment
log
(Pet
role
um D
egra
ders
)
9 months18 months
Microbial Analysis (Petroleum Degraders)Bedford Greenhouse Study
0
100
200
300
Napth. Phen. Chrys. Pyr. B[a]P
PAH
con
c. (m
g/kg
)
ControlAshPoplarWillow
Contaminant Analysis (PAHs)Bedford Greenhouse Study
Summary and OutlookPhytoremediation of Petroleum Contaminants
Phytoremediation of petroleum contaminated soils has been successfully tested in the field.The impact of vegetation is related to the aging of the contaminants.Petroleum contaminated soil does not appear to be toxic to plants or invertebrates.PAH degradation parallels remediation of total petroleum hydrocarbons.The success of phytoremediation is closely related to the ability of roots to explore the soil.