risky business? growing food crops on ......soils >200-250mg/kg: lead conc. in root crops above...
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RISKY BUSINESS? GROWING FOOD CROPS ON BROWNFIELD
SITES
Sabine Martin, Ph.D., P.G. CTOR Solutions
KS Environmental Conference, 2015
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FOOD DESERTS IN THE U.S.
http://www.ers.usda.gov/data-products/food-access-research-atlas/go-to-the-atlas.aspx
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SMALL SCALE FOOD PRODUCTION TRENDS
USDA updated 8-14-14
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MOST COMMON CONTAMINANT IN URBAN ENVIRONMENT
Lead • Lead based paint, automobile exhaust, waste oil • Lead levels of 200-300mg/kg are common in urban
soils
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OUR PROJECT (FUNDED BY EPA)
Work with select community–based gardening initiatives to evaluate uptake of heavy metals and other contaminants by food crops, and develop recommendations for seedbed preparation and corrective/protective action to address contaminants.
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7 test sites across the USA: Kansas City, MO; Tacoma, WA, Seattle, WA; Indianapolis, IN; Pomona, CA; Philadelphia, PA; Toledo, OH
Site Selection Criteria
• Brownfields site
• About 2,000ft2
• Intended for community gardening activities
K-State Project: Gardening Initiatives at Brownfields Sites
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PROCESS • Establish site history
• Collect soil samples
• Establish test plot
• Continuous monitoring for 2 growing seasons, soil and produce sampling
• Best management practices (adding soil amendments, raised beds)
• Training and technical assistance to participating organizations (sample collection, site eval., etc.) throughout
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Size ~ 138 ft. x 121 ft.
The site was screened in situ, appr. every 20 ft., for trace elements using an x-ray fluorescence spectrometer (XRF)
Result: moderately elevated Pb concentrations
Silt loam (Sand-4%, Silt-75%, Clay-21%)
Example Site 1: Kansas City, MO
Soils were also tested for chlordane
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Chlordane - n.d. DDT- 0.04 mg/kg to 1.3 mg/kg DDE - only detected in two of the submitted samples (0.03, 0.04 mg/kg)
Soil Lead Distribution Map
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Sample ID pH Mehlich-3 P Ext. K NH4-N NO3-N OM ---------------------- mg/kg ----------------------- %
9S 6.6 130 624 53.6 73.2 3.9
9D 6.6 93 455 9.6 35.1 3.4
21S 7.2 116 417 11.8 22.7 3.0
21D 7.2 123 221 9.3 15.0 3.1
26S 7.8 57 255 8.3 4.3 1.5
26D 7.6 80 260 8.2 2.2 1.1
39S 6.9 154 488 15.0 24.2 4.7
39D 6.9 149 334 9.6 13.3 3.3 S = 0-15 cm D = 15-30 cm Texture: Silt loam with 21% clay
Selected Soil Properties
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April 2010
June 2010
Treatments: No compost and compost @ ~25 kg/m2 (5.12 lbs/ft2)
Crops: Swiss Chard Carrots Tomato
Test Plot - 2010
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KANSAS CITY, MO SITE
Plot # Total Soil Pb (mg/kg)
Prior to Compost Addition After Compost Addition
1 289 203 2 255 120 5 253 146 8 186 114 Average 246 146
Contaminant Dilution through Compost Addition
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0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
Compost * No compost **
Lab cleaned Kitchen cleaned
CODEX MCL – 5.0 mg/kg-DW #
Pb c
once
ntra
tion
(mg/
kg-D
W)
b
a b
a
p<0.05 (split plot design, 4 blocks) *,** between two categories a, b- within a category
Treatment Soil Pb (mg/kg)
No compost 128-348
Compost 101-256
# CODEX MCL (FAO/WHO) - 0.3 mg/kg fresh wt. basis (94% moisture)
Compost – 59 %
Lab cleaning- ~ 67 %
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Lab cleaned kitchen cleaned
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
Compost * No compost *
CODEX MCL – 1.6 mg/kg-DW #
Pb co
ncen
trat
ion
(mg/
kg-D
W)
a
a
b Treatment Soil Pb (mg/kg)
No compost 143-271
Compost 122-193
p<0.05 (split plot design, 4 blocks) *,** between two categories a, b- within a category
# CODEX (FAO, WHO) - 0.1 mg/kg fresh wt. (94% moisture)
Lab cleaning- ~ 61-78%
b
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Lead Concentration in Carrots Lab cleaned Kitchen cleaned Peeled
0.0
0.5
1.0
1.5
2.0
2.5
Compost * No compost **
Pb c
once
ntra
tion
(mg/
kg-D
W) CODEX MCL- 1.5 mg/kg-DW #
a a a a
a a
Compost- ~ 20 %
Treatment Soil Pb (mg/kg) No compost 154-388
Compost 119-161
p<0.05 (split plot design, 4 blocks) *,** between two categories a, b- within a category
# CODEX (FAO, WHO) - 0.1 mg/kg fresh wt. (93% moisture)
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Element Concentration in soil (mg/kg)
As 17- 162
Pb 17- 427
Texture: Sandy loam
Size: 141 ft. x 78ft.
Example Site 2
Tacoma, WA
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Tacoma, WA- Community Garden
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Low to medium available N, P and K in soils Treatments: No compost and compost @ ~28 kg/m2
Crops: Lettuce, Carrots, Tomatoes
Test Plots - Tacoma, WA (2010)
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Lime+ Tagro added
Control
Lead uptake by tested vegetable types was similar compared to other test sites.
Tacoma, WA - Test Plots
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Arsenic in Lettuce
Vertical bars represents the means of four replicates
2010 2011
As
Con
cent
ratio
n, (µ
g/kg
) - D
W
Control Tagro + Dol.0
500
1000
1500 Kitchen Cleaned Lab Cleaned
a bba
*
MCL: ~ 1800 µg/kg
*
Soil As:51-146 mg/kg
*Control Tagro + Dol.0
500
1000
1500 Kitchen Cleaned Lab Cleaned
As
Con
cent
ratio
n, (µ
g/kg
) - D
Wa
aa
a
MCL: ~ 1800 µg/kg
*
Soil As:43-103 mg/kg
*
* MCL- Estimated using daily reference dose limit
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Arsenic in Tomatoes
2010 2011
As
Con
cent
ratio
n, (µ
g/kg
) - D
W
* * *Control Tagro + Dol. 0
100
200
300
400
500Lab Cleaning
ba
Soil As:26-76 mg/kg
MCL: ~ 1800 µg/kg
Control Tagro + Dol.0
100
200
300
400
500Lab Cleaning
As
Con
cent
ratio
n, (µ
g/kg
) - D
W
b
a
Soil As:37-97 mg/kg
* * *
MCL: ~ 1800 µg/kg
Vertical bars represents the means of four replicates
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2010 2011 Control Tagro + Dol.
As
Con
cent
ratio
n, (µ
g/kg
)
0
500
1000
1500Kitchen Cleaned Lab Cleaned Peeled
a aa
ab b
* *
*MCL: ~ 1800 µg/kg
Soil As:48-136 mg/kg
Control Tagro + Dol.
As
Con
cent
ratio
n, (µ
g/kg
)0
500
1000
1500 Kitchen Cleaned Lab Cleaned Peeled
a aa
a
*
b
*
b
MCL: ~ 1800 µg/kg
Soil As:39-98 mg/kg
Arsenic in Carrots
Vertical bars represents the means of four replicates
* MCL- Estimated using daily reference dose limit
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Lead = 437- 513 mg/kg Arsenic = 23 - 84 mg/kg Polycyclic Aromatic Hydrocarbons = 107 mg/kg Texture: Sandy loam
Example Site 3: Monon Site, IN
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# of rings PAH Range in test plots
(ppm) Tomato and Carrot
(ppm) 2 Naphthalene <0.4-1.4 < 0.01 3 Acenaphthylene <0.4-2.4 < 0.01 3 Acenaphthene <0.4-0.8 < 0.01 3 Fluorene <0.4-0.8 < 0.01 3 Phenanthrene 6.8-5.6 < 0.01 3 Anthracene 0.5-4.5 < 0.01 4 Fluoranthene 1.6-1.4 < 0.01 4 Pyrene 1.5-1.2 < 0.01 4 Chrysene 1.4-10.4 < 0.01 4 Benzo (a) anthracene 1.1-8.2 < 0.01 5 Benzo(b)fluoranthene 2.6-18.7 < 0.04 5 Benzo(k)fluoranthene <0.4-6.0 < 0.04 6 Indeno(1,2,3-cd)pyrene 1.1-6.8 < 0.04 6 Benzo(g,h,i)perylene <2.2-7.2 < 0.04 5 Benzo(a)pyrene 1.4-9.9 < 0.10 5 Dibenz(a,h)anthracene <0.4-2.3 < 0.10
PAHs in Soils and Vegetables- 2011
Toxi
city
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• Potential exposure pathway of concern = direct soil exposure: Soil → Human
• Soil → plant → Human “Non-significant”
• Contaminants were consistently diluted by compost addition
• In general, concentrations of Pb, As, Cd and PAHs in vegetables from test sites were low
• Thorough cleaning of vegetables further reduced the potential of transferring soil contaminants to humans via vegetable consumption
• Root crops will be affected by elevated levels of Pb in soils
• Soil lead on test sites ranged from 100mg/kg to 2,000mg/kg
Summary
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SUMMARY, CONT.
• Soil lead conc. in sandy, moderately acidic soils >200-250mg/kg: lead conc. in root crops above WHO/FAO MCL (1 -1.5 mg/kg dry weight)
• Soil lead in non-sandy soils, +/- neutral pH, Pb ranging from about 250mg/kg to 400 mg/kg: roots crops ok
• Bioaccessible lead and arsenic in soils tested were low
• Arsenic uptake was always low and below WHO/FAO MCLs (As conc. in soils ranged from 50-130mg/kg
• PAH uptake by vegetables was low or non-detect with PAH conc. in soils up to 107 mg/kg
• Cadmium conc. in soils >20mg/kg: Cd in leafy vegetables above WHO/FAO MCL (4mg/kg dry weight basis)
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SOIL QUALITY ISSUES IN URBAN SOILS
• Nutrient Status inadequate in urban soils • Soil pH • Organic matter content low in urban soils • Soil type (clayey vs sandy soils) • Soil Compaction yes • Soil Chemistry an issue in urban soils
• Toxicity of soil contaminants (metals) • Excess Na (phyotoxic) • Excess salts (phytotoxic)
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COMPACTION
Reduces soil porosity • Air movement and root penetration are restricted • Water runs off or ponds instead of infiltrating • Roots grow sideways instead of downward • Remedies: Tilling and addition of compost (Organic matter binds metals (reduces their bioavailability))
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NUTRIENT STATUS
• Nutrient status: N, P, K • Nitrogen: healthy leaf and stem growth • Phosphorus: important for root growth, flower
production, binds metals (reduces bioavailability)
• Potassium: overall plant health
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• Measure of soil acidity or basicity/alkalinity • Has a great impact on numerous soil chemical reactions Example: adsorption Low soil pH means: higher mobility of cationic metals lower mobility of anions
pH
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ORGANIC MATTER • Enhances soil color • Improves soil structure • Improves soil drainage and aeration (clayey
soils) • Retains Water (sandy soils) • Provides soil nutrients • Encourages microbial activity • Binds contaminants, reduces bioavailability • Ideal OM content depends on soil type Below 1-3 % OM can be considered as low
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Clayey Soil and Zinc
Courtesy of CSIRO, Land & Water, Australia
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Sandy Soils and Zinc
Courtesy of CSIRO, Land & Water, Australia
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Addition of Soil Amendments Can Reduce Contaminant Bioavailability
Metal contaminated
soils- unamended
With Lime
With Beringite- modified
aluminosilicate
With Red Mud Fe oxide rich residue
Bioavailability: the fraction of the chemical(s) of concern in soil that is accessible to an organism (human or plants) for absorption
Courtesy of CSIRO, Land & Water, Australia
Same contaminated soil, different soil amendments, different effects
Addition of Soil Amendments Can Reduce Contaminant Bioavailability
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Mehlich-3 extractable P (mg/kg)
Swis
s Cha
rd P
b (µ
g/kg
)
0
200
400
600
800
1000
0 100 200 300 400 500 600
CompostNo compost
Swiss Chard Pb versus available P in Soils (Wash. Wheatley, Kansas City, MO)
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USE OF SOIL AMENDMENTS
The Use of Soil Amendments for Remediation, Revitalization, and Reuse, EPA 542-R-07-013, 2007
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CROP SELECTION
• Root crops vs leafy and fruit bearing vegetables
• Root crops take up more metals compared to leafy and fruit bearing crops
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• Till and add compost to mitigate compaction • Add compost/biosolids to improve soil structure,
mitigate compaction, to provide nutrients and to reduce bioavailability of metals
• Add lime or acidulating materials to adjust pH to reduce bioavailability of metals
• Maintain optimum nutrient levels - provide P to reduce bioavailability of metals
• Select suitable crop types
BMPs
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CONTACT INFORMATION Dr. Sabine Martin CTOR Solutions & KSU
Dept. of Agronomy 785-587-0136 [email protected] [email protected]
Dr. Ganga Hettiarachchi Dept. of Agronomy Kansas State University 785-532-7209 [email protected]
http://www.gardeningonbrownfields.org
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• Co-PI Dr. Ganga Hettiarachchi (and other investigators)
• Graduate students: Chammi Attanayake, Phillip Defoe
• Jake Wagner (UMKC); Chris Benedict (WSU); Kristen McIvor (UW); Ginny Roberts (Purdue Extension); Monica Palomo (Cal Poly); Mary Seaton Corboy (Greens Grow- Philly); Michael Szuberla & Karen Wolkins (Toledo Botanical Gardens)
• Regional brownfields offices, EPA Region III, V, and VII
Collaborators
Contributors