after 25 year exposure modeling - contaminated-sites.sazp.sk file28 mai 2015 after 25 year exposure...
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28 Mai 2015
After 25 year exposure modeling: similar model structures, different exposures
Frank A. Swartjes
International Conference Contaminated Sites 2015, Bratislava
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28 Mai 2015 2
OUTLINE
Introduction Exposure models Major exposure pathways
Exposure comparison
Good practice
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28 Mai 2015 3
CHEMICAL BODY LOAD Chemical footprint of past exposure
Environment, diet, water, air, indoors
Lead from geological sources in tooth enamel
of 77 UK individuals from the Neolithic Era (circa 5000 years ago) until 16th century
(Budd et al., 2004)
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28 Mai 2015 4
WHAT’S THE PROBLEM? Health damage from contaminants from soil and groundwater:
From relatively innocent
symptoms (e.g. skin eruption or nausea)
Up to increased risk for cancer or even death
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5
28 Mai 2015
18 out of 28 EU Member States: risk-based SSVs, incl. H Health
Risk-based SSVs
=
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6
28 Mai 2015
5 (2 EU) in development (20 out of 28 EU Member States)
SSVs in develop-ment
=
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28 Mai 2015 7
ASSESSMENT FRAMEWORK (US National Research Council 1983)
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28 Mai 2015 8
OUTLINE
Introduction
Exposure models Major exposure pathways
Exposure comparison
Conclusions
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28 Mai 2015 9
EXPOSURE CALCULATIONS
Worldwide several exposure models available
Basically same structure
Different boundary conditions and input
parameters
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10
CLEA
NoName France
NoName Sweden
Risk-net
S-Risk
JAGG NMF
CSOIL
UMS
LUR
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concentration in SOIL AIR
distributionover
soil compartments
transfer-processes
directexposure
indirectexposure
Ingestion of, inhalation of,dermal uptake from
SOIL/ DUST (PARTICLES)
Inhalation of,dermal uptake of
AIR
consumption of DRINKING WATER,dermal contact, inhalation when
SHOWERING
consumption of(ROOT and LEAFY)
VEGETABLES
representativeSOIL CONCENTRATION
transport toSOIL SURFACE
transport toGROUNDWATER
Uptake by/ Deposition on VEGETABLES
permeation intoDRINKING WATER
transport toAQUIFER
Concentration in (root and leafy)
vegetables
concentration inPORE WATER
Concentration inINDOOR and
OUTDOOR AIR
DUTCH CSOIL EXPOSURE MODEL
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28 Mai 2015 12
DIFFERENCES EXPOSURE MODELS structure < compound-specific properties < human characteristics < physical-chemical processes < human behaviour < geological factors (soil/water) < climatic/ cultural factors < policy decisions
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28 Mai 2015 13
OUTLINE
Introduction
Exposure models Major exposure pathways
Exposure comparison
Good practice
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Pathways Routes of exposure
Soil > Outdoor Outdoor: soil ingestion
Outdoor: dermal exposure to soil
Outdoor: inhalation of soil vapors
Outdoor: inhalation of soil derived dust
Outdoor: inhalation of volatilized irrigation water
Soil > Indoor Indoor: dust ingestion
Indoor: dermal exposure to soil derived dust
Indoor: inhalation of soil originated vapors
Indoor: inhalation of volatilized domestic water
Soil > Diet Res. diet: uptake of homegrown vegetables
Res. diet: Ingestion of soil attached to vegetables
Res. diet: uptake of homegrown fruits
Res. diet: ingestion of soil attached to fruits
Res. diet: consumption of meat
Res. diet: consumption of diary products
Groundwater Resident diet: consumption of groundwater
Indoor: inhalation of groundwater vapors
Showering
Irrigation
Surface water dermal contact surface water (swimming)
ingestion surface water (swimming
ingestion suspended matter (swimming)
Surface water consumption of fish and shellfish
EXPOSURE PATHWAYS (Carlon and Swartjes 2007)
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28 Mai 2015 15
EXPOSURE THROUGH SOIL INGESTION
Soil and dust ingestion rates
Soil and dust concentrations
Body weight
Relative bioavailability correction
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28 Mai 2015 16
SOIL AND DUST INGESTION RATES Tracer studies (e.g. Al, Si, Ti, Y in faeces (and
urine))
Hand-loading studies (video, real-time observation)
(Biokinetic models)
(Lead isotope methodology) (Bierkens et al., 2011)
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SOIL INGESTION RATES
Children: consensus
Adults: debate
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28 Mai 2015 18
SOIL AND DUST INGESTION RATES Soil and dust combined, children: Tracer studies: 31 – 195 mg/day
(e.g., Stanek et al 2001; Sedman and Mahmood 1994)
100 mg/day (soil and dust combined)
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28 Mai 2015 19
SOIL AND DUST INGESTION RATES Soil and dust combined, adults: Tracer studies: 23 - 92 mg/day (e.g., Davis and Mirick 2006)
0 – 50 mg/day
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28 Mai 2015 20
(SOIL-BORNE) DUST EXPOSURE
Crawling children
Enrichment in fine particles
Settled house dust principle exposure medium
for lead of children (Lanphear 2003)
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28 Mai 2015 21
BIO-AVAILABILITY IN THE HUMAN BODY
Controlling factors: Concentration is soil, pH in
stomach (hence: feeding conditions), soil matrix
(Speciation, soil type, soil
properties) (Oomen en et al., 2002)
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BIO-AVAILABILITY IN THE HUMAN BODY
The Bioaccessibility Research Group of Europe www.bgs.ac.uk/barge
Unified BARGE method (UBM) (Wragg 2009; Denys et al., 2012; Bakker et al., in press)
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28 Mai 2015 23
EXPOSURE THROUGH VEGETABLE CONSUMPTION
Vegetable consumption rates
Contribution from own garden
Concentration in crops
Body weight
Relative bioavailability correction
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28 Mai 2015 24
CONTRIBUTION FROM OWN GARDEN No decent statistics
Policy decision: x% should
be possible
Depending on land use
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ACCUMULATION CROPS: METALS
beet
root
pota
to
leek
onio
n
r&w
cab
bage
frenc
h be
ans
tom
ato
endi
ve
lettu
ce
caul
iflow
er
carr
ot
radi
sh
spin
ach
tota
l
As
Pb
Hg Cd
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THREE STEP PROCEDURE
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Speciation in soil
Effective Pore water
concentration
Plant root uptake
Concentration plant roots
Transport within the plant
Concentration edible plant
parts
Total soil
concentration
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CALCULATION METALS
Commonly used: constant BCF for a specific metal
For all crops
Independent of concentration in soil
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RIVM DATASET Cu (n = 46)
0
0,2
0,4
0,6
0,8
1
1,2
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45
Potatoes, cauliflower, cabbage, carrot, lettuce,
beans pH = 4.9 – 8.4; %OM = 0.19-0.57
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28 Mai 2015 29
SOIL – PLANT RELATIONS Cd
R2 = 0.43 (Swartjes et al. 2007)
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CALCULATION METALS (Swartjes et al 2013)
Concentration for each vegetable = f (Concentrationsoil, pH, %OM, %clay)
For each vegetable
Consumption-rate-weighted-BCF
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CALCULATION ORGANIC CONTAMINANTS
Concentration in roots = f (BCFcrop-water, Cpore water )
Concentration in leafy vegetables = f (transpiration stream, Cpore water )
air diffusive exchange
soil water
translocation
eliminationgrowth dilution
(Trapp and Legind 2011)
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28 Mai 2015 32
EXPOSURE DUE TO INHALATION INDOOR AIR
Convection and diffusion in
groundwater and soil Intrusion into buildings Ventilation Degradation ⇒ Complicated/ Relatively unreliable
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28 Mai 2015 33
LIMITATIONS Abreu & Johnson (2005/2006):
position of groundwater plume/ diffusion obstacles/ preferential flow
(α 2-5 OoM 20 m shift)
Picone (2012). Distribution of water in soil profile (oxygen supply)/ degradation (several OoM)
Provoost (2013). Henry coefficient/ overestimation
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28 Mai 2015 34
VALIDATION STUDY 7 VAPOR INTRUSION MODELS – INDOOR AIR
(Provoost et al. 2009)
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28 Mai 2015 35
OUTLINE
Introduction
Exposure models Major exposure pathways
Exposure comparison
Good practice
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28 Mai 2015 36
EXPOSURE MODEL COMPARISON STUDY (Swartjes 2009) 7 exposure models
40 hypothetical exposure scenario’s: ● compounds (atrazine, benzene, Cd, B(a)P, TCE) ● soil types ● land use ● Standardised IP/ ‘Model specific’ IP
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SOIL INGESTION
0,0
5,0
10,0
1 2 3 4 5 6 7
Cd, Res, clay, stand. inputs
0,0
2,5
5,0
1 2 3 4 5 6 7
Benzene, Ind, sand, m.-sp. inputs
Exposure adults (mg/ kgBW/day):
x 106 (left) / x 107(right)
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VEGETBALE CONSUMPTION Exposure adults (mg/ kgBW/day):
x 106 (left) / x 104(right)
0
1000
2000
3000
1 2 3 4 5 6 7
Cd, Res, clay, stand. inputs
0
20
40
1 2 3 4 5 6 7
Benzene, Res, sand, m.-sp. inputs
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VEGETBALE CONSUMPTION Exposure adults (mg/ kgBW/day):
Log transformed
-6
-5
-4
-3
-2
-1
01 2 3 4 5 6 7
Cd, Res, clay, stand. inputs
-4
-3
-2
-1
01 2 3 4 5 6 7
Benzene, Res, sand, m.-sp. inputs
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INDOOR AIR INHALATION Exposure adults (mg/ kgBW/day):
Log transformed
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28 Mai 2015 41
OUTLINE
Introduction
Exposure models Major exposure pathways
Exposure comparison
Good practice
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ACTING SMART Multiple lines of evidence
Combination between calculations and
measurements (contact media)
Tiered approaches
Experience & creativity 28 Mai 2015
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TIME FRAME
Biomonitoring: exposure history
Measurements in contact media: actual values only
Exposure modelling: future conditions
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ACKNOWLEDGEMENT OF LOCAL CONDITIONS
Groundwater tables/ design houses VERSUS risk of indoor air inhalation
Vegetable uptake under tropical conditions (Dos Santos et al., in press; Sao Paulo) (Jing et al., in press; SW China)
Geophagy in South Africa (e.g., Eijsackers et al., 2014)
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PDF HH SCREENING VALUE LEAD variation due to contaminant characteristics
Frequency Chart
mg/kg
.000
.010
.019
.029
.038
0
48
96
144
192
6.46E-1 7.91E+2 1.58E+3 2.37E+3 3.16E+3
5,000 Trials 0 Outliers
Forecast: SRC human
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HARMONIZATION
One set of SSVs? No!!
The same blueprint? No!
→ Toolbox, including • standardised tools • flexible tools 28 Mai 2015
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FLEXIBLE TOOLS
Accounting for differences in: Geography
Culture/ social aspects
Policy decision making
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NOT ENOUGH? (Swartjes 2015)
Human health risk assessment related to contaminated land: State of the art
28 Mai 2015