Soil Sorconinq
Attachment 4-1
Guidance for Developing Ecological
Soil Screening Levels (Eco-SSLs)
Exposure Factors and Bioaccumulation Models for Derivation of
Wildlife Eco-SSLs
OSWER Directive 9285.7-55
Issued November 2003
Revised February 2005
Revised April 2007
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TABLE OF CONTENTS
1.0 INTRODUCTION 1 - 1
1.1 Basic Equations 1-1
1.2 Dealing with Variability 1 -2
2.0 CALCULATION OF GROUP-SPECIFIC ECO-SSLs 2- 1
2.1 Food Ingestion Rate (FIR) 2- 1
2.2 Soil Intake (Ps) 2-2
3.0 ESTIMATINGBIOACCUMULATION 3 - 1
3.1 Uptake of Inorganics 3-1
3.1.1 Antimony 3-1
3.1.2 Beryllium 3 -2
3.1.3 Barium 3 -2
3.1.4 Nickel 3 -2
3.2 Uptake of Non-Ionic Organics 3-3
3.2.1 Plants 3 -4
3.2.2 Earthworms 3-5
3.2.3 Small Mammals and Birds 3-7
3.3 Uptake of Pentachlorophenol 3-7
3.3.1 Plants and Earthworms 3-8
3.3.2 Small Mammals 3 -8
4.0 REFERENCES 4-1
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FIGURES
Figure 1 Uptake of Antimony from Soil into Plant Foliage
Figure 2 Uptake of Beryllium from Soil into Plant Foliage
Figure 3 Correlation of Soil to Plant Tissue Concentrations for PAHs in Unrinsed (Panel
A) and Rinsed (Panel B) Plant Foliage
Figure 4 Uptake of PAHs from Soil into Plant Foliage - Low versus High Molecular
Weight PAHs
Figure 5 Correlation of log Kow with log BAF for Non-Ionic Organics in Unrinsed (Panel
A) and Rinsed (Panel B) Plant Foliage
Figure 6 Uptake of DDT, ODD and DDE from Soil by Soil Invertebrates
Figure 7 Uptake of Dieldrin from Soil by Soil Invertebrates
Figure 8 Concentration of DDT, DDD and DDE in Diet versus Mammals and Birds
Figure 9 Concentration of Dieldrin in Diet versus Mammals and Birds
Figure 10 Uptake of Pentachlorophenol from Soil into Soil Invertebrates
TABLES
Table 1 Food Intake Data for Surrogate Species
Table 2 Input Parameters for the Estimation of Soil Ingestion Rate
Table 3 Estimated Distribution of Ps Values
Table 4a Uptake Equations for Inorganics
Table 4b Uptake Equations for Non-Ionic Organics
Table 4c Uptake Equations for Pentachlorophenol
Table 5 Estimation of Soil to Earthworm Bioaccumulation Factors for Non-Ionic Organic
Contaminants
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APPENDICES
Appendix A Bioaccumulation Data for Antimony and Beryllium in Plants
Appendix B Bioaccumulation Data for Non-Ionic Organic Contaminants in Plants
Appendix C BAFs and Regression Equations for the Uptake of Non-Ionic Organic
Contaminants into Plant Foliage
Appendix D Bioaccumulation Data for DDT, DDD and DDE
Appendix E Bioaccumulation Data for Dieldrin
Appendix F Bioaccumulation Data for Pentachlorophenol
in
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1.0 INTRODUCTION
1.1 Basic Equations
As discussed in Chapter 4 of the Eco-SSL guidance, wildlife receptors may be exposed to
contaminants in soil by two main pathways: incidental ingestion of soil while feeding, and
ingestion of food items that have become contaminated due to uptake from soil. The general
equation used to estimate the risk from exposure via these two pathways is:
Equation 4-2
where:
HQj = Hazard Quotient for contaminant (j) (unitless)
Soilj = Concentration of contaminant (j) in soil (mg/kg dry weight)
FIR = Food intake rate (kg of food [dry weight] per kg body weight per day)
Ps = Proportion of total food intake that is soil (kg soil/kg food)
By = Concentration of contaminant in biota type "i" (mg/kg dry weight)
TRVj = Toxicity Reference Value for contaminant (j) (mg chemical/kg body
weight per day)
As described in Chapter 4, the concentration of contaminant (j) in biota or food type type (i) (By)
was related to the concentration in soil (Soilj) by an uptake model which has one of the following
forms:
Case 1) By = BAFy * Soilj (constant)
Case 2) ln(By) = I;j + S;j * In(Soilj) (log-linear)
Case 3) B;j = I;j +S;j * Soilj (linear)
where:
BAFy = Soil-to-biota Bioaccumulation factor (BAF) for contaminant (j) for biota
type (i)
Iy = Intercept from bioaccumulation model for contaminant (j) for food type (i)
Sy = Slope from bioaccumulation model for contaminant (j) for food type (i)
In instances where it was necessary to estimate small mammal tissue concentrations (B;) based
on dietary based BAFs or regressions, the uptake model may have one of the following forms:
Case 4) B;j = Cdiet * BAF
dm
Eco-SSL Attachment 4-1 1-1 April 2007
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Case 5) ln(B;j) = I;j + S;j *
Case 6) B;j = I;j + S;j * Cdiet
where:
BAFdm = Diet-to-biota BAF for contaminant (j) in mammal or bird tissue
By = Concentration of contaminant (j) in food type (i) (where i = small
mammal)
Cdiet = Concentration of contaminant (j) in diet where diet is 100% earthworms
estimated as in Case 1, 2 or 3, above.
Given appropriate input values for TRY, FIR, Ps, and B;, Eco-SSLs are calculated by solving the
equation above to find the soil concentration (Soilj) that corresponds to an HQ value of 1.
1.2 Dealing with Variability
In the equations above, most of the input terms are not constants but are variables whose values
differ between different individuals within a species and between different species. As discussed
in Section 4, the basic strategy used to deal with this variability is as follows:
Divide wildlife receptors into six groups:
1. Mammalian herbivores
2. Mammalian carnivores
3. Mammalian insectivores
4. Avian granivores
5. Avian carnivores
6. Avian insectivores
For each group of receptors, calculate a group-specific Eco-SSL based on exposure
parameters for a surrogate species that is expected to be at the high end (most exposed) of
the exposure distribution for the group, and a TRY that is expected to be at the low end
(i.e., most sensitive) of the toxicity distribution for the group. Because the surrogate
species is at the high end of the exposure distribution for the group and the TRY is at the
low end of the distribution for the group, the species-specific Eco-SSL is expected to
provide a high degree of protection to nearly all members of the group.
Select the lowest group-specific Eco-SSL as the final Eco-SSL. This is expected to
provide protection to nearly all types of wildlife (birds and mammals) receptors.
Eco-SSL Attachment 4-1 1-2 April 2007
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2.0 CALCULATION OF GROUP-SPECIFIC ECO-SSLs
As discussed in Section 4.2 of the Eco-SSL guidance, a surrogate species was selected to
represent each group of wildlife receptors. The choice of surrogate species was based on a
consideration of body weight (a low body weight is associated with high food intake per unit
body weight) and behavior (dietary sources, amount of soil ingested). The surrogates selected
are summarized below:
Group
Mammalian herbivores
Mammalian carnivores
Mammalian insectivores
Avian granivores
Avian carnivores
Avian insectivores
Surrogate Species
Meadow vole
Long-tailed weasel
Short-tailed shrew
Mourning dove
Red-tailed hawk
American woodcock
As noted above, calculation of an Eco-SSL for a surrogate species representing each group
requires input on four variables:
TRY
Food Intake Rate (FIR)
Proportion of total food intake that is soil (Ps)
Concentration in Diet (B;)
Attachments 4-2 thru 4-4 of the Eco-SSL guidance document the details of the approach used to
derive the TRY for each group of receptors. The following sections detail the selection of the
most appropriate inputs for FIR, Ps, and dietary concentration for each selected surrogate
species.
2.1 Food Ingestion Rate (FIR)
Data on typical and high end food intake rate for each of the surrogate species were complied
from the Wildlife Exposure Factors Handbook (WEFH) (USEPA, 1993) and from other
available sources. These data are summarized in Table 1. Raw data reported in units of wet
weight (g wet wt/g bw/day) were converted to units of dry weight (g dw/g bw/day) using actual
dietary water content (if reported) or assumed water content for dietary items as provided in the
WEFH:
Eco-SSL Attachment 4-1
2- 1
April 2007
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Dietary Type
Plant Foliage
Earthworms
Seeds
Small Mammals
Water Content
85%
84%
9.3%
68%
In order to ensure that the Eco-SSL for each surrogate will protect most of the individuals within
the species, an effort was made to select a high-end point estimate of FIR for each species.
Depending on the data available from each study, the high-end was estimated either as the high-
end value reported in the study, by assuming the distribution of intakes was normal and by
calculating the 90th percentile (90th = mean + 1.282 stdev), or by assuming the high end was
1.25 times higher than the typical value. This is based on the observation that a typical
coefficient of variation (CV) for food intake is approximately 15-20% for birds and mammals
(Nagy, 2004)1. An evaluation of CVs for food intake across multiple bird and mammal species,
as calculated from data provided in the WEFH, also supports this estimate (USEPA, 1993).
Based on these alternative high-end estimates of FIR for each study in each surrogate species, a
point estimate of FIR was selected based on the arithmetic mean across all high-end estimates.
This final point estimate for each surrogate species is shown in the right-hand column of Table 1.
2.2 Soil Intake (Ps)
As noted above, ingestion of soil by wildlife species is usually estimated as a fraction of the
dietary food ingestion rate:
Soil Intake = Ps FIR
Beyer et al. (1994) estimated the value of Ps by measuring the ash content of diet and scat in a
number of different species, and calculating Ps using the following model:
Ps = (b - y + a-y) / (a-y - c + b)
where:
Ps = proportion of soil in diet (g soil per g dry mass)
a = digestibility of food (g absorbed per g dry mass ingested)
JCV = standard deviation/mean
Eco-SSL Attachment 4-1
2-2
April 2007
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b = concentration of acid-insoluble ash in food (g per g dry mass)
c = concentration of acid-insoluble ash in soil (g per g dry mass)
y = concentration of acid-insoluble ash in scat (g per g dry mass)
As above, in order to ensure that the calculation of the species-specific Eco-SSL is protective for
a majority of all individuals in the surrogate species, it is necessary to estimate a high-end value
for Ps for each surrogate species. This can be done by assigning a Probability Distribution
Function (PDF) to each of the variables in the equation above (a, b, c, y) and using Monte Carlo
simulation to estimate the 90th percentile of Ps. The distributions selected are summarized in
Table 2.
Correlations among parameters in the soil ingestion model are possible. For example, the
concentration of acid-insoluble ash in scat (y) is likely to be positively correlated with both ash
in food (b) and ash in soil (c). Similarly, digestibility of food (a) is likely to be inversely related
to both ash in food (b) and ash in scat (y). The potential importance of accounting for these
correlations was investigated by performing Monte Carlo analyses with and without assumed
correlations among variables, as follows:
Assumed Correlations
Pair
a and b
a and c
aandy
b andc
b andy
c andy
r
-0.8
0
-0.6
0
0.6
0.8
Comparison of distributions resulting from Monte Carlo analyses with correlated and
uncorrelated variables indicated no significant differences. Consequently, soil ingestion
distributions resulting from the uncorrelated Monte Carlo analyses were used. The results are
shown in Table 3. The 90th percentile value of the estimated distribution of Ps for each species
is selected as the most appropriate high-end point estimate value to use in the calculation of Eco-
SSL values.
Eco-SSL Attachment 4-1
2-3
April 2007
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3.0 ESTIMATING BIO ACCUMULATION
As noted in Section 1, different forms of uptake models were used to predict the concentration of
contaminants in dietary tissues as a function of the concentration in soil. Tables 4a to 4c
summarize the bioaccumulation equations for plants, earthworms, and small mammals which
were used for inorganics, non-ionic organics, and pentachlorophenol, respectively. A detailed
discussion of the derivation and selection of each of these models is presented in the following
subsections.
3.1 Uptake of Inorganics
Soil-to-biota bioaccumulation uptake equations, both as simple ratios (bioaccumulation factors
(BAFs)) or as regression equations, have recently been developed from published data for
earthworms, terrestrial plants, and small mammals, and are presented in Sample et al. (1999),
Sample et al. (1998a), Sample et al. (1998b), and Bechtel-Jacobs (1998). Bioaccumulation
equations presented in these reports were selected as the primary means for estimation of
concentrations of inorganic contaminants in wildlife dietary items. If both a chemical-specific
BAF and a chemical-specific regression equation were available for a given contaminant, the
regression equation was selected for application provided the equation was significant (i.e., the
slope differed significantly [p<0.05] from 0) and the coefficient of determination (R2) was
greater than or equal to 0.2. If these criteria were not met, the median BAF was used to estimate
bioaccumulation.
Table 4a summarizes the uptake equations that were used to estimate inorganic concentrations in
plants, earthworms, and small mammals for all inorganics on the initial Eco-SSL list. Soil-to-
biota bioaccumulation models were available from the sources referenced in the preceding
paragraphs with some exceptions. The following subsections describe the values selected for
antimony, beryllium, barium and nickel that could not be identified from the available sources.
3.1.1 Antimony
The available sources reviewed did not contain any bioaccumulation factors for antimony.
Based on limited data presented in Bechtel-Jacobs (1998) and a recently published study by
Baroni et al. (2000), a log-linear regression equation was developed for antimony uptake into
plants (Figure 1; Appendix A). Because no earthworm bioaccumulation data were located for
antimony, a default BAF of 1 was assumed.
Eco-SSL Attachment 4-1 3-1 April 2007
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Diet-to-biota factors (Ff) for cattle are provided in Baes et al. (1984). Use of uptake factors
specific for beef is not optimal for estimating uptake into small mammals; however, these values
are used where no other data were available. The BAF factors for antimony for small mammalian
prey species (e.g., mouse), are derived from the Ff values in Baes et al. (1984) as follows:
diet-to-beef = Ff (d/kg tissue) Food intake (kg food/day)
For cattle, the food (plant) intake rate assumed by Baes et al. (1984) was 50 kg/day. Thus:
BAF djet.to.beef 50 ' Ff
Combining this equation with the soil-to-plant BAF (or soil-to-diet BAF) yields:
RAT< = RAT< SO T<
0/vr soil-to-beef o/vr soil-to-diet Ju rf
3.1.2 Beryllium
The available sources reviewed did not contain any BAF values for the uptake of beryllium from
soils by plants or small mammals. Based on a limited review of literature information (search of
Toxline), a regression equation was developed for beryllium uptake into plants (Figure 2;
Appendix A). The uptake of beryllium from soils into small mammals was estimated using the
diet-to-biota factors (Ff) for cattle provided in Baes et al. (1984) as previously described for
antimony in Section 3.1.1.
3.1.3 Barium
The available sources reviewed did not contain any BAF values for the uptake of barium from
soils into small mammals. The uptake of barium from soils into small mammals was estimated
using the diet-to-biota factors (Ff) for cattle provided in Baes et al. (1984) as previously
described for antimony in Section 3.1.1.
3.1.4 Nickel
Between 1998 and 1999, authors (Sample et al., 1998b and Sample et al., 1999) attempted to
develop a regression model to predict the bioaccumulation of nickel from soil by earthworms.
Their analyses concluded that soil concentrations alone did not accurately predict nickel uptake
in earthworms. This conclusion was supported by the contradiction of other studies. Neuhauser
et al. (1995) indicated a significant positive relationship between soil nickel and concentrations
in earthworm tissues while studies by Abdul Rada and Bouche (1995) and Beyer et al., (1982)
indicate a negative relationship. An analysis of the Neuhauser et al. (1995) data combined with
Eco-SSL Attachment 4-1 3-2 April 2007
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data from other studies also shows a negative relationship (Sample et al., 1999). The authors
conclude that the uptake of nickel is influenced by pH but this factor did not completely explain
uptake and that more research is needed to understand the factors that influence
bioaccumulation. The overall conclusion was that an accurate regression model could not be
identified.
3.2 Uptake of Non-Ionic Organics
Soil-to-biota bioaccumulation uptake equations for earthworms, terrestrial plants, and small
mammals were not available from the literature. For the non-ionic organic chemicals on the
Eco-SSL contaminant of concern (COC) list (dieldrin, ODD, DDE, DDT, RDX, TNT and
polycyclic aromatic hydrocarbons (PAHs)), data were compiled from the literature and an uptake
value was derived.
A limited literature search was completed for bioaccumulation data (paired chemical
concentrations for soil and food type). This included paired data for soil-to-plant, soil-to-soil
invertebrate, soil-to-mammal, soil-to-bird, diet-to-mammal and diet-to-bird. The general search
process included the following steps:
1) Review of information from existing reports that collected bioaccumulation data. These
reports included Efroymson (1998), Sample et al. (1998a) and Sample et al. (1998b).
2) Review of existing soil screening level guidelines including the Canadian Soil Quality
Guidelines (CCME), and the Dutch Maximum Permissible Concentrations and
Negligible Concentrations.
3) Search of the World Wide Web. The Web was searched for information on
bioaccumulation in an attempt to identify other efforts to collect bioaccumulation data or
other regulatory uses of bioaccumulation data.
4) Literature searches were performed in the Colorado Alliance of Research Libraries, an
on-line computer system and through AGRICOLA, an on-line literature search engine.
Searches were conducted using different combinations of the following keywords:
bioaccumulation factor, bioaccumulation, bioaccumulate, bioaccumulative,
bioaccumulated, biomagnify, biomagnification, accumulate, accumulation, accumulated,
dieldrin, DDT, ODD, DDE, pentachlorophenol, and PAH.
5) Review of the literature identified in the search for toxicity data on wildlife (Attachment
4-1).
Eco-SSL Attachment 4-1 3-3 April 2007
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6) Chemical-specific observations of uptake of organic compounds from soil into plant
tissue were assembled based on a review of the literature cited in Travis and Arms
(1988).
7) In 2007, EPA completed the Eco-SSL document for PAHs and a decision was made to
derive Eco-SSLs for two groups of PAHs as low molecular weight PAHs with aromatic
rings of 3 or less and high molecular weight PAHs with aromatic rings of 4 or higher.
The data for uptake of PAHs from soils into plant foliage was then segregated into LMW
and HMW groups.
Table 4b summarizes the uptake equations for the non-ionic organic COCs on the initial Eco-
SSL list (RDX, TNT, DDT, dieldrin, and PAHs) that were used to estimate concentrations in
plants, earthworms, and small mammals. The following subsections provide a detailed
discussion of the derivation of these equations for plants, earthworms, and small mammals.
These subsections also serve as examples of how bioaccumulation can be evaluated for other
contaminants not on the initial Eco-SSL list. For any additional contaminants, bioaccumulation
data will be included in contaminant specific Eco-SSL documents.
3.2.1 Plants
Appendix B provides a summary of all the plant uptake data for non-ionic organic chemicals that
were compiled as part of the Eco-SSL effort based on a review of the literature search results.
Chemical-specific uptake data were used to derive an uptake equation for each Eco-SSL non-
ionic organic COC. First a chemical-specific regression was attempted relating the transformed
concentration in soil to the transformed concentration in plant. This regression is used to
estimate bioaccumulation if it was identified as significant (i.e., the slope differed significantly
[p<0.05] from 0) and R2 is greater than or equal to 0.2. If both of these criteria were not met, the
median BAF was used to estimate bioaccumulation. These analyses are provided in Appendix C
and the resulting uptake equations are summarized in Table 4b.
It was anticipated that the derivation of Eco-SSLs for PAHs would require the estimation of
PAHs as a total in plants. Figure 3 presents correlation figures for the uptake of PAHs into
unrinsed foliage (Panel A) and rinsed foliage (Panel B). The regression for rinsed foliage data is
significant while the regression for unrinsed foliage is not. Uptake into rinsed foliage was
considered appropriate for calculation of the Eco-SSLs as ingestion of soil particles or dust on
leaves is included in the fraction of exposure associated with incidental soil ingestion. The data
for uptake of PAHs from soils into plant foliage segregated into LMW and HMW groups are
plotted in Figure 4.
Eco-SSL Attachment 4-1 3-4 April 2007
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The procedures provided in the Eco-SSL guidance are intended to be transparent for potential
use in deriving Eco-SSLs for chemicals not on the initial Eco-SSL COC list. The use of
chemical-specific empirical data is preferred for estimating uptake, however if data are
unavailable then an inter-chemical extrapolation approach which relates log Kow to log BAF can
be used. Using this approach, a BAF (expressed as concentration in plant divided by the
concentration in soil on a dry weight basis) is estimated from the log Kow for the chemical of
interest. Based on the data collected and reviewed in Appendix B, Figure 5 presents equations
that can be used to predict a BAF based on the log Kow for non-ionic organic chemicals with log
Kow values ranging from 3 to 8. This method was used to estimate a BAF value for
acenaphthylene in Table 4b.
3.2.2 Earthworms
Uptake equations for non-ionic organic chemicals from soils into earthworm (soil invertebrate
tissue) are either derived from chemical-specific empirical data or estimated using models. In
the cases where empirical data were unavailable, uptake was estimated based on available
models.
Empirical Data
Appendix D and E provide compilations of the soil invertebrate uptake data for DDT, ODD,
DDE and dieldrin, respectively, compiled as part of the Eco-SSL effort. These chemical-specific
uptake data were used to derive an uptake equation for each chemical. First a chemical-specific
regression was attempted relating the transformed concentration in soil to the transformed
concentration in soil invertebrate. Uptake regressions for DDT and metabolites from soil into
soil invertebrates were derived for DDT, ODD and DDE separately and combined as provided in
Figure 6. The uptake regression for dieldrin from soil into soil invertebrates is provided as
Figure 7. The regression was used to estimate bioaccumulation if it is significant (i.e., the slope
differed significantly [p<0.05] from 0) and R2 is greater than or equal to 0.2). If both of these
criteria are not met, the median BAF is used to estimate bioaccumulation.
In cases where the back calculation of the Eco-SSL using the significant regression equations
resulted in soil concentrations (Eco-SSL values) lower than the range of data used to derive the
regressions, the median BAF was used to estimate bioaccumulation. This was the case for Total
DDT (DDT, ODD and DDE) and dieldrin. The resulting selected uptake equations are
summarized in Table 4b.
Eco-SSL Attachment 4-1 3-5 April 2007
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Models
Concentrations of non-ionic organic contaminants from soil into earthworms are assumed to be a
function of partitioning between soil pore water and the earthworm tissues (Connell and
Markwell 1990, Sample et al. 1997, Jager 1998):
where:
CWorm = concentration in worm (mg/kg dry weight)
Kww = biota to soil water partitioning coefficient (L soil pore water/kg ww tissue)
Cw = concentration in soil pore water (mg/L)
For lipophilic chemicals, K^ is a function of the octanol -water partition coefficient (Kow) and
the fraction lipid content of the organism. Jager (1998) derived the following regression
equation for K^ (L soil pore water/kg ww tissue) in earthworms based on data for 69 lipophilic
chemicals (with log Kow values ranging from 2 to 8):
log(Kww)= 0.87 log(Kow) -2.0
Kww (L soil pore water/kg ww tissue) was converted to L soil pore water/kg dw tissue by
assuming 16% solids and dividing Kww by 0.16.
The concentration of a chemical in soil pore water (Cw) is related to the concentration in soil as
follows:
Cw = Cs / Kd
where:
Cs = concentration in soil (mg/kg soil)
Kd = soil to water partitioning coefficient (L soil pore water / kg dw soil)
For non-ionic organic compounds, Kd may be estimated as:
Kd = foc ' Koc
where
foc = fraction of organic carbon in soil (kg organic carbon/kg soil)
Koc = soil organic carbon to water partitioning coefficient (L soil pore water / kg
organic carbon)
Eco-SSL Attachment 4-1 3-6 April 2007
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In cases where Kow but not Koc is available, the value of Koc can be estimated using the class-
specific models presented in Gerstl (1990). Table 5 provides a summary of the input parameters
used to calculate BAFs for the uptake of non-ionic organic chemicals from soil into earthworms.
3.2.3 Small Mammals and Birds
The uptake of non-ionic organic chemicals from soil into small mammals or birds was estimated
for the Eco-SSL COCs based on chemical-specific empirical data. Appendix D and E provide
respective compilations of the mammal and bird uptake data for DDT, ODD, DDE and dieldrin
compiled as part of the Eco-SSL effort. The data compiled represent the uptake of these organic
chemicals from the diet into either whole body or carcass tissues. These chemical-specific
uptake data were used to derive an uptake equation for each chemical. First a chemical-specific
regression was attempted relating the transformed concentration in diet to transformed
concentration in either bird or mammal carcass or whole body tissue. This regression was used
to estimate bioaccumulation if it was considered significant (i.e., the slope differed significantly
[p<0.05] from 0) and R2 is greater than or equal to 0.2. The uptake regressions for DDT from
diet into mammals and birds (DDT, and DDE separate and combined) are provided as Figure 8.
The uptake regression for dieldrin from diet into mammals and birds is provided as Figure 9.
In cases where the back calculation of the Eco-SSL using the significant regression equations
resulted in soil concentrations (Eco-SSL values) lower than the range of data used to derive the
regressions, the median BAF was used to estimate bioaccumulation. This was the case for Total
DDT (DDT, ODD and DDE) and dieldrin.
No suitable mammalian bioaccumulation data were located for PAHs, RDX or TNT. However,
due to the rapid metabolism of these compounds after ingestion by birds and mammals,
bioaccumulation is expected to be minimal.
3.3 Uptake of Pentachlorophenol
Pentachlorophenol (PCP) can exist in soil as either a non-ionic species or as an organic anion. In
the pH range relevant to most environmental scenarios, PCP can exist as both a neutral species
and as an anionic species; however, the primary form is as the organic anion (Lee et al., 1990).
The ionic form of PCP has a greater tendency relative to the neutral PCP to remain in the soil
pore water, similar to metal anions. Because of this, PCP was evaluated separately from the non-
ionic organic chemicals. Table 4c summarizes the uptake equations that were used to estimate
PCP concentrations in plants, earthworms, and small mammals for PCP. The following
subsections provide a detailed discussion of the derivation of these uptake equations.
Eco-SSL Attachment 4-1 3-7 April 2007
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3.3.1 Plants and Earthworms
Data on PCP uptake from soil into plants and earthworms were compiled from studies identified
as part of the literature search previously described. Appendix F provides a summary of the
bioaccumulation data for PCP in plants and earthworms. These data were used to derive an
uptake regression from soil to earthworm (Figure 10) and a median BAF for the uptake of PCP
from soil into plants (Appendix F).
In cases where the back calculation of the Eco-SSL using the significant regression equations
resulted in soil concentrations (Eco-SSL values) lower than the range of data used to derive the
regressions, the median BAF was used to estimate bioaccumulation. This was the case for PCP.
3.3.2 Small Mammals
No data were located on the uptake of PCP into small mammal tissues. However, a study by
Stedman et al. (1980) provides an uptake regression from diet into the chicken.
Cchicken = 0.00452-0^ + 0.198
where:
Qhicken = concentration in the chicken (mg/kg dw)
Cdiet = concentration in the diet of the chicken (mg/kg dw)
Assuming uptake into mammals is similar to that reported for chickens, and by assuming that the
diet of the chicken consists primarily of earthworms, this equation was used to estimate PCP
tissue concentrations in small mammals.
EPA has provided detailed bioaccumulation data and the derivation of uptake equations in this
Attachment for the subset of initial Eco-SSL COCs that are non-ionic and ionic organic
chemicals. Any additional bioaccumulation data used to derive Eco-SSLs should be summarized
and provided as part of the contaminant specific documents.
Eco-SSL Attachment 4-1 3-8 April 2007
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4.0 REFERENCES
Abdul Rada, A. M. M., and M. B. Bouche. 1995. Earthworm contribution to ecotoxicological
assessments. Acta ZoolPerm. 196:307-310.
Baes, C.F., R. Sharp, A. Sjoreen and R. Shor. 1984. A Review and Analysis of Parameters for
Assessing Transport of Environmentally Released Radionuclides through Agriculture.
Prepared by Oak Ridge National Laboratory for U.S. Dept. of Energy. 150 pp.
Barrett, G.W., and K.L. Stueck. 1976. Caloric ingestion rate and assimilation efficiency of the
short-tailed shrew, Blarina brevicauda. Ohio J. Sci. 76: 25-26.
Baroni F., A. Boscagli, G. Protano, and F. Riccobono. 2000. Antimony accumulation mAchillea
ageratum, Plantago lanceolata, and Silene vulgaris growing in an old Sb-mining area.
Environ. Poll 109: 347-352.
Bechtel Jacobs Company LLC. 1998. Empirical Models for the Uptake of Inorganic Chemicals
from Soil by Plants. Bechtel Jacobs Company LLC, Oak Ridge, Tennessee. BJC/OR-133.
Beyer, W. N., R. L. Chaney, and B. M. Mulhern. 1982. Heavy metal concentration in
earthworms from soil amended with sewage sludge. J. Environ. Qual. 11: 381-385.
Beyer, W. N., E. Conner, and S. Gerould. 1994. Estimates of soil ingestion by wildlife. J.
Wildl. Manage. 58:375-382.
Brown, J.H., and R.C. Lasiewski. 1972. Metabolism of weasels: the cost of being long and thin.
Ecology. 53: 939-943.
Connell, D. W. and R. D. Markwell. 1990. Bioaccumulation in the soil to earthworm system.
Chemosphere. 20(1-2): 91-100.
Craighead, J. C. and F. C. Craighead. 1956. Hawks, Owls and Wildlife. Harrisburg PA, the
Stackpole Co. and Washington DC Wildl. Manage Inst.
Dark, J., I. Zucker and G. Wade, 1983. Photoperiodic regulation of body mass, food intake,
and reproduction in meadow voles. Am. J. Physiology. 245: R334-R338
Duke, G. E., O. A. Evanson, and A. Jegers. 1976. Metal to pellet intervals in 14 species of
captive raptors. Comp. Biochm. Physiol. 43 A: 1-6.
Eco-SSL Attachment 4-1 4-1 April 2007
-------�
Fagerstone, K.A. 1987. Black-footed ferret, long-tailed weasel, short-tailed weasel and least
weasel. In: Wild Fur Bearer Management and Conservation., Novak et al., Ontario
Ministry of Natural Resources.
Gerstl, Z. 1990. Estimation of organic chemical sorptionby soils. J. Contain. Hydrology. 6:
357-375.
Hanson, H. C. and C. W. Kosssack. 1957. Methods and criteria for aging incubated eggs and
nestlings of the Mourning dove. Wilson Bulletin. 69(1): 91-101.
Innes D.G.L., and J.S. Millar. 1981. Body weight, litter size, and energetics of reproduction in
Clethrionomys gapperi andMicrotuspennsylvanicus. Can. J. Zool. 59: 785-789.
Jager, T. 1998. Mechanistic approach for estimating bioconcentration of organic chemicals in
earthworms. Environ. Toxicol. Chem. 17: 2080-2090.
Lee, L. S., P. S. C. Rao, P. Nkedi-Kizza, and J. J. Delfmo. 1990. Influence of solvent and
sorbent characteristics on distribution of pentachlorophenol in octanol-water and soil-
water systems. Environ. Sci. Tech. 24: 654-661.
Morrison, P.R., M. Pierce, and F.A. Ryser. 1957. Food consumption and body weight in the
masked and short-tailed shrews (genus Blarina) in Kansas, Iowa and Missouri. Ann.
Carnegie Mus. 51: 111-128.
Nagy, K.A. 2004. Personal communication.
Nagy, K.A., LA. Girard, and T.K. Brown. 1999. Energetics of free-ranging mammals, reptiles,
and birds. Ann. Rev. Nutr. 19: 247-277.
Neuhauser, E. F., Z. V. Cukic, M. R. Malecki, R. C. Loehr, and P. R. Durkin. 1995.
Bioconcentration and biokinetics of heavy metals in the earthworm. Environ. Pollut. 89:
293-301.
Ognev. S.I. 1950. Mammals of the U.S.S.R. and adjacent countries. Translated from Russian
by : Israel Program for Scientific Translations (1964) Jerusalem 626 pp. (as cited in US
EPA 1993)
Quick, H. F. 1951. Notes on the ecology of weasels in Gunnison County, Colorado. Journal of
Mammalogy. 33 (5): 281-290.
Eco-SSL Attachment 4-1 4-2 April 2007
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Randolph, J. C. 1973. Ecological energetics of a homothermic predator, the short-tailed shrew.
Ecology. 54(5): 1166-1187.
Richardson. 1973. Locomotery and feeding activity of the shrews, Blarina brevicauda and
Suncus murinus. Am. Midi. Nat. 90: 224-227.
Sample, B., JJ. Beauchamp, R. Efroymson, and G.W. Suter, II. 1999. Literature-derived
Bioaccumulation Models for Earthworms: Development and Validation. Environmental
Toxicology and Chemistry. 18:2110-2120.
Sample, B., JJ. Beauchamp, R. Efroymson, G.W. Suter, II, and T. Ashwood. 1998a.
Development and Validation of Bioaccumulation Models for Small Mammals. Oak
Ridge National Laboratory. ES/ER/TM-219.
Sample, B., JJ. Beauchamp, R. Efroymson, G.W. Suter, II, and T. Ashwood. 1998b.
Development and Validation of Bioaccumulation Models for Earthworms. Oak Ridge
National Laboratory. ES/ER/TM-220.
Sanderson, G. C. 1949. Growth and behavior of a litter of captive long-tailed weasel. Journal
of Mammalogy. 39(4): 412-415.
Sheldon, W. G. 1967. The Book of the American Woodcock. Amherst, MA: University of
Massachusetts Press.
Stedman, T.M., Jr., N. H. Booth, P.B. Bush, R.K. Page, D.D. Goetsch. 1980. Toxicity and
bioaccumulation of pentachlorophenol in broiler chickens. Poult. Sci. 59: 1018-1026.
Stickel, W. H., D. W. Hayne, and L. F. Stickel. 1965. Effects of heptachlor-contaminaed
earthworms on woodcocks. J. Wildl. Manage. 29: 132-146.
Syracuse Research Corporation (SRC). Physical Properties Database.
http://esc.syrres.com/interkow/PhysProp.htm
Tabor, W. B. 1928. A method to determine the weight of food digested daily by birds. Auk.
Volume XLV: 339-340.
Travis, C.C., and A.D. Arms. 1988. Bioconcentration of organics in beef, milk and vegetation.
Environ. Sci. Technol. 22: 271-274.
Eco-SSL Attachment 4-1 4-3 April 2007
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United States Environmental Protection Agency (U.S. EPA). 1995. Internal report on summary
of measured, calculated, and recommended Log Revalues. U.S. Environmental
Protection Agency, Office of Water, Washington, D.C. 38 pp.
United States Environmental Protection Agency (U.S. EPA). 1996. Soil Screening Guidance:
Technical Background Document. EPA/540/R-95/128
United States Environmental Protection Agency (U.S. EPA). 1993. Wildlife Exposure Factors
Handbook. EPA/600/R-93/1987a. Volumes I & II.
Eco-SSL Attachment 4-1 4-4 April 2007
-------�
Eco-SSL Attachment 4-1
Figures
February 2005
Revised April 2007
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This page intentionally left blank
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Figure 1. Uptake of Antimony from Soil into Plant Foliage
I 4.0 H
"Si
2.0 -
-2.0 -
-4.0
0.0
y = 0.938x-3.233
R2 = 0.795
p value = <0.0001
2.0
4.0 6.0 8.0
In [Soil] (mg/kg dw)
10.0
12.0
Raw data are provided in Appendix A.
Eco-SSL Attachment 4-1
April 2007
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Figure 2
Uptake of Beryllium from Soil into Plant Foliage
so
^
"5k
70
60 -
,50 -
40 -
30 -
20 -
10 -
0 *
* Raw Data
^Linear (Raw Data)
= 0.2828x- 1.991
R2 = 0.6949
0
50
100 150
Soil (mg/kg dw)
200
250
5.00
4.00
In Transformed Data
Linear (In Transformed Data)
2.00 -
3 1.00
0.00 -
-1.00-
y = 0.7345x-0.5361
R2 = 0.7344
n=18
p<0.0001
-1.000
0.000
1.000 2.000 3.000
In [Soil] (mg/kg dw)
4.000
5.000
6.000
Raw data provided in Appendix A.
Eco-SSL Attachment 4-1
April 2007
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Figure 3. Uptake of PAHs from Soil into Plant Foliage for
Unrinsed (Panel A) and Rinsed (Panel B) Plant Foliage
2 -i
0 -
-2 -
d
|f 4
"
=
-8 -
-10 -
-12 -
-1
Panel A: Unrinsed Plant Foliage Data*
cm **J&m
+ + -ctj ^S**
ri^4* B^fr1" tfl»-
+ ! A.
CQ 9
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Figure 4. Uptake of PAHs from Soil into Plant Foliage
Low versus High Molecular Weight PAHs
High Molecular Weight (BMW) PAHs
Rinsed
o
y = 0.9469x- 1.7026
R2 = 0.7846
p< 0.0001
i
-9 -8 -7 -6 -5 -4 -3
ln(Csoll, mg/kg dw)
Low Molecular Weight (LMW) PAHs
Rinsed
y = 0.4544x- 1.3205
R2 = 0.1965
p< 0.0001
-5 -4 -3
ln(Csoil, mg/kg dw)
High Molecular Weight (BMW) PAHs
Unrinsed
-4 -3
ln(CsoU, mg/kg dw)
u
£
Low Molecular Weight (LMW) PABs
Unrinsed
y = 0.3999x-2.0551
R2 = 0.2014
p<0.01
-7 -6
-5 -4 -3
ln(Csoil, mg/kg dw)
-1 0
Eco-SSL Attachmentt 4-1
April 2007
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Figure 5. Log Kow versus Log BAF for Non-Ionic Organics in
Unrinsed (Panel A) and Rinsed (Panel B) Plant Foliage
1.5 -
1
0.5 -
0 -
i -°-5 -
O
hJ
-i -
-1.5 -
-2 -
-2.5 -
-3
-3.5
Panel A: Unrinsed Plant Foliage Data*
.
' '
y = -0.229x+1.0237
R2 = 0.1432
LogK,,w
2.5
M
2 -
1.5
1
0.5 -
0 -
-0.5 -
-1 -
-1.5 -
-2 -
-2.5
Panel B: Rinsed Plant Foliage Data
y = -0.4057x+1.781
R2 = 0.3226
n = 228
p 0.0001
5 6
LogK,,w
1 Includes data for studies where rinsed status was not reported. Raw data provided in Appendix B.
Eco-SSL Attachment 4-1
April 2007
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4 -
3
H
Figure 6
Uptake of DDT, ODD and DDE from Soil by Soil Invertebrates
DDE, ODD and DDT Combined
= 0.8561x + 2.1287
R2 = 0.6673
n = 220
p< 0.0001
In [Soil] (mg/kg dw)
ODD
4.0
op 1.0 -
= 0.6975x+1.1613
R2 = 0.7532
n = 29
p< 0.0001
-6.0 -5.0 -4.0
-3.0 -2.0 -1.0 0.0
In [Soil] (mg/kg dw)
7.0
6.0 -
5.0 -
4.0 -
3.0 -
2.0 -
1.0 -
0.0 -
-1.0 -
-2.0
DDE
= 0.8804x +2.4771
R2 = 0.7139
n = 71
p< 0.0001
-4.0
In [Soil] (mg/kg dw)
DDT
4.0 -
"a 2.c
-4.0 -
-6.0
-4.0 -2.0 0.0
In [Soil] (mg/kg dw)
4.0
8.0
Raw data provided in Appendix D.
Attachment 4-1
April 2007
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Figure 7
Uptake of Dieldrin from Soil by Soil Invertebrates
y = 5.8182x + 6.0719
R2 = 0.5228
Raw Data
Linear (Raw Data)
5.000
10.000 15.000
Soil (mg/kg dw)
20.000
25.000
30.000
6.0
4.0 -
a 2.0 -
BE
. 0'° "
"
=
tfi
.3
fe -2.0 -
q
-4.0 -
-6.0
y = 0.8756x +2.2757
R2 = 0.6392
p< 0.0001
n = 84
In Transfonned Data
Linear (In Transformed Data)
-7.0 -6.0 -5.0 -4.0 -3.0 -2.0 -1.0 0.0 1.0 2.0 3.0 4.0
In [Soil] (mg/kg dw)
Raw data provided in Appendix E.
Eco-SSL Attachment 4-1
April 2007
-------�
Figure 8
Concentration of DDT, and DDT in Diet versus
Mammal and Bird Whole Body or CarcassTissue
I 6
DDT and DDE Combined
024
In [Diet] (mg/kg dw)
y = 0.663x + 2.3833
R2 = 0.481
n = 55
p< 0.0001
9.0 -
8.0 -
.
a
I 5-° 1
"
1 4.0-
! 3.0-
2.0 -
1.0 -
DDE
y = 0.641x + 3.6401
R2 = 0.8437
n = 25
p< 0.0001
-6.0 -4.0 -2.0 0.0 2.0 4.0
In [Diet] (mg/kg dw)
8.0
10.0
I 6.0
4.0 -
-1.0
DDT
y = 0.7254x +1.1788
R2 = 0.4844
n = 30
p < 0.0001
1.0 2.0 3.0 4.0 5.0
In [Diet] (mg/kg dw)
6.0
7.0
8.0
1 Tissue type is either whole body or carcass. Raw data is provided in Appendix D,
Eco-SSL Attachment 4-1
April 2007
-------�
Figure 9
Concentration of Dieldrin in Diet versus
Mammal or Bird Whole Body or Carcass Tissue
800 -i
700 -
600 -
I 500 -
f 400-
I 300 -
H
200 -
100 -.
0 <
0
>
|
-A.
P * *
50 100 150 200
Diet (mg/kg dw)
y = -0.0101x+ 80.355
R2 = 5E-05
* Raw Data
^^"Linear (Raw Data)
250
300
8.0
7.0 -
6.0 -
5.0 -
4.0 -
3.0 -
2.0 -
1.0 -
0.0 -
-1.0 -
-2.0 -
-3.0
I
y = 0.6076x+1.9582
R2 = 0.5119
pO.OOOl
n = 38
In Transformed Data
Linear (In Transformed Data)
-4.0 -3.0 -2.0 -1.0 0.0 1.0 2.0
In [Diet] (mg/kg dw)
3.0
4.0
5.0
6.0
Raw data provided in Appendix E.
Eco-SSL Attachment 4-1
April 2007
-------�
Figure 10
Uptake of Pentachlorophenol (PCP) from Soil by Soil Invertebrates
5000
y = 1.1356x+ 1053.2
R2 = 0.3198
pO.Ol
Raw Data
Linear (Raw Data)
200 400 600 800 1000 1200
Soil (mg/kg dw)
1400
1600 1800
2000
9.000
8.000 -
7.000 -
"Sfc
s
6.000 -
H 5.000 -
_a
4.000 -
3.000
y = 0.3308x+5.5463
R2 = 0.4965
p< 0.0001
n = 26
In Transformed Data
Linear (In Transformed Data)
0.000 1.000 2.000 3.000 4.000 5.000 6.000 7.000 8.000
In [Soil] (mg/kg dw)
Raw Data Provided in Appendix F.
Eco-SSL Attachment 4-1
April 2007
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Eco-SSL Attachment 4-1
Tables
February 2005
Revised April 2007
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This page intentionally left blank
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Table 1. Food Intake Data for Surrogate Species
Surrogate
Species
Vole
Ognev(1950)
Darketal. (1983)
Darketal. (1983)
Raw Data Food Ingestion Rate (FIR)
(g/g bw/day)
Typical
0.30-0.35
0.095
0.085
N
-
9
12
SEM
-
0.002
0.005
Stdev
-
0.006 a
0.017 a
High end
0.35
Weight
Basis
wet wt
dry wt
dry wt
Value
85
Source
reported in study
Food Intake Rate
(g dw/g bw/d)
Mean
0.049
0.095
0.085
High end
0.053 b
0.103 c
0.107 c
low and high ends of a range (cited in Johnson & Johnson 1982)
14hr/day
lOhr/day
High End
Point Est (e)
(g dw/g bw/d)
0.0875
Short-tailed
Shrew
Morrison et al. (1957)
Morrison et al. (1957)
Morrison et al. (1957)
Richarson(1973)
Barrett and Stuek (1976)
0.62
0.77
0.96
0.54
7
7
7
10
0.073
wet wt
wet wt
wet wt
wet wt
84
assumed
assumed
WEFH, mice
assumed
WEFH, earthworm
0.124
0.154
0.307
0.173
0.078
0.155 d
0.193 d
0.384 d
0.216 d
fed beef liver; mean for adult M&F at 25°C
fed beef liver; mean for adult M&F at 5°C
fed newborn rats; mean for adult M&F at 25°C
food type not described; mean
mealworm diet; FIR calculated as IR/BW; each assumed normal,
mean and stdev reported. Stdev FIR estimated by Monte Carlo
assuming R=0.8 (professional judgement)
mean for adult M&F (summer)
mean for treated M&F in heptachlor dosing study (winter)
WEFH, mice
WEFH, mice
WEFH, mice
assumed
calculated based on 4 mice/day @ 30g/mice and bw = 300 g
calculated from caloric requirements and assumed diet
Mourning |Hanson and Kossack (1957a)
Dove 'Taber(192
WEFH, mice
WEFH, mice
WEFH. mice
mean for adult female hawk across 68 days (winter)
mean for adult male hawk across 106 days (winter)
mean for adult male hawk across 29 days (summer)
fed at 0900 hrs for 94 days
fed at 1100 hrs for 78 days
adult mean, value could not be corroborated
1.214
SEM = Standard Error on Mean
Stdev = Standard Deviation
WEFH = Wildlife Exposure Factors Handbook (USEPA, 1993)
(a) Calculated as SEM * SQRT(N)
(b) Reported
(c) Calculated as Typical + 1.282 * Stdev (estimated to be the 90th percentile assuming a normal distribution)
(d) High end assumed (estimated as Typical * 1.25)
(e) High end point estimate based on arithmetic mean of alternate high end values
Eco-SSL Attachment 4-1
April 2007
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Table 2. Input Parameters for the Estimation of Soil Ingestion Rate
Parameter
digestibility of
food
concentration of
acid-insoluble ash
in food
concentration of
acid-insoluble ash
in soil
concentration of
acid-insoluble ash
in scat
Variable
a
b
c
y
Assumed
Distribution
Normal(mean, std)
Uniform(min,max)
Uniform(min,max)
Normal(mean, std)
vole
mean=0.76
std=0.076
min=0
max=0.02
min=0.9
max=1.0
mean =
0.089
std = 0.032
shrew
mean3=0.82
std3=0.048
min=0
max=0.02
min=0.9
max=1.0
mean =
0.104
std5 = 0.052
weasel1
mean=0.84
std=0.065
min=0
max=0.02
min=0.9
max=1.0
mean =
0.14
std = 0.069
dove2
mean=0.59
std=0.13
min=0
max=0.02
min=0.9
max=1.0
mean =
0.16
std = 0.087
hawk1
mean=0.78
std=0.052
min=0
max=0.02
min=0.9
max=1.0
mean =
0.14
std = 0.069
woodcock
mean=0.72
std=0.051
min=0
max=0.02
min=0.9
max=1.0
mean =
0.22
std = 0.146
Source Notes
Mean and stdev digestibility values
taken from USEPA (1993) (Table 4-
3) unless noted.
Assumed; based on Beyer et al.
(1994)
Assumed; based on Beyer et al.
(1994)
Mean and stdev are measured values
from Beyer et al. (1994) unless noted.
Soil ingestion data assumed to be comparable to the red fox reported in Beyer et al. (1994).
Soil ingestion data assumed to be comparable to the wild turkey reported in Beyer et al. (1994).
3 Provided by Randolph (1973).
Acid insoluble ash in GI tracts of shrews from unpublished data provided by C. Garten, Oak Ridge National Laboratory.
Standard deviation estimated using an assumed coefficient of variation (CV) of 50% (selected based on the average CV of 51% across all other receptors).
Eco-SSL Attachment 4-1
April 2007
-------�
Table 3. Estimated Distribution of P« Values
Statistic
Mean
Stdev
5th Percentile
lOthPercentile
15th Percentile
20th Percentile
25th Percentile
30th Percentile
35th Percentile
40th Percentile
45th Percentile
50th Percentile
55th Percentile
60th Percentile
65th Percentile
70th Percentile
75th Percentile
80th Percentile
85th Percentile
90th Percentile
95th Percentile
vole
1.3%
1.4%
-0.8%
-0.4%
-0.1%
0.1%
0.3%
0.5%
0.7%
0.9%
1.0%
1.2%
1.4%
1.6%
1.7%
1.9%
2.2%
2.4%
2.7%
3.2%
3.8%
shrew
1.1%
1.5%
-1.1%
-0.7%
-0.4%
-0.2%
0.0%
0.2%
0.4%
0.6%
0.8%
0.9%
1.1%
1.3%
1.5%
1.7%
2.0%
2.3%
2.6%
3.0%
3.7%
weasel
1.6%
2.1%
-1.2%
-0.8%
-0.4%
-0.1%
0.1%
0.4%
0.6%
0.8%
1.1%
1.3%
1.5%
1.8%
2.1%
2.4%
2.7%
3.2%
3.7%
4.3%
5.4%
dove
6.8%
5.3%
-0.6%
0.6%
1.5%
2.2%
2.9%
3.6%
4.2%
4.8%
5.5%
6.1%
6.7%
7.4%
8.2%
9.0%
9.9%
11.0%
12.3%
13.9%
16.6%
hawk
2.6%
2.3%
-0.7%
-0.1%
0.3%
0.6%
1.0%
1.3%
1.5%
1.8%
2.1%
2.4%
2.6%
2.9%
3.3%
3.6%
4.0%
4.5%
5.0%
5.7%
6.9%
woodcock
7.5%
6.9%
-1.6%
-0.2%
0.9%
1.9%
2.7%
3.4%
4.2%
4.9%
5.7%
6.4%
7.2%
8.1%
9.0%
10.0%
11.2%
12.5%
14.2%
16.4%
20.1%
Results based on Monte Carlo simulation with 100.000 iterations.
Eco-SSL Attachment 4-1
April 2007
-------�
Table 4a. Uptake Equations for Inorganics
Analyte
Antimony
Arsenic
Barium
Beryllium
Cadmium
Chromium
Cobalt
Copper
Lead
Manganese
Nickel
Selenium
Silver
Vanadium
Zinc
Soil to Plants
Equation Source
ln(Cp) = 0.938 * ln(Cs) - 3.233
Cp = 0.03752 * Cs
CP = 0.156*CS
ln(Cp) = 0.7345 * ln(Cs) - 0.5361
ln(Cp) = 0.546 * ln(Cs) - 0.475
Cp = 0.041 *CS
Cp = 0.0075 * Cs
ln(Cp) = 0.394 * ln(Cs) + 0.668
ln(Cp) = 0.561 *ln(Cs)- 1.328
Cp = 0.079 * Cs
ln(Cp) = 0.748 * ln(Cs) - 2.223
ln(Cp) =1. 104 *ln(Cs)- 0.677
Cp= 0.014 *CS
Cp= 0.00485 *CS
ln(Cp) = 0.554 * ln(Cs) + 1.575
a
b
b
h
b
b
b
b
b
b
b
b
b
b
b
Soil to Earthworms
Equation Source
C = C
^e ^s
ln(Ce) = 0.706 * ln(Cs) - 1.421
Ce= 0.091 *CS
Ce = 0.045 *CS
ln(Ce) = 0.795*ln(Cs) + 2.114
Ce = 0.306 *CS
Ce = 0.122*Cs
Ce = 0.515 *CS
ln(Ce) = 0.807 *ln(Cs)- 0.218
ln(Ce) = 0. 682 *ln(Cs)- 0.809
Not available
ln(Ce) = 0.733 * ln(Cs) - 0.075
Ce = 2.045 *CS
Ce = 0.042*Cs
ln(Ce) = 0.328 * ln(Cs) + 4.449
g
e
c
c
e
e
c
e
e
e
i
e
c
c
e
Soil to Small Mammals
Equation Source
Cm = 0.001* 50 *Cd
ln(Cm) = 0.8188 * ln(Cs) - 4.8471
Cm = 0.00015* 50 *Cd
Cm = 0.001* 50 *Cd
ln(Cm) = 0.4723 * ln(Cs) - 1.2571
ln(Cm) = 0.7338 * ln(Cs) - 1.4599
ln(Cm) = 1.307 * ln(Cs) - 4.4669
ln(Cm) = 0. 1444 * ln(Cs) + 2.042
ln(Cm) = 0.4422 * ln(Cs) + 0.0761
Cm = 0.0205*Cs
ln(Cm) = 0.4658 * ln(Cs) - 0.2462
ln(Cm) = 0.3764 * ln(Cs) - 0.4158
Cm = 0.004 *CS
Cm = 0.0123 *CS
ln(Cm) = 0.0706 * ln(Cs) + 4.3632
f
d
f
f
d
d
d
d
d
d
d
d
d
d
d
Source:
a. Regression derived from measured data [Appendix A]
b. Bechtel-Jacobs 1998
c. Sample etal. 1998b
d. Sample etal. 1998a
e. Sample etal. 1999
f. Baesetal. 1984
g. Assumed
h. Regression derived from measured data [Appendix A].
i. A reliable uptake equation could not be identified (see text)
Abbreviations:
Cs = Concentration in soil (mg/kg)
Cp = Concentration in plant tissue (mg/kg dry weight)
Ce = Concentration in earthworm (mg/kg dry weight)
Cm = Concentration in small mammal tissue (mg/kg dry weight"
Cd = Concentration in diet (mg/kg dry weight)
where small mammal diet is assumed to be 100% earthworms
Eco-SSL Attachment 4-1
April 2007
-------�
Table 4b. Uptake Equations for Non-Ionic Organics
Chemical
Soil to Plants
Equation Source
Soil to Earthworms
Equation Source
Soil to Small Mammals
Equation Source
Non-PAHs
Dieldrin
DDT, ODD and DDE Combined
DDT
ODD
DDE
TNT
RDX
Cp = 0.41 * C,
ln(Cp)= 0.7524 * ln(C.) - 2.5119
a
b
Not Available
Not Available
Not Available
Cp = 4.23 * Cs
Cp = 0.43 * Cs
c
c
Ce = 14.7 * C,
Ce=11.2*C,
ln(Ce)= 0.8689 * ln(C.) + 2.1247
ln(Ce)= 0.6975 * ln(Cs) + 1.1613
ln(Ce)= 0.8804 * ln(Cs) + 2.4771
h
h
b
b
b
Not Available
Not Available
Cm=1.2 *Cd
Cm = 4.83 *Cd
ln(Cm)= 0.7254 * ln(Cd) + 1.1788
h
h
b
Not Available
ln(Cm)= 0.641* ln(Cd) + 3.6401
Cm = 0
Cm = 0
b
f
f
Low Molecular Weight (LMW) PAHs
Total LMW PAHs
Acenaphthene
Acenaphthylene
Anthracene
Fluoranthene
Fluorene
Naphthalene
Phenanthrene
ln(Cp)= 0.4544 * ln(Cs) - 1.3205
ln(Cp)= -0.8556 * ln(C.) - 5.562
ln(Cp) = 0.791 * ln(C,) -1.144
ln(Cp)= 0.7784 * ln(Cs) - 0.9887
Cp = 0.50*Cs
ln(Cp)= -0.8556 * ln(C.) - 5.562
Cp = 12.2 * Cs
ln(Cp)= 0.6203 * ln(Cs) - 0.1665
d
d
g
d
c
d
c
d
C, = 3.04 * C,
Ce = 1.47*C,
Ce = 22.9 * Cs
Ce = 2.42 * Cs
Ce = 3.04 * Cs
Ce = 9.57 * Cs
Ce = 4.40 * Cs
Ce = 1.72*Cs
i
e
e
e
e
e
e
e
Cm = 0
Cm = 0
Cm = 0
Cm = 0
Cm = 0
Cm = 0
Cm = 0
Cm = 0
f
f
f
f
f
f
f
f
High Molecular Weight (HMW) PAHs
Total HMW PAHs
Benzo(a)anthracene
Benzo(a)pyrene
Benzo(b)fluoranthene
Benzo(e)pyrene
Benzo(ghi)perylene
Benzo(k)fluoranthene
Chrysene
Coronene
Dibenz(ah)anthracene
Indeno(123 cd)pyrene
Pyrene
ln(Cp)= 0.9469 * ln(C.) - 1.7026
ln(Cp)= 0.5944 * ln(C.) - 2.7078
ln(Cp)= 0.9750 * ln(C,) - 2.0615
Cp = 0.310 *CS
Cp = 0.19*Cs
ln(Cp)= 1.1829 * ln(C.) - 0.9313
ln(Cp)= 0.8595 * ln(Cs) - 2.1579
ln(Cp)= 0.5944 * ln(Cs) - 2.7078
Cp = 0.68 * Cs
Cp = 0.13*Ca
Cp = 0.11 *CS
Cp = 0.72 * Cs
d
d
d
c
c
d
d
d
c
c
c
c
C, = 2.6 * C,
Ce = 1.59*C,
Ce = 1.33 *CS
Ce = 2.60 * Cs
Ce = 2.76 * Cs
Ce = 2.94 * Cs
Ce = 2.60 * C,
C, = 2.29 * C,
C, = 3.72 * Cs
Ce = 2.31 *CS
Ce = 2.86 * Cs
Ce = 1.75 *CS
i
e
e
e
e
e
e
e
e
e
e
e
Cm = 0
Cm = 0
cm = o
cm = o
cm = o
cm = o
cm = o
cm = o
cm = o
cm = o
cm = o
cm = o
f
f
f
f
f
f
f
f
f
f
f
f
Source:
a. Regression derived from measured data [Appendix E].
b. Regression derived from measured data [Appendix D].
c. Median BAF calculated from measured data [Appendix C].
d. Regression derived from measured data [Appendix C or Figure 4.
e. Modeled from K^ based on Jager (1998) [Table 5].
f. Assumed to be negligible
g. Modeled using the rinsed PAH-specific equation [Figure 3]
h. Regression derived from measured data was significant but backcalculation of Eco-SSLs using the regression(s) resulted in a soil concentration lower than those used to derive the
regression(s). Median BAF then used. The regressions are provided in Figures 6, 7, 8 and 9.
i. Median of values estimated for either HMW or LMW PAHs in Table 5.
Abbreviations:
Cs = Concentration in soil (mg/kg)
Cp = Concentration in plant tissue (mg/kg dry weight)
Ce = Concentration in earthworm (mg/kg dry weight)
Cm= Concentration in small mammal or bird tissue (mg/kg dry weight)
Cd= Concentration in diet (mg/kg dw) where diet is assumed to be 100% earthworms.
Eco-SSL Attachment 4-1
April 2007
-------�
Table 4c. Uptake Equations for Pentachlorophenol (PCP)
Chemical
Pentachlorophenol
Soil to Plants
Equation Source
Cp = 5.93*Cs a
Soil to Earthworms
Equation Source
Ce= 14.63 *CS b
Soil to Small Mammals
Equation Source
Cm = 0.00452 *Cd + 0.198 c
Source:
a. Median BAF calculated from measured data in Appendix F.
b. Regression derived from measured data was significant but
backcalculation of Eco-SSLs using the regression resulted in a soil
concentration lower than those used to derive the regression.
Median BAF then used. The regressions is provided in Figure 10.
c. Based on uptake from diet into chicken (Stedman et al. 1980).
Abbreviations:
Cs = Concentration in soil (mg/kg)
Cp = Concentration in plant tissue (mg/kg dry weight)
Ce = Concentration in earthworm (mg/kg dry weight)
Cm= Concentration in small mammal tissue (mg/kg dry weight)
Cd= Concentration in diet (mg/kg dry weight)
where small mammal diet is assumed to be 100% earthworms
Eco-SSL Attachment 4-1
April 2007
-------�
Table 5. Estimation of Soil to Earthworm Bioaccumulation Factors for Non-Ionic Organic Contaminants.
Chemical
Kow: octanol to water
partitioning coefficient
log Kow
Kow
Source
K^ worm to soil water partitioning coefficient
log Kww1
^ww
(L/kg worm ww)
^ww
(L/kg worm dw)
Koc: water to soil organic carbon partitioning coefficient
slope
intercept
log Koc
Tf 3
KOC
Source
Kd: soil to water
partitioning
coefficient
KY
(L/kg soil dw)
Soil to
Earthworm
BAF5
Low Molecular Weight (LMW) Polynuclear Aromatic Hydrocarbons (PAHs)
Benzo(a)anthracene
Benzo(a)pyrene
Benzo(b)fluoranthene
Benzo(e)pyrene
Benzo(ghi)perylene
Benzo(k)fluoranthene
Chrysene
Coronene
Dibenzo(ah)anthracene
Indeno(123 cd)pyrene
Pyrene
5.7
6.11
6.2
6.44
6.7
6.2
5.7
7.64
6.69
6.584
4.88
5.01E+05
1.29E+06
1.58E+06
2.75E+06
5.01E+06
1.58E+06
5.01E+05
4.37E+07
4.90E+06
3.84E+06
7.59E+04
EPA 1996
EPA 1996
EPA 1996
SRC, PP
EPA 1995
EPA 1996
EPA 1996
SRC, PP
EPA 1996
SRC, PP
SRC, PP
2.96
3.32
3.39
3.60
3.83
3.39
2.96
4.65
3.82
3.73
2.25
9.10E+02
2.07E+03
2.48E+03
4.01E+03
6.75E+03
2.48E+03
9.10E+02
4.43E+04
6.61E+03
5.35E+03
1.76E+02
5.69E+03
1.29E+04
1.55E+04
2.50E+04
4.22E+04
1.55E+04
5.69E+03
2.77E+05
4.13E+04
3.34E+04
1.10E+03
0.762
0.762
0.762
0.762
0.762
0.762
0.762
1.051
1.051
1.051
1.051
1.051
1.051
1.051
5.55
5.99
5.78
5.96
6.16
5.78
5.39
6.87
6.25
6.07
4.80
3.58E+05
9.69E+05
5.96E+05
9.08E+05
1.43E+06
5.96E+05
2.48E+05
7.46E+06
1.79E+06
1.17E+06
6.27E+04
EPA 1996
EPA 1996
estimated (a)
estimated (a)
estimated (a)
estimated (a)
estimated (a)
estimated (a)
EPA 1996
estimated (a)
SRC, CF
3.58E+03
9.69E+03
5.96E+03
9.08E+03
1.43E+04
5.96E+03
2.48E+03
7.46E+04
1.79E+04
1.17E+04
6.27E+02
1.59
1.33
2.60
2.76
2.94
2.60
2.29
3.72
2.31
2.86
1.75
High Molecular Weight (HMW) Polynuclear Aromatic Hydrocarbons (PAHs)
Acenaphthene
Acenaphthylene
Anthracene
Fluoranthene
Fluorene
Naphthalene
Phenanthrene
3.92
4.07
4.55
4.95
4.18
3.36
4.55
8.32E+03
1.17E+04
3.55E+04
8.91E+04
1.51E+04
2.29E+03
3.55E+04
EPA 1996
SRC, PP
EPA 1996
SRC, PP
SRC, PP
EPA 1996
EPA 1995
1.41
1.54
1.96
2.31
1.64
0.92
1.96
2.57E+01
3.47E+01
9.09E+01
2.03E+02
4.33E+01
8.38E+00
9.09E+01
1.61E+02
2.17E+02
5.68E+02
1.27E+03
2.71E+02
5.24E+01
5.68E+02
0.762
0.762
1.051
1.051
4.04
2.98
4.37
4.62
3.45
3.08
4.52
1.09E+04
9.47E+02
2.35E+04
4.17E+04
2.83E+03
1.19E+03
3.30E+04
estimated (a)
SRC, CF
EPA 1996
SRC, CF
SRC, CF
EPA 1996
estimated (a)
1.09E+02
9.47E+00
2.35E+02
4.17E+02
2.83E+01
1.19E+01
3.30E+02
1.47
22.9
2.42
3.04
9.57
4.40
1.72
1 log K^ = 0.87 * log Kow - 2.0 [model from Jager, 1998]
Converted from wet weight to dry weight assuming 16% solids (Jager, 1998)
3 Measured Koc values from SRC Chem Fate Database or EPA, 1996 (n > 2).
If no measured Koc values available, values modeled based on chemical class-specific models from Gerstl (1990).
where: log Koc = slope * log Kow + intercept
(a) slope and intercept for PAHs
4 Kd = foc * Koc (assumes an foc of 1% [0.01])
5 BAF = K^ (L/kg worm dw) / IQ (L/kg soil dw)
Source Citations:
EPA (1995) = Internal report on summary of measured, calculated, and recommended Log Kow values. U.S. Environmental Protection Agency, Office of Water, Washington, D.C. 38 pp.
EPA (1996) = Soil Screening Guidance: Technical Background Document. EPA/540/R-95/128
SRC, PP = Syracuse Research Corp. Physical Properties Database. http://esc.syrres.com/interkow/PhysProp.htm
SRC, CF = Syracuse Research Corp. Chem Fate Database, http://www.syrres.com/esc/chemfate.htm
Eco-SSL Attachment 4-1
April 2007
-------�
This page intentionally left blank
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Eco-SSL Attachment 4-1
Appendix A
Bioaccumulation Data for Antimony and Beryllium in Plants
February 2005
April 2007
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This page intentionally left blank
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Appendix A-l. Summary of Bioaccumulation Data for Uptake of Antimony from Soil into Plant Foliage
Soil Cone, (mg/kg
dw)
4.4
4.4
27.74
202.8
15112.94
4317.21
9197.5
7364.27
202.8
15112.94
4317.21
9197.5
7364.27
15112.94
4317.21
9197.5
7364.27
In(Soil)
1.5
1.5
3.3
5.3
9.6
8.4
9.1
8.9
5.3
9.6
8.4
9.1
8.9
9.6
8.4
9.1
8.9
Soil pH Species
6.6 Ambrosia artemisiifolia
6.6 Bidens polylepsis
Achillea ageratum
Achillea ageratum
Achillea ageratum
Achillea ageratum
Achillea ageratum
Achillea ageratum
Plantago lanceolata
Plantago lanceolata
Plantago lanceolata
Plantago lanceolata
Plantago lanceolata
Silene vulgaris
Silene vulgaris
Silene vulgaris
Silene vulgaris
Tissue type
stem/leaf
stem/leaf
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
leaves
Plant Cone.
(mg/kg dw)
0.04
0.05
6.09
8.75
121.35
74.27
1367.29
329.51
28.45
53.64
33.58
569.34
274.63
51.77
19.45
853.75
349.62
In(Tissue)
-3.2
-3.0
1.8
2.2
4.8
4.3
7.2
5.8
3.3
4.0
3.5
6.3
5.6
3.9
3.0
6.7
5.9
Reference
PTI 1995
PTI 1995
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
Baroni et al. 2000
ln(tissue) = slope * In(soil) + intercept
slope 0.938
intercept -3.233
Rz 0.795
p value 1.57E-06
Eco-SSL Attachment 4-1 Appendix A
April 2007
-------�
Appendix A-2 Bioaccumulation Data for Uptake of Beryllium from Soil into Plant Foliage
Species Information
Common Name
(Genus/Species)
Soybean (Glycine max)
Soybean (Glycine max}
Soybean {Glycine max)
Soybean (Glycine max')
Soybean (Glycine max)
Soybean (Glycine max}
Soybean (Glycine max)
Soybean (Glycine max')
Collard (Brassica oleracea )
Collard (Brassica oleracea )
Collard (Brassica oleracea )
Collard (Brassica oleracea ')
Grass
Grass
Oats (Avena sativa )
Oats (Avena sativa )
Oats (Avena sativa )
Oats (Avena sativa )
Exposure
Field
(F)/
Lab
(L)
L
L
L
L
L
L
L
L
L
L
L
L
F
F
L
L
L
L
Duration
60 d
60 d
60 d
60 d
60 d
60 d
60 d
60 d
98 d
98 d
98 d
98 d
NR
NR
NR
NR
NR
NR
Plant Tissue Information
Tissue
Type
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Reported
Tissue
Cone.
1.25
3.75
12.5
30
15.75
25
53.5
54.5
5.5
10.1
31.9
62.5
0.32
0.26
1
20
10
4
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
weight or
Dry
Weight?1
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
%
Moisture
Tissue2
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Tissue
Cone.
(mg/kg dw)
1.25
3.75
12.5
30
15.75
25
53.5
54.5
5.5
10.1
31.9
62.5
0.32
0.26
1
20
10
4
In (Tissue
Cone.
mg/kg
dw)
0.22
1.32
2.53
3.40
2.76
3.22
3.98
4.00
1.70
2.31
3.46
4.14
-1.14
-1.35
0.00
3.00
2.30
1.39
Rinsed?
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Reported
Soil
Cone.
25
50
100
150
25
50
100
150
25
50
150
200
0.28
0.16
30
100
100
30
Soil Information
Reported
Soil
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight
or Dry
Weight?
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Moisture
Soil3
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Soil Cone.
(mg/kg dw)
25
50
100
150
25
50
100
150
25
50
150
200
0.28
0.16
30
100
100
30
In (Soil
Cone.
mg/kg dw)
3.219
3.912
4.605
5.011
3.219
3.912
4.605
5.011
3.219
3.912
5.011
5.298
-1.273
-1.833
3.401
4.605
4.605
3.401
BAF
R/C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF
(Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
0.050
0.075
0.125
0.200
0.630
0.500
0.535
0.363
0.220
0.202
0.213
0.313
1.143
1.625
0.033
0.200
0.100
0.133
Reference
Sajwanetal., 1996
Sajwanetal., 1996
Sajwanetal., 1996
Sajwanetal., 1996
Sajwanetal., 1996
Sajwanetal., 1996
Sajwanetal., 1996
Sajwanetal., 1996
Kaplan etal., 1990
Kaplan etal., 1990
Kaplan etal., 1990
Kaplan etal., 1990
Meehan and Smythe, 1967
Meehan and Smythe, 1967
Bonn and Seekamp, 1979
Bohn and Seekamp, 1979
Bonn and Seekamp, 1979
Bohn and Seekamp, 1979
If not reported, assumed to be wet weight (ww).
2 If not reported, assumed to be 15% dry matter.
3 If not reported, assumed to be dry weight (dw).
C = BAF calculated NR = Not Reported
d = day R = Reported
dw = dry weight R/C = BAF reported and either tissue concentration or soil concentration calculated
ww = wet weight
In(tissue) = slope * In(soil) + intercept
slope 0.7345
intercept -0.536
R2 0.7344
p value <0.0001
Eco-SSL Attachment 4-1 Appendix A
April 2007
-------�
Appendix A Antimony and Beryllium References
Baroni F., A. Boscagli, G. Protano, and F. Riccobono. 2000. Antimony accumulation mAchillea
ageratum, Plantago lanceolata, and Silene vulgaris growing in an old Sb-mining area. Environ.
Poll. 109: 347-352.
Bonn, H. L. and Seekamp, G. 1979. Beryllium effects on potatoes and otas in acid soil. Water
and Soil Pollution 11:319.
Kaplan, D. I, K. S. Sajwan, D. C. Adriano, and S. Gettier. 1990. Phytoavailability and toxicity
of beryllium and vanadium. Water, Air and Soil Pollution. 53: 203-212.
Meehan, W. R. and L. E. Smythe. 1967. Occurrence of beryllium as a trace element in
environmental materials. Environ. Science and Technology. 1(10): 839-844.
PTI Environmental Services (PTI). 1995. National Zinc Site Remedial Investigation Feasibility
Study. Volume IV. Ecological Risk Assessment Operable Unit 2. Prepared for City of
Bartlesville, Oklahoma, Cyprus Amax Minerals Company, Salomon Inc.
Sajwan, K. S., W. H. Ornes, and T. V. Youngblood. 1996. Beryllium phytotoxicity to
soybeans. Water, Air and Soil Pollution. 86:117-124.
Eco-SSL Attachment 4-1 Appendix A App A Ref -1 April 2007
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This Page Intentionally Left Blank
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Eco-SSL Attachment 4-1
Appendix B
Bioaccumulation Data for Non-Ionic Organic Contaminants in
Plants
February 2005
Revised April 2007
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Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Weber and Mrozek 1979
Weber and Mrozek 1979
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Greichusand Dohman 1980
Bull and Ivie, 1978
Bull and Ivie, 1978
Bull and Ivie, 1978
Bull and Ivie, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Bull and Me, 1978
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Iwataetal., 1977
Iwataetal., 1977
Iwataetal., 1977
Iwataetal., 1977
Iwataetal., 1977
Iwataetal., 1977
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Weisgerberetal., 1974
Weisgerberetal., 1974
Dorough and Pass, 1972
Dorough and Pass, 1972
Dorough and Pass, 1972
Dorough and Pass, 1972
Weisgerberetal., 1974
Weisgerberetal., 1974
Weisgerberetal., 1974
Weisgerberetal., 1974
Weisgerberetal., 1974
Dorough and Pass, 1972
Dorough and Pass, 1972
Chemical Class
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Benzophenylureas
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Carbamates
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Chemical Name
Aroclor1254
Aroclor1254
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Aroclor1260
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Diflubenzuron
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldrin
Aldrin
alpha-Chlordane
alpha-Chlordane
alpha-Chlordane
alpha-Chlordane
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
gamma-Chlordane
gamma-Chlordane
CAS No
11097691
11097691
11096825
11096825
11096825
11096825
11096825
11096825
11096825
11096825
11096825
11096825
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
35367385
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
309002
309002
5103719
5103719
5103719
5103719
60571
60571
60571
60571
60571
57749
57749
Exnosure Exrjosure Source of Soil ReP°rted Reported Conversion Organic Cone Source of Reported Reported Conversion c . Organic Cone
logKow logKow Ref Rinsed? Plant Species IT /, ., Field/Lab Exp / Test r>at organic cone Units for Wet or Dry Weight Factor to in Soil (mg/kg Vegetation organic cone Units for Wet or Dry Weight Factor to ">nrel°n in P|an, (mg/kg BAr |ogBAF
ur ion ni s a jn Soj| Soj| mg/kg dw) Data in Vegetation Vegetation mg/kg ac or o w ^ ( issue oi )
6.5 SRC NS Fescue 52 day field pottedplantsingrowthchambers.tr Tables 20 ppm Not Stated dry assumed none 20 able 3, 0 Carbc 0.034 ppm wet weight 1 6.67 0.23 0.011 -1.95
6.5 SRC NS Soybean 16 day field potted plants in growth chambers, tr Tables 20 ppm Not Stated dry assumed none 20 able 3, 0 Carbc 0.0032 ppm wet weight 1 6.67 0.02133 0.0011 -2.97
6.8 ATSDR1989 NS Corn 1 season field Figure 1 0.26 mg/kg dry weight none 0.26 Figure 1 0.38 mg/kg dry weight 1 1 0.38 1.5 0.16
6.8 ATSDR1989 NS Corn 1 season field Figure 1 0.066 mg/kg dry weight none 0.0660 Figure 1 0.39 mg/kg dry weight 1 1 0.39 5.9 0.77
6.8 ATSDR1989 NS Corn 1 season field Figure 1 0.37 mg/kg dry weight none 0.37 Figure 1 0.58 mg/kg dry weight 1 1 0.58 1.6 0.20
6.8 ATSDR1989 NS Corn 1 season field Figure 1 1.2 mg/kg dry weight none 1.2 Figure 1 0.95 mg/kg dry weight 1 1 0.95 0.79 -0.10
6.8 ATSDR1989 NS Corn 1 season field Table 1 0.22 mg/kg dry weight none 0.22 Figure 1 1.1 mg/kg dry weight 1 1 1.1 5.0 0.70
6.8 ATSDR1989 NS Corn 1 season field Table 1 0.24 mg/kg dry weight none 0.24 Figure 1 2.2 mg/kg dry weight 1 1 2.2 9.2 0.96
6.8 ATSDR1989 NS Weeds 1 season field Figure 1 0.05 mg/kg dry weight none 0.0500 Figure 1 0.1 mg/kg dry weight 1 1 0.10 2.0 0.30
6.8 ATSDR1989 NS Weeds 1 season field Figure 1 0.31 mg/kg dry weight none 0.31 Figure 1 0.27 mg/kg dry weight 1 1 0.27 0.87 -0.06
6.8 ATSDR1989 NS Weeds 1 season field Figure 1 0.27 mg/kg dry weight none 0.27 Figure 1 0.54 mg/kg dry weight 1 1 0.54 2.0 0.30
6.8 ATSDR1989 NS Weeds 1 season field Figure 1 0.22 mg/kg dry weight none 0.22 Figure 1 0.9 mg/kg dry weight 1 1 0.90 4.1 0.61
3.89 USFS1989 NS Collards 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.04 mg/kg dryweight 1 1 0.040 0.57 -0.24
3.89 USFS1989 NS Collards 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.09 mg/kg dryweight 1 1 0.090 0.75 -0.12
3.89 USFS1989 NS Grass 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.11 mg/kg dryweight 1 1 0.11 1.6 0.20
3.89 USFS1989 NS Grass 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.17 mg/kg dryweight 1 1 0.17 1.4 0.15
3.89 USFS1989 NS Pintobeans 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.02 mg/kg dryweight 1 1 0.020 0.29 -0.54
3.89 USFS1989 NS Pintobeans 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.03 mg/kg dryweight 1 1 0.030 0.43 -0.37
3.89 USFS1989 NS Pintobeans 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.03 mg/kg dryweight 1 1 0.030 0.43 -0.37
3.89 USFS1989 NS Pintobeans 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.1 mg/kg dryweight 1 1 0.10 0.83 -0.08
3.89 USFS1989 NS Pintobeans 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.12 mg/kg dryweight 1 1 0.12 1.0 0.00
3.89 USFS1989 NS Pintobeans 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.16 mg/kg dryweight 1 1 0.16 1.3 0.12
3.89 USFS1989 NS Radish 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.09 mg/kg dryweight 1 1 0.090 0.75 -0.12
3.89 USFS1989 NS Radish 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.16 mg/kg dryweight 1 1 0.16 1.3 0.12
3.89 USFS1989 NS Weeds 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.06 mg/kg dryweight 1 1 0.060 0.86 -0.07
3.89 USFS1989 NS Wheat 1 season Field July 1976, 10 applications TableVI 0.12 mg/kg dryweight none 0.12 TableV 0.01 mg/kg dryweight 1 1 0.010 0.083 -1.08
3.89 USFS1989 NS Wheat 1 season Field July 1976, 6 applications TableVI 0.07 mg/kg dryweight none 0.0700 TableV 0.01 mg/kg dryweight 1 1 0.010 0.14 -0.85
1.13 SRC NS Alfalfa 114 d Field 1980, rep 5, 3.4 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 0.13 mg/kg Not Sta ed wet assumed 1 6.67 0.87 29 1.46
1.13 SRC NS Alfalfa 114 d Field 1980, rep 1, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 0.14 mg/kg Not Sta ed wet assumed 1 6.67 0.93 23 1.37
1.13 SRC NS Alfalfa 103 d Field 1980, rep 1, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 0.16 mg/kg Not Sta ed wet assumed 1 6.67 1.1 27 1.43
1.13 SRC NS Alfalfa 103 d Field 1980, rep 5, 3.4 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 0.24 mg/kg Not Sta ed wet assumed 1 6.67 1.6 53 1.73
1.13 SRC NS Alfalfa 103 d Field 1980, rep 3, 15 kg application Table IV 0.05 mg/kg Not Sta ed dry assumed none 0.0500 Table III 0.26 mg/kg Not Sta ed wet assumed 1 6.67 1.7 35 1.54
1.13 SRC NS Alfalfa 114 d Field 1980, rep 2, 15 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 0.34 mg/kg Not Sta ed wet assumed 1 6.67 2.3 76 1.88
1.13 SRC NS Alfalfa 114 d Field 1980, rep 3, 15 kg application Table IV 0.05 mg/kg Not Sta ed dry assumed none 0.0500 Table III 0.43 mg/kg Not Sta ed wet assumed 1 6.67 2.9 57 1.76
1.13 SRC NS Alfalfa 103 d Field 1980, rep 4, 15 kg application Table IV 0.02 mg/kg Not Sta ed dry assumed none 0.0200 Table III 0.61 mg/kg Not Sta ed wet assumed 1 6.67 4.1 203 2.31
1.13 SRC NS Alfalfa 114 d Field 1980, rep 4, 15 kg application Table IV 0.02 mg/kg Not Sta ed dry assumed none 0.0200 Table III 0.76 mg/kg Not Sta ed wet assumed 1 6.67 5.1 253 2.40
1.13 SRC NS Alfalfa 114 d Field 1980, rep 1, 15 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 0.89 mg/kg Not Sta ed wet assumed 1 6.67 5.9 148 2.17
1.13 SRC NS Alfalfa 103 d Field 1980, rep 1, 15 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 0.89 mg/kg Not Sta ed wet assumed 1 6.67 5.9 148 2.17
1.13 SRC NS Alfalfa 114 d Field 1980, rep 5, 15 kg application Table IV 0.02 mg/kg Not Sta ed dry assumed none 0.0200 Table III 1.37 mg/kg Not Sta ed wet assumed 1 6.67 9.1 457 2.66
1.13 SRC NS Alfalfa 103 d Field 1980, rep 2, 15 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 1.47 mg/kg Not Sta ed wet assumed 1 6.67 9.8 327 2.51
1.13 SRC NS Alfalfa 103 d Field 1980, rep 5, 15 kg application Table IV 0.02 mg/kg Not Sta ed dry assumed none 0.0200 Table III 8.37 mg/kg Not Sta ed wet assumed 1 6.67 56 2790 3.45
1.13 SRC NS Mint 114 d Field 1980, rep 1, 3.4 kg application Table IV 0.04 mg/kg Not Stated dry assumed none 0.0400 Table III 0.02 mg/kg Not Sta ed wet assumed 1 6.67 0.13 3.3 0.52
1.13 SRC NS Mint 114 d Field 1980, rep 5, 3.4 kg application Table IV 0.03 mg/kg Not Stated dry assumed none 0.0300 Table III 0.06 mg/kg Not Sta ed wet assumed 1 6.67 0.40 13 1.12
1.13 SRC NS Mint 114 d Field 1980, rep 4, 15 kg application Table IV 0.02 mg/kg Not Stated dry assumed none 0.0200 Table III 0.23 mg/kg Not Sta ed wet assumed 1 6.67 1.5 77 1.88
1.13 SRC NS Mint 114 d Field 1980, rep 3, 15 kg application Table IV 0.05 mg/kg Not Stated dry assumed none 0.0500 Table III 0.37 mg/kg Not Sta ed wet assumed 1 6.67 2.5 49 1.69
1.13 SRC NS Mint 114 d Field 1980, rep 1, 15 kg application Table IV 0.04 mg/kg Not Stated dry assumed none 0.0400 Table III 0.64 mg/kg Not Sta ed wet assumed 1 6.67 4.3 107 2.03
1.13 SRC NS Mint 114 d Field 1980, rep 2, 15 kg application Table IV 0.03 mg/kg Not Stated dry assumed none 0.0300 Table III 0.92 mg/kg Not Sta ed wet assumed 1 6.67 6.1 204 2.31
1.13 SRC NS Mint 114 d Field 1980, rep 5, 15 kg application Table IV 0.02 mg/kg Not Stated dry assumed none 0.0200 Table III 1.55 mg/kg Not Sta ed wet assumed 1 6.67 10 517 2.71
1.13 SRC NS Mustard 55 d Field 1980, rep 2, 15 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 0.26 mg/kg Not Sta ed wet assumed 1 6.67 1.7 58 1.76
1.13 SRC NS Mustard 55 d Field 1980, rep 3, 15 kg application Table IV 0.05 mg/kg Not Sta ed dry assumed none 0.0500 Table III 0.4 mg/kg Not Sta ed wet assumed 1 6.67 2.7 53 1.73
1.13 SRC NS Orange 35 d Field March 1975, 35 days post-trtment, 2 Table II 0.69 mg/kg Not Sta ed dry assumed none 0.69 Table II 3.4 mg/kg Not Sta ed wet assumed 1 6.67 23 33 1.52
1.13 SRC NS Orange 35 d Field March 1975, 35 days post-trtment, 1 Table II 0.52 mg/kg Not Sta ed dry assumed none 0.52 Table II 3.7 mg/kg Not Sta ed wet assumed 1 6.67 25 47 1.68
1.13 SRC NS Orange 118 d Field March 1975, 118 days post-trtment, Table II 0.2 mg/kg Not Sta ed dry assumed none 0.20 Table II 5.4 mg/kg Not Sta ed wet assumed 1 6.67 36 180 2.26
1.13 SRC NS Orange 118 d Field March 1975, 118 days post-trtment, Table II 0.23 mg/kg Not Sta ed dry assumed none 0.23 Table II 6.7 mg/kg Not Sta ed wet assumed 1 6.67 45 194 2.29
1.13 SRC NS Orange 35 d Field March 1975, 35 days post-trtment, 2 Table II 1.2 mg/kg Not Sta ed dry assumed none 1.2 Table II 10 mg/kg Not Sta ed wet assumed 1 6.67 67 56 1.74
1.13 SRC NS Orange 118 d Field March 1975, 118 days post-trtment, Table II 0.42 mg/kg Not Sta ed dry assumed none 0.42 Table II 15 mg/kg Not Sta ed wet assumed 1 6.67 100 238 2.38
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 1, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 7.65 mg/kg Not Sta ed wet assumed 1 6.67 51 1275 3.11
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 1, 3.4 kg application Table IV 0.06 mg/kg Not Sta ed dry assumed none 0.0600 Table III 7.65 mg/kg Not Sta ed wet assumed 1 6.67 51 850 2.93
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 2, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 7.93 mg/kg Not Sta ed wet assumed 1 6.67 53 1322 3.12
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 3, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 8.11 mg/kg Not Sta ed wet assumed 1 6.67 54 1352 3.13
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 4, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 8.74 mg/kg Not Sta ed wet assumed 1 6.67 58 1457 3.16
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 5, 3.4 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 9.6 mg/kg Not Sta ed wet assumed 1 6.67 64 2133 3.33
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 5, 3.4 kg application Table IV 0.14 mg/kg Not Sta ed dry assumed none 0.14 Table III 9.6 mg/kg Not Sta ed wet assumed 1 6.67 64 457 2.66
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 2, 15 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 14.9 mg/kg Not Sta ed wet assumed 1 6.67 99 3311 3.52
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 2, 15 kg application Table IV 0.14 mg/kg Not Sta ed dry assumed none 0.14 Table III 14.9 mg/kg Not Sta ed wet assumed 1 6.67 99 710 2.85
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 1, 15 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 19.3 mg/kg Not Sta ed wet assumed 1 6.67 129 3217 3.51
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 1, 15 kg application Table IV 0.14 mg/kg Not Sta ed dry assumed none 0.14 Table III 19.3 mg/kg Not Sta ed wet assumed 1 6.67 129 919 2.96
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 4, 15 kg application Table IV 0.02 mg/kg Not Sta ed dry assumed none 0.0200 Table III 19.4 mg/kg Not Sta ed wet assumed 1 6.67 129 6467 3.81
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 4, 15 kg application Table IV 0.13 mg/kg Not Sta ed dry assumed none 0.13 Table III 19.4 mg/kg Not Sta ed wet assumed 1 6.67 129 995 3.00
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 3, 15 kg application Table IV 0.05 mg/kg Not Sta ed dry assumed none 0.0500 Table III 20.8 mg/kg Not Sta ed wet assumed 1 6.67 139 2773 3.44
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 3, 15 kg application Table IV 0.13 mg/kg Not Sta ed dry assumed none 0.13 Table III 20.8 mg/kg Not Sta ed wet assumed 1 6.67 139 1067 3.03
1.13 SRC NS Pota o (leaves) 64 d Field 1980, rep 5, 15 kg application Table IV 0.02 mg/kg Not Sta ed dry assumed none 0.0200 Table III 22.6 mg/kg Not Sta ed wet assumed 1 6.67 151 7533 3.88
1.13 SRC NS Pota o (leaves) 70 d Field 1979, rep 5, 15 kg application Table IV 0.21 mg/kg Not Sta ed dry assumed none 0.21 Table III 22.6 mg/kg Not Sta ed wet assumed 1 6.67 151 717 2.86
1.13 SRC NS Radish 55 d Field 1980, rep 1, 3.4 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 0.08 mg/kg Not Sta ed wet assumed 1 6.67 0.53 13 1.12
1.13 SRC NS Radish 55 d Field 1980, rep 3, 15 kg application Table IV 0.05 mg/kg Not Sta ed dry assumed none 0.0500 Table III 0.18 mg/kg Not Sta ed wet assumed 1 6.67 1.2 24 1.38
1.13 SRC NS Radish 55 d Field 1980, rep 2, 15 kg application Table IV 0.03 mg/kg Not Sta ed dry assumed none 0.0300 Table III 0.27 mg/kg Not Sta ed wet assumed 1 6.67 1.8 60 1.78
1.13 SRC NS Radish 55 d Field 1980, rep 1, 15 kg application Table IV 0.04 mg/kg Not Sta ed dry assumed none 0.0400 Table III 0.27 mg/kg Not Sta ed wet assumed 1 6.67 1.8 45 1.65
6.5 EPA1995 NS Corn 154 d Field 1973 (?), Birlinghoven Germany, 2. £ Table I 0.78 mg/kg Not Sta ed dry assumed none 0.78 Table I 0.01 mg/kg Not Sta ed wet assumed 1 6.67 0.067 0.085 -1.07
6.5 EPA1995 NS Wheat 112 d Field 1973 (?), Sittingbourne England, 3.2 Table II 2 mg/kg Not Sta ed dry assumed none 2.0 Table II 0.1 mg/kg Not Sta ed wet assumed 1 6.67 0.67 0.33 -0.48
6.1 SRC NS Corn 102 d Field May 1970, 1 Ib HCS3260/acre Table 1 0.196 mg/kg dryweight none 0.20 Table 2 0.017 mg/kg dryweight 1 1 0.017 0.087 -1.06
6.1 SRC NS Corn 102 d Field May 1970, 1 Ib chlordane/acre Table 1 0.08 mg/kg dryweight none 0.0800 Table 2 0.019 mg/kg dryweight 1 1 0.019 0.24 -0.62
6.1 SRC NS Corn 102 d Field May 1970, 2 Ib chlordane/acre Table 1 0.079 mg/kg dryweight none 0.0790 Table 2 0.021 mg/kg dryweight 1 1 0.021 0.27 -0.58
6.1 SRC NS Corn 102 d Field May 1970, 2 Ib HCS 3260/acre Table 1 0.426 mg/kg dryweight none 0.43 Table 2 0.028 mg/kg dryweight 1 1 0.028 0.066 -1.18
5.37 EPA1995 NS Corn 111 1 Field 1973 (?), Seville Spain, 3.0 kg/ha Table I 0.6 mg/kg Not Sta ed dry assumed none 0.60 Table I 0.01 mg/kg Not Sta ed wet assumed 1 6.67 0.067 0.11 -0.95
5.37 EPA 1995 NS Corn 154 d Field 1973 (?), Birlinghoven Germany, 2. £ Table I 0.55 mg/kg Not Sta ed dry assumed none 0.55 Table I 0.03 mg/kg Not Sta ed wet assumed 1 6.67 0.20 0.36 -0.44
5.37 EPA1995 NS Corn 90 d Field 1973 (?), Modesto California, 3.0 kg Table I 1.17 mg/kg Not Sta ed dry assumed none 1.2 Table I 0.05 mg/kg Not Sta ed wet assumed 1 6.67 0.33 0.28 -0.55
5.37 EPA1995 NS Corn 151 d Field 1973 (?), Sittingbourne England, 3. C Table I 0.72 mg/kg Not Sta ed dry assumed none 0.72 Table I 0.1 mg/kg Not Sta ed wet assumed 1 6.67 0.67 0.93 -0.03
5.37 EPA1995 NS Wheat 112 d Field 1973 (?), Sittingbourne England, 3.2 Table II 0.42 mg/kg Not Sta ed dry assumed none 0.42 Table II 0.69 mg/kg Not Sta ed wet assumed 1 6.67 4.6 11 1.04
6.32 EPA1995 NS Corn 102 d Field May 1970, 1 Ib HCS3260/acre Table 1 0.074 mg/kg dryweight none 0.0740 Table 2 0.012 mg/kg dryweight 1 1 0.012 0.16 -0.79
6.32 EPA 1995 NS Corn 102 d Field May 1970, 1 Ib chlordane/acre Table 1 0.066 mg/kg dryweight none 0.0660 Table 2 0.013 mg/kg dryweight 1 1 0.013 0.20 -0.71
Eco-SSL Attachment 4-1 Appendix B
Iof9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Dorough and Pass, 1972
Dorough and Pass, 1972
Viswanathanetal., 1978
Viswanathanetal., 1978
Viswanathanetal., 1978
Viswanathanetal., 1978
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Beall, 1976
Beall, 1976
Beall, 1976
Beall, 1976
Beall, 1976
Beall, 1976
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Dejonckheere et al., 1975
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wild etal. 1991,1992
Chemical Class
Cyclodienes
Cyclodienes
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
Chemical Name
gamma-Chlordane
gamma-Chlordane
3,4-Dichloroanaline
3,4-Dichloroanaline
3,4-Dichloroanaline
3,4-Dichloroanaline
Dicloran
Dicloran
Dicloran
Dicloran
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
Hexachlorobenzene
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
PCNB
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Dibenz(ah)anthracene
Exnosure Exnosure Source of Soil ReP°rted Reported Conversion Organic Conc Source of Reported Reported Conversion c . Organic Conc
CAS No logKow logKow Ref Rinsed? Plant Species IT /, ., Field/Lab Exp / Test aoureeoi son organic conc Uni,s for We, or Dry Weight Factor to in SoM (mg/kg vegetation organic conc Units for Wet or Dry Weight Factor to ">nrel°n in P|an, (mg/kg BAr |ogBAF
ur ion ni s a jn Soj| Soj| mg/kg dw) Data in Vegetation Vegetation mg/kg ac or o w ^ ( issue oi )
57749 6.32 EPA1995 NS Corn 102 d Field May 1970, 2 Ib chlordane/acre Table 1 0.082 mg/kg dryweight none 0.0820 Table 2 0.013 mg/kg dryweight 1 1 0.013 0.16 -0.80
57749 6.32 EPA1995 NS Corn 102 d Field May 1970, 2 Ib HCS 3260/acre Table 1 0.148 mg/kg dryweight none 0.15 Table 2 0.015 mg/kg dryweight 1 1 0.015 0.10 -0.99
95761 2.69 SRC NS Barley 1 season Field 1.43 kg/ha Table 2 0.83 ug/g dryweight none 0.83 Table 2 0.45 ug/gww wet weight 1 6.67 3.0 3.6 0.56
95761 2.69 SRC NS Potato 1 season Field 1.43 kg/ha Table 4 0.66 ug/g dryweight none 0.66 Table 2 0.67 ug/gww wet weight 1 6.67 4.5 6.8 0.83
95761 2.69 SRC NS Weeds 1 season Field 1.43 kg/ha Table 4 0.66 ug/g dryweight none 0.66 Table 2 0.38 ug/gww wet weight 1 6.67 2.533 3.838 0.58
95761 2.69 SRC NS Weeds 1 season Field 1.43 kg/ha Table 2 0.83 ug/g dryweight none 0.83 Table 2 2.43 ug/gww wet weight 1 6.67 16.20 19.52 1.29
99309 2.96 SRC No Lettuce 85 d Lab Exp 6 - 8 Apr 74 harvest Table 2 mg/kg Not Stated dry assumed none 2.0 Table II 0.086 mg/kgww wet weight 1 6.67 0.6 0.3 -0.54
99309 2.96 SRC No Lettuce 71 d Lab Exp 6 - 25 Mar 74 harvest Table 2.25 mg/kg Not Sta ed dry assumed none 2.3 Table II 0.13 mg/kgww wetweight 1 6.67 0.9 0.4 -0.41
99309 2.96 SRC No Lettuce 85 d Lab Exp 7 - 8 Apr 74 harvest Table 1.82 mg/kg Not Sta ed dry assumed none 1.8 Table II 0.15 mg/kgww wetweight 1 6.67 1.0 0.5 -0.26
99309 2.96 SRC No Lettuce 71 d Lab Exp 7 - 25 Mar 74 harvest Table 1.72 mg/kg Not Sta ed dry assumed none 1.7 Table II 0.3 mg/kgww wetweight 1 6.67 2.0 1.2 0.07
118741 5.89 EPA1995 No Lettuce 85 d Lab Exp 6 - 8 Apr 74 harvest Table 0.073 mg/kg Not Sta ed dry assumed none 0.0730 Table II 0.009 mg/kgww wetweight 1 6.67 0.06 0.8 -0.09
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 1 - 25 Mar 74 harvest Table 0.007 mg/kg Not Sta ed dry assumed none 0.0070 Table II 0.011 mg/kgww wetweight 1 6.67 0.07 10 1.02
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 3 - 25 Mar 74 harvest Table 0.015 mg/kg Not Sta ed dry assumed none 0.0150 Table II 0.014 mg/kgww wetweight 1 6.67 0.09 6 0.79
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 2 - 25 Mar 74 harvest Table 0.019 mg/kg Not Sta ed dry assumed none 0.0190 Table II 0.015 mg/kgww wetweight 1 6.67 0.10 5 0.72
118741 5.89 EPA1995 No Lettuce 85 d Lab Exp 7 - 8 Apr 74 harvest Table 0.068 mg/kg Not Sta ed dry assumed none 0.0680 Table II 0.017 mg/kgww wetweight 1 6.67 0.11 1.7 0.22
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 6 - 25 Mar 74 harvest Table 0.073 mg/kg Not Sta ed dry assumed none 0.0730 Table II 0.026 mg/kgww wetweight 1 6.67 0.17 2.4 0.38
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 7 - 25 Mar 74 harvest Table 0.075 mg/kg Not Sta ed dry assumed none 0.0750 Table II 0.032 mg/kgww wetweight 1 6.67 0.21 3 0.45
118741 5.89 EPA1995 No Lettuce 85 d Lab Exp 4 - 8 Apr 74 harvest Table 0.17 mg/kg Not Sta ed dry assumed none 0.17 Table II 0.032 mg/kgww wetweight 1 6.67 0.21 1.3 0.10
118741 5.89 EPA1995 No Lettuce 85 d Lab Exp 5 - 8 Apr 74 harvest Table 0.14 mg/kg Not Sta ed dry assumed none 0.14 Table II 0.045 mg/kgww wetweight 1 6.67 0.3 2.1 0.33
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 4 - 25 Mar 74 harvest Table 0.19 mg/kg Not Sta ed dry assumed none 0.19 Table II 0.11 mg/kgww wetweight 1 6.67 0.7 4 0.59
118741 5.89 EPA1995 No Lettuce 71 d Lab Exp 5 - 25 Mar 74 harvest Table 0.17 mg/kg Not Sta ed dry assumed none 0.17 Table II 0.12 mg/kgww wetweight 1 6.67 0.8 5 0.67
118741 5.89 EPA1995 NS Zoysiagrass 19 month Lab Aerially applied, 4 trea ment types c Table 0.189 mg/kg dryweight none 0.19 Table 1 0.0792 mg/kg dryweight 1 1 0.079 0.42 -0.38
118741 5.89 EPA1995 NS Zoysiagrass 365 d Lab Aerially applied, 4 trea ment types c Table 0.2654 mg/kg dryweight none 0.27 Table 1 0.1401 mg/kg dryweight 1 1 0.14 0.53 -0.28
118741 5.89 EPA 1995 NS Zoysiagrass 302 d Lab Aerially applied, 4 trea ment types c Table 0.3198 mg/kg dryweight none 0.32 Table 1 0.3185 mg/kg dryweight 1 1 0.32 1.00 0.00
118741 5.89 EPA 1995 NS Zoysiagrass 156 d Lab Aerially applied, 4 trea ment types c Table 0.5135 mg/kg dryweight none 0.51 Table 1 0.4798 mg/kg dryweight 1 1 0.48 0.93 -0.03
118741 5.89 EPA1995 NS Zoysiagrass 198 d Lab Aerially applied, 4 trea ment types c Table 0.4404 mg/kg dryweight none 0.44 Table 1 0.6616 mg/kg dryweight 1 1 0.66 1.5 0.18
118741 5.89 EPA1995 NS Zoysiagrass 93 d Lab Aerially applied, 4 trea ment types c Table 1.2507 mg/kg dryweight none 1.3 Table 1 0.8761 mg/kg dryweight 1 1 0.88 0.70 -0.15
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 1 - 8 Apr 74 harvest Table 0.11 mg/kg Not Stated dry assumed none 0.11 Table II 0.11 mg/kgww wetweight 1 6.67 0.7 7 0.82
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 3 - 8 Apr 74 harvest Table 0.32 mg/kg Not Stated dry assumed none 0.32 Table II 0.16 mg/kgww wetweight 1 6.67 1.1 3 0.52
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 2 - 8 Apr 74 harvest Table 0.44 mg/kg Not Stated dry assumed none 0.44 Table II 0.19 mg/kgww wetweight 1 6.67 1.3 3 0.46
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 6 - 8 Apr 74 harvest Table 2.23 mg/kg Not Stated dry assumed none 2.2 Table II 0.36 mg/kgww wetweight 1 6.67 2.4 1.1 0.03
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 1 - 25 Mar 74 harvest Table 0.13 mg/kg Not Stated dry assumed none 0.13 Table II 0.37 mg/kgww wetweight 1 6.67 2.5 19 1.28
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 2 - 25 Mar 74 harvest Table 0.44 mg/kg Not Stated dry assumed none 0.44 Table II 0.49 mg/kgww wetweight 1 6.67 3 7 0.87
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 3 - 25 Mar 74 harvest Table 0.49 mg/kg Not Stated dry assumed none 0.49 Table II 0.59 mg/kgww wetweight 1 6.67 4 8 0.90
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 7 - 8 Apr 74 harvest Table 2.35 mg/kg Not Stated dry assumed none 2.4 Table II 0.73 mg/kgww wetweight 1 6.67 5 2.1 0.32
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 4 - 8 Apr 74 harvest Table 6.18 mg/kg Not Stated dry assumed none 6.2 Table II 0.89 mg/kgww wetweight 1 6.67 6 1.0 -0.02
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 6 - 25 Mar 74 harvest Table 2.96 mg/kg Not Stated dry assumed none 3.0 Table II 0.92 mg/kgww wetweight 1 6.67 6 2.1 0.32
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 7 - 25 Mar 74 harvest Table 2.45 mg/kg Not Stated dry assumed none 2.5 Table II 1.28 mg/kgww wetweight 1 6.67 9 3 0.54
82688 4.64 EPA1995 No Lettuce 85 d Lab Exp 5 - 8 Apr 74 harvest Table 4.9 mg/kg Not Stated dry assumed none 4.9 Table II 1.56 mg/kgww wetweight 1 6.67 10 2.1 0.33
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 4 - 25 Mar 74 harvest Table 6.03 mg/kg Not Stated dry assumed none 6.0 Table II 2.67 mg/kgww wetweight 1 6.67 18 3 0.47
82688 4.64 EPA1995 No Lettuce 71 d Lab Exp 5 - 25 Mar 74 harvest Table 6.28 mg/kg Not Stated dry assumed none 6.3 Table II 4.19 mg/kgww wetweight 1 6.67 28 4 0.65
120127 4.55 EPA 1995 No Clover 1 season field 1977, Lee Valley, control plot Table 2 7 ug/kg Not Stated dry assumed 0.001 0.0070 Table 2 2 ug/kg dryweight 0.001 1 0.0020 0.29 -0.54
120127 4.55 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 16.2 ug/kg Not Stated dry assumed 0.001 0.0162 Table 2 1 ug/kg dryweight 0.001 1 0.0010 0.062 -1.21
120127 4.55 EPA 1995 No Ryegrass 1 season field 1977, Lee Valley, control plot Table 2 7 ug/kg Not Stated dry assumed 0.001 0.0070 Table 2 3 ug/kg dryweight 0.001 1 0.0030 0.43 -0.37
120127 4.55 EPA1995 No Tim_grass 1 season field 1976, Luddington, treated in 1968 w Tables 12.8 ug/kg Not Stated dry assumed 0.001 0.0128 Table 2 4 ug/kg dryweight 0.001 1 0.0040 0.31 -0.51
120127 4.55 EPA1995 No Tim_grass 1 season field 1976, Luddington, control plot Tables 1 ug/kg Not Stated dry assumed 0.001 0.0010 Table 2 23 ug/kg dryweight 0.001 1 0.023 23 1.36
120127 4.55 EPA1995 NS Carrot 82 d Lab 6.1 g sewage sludge/kg soil added Tables 2.013 ug/kg dryweight 0.001 0.0020 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.50 -0.30
120127 4.55 EPA1995 NS Carrot 82 d Lab 18.6 g sewage sludge/kg soil added Tables 6.138 ug/kg dryweight 0.001 0.0061 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.16 -0.79
50628 6.11 EPA1995 No Clover 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 139.4 ug/kg Not Stated dry assumed 0.001 0.14 Table 2 8 ug/kg dryweight 0.001 1 0.0080 0.057 -1.24
50628 6.11 EPA1995 No Clover 1 season field 1977, Lee Valley, control plot Table 2 58 ug/kg Not Stated dry assumed 0.001 0.0580 Table 2 9 ug/kg dryweight 0.001 1 0.0090 0.16 -0.81
50628 6.11 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 139.4 ug/kg Not Stated dry assumed 0.001 0.14 Table 2 9 ug/kg dryweight 0.001 1 0.0090 0.065 -1.19
50628 6.11 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, control plot Table 2 58 ug/kg Not Stated dry assumed 0.001 0.0580 Table 2 10 ug/kg dryweight 0.001 1 0.010 0.17 -0.76
50628 6.11 EPA1995 No Tim_grass 1 season field 1976, Luddington, treated in 1968 w Tables 88.8 ug/kg Not Stated dry assumed 0.001 0.0888 Table 2 14 ug/kg dryweight 0.001 1 0.014 0.16 -0.80
50628 6.11 EPA1995 No Tim_grass 1 season field 1976, Luddington, control plot Tables 7 ug/kg Not Stated dry assumed 0.001 0.0070 Table 2 23 ug/kg dryweight 0.001 1 0.023 3.3 0.52
50328 6.11 EPA1995 NS Carrot 82 d Lab 6.1 g sewage sludge/kg soil added Tables 5.002 ug/kg dryweight 0.001 0.0050 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.20 -0.70
50328 6.11 EPA1995 NS Carrot 82 d Lab 18.6 g sewage sludge/kg soil added Tables 15.252 ug/kg dryweight 0.001 0.0153 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.066 -1.18
50328 6.11 EPA1995 NS Carrot 82 d Lab 62.1 g sewage sludge/kg soil added Tables 50.922 ug/kg dryweight 0.001 0.0509 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.020 -1.71
205992 6.2 EPA1995 NS Carrot 82 d Lab 6.1 g sewage sludge/kg soil added Tables 6.039 ug/kg dryweight 0.001 0.0060 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.17 -0.78
205992 6.2 EPA1995 NS Carrot 82 d Lab 62.1 g sewage sludge/kg soil added Tables 61.479 ug/kg dryweight 0.001 0.0615 Tables 1 ug/kg dryweight 0.001 1 0.0010 0.016 -1.79
191242 6.7 EPA1995 No Clover 1 season field 1977, Lee Valley, control plot Table 2 75 ug/kg Not Sta ed dry assumed 0.001 0.0750 Table 2 56 ug/kg dryweight 0.001 1 0.056 0.75 -0.13
191242 6.7 EPA1995 No Clover 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 324.2 ug/kg Not Sta ed dry assumed 0.001 0.32 Table 2 117 ug/kg dryweight 0.001 1 0.12 0.36 -0.44
191242 6.7 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, control plot Table 2 75 ug/kg Not Sta ed dry assumed 0.001 0.0750 Table 2 49 ug/kg dryweight 0.001 1 0.049 0.65 -0.18
191242 6.7 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 324.2 ug/kg Not Sta ed dry assumed 0.001 0.32 Table 2 60 ug/kg dryweight 0.001 1 0.060 0.19 -0.73
191242 6.7 EPA1995 No Tim_grass 1 season field 1976, Luddington, control plot Tables 76 ug/kg Not Sta ed dry assumed 0.001 0.0760 Table 2 56 ug/kg dryweight 0.001 1 0.056 0.74 -0.13
191242 6.7 EPA1995 No Tim_grass 1 season field 1976, Luddington, treated in 1968 w Tables 296.8 ug/kg Not Sta ed dry assumed 0.001 0.30 Table 2 56 ug/kg dryweight 0.001 1 0.056 0.19 -0.72
191242 6.7 EPA 1995 NS Carrot 82 d Lab 18.6 g sewage sludge/kg soil added Tables 46.5 ug/kg dryweight 0.001 0.0465 Tables 12 ug/kg dryweight 0.001 1 0.012 0.26 -0.59
191242 6.7 EPA1995 NS Carrot 82 d Lab 6.1 g sewage sludge/kg soil added Tables 15.25 ug/kg dryweight 0.001 0.0153 Tables 20 ug/kg dryweight 0.001 1 0.020 1.3 0.12
191242 6.7 EPA1995 NS Carrot 82 d Lab 62.1 g sewage sludge/kg soil added Tables 155.25 ug/kg dryweight 0.001 0.16 Tables 24 ug/kg dryweight 0.001 1 0.024 0.15 -0.81
207089 6.2 EPA1995 No Clover 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 81 ug/kg Not Sta ed dry assumed 0.001 0.0810 Table 2 4 ug/kg dryweight 0.001 1 0.0040 0.049 -1.31
207089 6.2 EPA1995 No Clover 1 season field 1977, Lee Valley, control plot Table 2 33 ug/kg Not Sta ed dry assumed 0.001 0.0330 Table 2 6 ug/kg dryweight 0.001 1 0.0060 0.18 -0.74
207089 6.2 EPA1995 No Clover 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 232 ug/kg Not Sta ed dry assumed 0.001 0.23 Table 2 14 ug/kg dryweight 0.001 1 0.014 0.060 -1.22
207089 6.2 EPA1995 No Clover 1 season field 1977, Lee Valley, control plot Table 2 93 ug/kg Not Sta ed dry assumed 0.001 0.0930 Table 2 18 ug/kg dryweight 0.001 1 0.018 0.19 -0.71
207089 6.2 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 81 ug/kg Not Sta ed dry assumed 0.001 0.0810 Table 2 1 ug/kg dryweight 0.001 1 0.0010 0.012 -1.91
207089 6.2 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, control plot Table 2 33 ug/kg Not Sta ed dry assumed 0.001 0.0330 Table 2 3 ug/kg dryweight 0.001 1 0.0030 0.091 -1.04
207089 6.2 EPA1995 No Ryegrass 1 season field 1977, Lee Valley, control plot Table 2 93 ug/kg Not Sta ed dry assumed 0.001 0.0930 Table 2 13 ug/kg dryweight 0.001 1 0.013 0.14 -0.85
207089 6.2 EPA 1995 No Ryegrass 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 232 ug/kg Not Sta ed dry assumed 0.001 0.23 Table 2 13 ug/kg dryweight 0.001 1 0.013 0.056 -1.25
207089 6.2 EPA1995 No Tim_grass 1 season field 1976, Luddington, treated in 1968 w Tables 57 ug/kg Not Sta ed dry assumed 0.001 0.0570 Table 2 1 ug/kg dryweight 0.001 1 0.0010 0.018 -1.76
207089 6.2 EPA1995 No Tim_grass 1 season field 1976, Luddington, control plot Tables 8 ug/kg Not Sta ed dry assumed 0.001 0.0080 Table 2 8 ug/kg dryweight 0.001 1 0.0080 1.0 0.00
207089 6.2 EPA1995 No Tim_grass 1 season field 1976, Luddington, treated in 1968 w Tables 179.2 ug/kg Not Sta ed dry assumed 0.001 0.18 Table 2 8 ug/kg dryweight 0.001 1 0.0080 0.045 -1.35
207089 6.2 EPA1995 No Tim_grass 1 season field 1976, Luddington, control plot Tables 23 ug/kg Not Sta ed dry assumed 0.001 0.0230 Table 2 13 ug/kg dryweight 0.001 1 0.013 0.57 -0.25
191071 7.64 SRC No Clover 1 season field 1977, Lee Valley, control plot Table 2 41 ug/kg Not Sta ed dry assumed 0.001 0.0410 Table 2 28 ug/kg dryweight 0.001 1 0.028 0.68 -0.17
191071 7.64 SRC No Clover 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 131.8 ug/kg Not Sta ed dry assumed 0.001 0.13 Table 2 28 ug/kg dryweight 0.001 1 0.028 0.21 -0.67
191071 7.64 SRC No Ryegrass 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 131.8 ug/kg Not Sta ed dry assumed 0.001 0.13 Table 2 40 ug/kg dryweight 0.001 1 0.040 0.30 -0.52
191071 7.64 SRC No Ryegrass 1 season field 1977, Lee Valley, control plot Table 2 41 ug/kg Not Stated dry assumed 0.001 0.0410 Table 2 58 ug/kg dryweight 0.001 1 0.058 1.4 0.15
191071 7.64 SRC No Tim_grass 1 season field 1976, Luddington, control plot Tables 17 ug/kg Not Stated dry assumed 0.001 0.0170 Table 2 93 ug/kg dryweight 0.001 1 0.093 5.5 0.74
191071 7.64 SRC No Tim_grass 1 season field 1976, Luddington, treated in 1968 w Tables 137.2 ug/kg Not Stated dry assumed 0.001 0.14 Table 2 97 ug/kg dryweight 0.001 1 0.097 0.71 -0.15
191071 7.64 SRC NS Carrot 82 d Lab 18.6 g sewage sludge/kg soil added Tables 11.904 ug/kg dryweight 0.001 0.0119 Tables 7 ug/kg dryweight 0.001 1 0.0070 0.59 -0.23
191071 7.64 SRC NS Carrot 82 d Lab 6.1 g sewage sludge/kg soil added Tables 3.904 ug/kg dryweight 0.001 0.0039 Tables 18 ug/kg dryweight 0.001 1 0.018 4.6 0.66
191071 7.64 SRC NS Carrot 82 d Lab 62.1 g sewage sludge/kg soil added Tables 39.744 ug/kg dryweight 0.001 0.0397 Tables 23 ug/kg dryweight 0.001 1 0.023 0.58 -0.24
53703 6.69 EPA1995 No Clover 1 season field 1977, Lee Valley, treated in 1968 wi Table 2 16 ug/kg Not Stated dry assumed 0.001 0.0160 Table 2 1 ug/kg dryweight 0.001 1 0.0010 0.063 -1.20
Eco-SSL Attachment 4-1 Appendix B
2 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild etal. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wild etal. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wld etal. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Moza etal. 1979
Moza etal. 1979
Shane and Bush 1989
Moza etal. 1976
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Moza etal. 1979
Moza etal. 1979
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
Bieta
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
2002
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Bi et al 2002
Chemical Class
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
Chemical Name
Dibenz(ah)anthracene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
2,2',4,4',6-Pentachlorobiphenyl
2,2',4,4',6-Pentachlorobiphenyl
2,2'-Dichlorobiphenyl
2,2'-Dichlorophenyl
2,2'-Dichlorophenyl
2,3,6,4-Tetrachlorobiphenyl
2,3,6,4-Tetrachlorobiphenyl
2,4,4'-Trichlorbiphenyl
2,4,4'-Trichlorbiphenyl
2,4,4'-Trichlorbiphenyl
2,4,4'-Trichlorbiphenyl
2,4',5-Trichlorbiphenyl
2,4',5-Trichlorbiphenyl
2-Chlorobiphenyl
2-Chlorobiphenyl
2-Chlorobiphenyl
2-Chlorobiphenyl
2-Chlorobiphenyl
2-Chlorobiphenyl
2-Chlorobiphenyl
PCB101
PCB101
PCB110
PCB110
PCB128
PCB128
PCB137
PCB138
PCB138
PCB141
PCB141
PCB146
PCB146
PCB153
PCB153
PCB170
PCB174
PCB175
PCB177
PCB178
PCB180
PCB185
PCB22
PCB33
PCB33
PCB40
PCB44
PCB44
PCB45
PCB49
PCB49
PCB49
PCB49
CAS No
53703
206440
206440
206440
206440
206440
206440
206440
206440
206440
91203
91203
91203
91203
91203
91203
91203
91203
91203
85018
85018
85018
85018
85018
85018
85018
85018
85018
129000
129000
129000
129000
129000
129000
129000
129000
129000
39485831
39485831
13029088
13029088
13029088
52663588
52663588
7012375
7012375
7012375
7012375
16606023
16606023
2051607
2051607
2051607
2051607
2051607
2051607
2051607
3768732
3768732
38380039
38380039
38380073
38380073
35694065
35065282
35065282
52712046
52712046
51908168
51908168
35065271
35065271
35065306
38411252
40186707
52663704
52663679
35065293
52712057
38444858
38444869
38444869
38444938
41464395
41464395
70362457
41464408
41464408
41464408
41464408
logKow
6.69
5.12
5.12
5.12
5.12
5.12
5.12
5.12
5.12
5.12
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
5.11
5.11
5.11
5.11
5.11
5.11
5.11
5.11
5.11
6.98
6.98
4.97
4.97
4.97
6.34
6.34
5.62
5.62
5.62
5.62
5.69
5.69
4.53
4.53
4.53
4.53
4.53
4.53
4.53
6.8
6.8
6.22
6.22
7.31
7.31
7.44
7.44
7.44
7.19
7.19
7.12
7.12
7.75
7.75
8.27
8.27
8.27
8.27
8.27
8.27
7.93
5.42
5.87
5.87
6.18
5.81
5.81
6.34
6.22
6.22
6.22
6.22
logKow Ref
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
Rinsed?
No
No
No
No
No
No
No
NS
NS
NS
No
No
No
No
No
No
NS
NS
NS
No
No
No
No
No
No
NS
NS
NS
No
No
No
No
No
No
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
Plant Species
Clover
Clover
Clover
Ryegrass
Ryegrass
Tim_grass
Tim_grass
Carrot
Carrot
Carrot
Clover
Clover
Ryegrass
Ryegrass
Tim_grass
Tim_grass
Carrot
Carrot
Carrot
Clover
Clover
Ryegrass
Ryegrass
Tim_grass
Tim_grass
Carrot
Carrot
Carrot
Clover
Clover
Ryegrass
Ryegrass
Tim_grass
Tim_grass
Carrot
Carrot
Carrot
Carrot
SugarBeet
Soybean
Carrot
Corn
Soybean
Soybean
Corn
Corn
Pintobeans
Strngbean
Carrot
SugarBeet
Corn
Corn
Corn
Pintobeans
Soybean
Soybean
Strngbean
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Corn
Corn
Pintobeans
Rice
Exposure
Duration
1
1
1
1
1
1
1
82
82
82
1
1
1
1
1
1
82
82
82
1
1
1
1
1
1
82
82
82
1
1
1
1
1
1
82
82
82
4
4
1-2.5
6
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
4
4
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1-2.5
1-2.5
1-2.5
1
Exposure
Units
season
season
season
season
season
season
season
d
d
d
season
season
season
season
season
season
d
d
d
season
season
season
season
season
season
d
d
d
season
season
season
season
season
season
d
d
d
month
month
month
month
month
month
month
month
month
month
month
month
month
month
month
month
month
month
month
month
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
month
month
month
season
Field/Lab Exp/Test Source of Soil
Data
field
field
field
field
field
field
field
Lab
Lab
Lab
field
field
field
field
field
field
Lab
Lab
Lab
field
field
field
field
field
field
Lab
Lab
Lab
field
field
field
field
field
field
Lab
Lab
Lab
Lab
Lab
field
Lab
field
field
field
field
field
field
field
Lab
Lab
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
1 977, Lee Valley, control plot Table 2
1 977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, control plot Table 2
1976, Luddington, control plot Table 3
1976, Luddington, treated in 1968 w Table 3
18.6 g sewage sludge/kg soil added Table 3
6.1 g sewage sludge/kg soil added Table 3
62.1 g sewage sludge/kg soil added Table 3
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, control plot Table 2
1977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1976, Luddington, control plot Table 3
1976, Luddington, control plot Table 3
18.6 g sewage sludge/kg soil added Table 3
6.1 g sewage sludge/kg soil added Table 3
62.1 g sewage sludge/kg soil added Table 3
1 977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, control plot Table 2
1976, Luddington, treated in 1968 w Table 3
1976, Luddington, control plot Table 3
62.1 g sewage sludge/kg soil added Table 3
18.6 g sewage sludge/kg soil added Table 3
6.1 g sewage sludge/kg soil added Table 3
1 977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, control plot Table 2
1976, Luddington, control plot Table 3
1976, Luddington, treated in 1968 w Table 3
62.1 g sewage sludge/kg soil added Table 3
18.6 g sewage sludge/kg soil added Table 3
6.1 g sewage sludge/kg soil added Table 3
Outdoor plywood boxes Procedure - and
Outdoor plywood boxes 'rocedure - and 1
Control plot of alluvial mud Table 3
1973, Outdoor plywood boxes Text - Procedure
Control plot of alluvial mud Table 3
Control plot of alluvial mud Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Outdoor plywood boxes Procedure - and
Outdoor plywood boxes 'rocedure - and 1
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Control plot of alluvial mud Table 3
Experimental plot of alluvial mud ne; Table 3
Control plot of alluvial mud Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Field collected resident plants from i Table 2
in Soil
11
144
331.8
331.8
144
39
205.4
27.9
9.15
93.15
7
4
4
7
4
5.4
15.996
5.246
53.406
76
186.8
186.8
76
105.6
58
186.3
55.8
18.3
93
221.4
221.4
93
31
154.6
124.2
37.2
12.2
0.25125
0.481
0.4
1
0.4
0.3
4.3
5.8
5.8
5.8
5.8
0.2875625
0.252
4.4
4.4
1.8
4.4
1.8
4.4
4.4
59.2
28.8
62.8
26.9
4.84
1.4
0.18
32.6
8.7
3.63
0.92
17.2
4.7
23.2
5.6
1.3
0.41
1.8
0.93
1
1.1
0.48
17.9
3
36.4
1.1
12.1
58.4
12.8
6.2
6.2
6.2
8.1
Reported
Units for
Soil
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
ng/g
ppm
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
mg/kg
mg/kg
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
Wet or Dry Weight
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Conversion
Factor to
mg/kg
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
none
none
0.001
none
0.001
0.001
0.001
0.001
0.001
0.001
0.001
none
none
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
Organic Cone
in Soil (mg/kg
dw)
0.0110
0.14
0.33
0.33
0.14
0.0390
0.21
0.0279
0.0092
0.0932
0.0070
0.0040
0.0040
0.0070
0.0040
0.0054
0.0160
0.0052
0.0534
0.0760
0.19
0.19
0.0760
0.11
0.0580
0.19
0.0558
0.0183
0.0930
0.22
0.22
0.0930
0.0310
0.15
0.12
0.0372
0.0122
0.25
0.48
0.00040
1.0
0.00040
0.00030
0.0043
0.0058
0.0058
0.0058
0.0058
0.29
0.25
0.0044
0.0044
0.0018
0.0044
0.0018
0.0044
0.0044
0.0592
0.0288
0.0628
0.0269
0.0048
0.0014
0.00018
0.0326
0.0087
0.0036
0.00092
0.0172
0.0047
0.0232
0.0056
0.0013
0.00041
0.0018
0.00093
0.0010
0.0011
0.00048
0.0179
0.0030
0.0364
0.0011
0.0121
0.0584
0.0128
0.0062
0.0062
0.0062
0.0081
Source of
Vegetation
Data
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 5
Table 5
Table 5
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 5
Table 5
Table 5
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 5
Table 5
Table 5
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 5
Table 5
Table 5
Table VI
Table VI
Table 1
Table II
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table IV
Table IV
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 1
Table 1
Table 1
Table 4
Reported
organic cone
n Vegetation
2
44
66
38
41
15
51
24
25
25
39
41
25
26
4
28
14
22
25
87
88
69
85
72
143
129
133
145
11
31
23
42
14
23
24
26
36
0.426
0.025
0.84
0.108
0.84
0.36
0.45
0.6
0.65
0.45
0.48
1.149
0.008
2.88
2.99
4.06
4.2
3.24
3.75
2.76
2.35
5
2.74
5.3
0.16
0.66
0.14
0.9
3.6
0.1
0.38
0.59
2
0.54
1.3
0.41
0.14
0.46
0.37
0.34
0.35
0.14
0.77
0.52
2.1
0.09
0.51
9.6
0.08
0.36
0.65
0.6
0.57
Reported Conversion
Units for Wet or Dry Weight Factor to
Vegetation mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ppm
ppm
ng/g
ppm
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ppm
ppm
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
wet weight
wet weight
Not stated wet assumed
wet weight
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
wet weight
wet weight
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
dry weight
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
1
1
0.001
1
0.001
0.001
0.001
0.001
0.001
0.001
0.001
1
1
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
Conversion
factor to dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
6.67
6.67
6.67
1
Organic Cone
in Plant (mg/kg
dw)
0.0020
0.044
0.066
0.038
0.041
0.015
0.051
0.024
0.025
0.025
0.039
0.041
0.025
0.026
0.0040
0.028
0.014
0.022
0.025
0.087
0.088
0.069
0.085
0.072
0.14
0.13
0.13
0.15
0.011
0.031
0.023
0.042
0.014
0.023
0.024
0.026
0.036
2.8
0.1667
0.0056
0.72
0.0056
0.0024
0.0030
0.0040
0.0043
0.0030
0.0032
7.7
0.05333
0.019
0.020
0.027
0.028
0.022
0.025
0.018
0.0024
0.0050
0.0027
0.0053
0.00016
0.00066
0.00014
0.00090
0.0036
0.00010
0.00038
0.00059
0.0020
0.00054
0.0013
0.00041
0.00014
0.00046
0.00037
0.00034
0.00035
0.00014
0.00077
0.00052
0.0021
0.000090
0.00051
0.0096
0.000080
0.0024
0.0043
0.0040
0.00057
BAF
(Tissue/Soil)
0.18
0.31
0.20
0.11
0.28
0.38
0.25
0.86
2.7
0.27
5.6
10
6.3
3.7
1.0
5.2
0.88
4.2
0.47
1.1
0.47
0.37
1.1
0.68
2.5
0.69
2.4
7.9
0.12
0.14
0.10
0.45
0.45
0.15
0.19
0.70
3.0
11
0.3465
14
0.72
14
8.0
0.70
0.69
0.75
0.52
0.55
27
0.2116
4.4
4.5
15
6.4
12
5.7
4.2
0.040
0.17
0.044
0.20
0.033
0.47
0.78
0.028
0.41
0.028
0.41
0.034
0.43
0.023
0.23
0.32
0.34
0.26
0.40
0.34
0.32
0.29
0.043
0.17
0.058
0.082
0.042
0.16
0.0063
0.39
0.70
0.65
0.070
logBAF
-0.74
-0.51
-0.70
-0.94
-0.55
-0.41
-0.61
-0.07
0.44
-0.57
0.75
1.01
0.80
0.57
0.00
0.71
-0.06
0.62
-0.33
0.06
-0.33
-0.43
0.05
-0.17
0.39
-0.16
0.38
0.90
-0.93
-0.85
-0.98
-0.35
-0.35
-0.83
-0.71
-0.16
0.47
1.05
-0.46
1.15
-0.14
1.15
0.90
-0.16
-0.16
-0.13
-0.29
-0.26
1.43
-0.67
0.64
0.66
1.18
0.80
1.08
0.75
0.62
-1.40
-0.76
-1.36
-0.71
-1.48
-0.33
-0.11
-1.56
-0.38
-1.56
-0.38
-1.46
-0.37
-1.63
-0.63
-0.50
-0.47
-0.59
-0.40
-0.47
-0.50
-0.54
-1.37
-0.76
-1.24
-1.09
-1.38
-0.78
-2.20
-0.41
-0.16
-0.19
-1.15
Eco-SSL Attachment 4-1 Appendix B
3 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Bi et al 2002
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Shane and Bush 1989
Bi et al 2002
Bi et al 2002
Shane and Bush 1989
Shane and Bush 1989
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Shane and Bush 1989
Bi et al 2002
Bi et al 2002
Shane and Bush 1989
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Beynon et al. 1972
Beynon et al. 1972
Beynon et al. 1972
Beynon et al. 1972
Iwata and Gunther 1976
Iwata and Gunther 1976
Iwata and Gunther 1976
Iwata and Gunther 1976
Iwata and Gunther 1976
Iwata and Gunther 1976
Iwata and Gunther 1976
Iwata and Gunther 1976
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Tafurie al., 1977
Tafurie al., 1977
Tafurie al., 1977
Tafurie al., 1977
Tafurie al., 1977
Tafurie al., 1977
Lichenstein, 1960
Lichenstein, 1960
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Tafurietal., 1977
Tafurietal., 1977
Tafurietal., 1977
Tafurietal., 1977
Tafurietal., 1977
Tafurietal., 1977
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
Lichenstein, 1960
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
Chemical Class
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
PCBs
Triazines
Triazines
Triazines
Triazines
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Aroclors
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Chemical Name
PCB49
PCB49
PCB49
PCB52
PCB52
PCB52
PCB52
PCB52
PCB52
PCB52
PCB66
PCB66
PCB70
PCB70
PCB74
PCB74
PCBS
PCBS
PCBS
PCBS
PCBS2
PCBS2
PCB85
PCB87
PCB97
PCB97
PCB99
PCB99
Cyanazine
Cyanazine
Cyanazine
Cyanazine
Aroclor1254
Aroclor1254
Aroclor1254
Aroclor1254
Aroclor1254
Aroclor1254
Aroclor1254
Aroclor1254
Aldrin
Aldrin
Aldrin
alpha-Chlordane
alpha-Chlordane
alpha-Chlordane
alpha-Chlordane
alpha-Chlordane
alpha-Chlordane
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
gamma-Chlordane
gamma-Chlordane
gamma-Chlordane
gamma-Chlordane
gamma-Chlordane
gamma-Chlordane
Heptachlor
Heptachlor
Heptachlor
Heptachlor Epoxide
Heptachlor Epoxide
Heptachlor Epoxide
Heptachlor Epoxide
Heptachlor Epoxide
Heptachlor Epoxide
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
CAS No
41464408
41464408
41464408
35693993
35693993
35693993
35693993
35693993
35693993
35693993
32598100
32598100
32598111
32598111
32690930
32690930
34883437
34883437
34883437
34883437
52663624
52663624
65510454
38380028
41464511
41464511
38380017
38380017
21725462
21725462
21725462
21725462
11097691
11097691
11097691
11097691
11097691
11097691
11097691
11097691
309002
309002
309002
5103719
5103719
5103719
5103719
5103719
5103719
60571
60571
60571
60571
60571
60571
60571
60571
60571
57749
57749
57749
57749
57749
57749
76448
76448
76448
1024573
1024573
1024573
1024573
1024573
1024573
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
2385855
logKow
6.22
6.22
6.22
6.09
6.09
6.09
6.09
6.09
6.09
6.09
6.31
6.31
6.23
6.23
6.67
6.67
5.09
5.09
5.09
5.09
6.98
6.98
6.61
6.85
6.67
6.67
7.21
7.21
2.22
2.22
2.22
2.22
6.5
6.5
6.5
6.5
6.5
6.5
6.5
6.5
6.5
6.5
6.5
6.1
6.1
6.1
6.1
6.1
6.1
5.37
5.37
5.37
5.37
5.37
5.37
5.37
5.37
5.37
6.32
6.32
6.32
6.32
6.32
6.32
6.26
6.26
6.26
5
5
5
5
5
5
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.89
logKow Ref
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
EPA 1995
EPA 1995
EPA 1995
SRC
SRC
SRC
SRC
SRC
SRC
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
Rinsed?
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Plant Species
Rice
Soybean
Strngbean
Corn
Corn
Pintobeans
Rice
Rice
Soybean
Strngbean
Rice
Rice
Rice
Rice
Rice
Rice
Corn
Rice
Rice
Soybean
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Rice
Corn
Corn
Corn
Corn
Carrot
Carrot
Carrot
Carrot
Carrot
Carrot
Carrot
Carrot
Lettuce
Lettuce
Lettuce
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Grass
Grass
Grass
Lettuce
Lettuce
Lettuce
Lettuce
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Alfalfa
Lettuce
Lettu e
Alfal a
Alfal a
Lettu e
Lettu e
Lettu e
Lettu e
GrdnBean
GrdnBean
GrdnBean
GrdnBean
GrdnBean
GrdnBean
Sorghum
Sorghum
Sorghum
Sorghum
Sorghum
Sorghum
Soybean
Soybean
Soybean
Soybean
Soybean
Exposure
Duration
1
1-2.5
1-2.5
1-2.5
1-2.5
1-2.5
1
1
1-2.5
1-2.5
1
1
1
1
1
1
1-2.5
1
1
1-2.5
1
1
1
1
1
1
1
1
139
139
139
139
2
2
2
2
2
3
3
2
60
60
60
60
150
150
150
60
60
60
60
6
6
6
60
60
60
60
60
150
60
60
150
150
60
60
60
60
60
60
60
60
60
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
Exposure
Units
season
month
month
month
month
month
season
season
month
month
season
season
season
season
season
season
month
season
season
month
season
season
season
season
season
season
season
season
d
d
d
d
month
month
month
month
month
month
month
month
d
d
d
d
d
d
d
d
d
d
d
month
month
month
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
wk
Field/Lab Exp/Test Source of Soil
Data
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
Field
Field
Field
Field
field
field
field
field
field
field
field
field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Field collected resident plants from i Table 2
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Experimental plot of alluvial mud ne; Table 3
Experimental plot of alluvial mud ne; Table 3
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Control plot of alluvial mud Table 3
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Control plot of alluvial mud Table 3
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Field collected resident plants from i Table 2
Peat Table 4
Clay Loam Table 4
Sandy Loam Table 4
Medium Loam Table 4
1 972 - Plot B (Four replicate field plum of peak residi
1 972 - Plot A (Four replicate field plum of peak residi
1 972 - Plot D (Four replicate field plum of peak residi
1 972 - Plot C (Four replicate field plum of peak residi
1 973 - Plot D (Four replicate field plum of peak residi
1 973 - Plot D (Four replicate field plum of peak residi
1 973 - Plot C (Four replicate field plum of peak residi
1 973 - Plot C (Four replicate field plum of peak residi
1959, 25 Ib/acre Table II
May 1958, 5 Ib/acre Table I
May 1958, 25 Ib/acre Table I
April 1975, 0 kg/ha, alpha-chlordane Table III
April 1975, 0 kg/ha, alpha-chlordane Table III
April 1975, 3 kg/ha, alpha-chlordane Table III
April 1975, 6 kg/ha, alpha-chlordane Table III
April 1975, 6 kg/ha, alpha-chlordane Table III
April 1975, 3 kg/ha, alpha-chlordane Table III
May 1958, 5 Ib/acre Table III
May 1958, 25 Ib/acre Table III
Initial application in January 1969, V Table 1
Initial application in January 1969, V Table 1
Initial application in January 1969, V Table 1
1959, 5 Ib/acre Table II
May 1958, 5 Ib/acre Table I
1959, 25 Ib/acre Table II
May 1958, 25 Ib/acre Table I
April 1975, 0 kg/ha, gamma-chlorda Table III
April 1975, 0 kg/ha, gamma-chlorda Table III
April 1975, 6 kg/ha, gamma-chlorda Table III
April 1975, 3 kg/ha, gamma-chlorda Table III
April 1975, 3 kg/ha, gamma-chlorda Table III
April 1975, 6 kg/ha, gamma-chlorda Table III
May 1958, 25 Ib/acre Table III
May 1958, 5 Ib/acre Table I
May 1958, 25 Ib/acre Table I
May 1958, 25 Ib/acre Table III
May 1958, 5 Ib/acre Table III
1959, 5 Ib/acre Table II
May 1958, 5 Ib/acre Table I
1959, 25 Ib/acre Table II
May 1958, 25 Ib/acre Table I
Treated with 0.3 ppm mirex in soil Table 1
Treated with 0.31 ppm mirex in loan Table 1
Treated with 0.8 ppm m rex in soil Table 1
Treated with 0.8 ppm m rex in loarn^ Table 1
Treated with 3.5 ppm m rex in soil Table 1
Treated with 3.4 ppm m rex in loarn^ Table 1
Treated with 0.3 ppm m rex in soil Table 1
Treated with 0.31 ppm mirex in loan Table 1
Treated with 0.8 ppm m rex in soil Table 1
Treated with 3.5 ppm m rex in soil Table 1
Treated with 0.8 ppm m rex in loarn^ Table 1
Treated with 3.4 ppm m rex in loarn^ Table 1
Treated with 0.31 ppm mirex in loan Table 1
Treated with 0.3 ppm m rex in soil Table 1
Treated with 0.8 ppm m rex in soil Table 1
Treated with 0.8 ppm m rex in loarn^ Table 1
Treated with 3.5 ppm m rex in soil Table 1
in Soil
47.5
6.2
6.2
4.9
4.9
4.9
13.7
73
4.9
4.9
17.4
72.5
10.2
56.3
11.3
46.5
0.5
0.625
0.85
0.5
5.9
20.6
63.8
48.8
30.9
9.4
38.3
16.3
0.9
0.42
0.41
0.62
321
438
322
405
366
366
425
425
3.1
1.21
9.77
0.136
0.136
1.863
3.794
3.794
1.863
0.98
4.18
0.77
1.73
7.3
0.66
0.36
1.83
1.31
0.006
0.006
1.29
0.612
0.612
1.29
5.98
2.17
10.78
2.53
0.74
0.39
0.21
0.78
0.63
0.3
0.31
0.8
0.8
3.5
3.4
0.3
0.31
0.8
3.5
0.8
3.4
0.31
0.3
0.8
0.8
3.5
Reported
Units for
Soil
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
mg/kg
mg/kg
mg/kg
mg/kg
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet or Dry Weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated dry assumed
dry weight
dry weight
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
wet weight
wet weight
wet weight
wet weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Conversion
Factor to
mg/kg
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
Organic Cone Source of Reported
in Soil (mg/kg Vegetation organic cone
dw) Data in Vegetation
0.0475
0.0062
0.0062
0.0049
0.0049
0.0049
0.0137
0.0730
0.0049
0.0049
0.0174
0.0725
0.0102
0.0563
0.0113
0.0465
0.00050
0.00063
0.00085
0.00050
0.0059
0.0206
0.0638
0.0488
0.0309
0.0094
0.0383
0.0163
0.90
0.42
0.41
0.62
321
438
322
405
366
366
425
425
3.1
1.2
9.8
0.14
0.14
1.9
3.8
3.8
1.9
0.98
4.2
0.77
1.7
7.3
0.66
0.36
1.8
1.3
0.0060
0.0060
1.3
0.61
0.61
1.3
6.0
2.2
11
2.5
0.74
0.39
0.21
0.78
0.63
0.30
0.31
0.80
0.80
3.5
3.4
0.30
0.31
0.80
3.5
0.80
3.4
0.31
0.30
0.80
0.80
3.5
Table 4
Table 1
Table 1
Table 1
Table 1
Table 1
Table 4
Table 4
Table 1
Table 1
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 1
Table 4
Table 4
Table 1
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 6
Table 6
Table 6
Table 6
- Sum of peak
- Sum of peak
- Sum of peak
- Sum of peak
- Sum of peak
- Sum of peak
- Sum of peak
- Sum of peak
Table II
Table I
Table I
Table V
Table V
Table V
Table V
Table V
Table V
Table III
Table III
Table 1
Table 1
Table 1
Table II
Table I
Table II
Table I
Table VI
Table VI
Table VI
Table VI
Table VI
Table VI
Table III
Table I
Table I
Table III
Table III
Table II
Table I
Table II
Table I
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
6.6
0.45
0.48
0.36
0.65
0.6
0.77
11.6
0.6
0.48
1.72
19.7
0.82
12.1
0.73
8.3
1.26
0.53
1
1.32
0.69
1.51
1.6
5.37
1.35
2.1
1.7
3.3
0.02
0.03
0.06
0.08
5.3
5.61
7.29
8.23
10.7
11.4
13.3
16.7
0.03
0.04
0.15
1.333
1.667
4
5.333
7
7.333
0.06
0.08
0.05
0.18
0.4
0.07
0.12
0.17
0.26
1
1.667
2.33
2.667
2.667
4.667
0.02
0.05
0.27
0.09
0.1
0.03
0.05
0.05
0.29
0.01
0.01
0.11
0.19
0.2
0.4
0.11
0.18
0.2
0.22
0.33
0.4
0.03
0.1
0.12
0.18
0.21
Reported
Units for
Vegetation
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
mg/kg
mg/kg
mg/kg
mg/kg
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
mg/kg
mg/kg
mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Conversion
Wet or Dry Weight Factor to
mg/kg
dry weight
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
Not stated wet assumed
dry weight
dry weight
Not stated wet assumed
Not stated wet assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not stated wet assumed
dry weight
dry weight
Not stated wet assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
wet weight
wet weight
dry weight
dry weight
dry weight
wet weight
wet weight
wet weight
wet weight
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
wet weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0.001
0.001
0.001
0.001
0.001
0.001
1
1
1
1
1
1
1
1
1
0.001
0.001
0.001
0.001
0.001
0.001
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Conversion
factor to dw
1
6.67
6.67
6.67
6.67
6.67
1
1
6.67
6.67
1
1
1
1
1
1
6.67
1
1
6.67
1
1
1
1
1
1
1
1
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
1
1
1
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Organic Cone
in Plant (mg/kg
dw)
0.0066
0.0030
0.0032
0.0024
0.0043
0.0040
0.00077
0.012
0.0040
0.0032
0.0017
0.020
0.00082
0.012
0.00073
0.0083
0.0084
0.00053
0.0010
0.0088
0.00069
0.0015
0.0016
0.0054
0.0014
0.0021
0.0017
0.0033
0.13
0.20
0.40
0.53
35
37
49
55
71
76
89
111
0.20
0.3
1.0
0.0089
0.011
0.027
0.036
0.047
0.049
0.40
0.53
0.050
0.18
0.40
0.47
0.8
1.1
1.7
0.0067
0.011
0.016
0.018
0.018
0.031
0.13
0.3
1.8
0.60
0.67
0.20
0.3
0.3
1.9
0.010
0.010
0.11
0.19
0.20
0.40
0.11
0.18
0.20
0.22
0.33
0.40
0.030
0.10
0.12
0.18
0.21
BAF
(Tissue/Soil)
0.14
0.48
0.52
0.49
0.88
0.82
0.056
0.16
0.82
0.65
0.099
0.27
0.080
0.21
0.065
0.18
17
0.85
1.2
18
0.12
0.073
0.025
0.11
0.044
0.22
0.044
0.20
0.15
0.48
0.98
0.86
0.11
0.085
0.15
0.14
0.19
0.21
0.21
0.26
0.06
0.22
0.10
0.065
0.082
0.014
0.0094
0.012
0.026
0.41
0.13
0.065
0.10
0.055
0.7
2.2
0.6
1.3
1.1
1.9
0.012
0.029
0.029
0.024
0.022
0.15
0.17
0.24
0.90
0.5
1.6
0.4
3
0.033
0.032
0.14
0.24
0.057
0.12
0.37
0.58
0.25
0.063
0.41
0.12
0.097
0.33
0.15
0.23
0.060
logBAF
-0.86
-0.32
-0.29
-0.31
-0.05
-0.09
-1.25
-0.80
-0.09
-0.19
-1.01
-0.57
-1.09
-0.67
-1.19
-0.75
1.23
-0.07
0.07
1.25
-0.93
-1.13
-1.60
-0.96
-1.36
-0.65
-1.35
-0.69
-0.83
-0.32
-0.01
-0.07
-0.96
-1.07
-0.82
-0.87
-0.71
-0.68
-0.68
-0.58
-1.19
-0.66
-0.99
-1.18
-1.09
-1.84
-2.03
-1.91
-1.58
-0.39
-0.89
-1.19
-0.98
-1.26
-0.15
0.35
-0.21
0.12
0.05
0.27
-1.92
-1.54
-1.54
-1.62
-1.65
-0.81
-0.78
-0.62
-0.05
-0.29
0.20
-0.37
0.49
-1.48
-1.49
-0.86
-0.62
-1.24
-0.93
-0.44
-0.24
-0.60
-1.20
-0.38
-0.93
-1.01
-0.48
-0.82
-0.65
-1.22
Eco-SSL Attachment 4-1 Appendix B
4 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
De La Cruz and Rajanna, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Voerman and Besemer, 1975
Escheletal., 1978
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1959
Voerman and Besemer, 1975
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1959
Schneider et al 1995
Schneider et al 1995
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Edwards etal. 1982
Edwards etal. 1982
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Chemical Class
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
DDTanalog
DDTanalog
DDTanalog
DDTanalog
DDTanalog
DDTanalog
DDTanalog
DDTanalog
DDTanalog
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
Chemical Name
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
Mirex
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDT
Ethofumesate
Lindane
Lindane
Lindane
Lindane
Lindane
Lindane
Lindane
Lindane
Lindane
Lindane
Lindane
TNT
TNT
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Benzo(a)anthracene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
benzo(e)pyrene
benzo(e)pyrene
benzo(e)pyrene
benzo(e)pyrene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(k)fluoranthene
CAS No
2385855
2385855
2385855
2385855
2385855
2385855
2385855
72559
72559
72559
50293
789026
789026
789026
50293
50293
26225796
58899
58899
58899
58899
58899
58899
58899
58899
58899
58899
58899
118967
118967
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
120127
56553
50628
50628
50628
50628
50628
50328
50628
50628
50628
50328
50328
50328
50628
50628
50628
205992
205992
205992
205992
192972
192972
192972
192972
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
191242
207089
logKow
6.89
6.89
6.89
6.89
6.89
6.89
6.89
6.76
6.76
6.76
6.53
5.75
5.75
5.75
6.53
6.53
2.7
3.73
3.73
3.73
3.73
3.73
3.73
3.73
3.73
3.73
3.73
3.73
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
5.7
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.11
6.2
6.2
6.2
6.2
6.44
6.44
6.44
6.44
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.7
6.2
logKow Ref
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
Verschueren2001
Verschueren2001
Verschueren2001
EPA 1995
EPA 1995
SRC
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
SRC
SRC
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
SRC
SRC
SRC
SRC
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
Rinsed? Plant Species
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Soybean
Wheat
Wheat
Wheat
Wheat
Wheat
Wheat
Grass
Grass
Grass
Grass
Grass
Grass
Grass
Grass
Grass
SugarBeet
Cabbage
Cabbage
Cabbage
Cabbage
Cabbage
Grass
Pea
Pea
Pea
Pea
Pea
blacklocust
moothbromegras
Beet
Beet
Beet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
Soybean
Soybean
SugarBeet
SugarBeet
Lettuce
Beet
Beet
Beet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
SugarBeet
SugarBeet
Cabbage
endive
leek
Lettuce
Cabbage
endive
leek
Lettuce
Beet
Beet
Beet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
Ryegrass
SugarBeet
SugarBeet
Beet
Exposure
Duration
4
4
4
4
4
4
4
6
6
6
6
6
6
6
6
6
20
1
1
1
1
1
6
1
1
1
1
1
999
999
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4
4
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Exposure
Units
wk
wk
wk
wk
wk
wk
wk
month
month
month
month
month
month
month
month
month
d
season
season
season
season
season
month
season
season
season
season
season
Resident
Resident
season
season
season
season
season
season
season
season
season
season
season
season
season
season
d
d
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
Field/Lab Exp/Test
Lab
Lab
Lab
Lab
Lab
Lab
Lab
Field
Field
Field
Field
Field
Field
Field
Field
Field
Lab
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
Lab
Lab
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
Treated with 3.4 ppm mirex in loarn^
Treated with 0.31 ppm mirex in loan
Treated with 0.3 ppm mirex in soil
Treated with 3.5 ppm mirex in soil
Treated with 0.8 ppm mirex in soil
Treated with 0.8 ppm mirex in loarn^
Treated with 3.4 ppm mirex in loarn^
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Initial application in January 1969, V
Laboratory test using plastic pots, st
1 956 sandy loam 1 0 Ibs added
1956 muck 10 Ibs added
1956 muck 100 Ibs added
1956 Miami silt loam 100 Ibs added
1 956 sandy loam 1 00 Ibs added
Initial application in January 1969, V
1956 muck 10 Ibs added
1956 muck 100 Ibs added
1 956 sandy loam 1 0 Ibs added
1956 Miami silt loam 100 Ibs added
1 956 sandy loam 1 00 Ibs added
Field collected resident plants at an
Field collected resident plants at an
1984, Woburn Market Gardern, cont
1984, Woburn Market Garden, sewe
1963, Woburn Market Garden, sewe
1963, Woburn Market Gardern, cont
1983, Woburn Market Garden, sewe
na
1963, Woburn Market Gardern, sew
1963, Woburn Market Garden, contr
1984, Woburn Market Garden, sewe
1984, Woburn Market Gardern, cont
na
na
na
1982, Woburn Market Garden, sewe
Flooded soil
moist soil
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewe
na
1984, Woburn Market Gardern, cont
1983, Woburn Market Garden, sewe
1984, Woburn Market Garden, sewe
1963, Woburn Market Gardern, cont
1963, Woburn Market Garden, sewe
na
1963, Woburn Market Garden, contr
1963, Woburn Market Gardern, sew
1984, Woburn Market Garden, sewe
na
na
na
1982, Woburn Market Garden, sewe
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewe
na
na
na
na
na
na
na
na
1984, Woburn Market Gardern, cont
1984, Woburn Market Garden, sewe
1963, Woburn Market Gardern, cont
1963, Woburn Market Garden, sewe
1983, Woburn Market Garden, sewe
na
1984, Woburn Market Gardern, cont
1963, Woburn Market Garden, contr
1984, Woburn Market Garden, sewe
1963, Woburn Market Gardern, sew
na
na
na
1982, Woburn Market Garden, sewe
1982, Woburn Market Gardern, cont
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewe
1984, Woburn Market Garden, sewe
Source of Soil orRan>i°r'ceodnc
Data o^"^0"0
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Text Sect
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
Table
3.4
0.31
0.3
3.5
0.8
0.8
3.4
0.44
1.2
4.5
2.45
0.63
1.5
12.2
5.8
42.5
2.3 1
1.33
7.58
94.5
17.1
20.85
0.32
7.58
94.5
1.33
17.1
20.85
Table B.1 13.8
Table B.1 11000
Table III 13
Table III 15
Table III 53
Table III 16
Table III 15
Table 2 0.6
Table III 53
Table III 16
Table III 15
Table III 13
Table 2 0.6
Table 2 0.6
Table 2 0.6
Table III 35
Table 2 14
Table 2 10
Table III 3
Table III 24
Table 2 5.4
Table III 35
Table III 250
Table III 250
Table III 30
Table III 410
Table 2 2.4
Table III 30
Table III 410
Table III 250
Table 2 2.4
Table 2 2.4
Table 2 2.4
Table III 260
Table III 45
Table III 340
Table 2 2.5
Table 2 2.5
Table 2 2.5
Table 2 2.5
Table 2 5.9
Table 2 5.9
Table 2 5.9
Table 2 5.9
Table III 110
Table III 530
Table III 90
Table III 900
Table III 530
Table 2 3.6
Table III 110
Table III 90
Table III 530
Table III 900
Table 2 3.6
Table 2 3.6
Table 2 3.6
Table III 550
Table III 170
Table III 98
Table III 550
Table III 370
Reported
Units for
Soil
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
Wet or Dry Weight
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
NotSt
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
dry weight
dry weight
ated dry assumed
dry weight
dry weight
ated dry assumed
ated dry assumed
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
dry weight
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
ated dry assumed
ated dry assumed
ated dry assumed
ated dry assumed
dry weight
dry weight
dry weight
a ed dry assumed
a ed dry assumed
a ed dry assumed
a ed dry assumed
a ed dry assumed
Conversion
Factor to
mg/kg
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
Organic Cone
in Soil (mg/kg
dw)
3.4
0.31
0.30
3.5
0.80
0.80
3.4
0.44
1.2
4.5
2.5
0.63
1.5
12
5.8
43
1.0
1.3
7.6
95
17
21
0.32
7.6
95
1.3
17
21
14
11,000
0.0130
0.0150
0.0530
0.0160
0.0150
0.00060
0.0530
0.0160
0.0150
0.0130
0.00060
0.00060
0.00060
0.0350
0.0140
0.0100
0.0030
0.0240
0.0054
0.0350
0.25
0.25
0.0300
0.41
0.0024
0.0300
0.41
0.25
0.0024
0.0024
0.0024
0.26
0.0450
0.34
0.0025
0.0025
0.0025
0.0025
0.0059
0.0059
0.0059
0.0059
0.11
0.53
0.0900
0.90
0.53
0.0036
0.11
0.0900
0.53
0.90
0.0036
0.0036
0.0036
0.55
0.17
0.0980
0.55
0.37
Source of Reported Reported
Vegetation organic cone Units for
Data in Vegetation Vegetation
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table I
Table I
Table I
Table I
Table I
Table 1
Table I
Table I
Table I
Table I
Table I
Table B.1
Table B.1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
0.36
0.04
0.09
0.17
0.18
0.19
0.21
0.06
0.09
2.79
0.04
0.05
0.07
0.28
0.32
1.2
11.96
0.37
0.09
0.15
0.31
2.37
0.1
0.11
0.79
1.52
4.92
18.4
4.4
0.76
11
12
17
24
69
0.6
1
11
25
44
1.2
0.47
1.4
69
14
31
9
36
2.9
19
23
25
28
42
0.1
12
16
21
0.24
0.15
0.28
17
37
39
0.2
1.2
0.45
1.1
0.6
1.3
0.94
1.6
23
56
140
160
162
0.32
81
109
111
378
0.27
0.47
0.19
93
137
76
80
9
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
mg/kg ww
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
Conversion
Wet or Dry Weight Factor to
mg/kg
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
wet weight
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
dry weight
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
Conversion
factor to dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
6.67
6.67
6.67
6.67
6.67
6.67
1
6.67
6.67
6.67
6.67
6.67
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Organic Cone
in Plant (mg/kg ,T. ,^ .
. , (Tissue/Soil)
0.36
0.040
0.090
0.17
0.18
0.19
0.21
0.060
0.090
2.79
0.040
0.050
0.070
0.28
0.32
1.2
79.73
2.5
0.60
1.0
2.1
16
0.10
0.73
5.3
10
33
123
4.4
0.76
0.011
0.012
0.017
0.024
0.069
0.00060
0.0010
0.011
0.025
0.044
0.0012
0.00047
0.0014
0.069
0.014
0.031
0.0090
0.036
0.0029
0.019
0.023
0.025
0.028
0.042
0.00010
0.012
0.016
0.021
0.00024
0.00015
0.00028
0.017
0.037
0.039
0.00020
0.0012
0.00045
0.0011
0.00060
0.0013
0.00094
0.0016
0.023
0.056
0.14
0.16
0.16
0.00032
0.081
0.11
0.11
0.38
0.00027
0.00047
0.00019
0.093
0.14
0.076
0.080
0.0090
0.11
0.13
0.30
0.049
0.23
0.24
0.062
0.14
0.075
0.62
0.016
0.079
0.047
0.023
0.055
0.028
79.73
1.9
0.079
0.011
0.12
0.76
0.31
0.097
0.056
7.6
1.9
5.9
0.32
0.000069
0.85
0.80
0.32
1.5
4.6
1.0
0.019
0.69
1.7
3.4
2.0
0.78
2.3
2.0
1.0
3.1
3.0
1.5
0.54
0.54
0.092
0.10
0.93
0.10
0.042
0.40
0.039
0.084
0.10
0.063
0.12
0.065
0.82
0.11
0.080
0.48
0.18
0.44
0.10
0.22
0.16
0.27
0.21
0.11
1.6
0.18
0.31
0.089
0.74
1.2
0.21
0.42
0.075
0.13
0.053
0.17
0.81
0.78
0.15
0.024
logBAF
-0.98
-0.89
-0.52
-1.31
-0.65
-0.62
-1.21
-0.87
-1.12
-0.21
-1.79
-1.10
-1.33
-1.64
-1.26
-1.55
1.90
0.27
-1.10
-1.98
-0.92
-0.12
-0.51
-1.01
-1.25
0.88
0.28
0.77
-0.50
-4.16
-0.07
-0.10
-0.49
0.18
0.66
0.00
-1.72
-0.16
0.22
0.53
0.30
-0.11
0.37
0.29
0.00
0.49
0.48
0.18
-0.27
-0.27
-1.04
-1.00
-0.03
-0.99
-1.38
-0.40
-1.41
-1.08
-1.00
-1.20
-0.93
-1.18
-0.09
-0.94
-1.10
-0.32
-0.74
-0.36
-0.99
-0.66
-0.80
-0.57
-0.68
-0.98
0.19
-0.75
-0.51
-1.05
-0.13
0.08
-0.68
-0.38
-1.12
-0.88
-1.28
-0.77
-0.09
-0.11
-0.84
-1.61
Eco-SSL Attachment 4-1 Appendix B
5 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Kipopoulou e al. 1999
Kipopoulou e al. 1999
Kipopoulou e al. 1999
Kipopoulou e al. 1999
Kipopoulou e al. 1999
Kipopoulou e al. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Kipopoulouetal. 1999
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Kipopoulouetal. 1999
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Chemical Class
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Chemical Name
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Chrysene
Chrysene
Chrysene
Chrysene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
fluorene
fluorene
fluorene
fluorene
lndeno(123 cd)pyrene
lndeno(123 cd)pyrene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
RDX
RDX
RDX
RDX
RDX
RDX
RDX
CAS No
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
207089
218019
218019
218019
218019
53703
53703
53703
53703
206440
206440
206440
206440
206440
206440
206440
206440
206440
206440
206440
86737
86737
86737
86737
193395
193395
91203
91203
91203
91203
91203
91203
91203
91203
91203
91203
91203
91203
91203
91203
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
85018
129000
129000
129000
129000
129000
129000
129000
129000
129000
129000
129000
121824
121824
121824
121824
121824
121824
121824
logKow
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
6.2
5.7
5.7
5.7
5.7
6.69
6.69
6.69
6.69
5.12
5.12
5.12
5.12
5.12
5.12
5.12
5.12
5.12
5.12
5.12
4.21
4.21
4.21
4.21
6.65
6.65
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
3.36
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
4.55
5.11
5.11
5.11
5.11
5.11
5.11
5.11
5.11
5.11
5.11
5.11
0.87
0.87
0.87
0.87
0.87
0.87
0.87
logKow Ref
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
SRC
SRC
SRC
SRC
SRC
SRC
SRC
Rinsed?
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Plant Species
Beet
Beet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
Ryegrass
SugarBeet
SugarBeet
Cabbage
endive
leek
Lettuce
Cabbage
endive
leek
Lettuce
Beet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
Cabbage
endive
leek
Lettuce
Cabbage
endive
Beet
Beet
Beet
Beet
Cabbage
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
Ryegrass
SugarBeet
SugarBeet
Beet
Beet
Beet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
Ryegrass
SugarBeet
SugarBeet
Beet
Beet
Cabbage
Carrot
Carrot
Carrot
endive
leek
Lettuce
Ryegrass
SugarBeet
blacklocust
blacklocust
goldenrod
goldenrod
goldenrod
goldenrod
Grass
Exposure
Duration
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
999
999
999
999
999
999
999
Exposure
Units
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Field/Lab
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
Exp / Test
1983, Woburn Market Garden, sewE
1984, Woburn Market Gardern, cont
1963, Woburn Market Garden, sewE
1963, Woburn Market Gardern, cont
na
1984, Woburn Market Gardern, cont
1963, Woburn Market Garden, contr
1963, Woburn Market Gardern, sew
1984, Woburn Market Garden, sewE
na
na
na
1982, Woburn Market Garden, sewE
1982, Woburn Market Gardern, cont
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewE
na
na
na
na
na
na
na
na
1984, Woburn Market Gardern, cont
1963, Woburn Market Garden, sewE
1963, Woburn Market Gardern, cont
na
1963, Woburn Market Garden, contr
1963, Woburn Market Gardern, sew
1984, Woburn Market Garden, sewE
na
na
na
1982, Woburn Market Gardern, cont
na
na
na
na
na
na
1984, Woburn Market Garden, sewE
1963, Woburn Market Garden, sewE
1963, Woburn Market Gardern, cont
1983, Woburn Market Garden, sewE
na
1963, Woburn Market Garden, contr
1984, Woburn Market Garden, sewE
na
na
na
1982, Woburn Market Gardern, cont
1982, Woburn Market Garden, sewE
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewE
1984, Woburn Market Garden, sewE
1984, Woburn Market Gardern, cont
1983, Woburn Market Garden, sewE
1963, Woburn Market Gardern, cont
1963, Woburn Market Garden, sewE
na
1984, Woburn Market Gardern, cont
1963, Woburn Market Garden, contr
1984, Woburn Market Garden, sewE
1963, Woburn Market Gardern, sew
na
na
na
1982, Woburn Market Garden, sewE
1982, Woburn Market Gardern, cont
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewE
1984, Woburn Market Gardern, cont
1963, Woburn Market Gardern, cont
na
1963, Woburn Market Garden, contr
1963, Woburn Market Gardern, sew
1984, Woburn Market Garden, sewE
na
na
na
1982, Woburn Market Gardern, cont
1970, Woburn Market Gardern, cont
Field collected resident plan s at an
Field collected resident plan s at an
Field collected resident plan s at an
Field collected resident plan s at an
Field collected resident plan s at an
Field collected resident plan s at an
Field collected resident plan s at an
Source of Soil
Data
Table III
Table III
Table III
Table III
Table 2
Table III
Table III
Table III
Table III
Table 2
Table 2
Table 2
Table III
Table III
Table III
Table III
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table III
Table III
Table III
Table 2
Table III
Table III
Table III
Table 2
Table 2
Table 2
Table III
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table III
Table III
Table III
Table III
Table 2
Table III
Table III
Table 2
Table 2
Table 2
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table 2
Table III
Table III
Table III
Table III
Table 2
Table 2
Table 2
Table III
Table III
Table III
Table III
Table III
Table III
Table 2
Table III
Table III
Table III
Table 2
Table 2
Table 2
Table III
Table III
Table B.1
Table B.1
Table B.1
Table B.1
Table B.1
Table B.1
Table B.1
Reported
organic cone
in Soil
370
68
670
71
1
68
71
670
370
1
1
1
410
75
77
470
3.7
3.7
3.7
3.7
0.43
0.43
0.43
0.43
140
1030
220
7.3
220
1030
410
7.3
7.3
7.3
130
101
101
101
101
2.1
2.1
4
31
1
4
17
1
4
17
17
17
3
34
3
8
89
150
89
340
980
8.6
150
340
89
980
8.6
8.6
8.6
380
160
30
170
110
100
5.4
100
610
300
5.4
5.4
5.4
85
79
1.6
114
46.1
9
57.1
1100
19.4
Reported
Units for
Soil
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet or Dry Weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
dry weight
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
Not Sta ed dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Conversion
Factor to
mg/kg
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
none
none
none
none
none
none
none
Organic Cone
in Soil (mg/kg
dw)
0.37
0.0680
0.67
0.0710
0.0010
0.0680
0.0710
0.67
0.37
0.0010
0.0010
0.0010
0.41
0.0750
0.0770
0.47
0.0037
0.0037
0.0037
0.0037
0.00043
0.00043
0.00043
0.00043
0.14
1.0
0.22
0.0073
0.22
1.0
0.41
0.0073
0.0073
0.0073
0.13
0.10
0.10
0.10
0.10
0.0021
0.0021
0.0040
0.0310
0.0010
0.0040
0.0170
0.0010
0.0040
0.0170
0.0170
0.0170
0.0030
0.0340
0.0030
0.0080
0.0890
0.15
0.0890
0.34
0.98
0.0086
0.15
0.34
0.0890
0.98
0.0086
0.0086
0.0086
0.38
0.16
0.0300
0.17
0.11
0.10
0.0054
0.10
0.61
0.30
0.0054
0.0054
0.0054
0.0850
0.0790
1.6
114
46
9.0
57
1,100
19
Source of
Vegetation
Data
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 1
Table 1
Table 1
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 1
Table 2
Table 2
Table 2
Table 1
Table 1
Table 1
Table 2
Table 2
Table B.1
Table B.1
Table B.1
Table B.1
Table B.1
Table B.1
Table B.1
Reported
organic cone
in Vegetation
33
34
57
58
0.08
16
21
48
119
0.36
0.17
0.34
8
25
45
69
0.6
3.9
1.9
3.9
0.1
0.06
0.05
0.03
9
32
198
3
109
119
631
44
18
34
24
1.1
5.7
2.6
5.8
0.15
0.31
52
58
70
79
5
48
48
29
18
42
129
308
37
113
185
373
577
700
1074
18
49
930
977
1485
43
33
58
24
191
191
310
78
177
3.9
33
35
346
13
10
20
36
1
17.2
38.6
5.64
23.6
35
37.9
10.1
Reported
Units for
Vegetation
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet or Dry Weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Conversion
Factor to
mg/kg
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
1
1
1
1
1
1
1
Conversion .OrDg|ani,C,C°"C
factor to dw '" pla"' mg/kg
dw)
1 0.033
1 0.034
1 0.057
1 0.058
1 0.000080
1 0.016
1 0.021
1 0.048
1 0.12
1 0.00036
1 0.00017
1 0.00034
1 0.0080
1 0.025
1 0.045
1 0.069
1 0.00060
1 0.0039
1 0.0019
1 0.0039
1 0.00010
1 0.000060
1 0.000050
1 0.000030
1 0.0090
1 0.032
1 0.20
1 0.0030
1 0.11
1 0.12
1 0.63
1 0.044
1 0.018
1 0.034
1 0.024
1 0.0011
1 0.0057
1 0.0026
1 0.0058
1 0.00015
1 0.00031
1 0.052
1 0.058
1 0.070
1 0.079
1 0.0050
1 0.048
1 0.048
1 0.029
1 0.018
1 0.042
1 0.13
1 0.31
1 0.037
1 0.11
1 0.19
1 0.37
1 0.58
1 0.70
1 1.1
1 0.018
1 0.049
1 0.93
1 0.98
1 1.5
1 0.043
1 0.033
1 0.058
1 0.024
1 0.19
1 0.19
1 0.31
1 0.078
1 0.18
1 0.0039
1 0.033
1 0.035
1 0.35
1 0.013
1 0.010
1 0.020
1 0.036
1 0.0010
1 17
1 39
1 5.6
1 24
1 35
1 38
1 10
BAF
(Tissue/Soil)
0.089
0.50
0.085
0.82
0.080
0.24
0.30
0.072
0.32
0.36
0.17
0.34
0.020
0.33
0.58
0.15
0.16
1.1
0.51
1.1
0.23
0.14
0.12
0.070
0.064
0.031
0.90
0.41
0.50
0.12
1.5
6.0
2.5
4.7
0.18
0.011
0.056
0.026
0.057
0.071
0.15
13
1.9
70
20
0.29
48
12
1.7
1.1
2.5
43
9.1
12
14
2.1
2.5
6.5
2.1
1.1
2.1
0.33
2.7
11
1.5
5.0
3.8
6.7
0.063
1.2
6.4
1.8
0.71
1.8
0.72
0.33
0.057
1.2
2.4
1.9
3.7
0.42
0.013
11
0.34
0.12
2.6
0.61
0.034
0.52
logBAF
-1.05
-0.30
-1.07
-0.09
-1.10
-0.63
-0.53
-1.14
-0.49
-0.44
-0.77
-0.47
-1.71
-0.48
-0.23
-0.83
-0.79
0.02
-0.29
0.02
-0.63
-0.86
-0.93
-1.16
-1.19
-1.51
-0.05
-0.39
-0.30
-0.94
0.19
0.78
0.39
0.67
-0.73
-1.96
-1.25
-1.59
-1.24
-1.15
-0.83
1.11
0.27
1.85
1.30
-0.53
1.68
1.08
0.23
0.02
0.39
1.63
0.96
1.09
1.15
0.32
0.40
0.81
0.31
0.04
0.32
-0.49
0.44
1.04
0.18
0.70
0.58
0.83
-1.20
0.08
0.80
0.26
-0.15
0.25
-0.14
-0.48
-1.24
0.06
0.38
0.27
0.57
-0.37
-1.90
1.03
-0.47
-0.91
0.42
-0.21
-1.46
-0.28
Eco-SSL Attachment 4-1 Appendix B
6 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Schneider et al 1995
Trappetal. 1990
Sahaetal., 1968
Edwards 1970
Edwards 1970
Data Excluded
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wild and Jones 1992
Wild and Jones 1992
Wild and Jones 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1990, 1992
Wilde al. 1991,1992
Wilde al. 1991,1992
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Bi et a 2002
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Chemical Class
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Triazines
Cyclodienes
Cyclodienes
Cyclodienes
Cyclodienes
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
Chemical Name
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Ace/Fluorene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
Benz/Chrysene
PCB118/PCB108
PCB118/PCB108
PCB 16/32
PCB 16/32
PCB 18/1 7
PCB 18/1 7
PCB187/PCB159
PCB187/PCB159
PCB 26/PCB 25
PCB 26/PCB 25
PCB 31/28
PCB 31/28
PCB 37/PCB 42
PCB 37/PCB 42
PCB 41/PCB 64
PCB 41/PCB 64
PCB 47/PCB 48
PCB 47/PCB 48
PCB 60/PCB 56
PCB 60/PCB 56
PCB 83
PCB 83
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
CAS No logKow logKow Ref Rinsed?
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
121824 0.87 SRC Yes
60571 5.37 EPA 1995 NS
60571 5.37 EPA 1995 NS
60571 5.37 EPA 1995 NS
60571 5.37 EPA 1995 NS
NS
NS
NS
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
No
Yes
Yes
Yes
Yes
No
No
NS
NS
NS
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
No
Yes
Yes
Yes
Yes
No
No
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
60145202 .. SRC NS
60145202 .. SRC NS
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Plant Species E>">°?ure
Duration
milkweed 999
Pigweed 999
Pigweed 999
Ragweed 999
Ragweed 999
redcedar 999
smartweed 999
smartweed 999
moothbromegras 999
moothbromegras 999
sunflower 999
Barley 1
Legume NR
Wheat NR
Wheat NR
Carrot 82
Carrot 82
Carrot 82
Beet 1
Beet 1
Beet 1
Beet 1
Beet 1
Carrot 1
Carrot 1
Carrot 1
Carrot 1
Clover 1
Clover 1
Ryegrass 1
Ryegrass 1
Ryegrass 1
Ryegrass 1
SugarBeet 1
SugarBeet 1
Tim_grass 1
Tim_grass 1
Carrot 82
Carrot 82
Carrot 82
Beet 1
Beet 1
Beet 1
Beet 1
Beet 1
Carrot 1
Carrot 1
Carrot 1
Carrot 1
Clover 1
Clover 1
Ryegrass 1
Ryegrass 1
Ryegrass 1
Ryegrass 1
SugarBeet 1
SugarBeet 1
Tim_grass 1
Tim_grass 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Rice 1
Beet 1
Beet 1
Beet 1
Beet 1
Beet 1
Carrot 1
Carrot 1
Carrot 1
Err ~
Resident field
Resident field
Resident field
Resident field
Resident field
Resident field
Resident field
Resident field
Resident field
Resident field
Resident field
w Lab
NR NR
NR NR
NR NR
d Lab
d Lab
d Lab
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
d Lab
d Lab
d Lab
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
season field
Exp/Test Source of Soil
Data
ield collected resident plan s at an Table B.1
ield collected resident plan s at an Table B.1
ield collected resident plan s at an Table B.1
ield collected resident plan s at an Table B.1
ield collected resident plan s at an Table B.1
ield collected resident plan s at an Table B.1
Field collected resident plan s at an Table B.1
Field collected resident plan s at an Table B.1
Field collected resident plan s at an Table B.1
Field collected resident plan s at an Table B.1
Field collected resident plan s at an Table B.1
6.1 g sewage sludge/kg soi added Table 3
18.6 g sewage sludge/kg soi added Table 3
62.1 g sewage sludge/kg soi added Table 3
1963, Woburn Market Gardern, cont Table III
1963, Woburn Market Garden, sews Table III
1983, Woburn Market Garden, sews Table III
1984, Woburn Market Gardern, cont Table III
1984, Woburn Market Garden, sews Table III
1963, Woburn Market Garden, conti Table III
1963, Woburn Market Gardern, sew Table III
1984, Woburn Market Gardern, cont Table III
1984, Woburn Market Garden, sews Table III
1977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1982, Woburn Market Garden, sews Table III
1982, Woburn Market Gardern, cont Table III
1970, Woburn Market Gardern, cont Table III
1970, Woburn Market Garden, sews Table III
1976, Luddington, control plot Table 3
1976, Luddington, treated in 1968 w Table 3
6.1 g sewage sludge/kg soi added Table 3
18.6 g sewage sludge/kg soi added Table 3
62.1 g sewage sludge/kg soi added Table 3
1963, Woburn Market Gardern, cont Table III
1963, Woburn Market Garden, sews Table III
1983, Woburn Market Garden, sews Table III
1984, Woburn Market Gardern, cont Table III
1984, Woburn Market Garden, sews Table III
1963, Woburn Market Garden, conti Table III
1963, Woburn Market Gardern, sew Table III
1984, Woburn Market Gardern, cont Table III
1984, Woburn Market Garden, sews Table III
1977, Lee Valley, control plot Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1 977, Lee Valley, treated in 1 968 wi Table 2
1977, Lee Valley, control plot Table 2
1982, Woburn Market Gardern, cont Table III
1982, Woburn Market Garden, sews Table III
1970, Woburn Market Gardern, cont Table III
1970, Woburn Market Garden, sews Table III
1976, Luddington, control plot Table 3
1976, Luddington, treated in 1968 w Table 3
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
Field collected resident plan s from i Table 2
1963, Woburn Market Gardern, cont Table III
1963, Woburn Market Garden, sews Table III
1983, Woburn Market Garden, sews Table III
1984, Woburn Market Gardern, cont Table III
1984, Woburn Market Garden, sews Table III
1963, Woburn Market Garden, conti Table III
1963, Woburn Market Gardern, sew Table III
1984, Woburn Market Gardern, cont Table III
Reported Reported
organic cone Units for
in Soil Soil
46.1 mg/kg
59.7 mg/kg
3.8 mg/kg
1 66 mg/kg
702 mg/kg
16.8 mg/kg
3.2 mg/kg
2.5 mg/kg
1 800 mg/kg
5010 mg/kg
46.1 mg/kg
2.075 mg/kg
0.05 mg/kg
1.13 mg/kg
18.39 mg/kg
14.64 ug/kg
44.64 ug/kg
149.04 ug/kg
40 ug/kg
53 ug/kg
9 ug/kg
35 ug/kg
9 ug/kg
40 ug/kg
53 ug/kg
35 ug/kg
9 ug/kg
23 ug/kg
18.4 ug/kg
23 ug/kg
18.4 ug/kg
42 ug/kg
5 ug/kg
1 ug/kg
15 ug/kg
1 ug/kg
20.4 ug/kg
10.37 ug/kg
31.62 ug/kg
105.57 ug/kg
63 ug/kg
790 ug/kg
450 ug/kg
66 ug/kg
450 ug/kg
63 ug/kg
790 ug/kg
66 ug/kg
450 ug/kg
95 ug/kg
251.8 ug/kg
251.8 ug/kg
95 ug/kg
64 ug/kg
490 ug/kg
71 ug/kg
600 ug/kg
84 ug/kg
166.6 ug/kg
17.9 ng/g
60.5 ng/g
32.1 ng/g
1 .24 ng/g
110.6 ng/g
6.86 ng/g
0.4 ng/g
1 .5 ng/g
31 .4 ng/g
2.7 ng/g
102.1 ng/g
30.6 ng/g
36.2 ng/g
7.96 ng/g
65 ng/g
13.6 ng/g
37.7 ng/g
8.4 ng/g
37.9 ng/g
6.21 ng/g
1 .7 ng/g
ND ng/g
971 ug/kg
5527 ug/kg
2427 ug/kg
727 ug/kg
2427 ug/kg
971 ug/kg
5527 ug/kg
727 ug/kg
Conversion
Wet or Dry Weight Factor to
mg/kg
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
dryweight none
Not Stated dry assumed none
Not Stated dry assumed none
Not Stated dry assumed none
dryweight 0.001
dryweight 0.001
dryweight 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
Not Sta ed dry assumed 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
dryweight 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Not Stated dry assumed 0.001
Organic Cone Source of
in Soil (mg/kg Vegetation
dw) Data
46 Table B.1
60 Table B.1
3.8 Table B.1
166 Table B.1
702 Table B.1
17 Table B.1
3.2 Table B.1
2.5 Table B.1
1,800 Table B.1
5,010 Table B.1
46 Table B.1
2.08
0.0500
1.13
18.39
0.0146 Tables
0.0446 Table 5
0.15 Tables
0.0400 Table 2
0.0530 Table 2
0.0090 Table 2
0.0350 Table 2
0.0090 Table 2
0.0400 Table 2
0.0530 Table 2
0.0350 Table 2
0.0090 Table 2
0.0230 Table 2
0.0184 Table 2
0.0230 Table 2
0.0184 Table 2
0.0420 Table 2
0.0050 Table 2
0.0010 Table 2
0.0150 Table 2
0.0010 Table 2
0.0204 Table 2
0.0104 Tables
0.0316 Tables
0.11 Tables
0.0630 Table 2
0.79 Table 2
0.45 Table 2
0.0660 Table 2
0.45 Table 2
0.0630 Table 2
0.79 Table 2
0.0660 Table 2
0.45 Table 2
0.0950 Table 2
0.25 Table 2
0.25 Table 2
0.0950 Table 2
0.0640 Table 2
0.49 Table 2
0.0710 Table 2
0.60 Table 2
0.0840 Table 2
0.17 Table 2
0.0179 Table 4
0.0605 Table 4
0.0321 Table 4
0.0012 Table 4
0.11 Table 4
0.0069 Table 4
0.00040 Table 4
0.0015 Table 4
0.0314 Table 4
0.0027 Table 4
0.10 Table 4
0.0306 Table 4
0.0362 Table 4
0.0080 Table 4
0.0650 Table 4
0.0136 Table 4
0.0377 Table 4
0.0084 Table 4
0.0379 Table 4
0.0062 Table 4
0.0017 Table 4
ND Table 4
0.97 Table 2
5.5 Table 2
2.4 Table 2
0.73 Table 2
2.4 Table 2
0.97 Table 2
5.5 Table 2
0.73 Table 2
Reported Reported
organic cone Units for
in Vegetation Vegetation
88.6 mg/kg
3.6 mg/kg
10.7 mg/kg
33.4 mg/kg
73.9 mg/kg
42 mg/kg
5.03 mg/kg
51.2 mg/kg
41.5 mg/kg
72.1 mg/kg
8.61 mg/kg
1 .24 mg/kg
0.0025 mg/kg
0.17 mg/kg
1 .07 mg/kg
92 ug/kg
82 ug/kg
79 ug/kg
183 ug/kg
250 ug/kg
299 ug/kg
243 ug/kg
213 ug/kg
290 ug/kg
58 ug/kg
577 ug/kg
323 ug/kg
30 ug/kg
37 ug/kg
47 ug/kg
54 ug/kg
428 ug/kg
135 ug/kg
160 ug/kg
444 ug/kg
157 ug/kg
90 ug/kg
8 ug/kg
4 ug/kg
3 ug/kg
31 ug/kg
ND ug/kg
12 ug/kg
28 ug/kg
26 ug/kg
1 1 ug/kg
ND ug/kg
5 ug/kg
156 ug/kg
17 ug/kg
13 ug/kg
7 ug/kg
19 ug/kg
19 ug/kg
ND ug/kg
23 ug/kg
47 ug/kg
15 ug/kg
12 ug/kg
5.9 ng/g
2.19 ng/g
1 .2 ng/g
0.14 ng/g
0.55 ng/g
0.37 ng/g
ND ng/g
ND ng/g
1 .8 ng/g
0.2 ng/g
1 .9 ng/g
2.77 ng/g
3.4 ng/g
0.33 ng/g
6.8 ng/g
0.84 ng/g
4.5 ng/g
0.4 ng/g
0.64 ng/g
0.84 ng/g
0.25 ng/g
ND ng/g
1675 ug/kg
1719 ug/kg
1382 ug/kg
888 ug/kg
760 ug/kg
1641 ug/kg
2415 ug/kg
1004 ug/kg
Conversion Conver_=on Organic Cone
Wet or Dry Weight Factor to ^°nversi°n j R t ( ^ BAr |OgBAF
factor to dw . ; u u (Tissue/Soi)
mg/kg dw) v '
dryweight 1 1 89 1.9 0.28
dryweight 1 1 3.6 0.060 -1.22
dryweight 1 1 11 2.8 0.45
dryweight 1 1 33 0.20 -0.70
dryweight 1 1 74 0.11 -0.98
dryweight 1 1 42 2.5 0.40
dryweight 1 1 5.0 1.6 0.20
dryweight 1 1 51 20 1.31
dryweight 1 1 42 0.023 -1.64
dryweight 1 1 72 0.014 -1.84
dryweight 1 1 8.6 0.19 -0.73
Not Stated wet assumed 1 6.67 8.267 4.0 0.60
Not Stated wet assumed 1 6.67 0.01 67 0.3 -0.48
Not Stated wet assumed 1 6.67 1.133 1.0 0.00
Not Stated wet assumed 1 6.67 7.133 0.4 -0.41
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Eco-SSL Attachment 4-1 Appendix B
7 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Wide a. 1990, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Wilde a. 1990, 1992
Wilde a. 1991, 1992
Wilde a. 1990, 1992
Wilde a. 1990, 1992
Wilde a. 1990, 1992
Wilde a. 1991, 1992
Wilde a. 1991, 1992
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Voerman and Besemer, 1975
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Bi et al 2002
Wild and Jones 1992
Bi et al 2002
Wildetal. 1990, 1992
Bi et al 2002
Bi et al 2002
Bi et al 2002
Dejonckheere et al., 1975
Bi et al 2002
Wild and Jones 1992
Bi et al 2002
Dejonckheere et al., 1975
Bi et al 2002
Wildetal. 1991,1992
Wildetal. 1991,1992
Wildetal. 1991,1992
Wild and Jones 1992
Dejonckheere et al., 1975
Wild and Jones 1992
Wild and Jones 1992
Voerman and Besemer, 1975
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Maitlen and Powell, 1982
Maitlen and Powell, 1982
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Mozaetal. 1976
Lichenstein, 1960
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Weisgerberetal., 1974
Weisgerberetal., 1974
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Lichenstein, 1960
Wildetal. 1990, 1992
Weisgerberetal., 1974
Weisgerberetal., 1974
Weisgerberetal., 1974
Businelli etal., 1975
Lichenstein, 1959
Lichenstein, 1959
Lichenstein, 1960
Businelli etal. ,1975
Lichenstein, 1960
Lichenstein, 1960
Chemical Class
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Carbama es
Nitro/Chloro-aromatics
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
PAHs
PCBs/Aroclors
PAHs
PCBs/Aroclors
PCBs/Aroclors
PCBs/Aroclors
Nitro/Chloro-aromatics
PCBs/Aroclors
PAHs
PCBs/Aroclors
Nitro/Chloro-aromatics
PCBs/Aroclors
PAHs
PAHs
PAHs
PAHs
Nitro/Chloro-aromatics
PAHs
PAHs
Nitro/Chloro-aromatics
PAHs
PAHs
PAHs
Carbamates
Carbamates
PAHs
PAHs
PAHs
PCBs/Aroclors
Cyclodienes
PAHs
PAHs
PAHs
PAHs
PAHs
PAHs
Cyclodienes
Cyclodienes
PAHs
PAHs
Cyclodienes
PAHs
Cyclodienes
Cyclodienes
Cyclodienes
Nitro/Chloro-aromatics
Nitro/Chloro-aromatics
Cyclodienes
Cyclodienes
Cyclodienes
Chemical Name
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PCBs
Total PCBs
PCB180
PCB87
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Aldicarb
Lindane
PCB19
PCB22
PCB45
PCB137
PCB174
PCB177
Benzo(k)fluoranthene
PCB178
Anthracene
PCB85
PCB170
PCB185
Hexachlorobenzene
PCB175
Benzo(k)fluoranthene
PCB19
Hexachlorobenzene
PCB40
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Anthracene
Benzo(b)fluoranthene
Hexachlorobenzene
Anthracene
Benzo(k)fluoranthene
Lindane
Naphthalene
Benzo(a)pyrene
Benzo(a)pyrene
Aldicarb
Aldicarb
Fluoranthene
Pyrene
Fluoranthene
2,2'-Dichlorophenyl
Aldrin
Pyrene
Pyrene
Pyrene
Pyrene
Fluoranthene
Fluoranthene
Aldrin
Dieldrin
Fluoranthene
Fluoranthene
Heptachlor
Pyrene
Aldrin
Aldrin
Aldrin
Benfluralin
Lindane
Lindane
Aldrin
Benfluralin
Heptachlor
Aldrin
CAS No
1336363
1336363
35065293
38380028
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
116063
58899
38444734
38444858
70362457
35694065
38411252
52663704
207089
52663679
120127
65510454
35065306
52712057
118741
40186707
207089
38444734
118741
38444938
53703
53703
120127
205992
118741
120127
207089
58899
91203
50628
50628
116063
116063
206440
129000
206440
13029088
309002
129000
129000
129000
129000
206440
206440
309002
60571
206440
206440
76448
129000
309002
309002
309002
1861401
58899
58899
309002
1861401
76448
309002
logKow
8.27
6.85
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
1.13
3.73
5.48
5.42
6.34
7.44
8.27
8.27
6.2
8.27
4.55
6.61
8.27
7.93
5.89
8.27
6.2
5.48
5.89
6.18
6.69
6.69
4.55
6.2
5.89
4.55
6.2
3.73
3.36
6.11
6.11
1.13
1.13
5.12
5.11
5.12
4.97
6.5
5.11
5.11
5.11
5.11
5.12
5.12
6.5
5.37
5.12
5.12
6.26
5.11
6.5
6.5
6.5
5.29
3.73
3.73
6.5
5.29
6.26
6.5
logKow Ref
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
SRC
EPA 1995
SRC
SRC
SRC
SRC
SRC
SRC
EPA 1995
SRC
EPA 1995
SRC
SRC
SRC
EPA 1995
SRC
EPA 1995
SRC
EPA 1995
SRC
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
SRC
SRC
EPA 1995
EPA 1995
EPA 1995
SRC
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
EPA 1995
SRC
EPA 1995
EPA 1995
EPA 1995
SRC
EPA 1995
EPA 1995
Rinsed?
Yes
No
No
No
Yes
No
Yes
Yes
Yes
No
No
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
Yes
NS
NS
NS
NS
NS
NS
NS
NS
Yes
NS
NS
NS
No
NS
NS
NS
No
NS
No
No
No
NS
No
NS
NS
Yes
Yes
Yes
Yes
NS
NS
Yes
Yes
Yes
NS
Yes
Yes
Yes
Yes
Yes
Yes
Yes
NS
NS
Yes
Yes
Yes
Yes
NS
NS
NS
NS
Yes
Yes
Yes
NS
Yes
Yes
Plant Species
Carrot
Clover
Clover
Ryegrass
Ryegrass
Ryegrass
Ryegrass
SugarBeet
SugarBeet
Tim_grass
Tim_grass
Rice
Rice
Rice
Rice
Min
Mustard
Alfalfa
Alfalfa
Min
Radish
Radish
Mustard
Alfalfa
Min
Alfalfa
Alfalfa
Potato (leaves)
Potato (leaves)
Potato ( aves)
Alfa a
Gra s
Ric
Ric
Ric
Ric
Ric
Ric
Carrot
Rice
Ryegrass
Rice
Rice
Rice
Lettuce
Rice
Carrot
Rice
Lettuce
Rice
Ryegrass
Ryegrass
Clover
Carrot
Lettuce
Carrot
Carrot
Grass
Carrot
Carrot
Ryegrass
Mustard
Mustard
SugarBeet
Carrot
Carrot
SugarBeet
Alfalfa
Beet
Beet
Ryegrass
SugarBeet
Beet
Beet
Corn
Whea
Ryegrass
SugarBeet
Alfalfa
Beet
Corn
Whea
Corn
Carrot
Cabbage
Pea
Lettuce
Carrot
Lettuce
Alfalfa
Exposure
Duration
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
114
55
103
103
114
55
55
55
114
114
103
114
64
64
64
114
6
1
1
1
1
1
1
82
1
1
1
1
1
85
1
82
1
85
1
1
1
1
82
85
82
82
6
1
1
1
55
55
1
1
1
6
60
1
1
1
1
1
1
90
141
1
1
60
1
111
141
151
106
1
1
60
106
60
60
Exposure
Units
season
season
season
season
season
season
season
season
season
season
season
season
season
season
season
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
d
month
season
season
season
season
season
season
d
season
season
season
season
season
d
season
d
season
d
season
season
season
season
d
d
d
d
month
season
season
season
d
d
season
season
season
month
d
season
season
season
season
season
season
d
d
season
season
d
season
d
d
d
d
season
season
d
d
d
d
Field/Lab
field
field
field
field
field
field
field
field
field
field
field
field
field
field
field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
field
field
field
field
field
field
Lab
field
field
field
field
field
Lab
field
Lab
field
Lab
field
field
field
field
Lab
Lab
Lab
Lab
Field
field
field
field
Field
Field
field
field
field
Lab
Field
field
field
field
field
field
field
Field
Field
field
field
Field
field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Field
Exp / Test
1984, Woburn Market Garden, sewE
1977, Lee Valley, control plot
1977, Lee Valley, treated in 1968 wi
1977, Lee Valley, treated in 1968 wi
1982, Woburn Market Garden, sewE
1977, Lee Valley, control plot
1982, Woburn Market Gardern, cont
1970, Woburn Market Gardern, cont
1970, Woburn Market Garden, sewE
1976, Luddington, control plot
1976, Luddington, treated in 1968 w
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
1980, rep 2, 3.4 kg application
1980, rep 2, 3.4 kg application
1980, rep 2, 3.4 kg application
1980, rep 3, 3.4 kg application
1980, rep 3, 3.4 kg application
1980, rep 3, 3.4 kg application
1980, rep 2, 3.4 kg application
1980, rep 3, 3.4 kg application
1980, rep 3, 3.4 kg application
1980, rep 4, 3.4 kg application
1980, rep 4, 3.4 kg application
1980, rep 4, 3.4 kg application
1980, rep 2, 3.4 kg application
1980, rep 3, 3.4 kg application
1980, rep 4, 3.4 kg application
1980, rep 2, 3.4 kg application
Initial application in January 1969, V
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
6.1 g sewage sludge/kg soil added
Field collected resident plants from i
1982, Woburn Market Gardern, cont
Field collected resident plants from i
Field collected resident plants from i
Field collected resident plants from i
Exp 1 - 8 Apr 74 harvest
Field collected resident plants from i
18.6 g sewage sludge/kg soil added
Field collected resident plants from i
Exp 3 - 8 Apr 74 harvest
Field collected resident plants from i
1977, Lee Valley, control plot
1977, Lee Valley, treated in 1968 wi
1977, Lee Valley, treated in 1968 wi
18.6 g sewage sludge/kg soil added
Exp 2 - 8 Apr 74 harvest
62.1 g sewage sludge/kg soil added
62.1 g sewage sludge/kg soil added
Initial application in January 1969, V
1963, Woburn Market Gardern, sew
1984, Woburn Market Gardern, cont
1982, Woburn Market Gardern, cont
1980, rep 1, 3.4 kg application
1980, rep 1, 15 kg application
1970, Woburn Market Gardern, cont
1984, Woburn Market Gardern, cont
1984, Woburn Market Gardern, cont
1974, Outdoor plywood boxes
May 1958, 5 Ib/acre
1983, Woburn Market Garden, sewE
1984, Woburn Market Garden, sewE
1982, Woburn Market Garden, sewE
1970, Woburn Market Garden, sewE
1983, Woburn Market Garden, sewE
1984, Woburn Market Garden, sewE
1973 (?), Modesto California, 3.0 kg
1973 (?), Birlinghoven Germany, 2.£
1982, Woburn Market Garden, sewE
1970, Woburn Market Garden, sewE
May 1958, 5 Ib/acre
1963, Woburn Market Garden, sewE
1973 (?), Seville Spain, 3.0 kg/ha
1973 (?), Birlinghoven Germany, 2.£
1973 (?), Sittingbourne England, 3.C
Exp I - March 1974, Perugia Italy, 1.
1956 Miami silt loam 10 Ibs added
1956 Miami silt loam 10 Ibs added
1959, 5 Ib/acre
Exp I - March 1974, Perugia Italy, 1.
1959, 5 Ib/acre
May 1958, 25 Ib/acre
Source of Soil
Data
Table III
Table 2
Table 2
Table 2
Table III
Table 2
Table III
Table III
Table III
Table 3
Table 3
Table 2
Table 2
Table 2
Table 2
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table IV
Table 1
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 3
Table 2
Table III
Table 2
Table 2
Table 2
Table I
Table 2
Table 3
Table 2
Table I
Table 2
Table 2
Table 2
Table 2
Table 3
Table I
Table 3
Table 3
Table 1
Table III
Table III
Table III
Table IV
Table IV
Table III
Table III
Table III
Table II
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table I
Table II
Table III
Table III
Table III
Table III
Table I
Table II
Table I
Text Sect 3.3
Table I
Table I
Table II
Text Sect 3.3
Table II
Table III
Reported
organic cone
in Soil
2427
753
1957.8
1957.8
3131
753
735
503
3117
349
1430
1101.4
4.69
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
0.45
0.93
1.4
1.83
2.29
2.928
3.22
4
4.55
4.67
4.84
0.006
7.46
8.928
9.7
0.01
10
11
16
16.2
18.414
0.019
20.493
29.808
0.03
31
35
39
0.04
0.04
96
110
140
0.216
0.22
300
300
390
400
410
410
0.5
0.52
540
540
0.6
610
0.83
1.09
1.3
1300
1.615
1.615
1.78
1900
2
4.04
Reported
Units for
Soil
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ng/g
ng/g
ng/g
ng/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ug/kg
ng/g
ug/kg
ng/g
ng/g
ng/g
mg/kg
ng/g
ug/kg
ng/g
mg/kg
ng/g
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
ug/kg
ug/kg
ug/g
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
ug/kg
ug/kg
ug/kg
ppm
mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
ug/kg
ug/kg
mg/kg
ug/kg
mg/kg
mg/kg
mg/kg
ng/g
mg/kg
mg/kg
mg/kg
ng/g
mg/kg
mg/kg
Wet or Dry Weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
dry weight
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
Not Stated dry assumed
dry weight
Not Stated dry assumed
dry weight
dry weight
Conversion
Factor to
mg/kg
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
none
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
none
0.001
0.001
0.001
none
0.001
0.001
0.001
0.001
0.001
none
0.001
0.001
none
0.001
0.001
0.001
none
none
0.001
0.001
0.001
none
none
0.001
0.001
0.001
0.001
0.001
0.001
none
none
0.001
0.001
none
0.001
none
none
none
0.001
none
none
none
0.001
none
none
Organic Cone
in Soil (mg/kg
dw)
2.4
0.75
2.0
2.0
3.1
0.75
0.74
0.50
3.1
0.35
1.4
1.1
0.0047
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
0.00045
0.00093
0.0014
0.0018
0.0023
0.0029
0.0032
0.0040
0.0046
0.0047
0.0048
0.0060
0.0075
0.0089
0.0097
0.0100
0.0100
0.0110
0.0160
0.0162
0.0184
0.0190
0.0205
0.0298
0.0300
0.0310
0.0350
0.0390
0.0400
0.0400
0.0960
0.11
0.14
0.22
0.22
0.30
0.30
0.39
0.40
0.41
0.41
0.50
0.52
0.54
0.54
0.60
0.61
0.83
1.1
1.3
1.3
1.6
1.6
1.8
1.9
2.0
4.0
Source of
Vegetation
Data
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table 8
Table 14
Table 4
Table 4
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table III
Table 1
Table 4
Table 4
Table 4
Table 4
Table 4
Table 4
Table 5
Table 4
Table 2
Table 4
Table 4
Table 4
Table II
Table 4
Table 5
Table 4
Table II
Table 4
Table 2
Table 2
Table 2
Table 5
Table II
Table 5
Table 5
Table 1
Table 2
Table 2
Table 2
Table III
Table III
Table 2
Table 2
Table 2
Table III
Table III
Table 2
Table 2
Table 2
Table 2
Table 2
Table 2
Table I
Table II
Table 2
Table 2
Table III
Table 2
Table I
Table II
Table I
Text Sect 3.4
Table I
Table I
Table II
Text Sect 3.4
Table II
Table III
Reported
organic cone
in Vegetation
2800
351
446
341
1090
395
940
608
1177
568
568
129
32.08
0.08
1.8
0.02
0.03
0.04
0.05
0.05
0.05
0.07
0.08
0.09
0.1
0.14
0.24
7.93
8.11
8.74
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
Reported
Units for
Vegetation
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ng/g
ng/g
ng/g
ng/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ng/g
ng/g
ng/g
ng/g
ng/g
ng/g
ug/kg
ng/g
ug/kg
ng/g
ng/g
ng/g
mg/kg ww
ng/g
ug/kg
ng/g
mg/kg ww
ng/g
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg ww
ug/kg
ug/kg
ug/g
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
ug/kg
ug/kg
ug/kg
ppm
mg/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
ug/kg
ug/kg
mg/kg
ug/kg
mg/kg
mg/kg
mg/kg
ng/g
mg/kg
mg/kg
mg/kg
ng/g
mg/kg
mg/kg
Conversion c . Organic Cone
Wet or Dry Weight Factor to ">nrel°n in P|ant (mg/kg B«r logBAF
factor to dw _, > (Tissue/Sol )
mg/kg dw) v '
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
Not Sta ed wet assumed
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
wet weight
dry weight
dry weight
dry weight
wet weight
dry weight
dry weight
dry weight
dry weight
dry weight
wet weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated wet assumed
Not Stated wet assumed
dry weight
dry weight
dry weight
wet weight
wet weight
dry weight
dry weight
dry weight
dry weight
dry weight
dry weight
Not Stated wet assumed
Not Stated wet assumed
dry weight
dry weight
wet weight
dry weight
Not Stated wet assumed
Not Stated wet assumed
Not Stated wet assumed
wet weight
Not Stated wet assumed
Not Stated wet assumed
wet weight
wet weight
wet weight
wet weight
Eco-SSL Attachment 4-1 Appendix B
8 of 9
April 2007
-------�
Appendix B
Bioaccumulation Data for Uptake of Non-Ionic Organic Chemicals from Soil into Plant Foliage
Reference
Lichenstein, 1960
Wildetal. 1990, 1992
Wildetal. 1990, 1992
Chemical Class
Cyclodienes
PAHs
PAHs
Chemical Name
Heptachlor
Naphthalene
Naphthalene
CAS No
76448
91203
91203
logKow
6.26
3.36
3.36
logKow Ref
EPA 1995
EPA 1995
EPA 1995
Rinsed? Plant Species
Yes Lettuce
Yes Beet
Yes Carrot
Exposure
Duration
60
1
1
Err >
d Field
season field
season field
Exp / Test
1959, 25lb/acre
1984, Woburn Market Gi
1984, Woburn Market Gi
Source of Soil ReP°rted Reported
D* ^organic cone Units for
in Soil Soil
Table II 4.22 mg/kg
ardern, cont Table III 0 ug/kg
ardern, cont Table III 0 ug/kg
Wet or Dry Weight
dry weight
Not Stated dry assumed
Not Stated dry assumed
Conversion Organic Cone Source of
Factor to in Soil (mg/kg Vegetation
mg/kg dw) Data
none 4.2 Table II
0.001 0 Table 2
0.001 0 Table 2
Reported Reported
organic cone Units for
in Vegetation Vegetation
ND mg/kg
60 ug/kg
1 ug/kg
Wet or Dry Weight
wet weight
dry weight
dry weight
Conversion
Factor to
mg/kg
Conversion Cyanic Cone BAF
factor to dw ln Han^9/kg (Tissue/Soil)
logBAF
Eco-SSL Attachment 4-1 Appendix B 9 of 9 April 2007
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Appendix B References
Beall, M.L. Jr. Persistence of aerially applied hexachlorobenzene on grass and soil. 1976. Journal of
Environmental Quality. 5: 367-369.
Beynon, K.I., G. Stoydin, and A.N. Wright. 1972. The breakdown of the triazine herbicide cyanizine
in soils and maize. Pesticide Science. 3:293-305.
Bi, X., S. Chu, Q. Meng, and X. Xu. 2002. Movement and retention of poly chlorinated biphenyls in a
paddy field of WenTai area in China. Agriculture. Ecosystems and Environment. 89: 241-252.
Bull, D. L., and G. W. Ivie. 1978. Fate of diflubenzuran in cotton, soil, and rotational crops.
Journal of Agricultural and Food Chemistry. 26(3): 515-520.
Businelli, M., F. Tafuri, L. Scarponi, and C. Maucchini. 1975. Persistence of benafluralin in soils and
its uptake by carrots. Pesticide Science. 6: 475-480.
Dejonckheere, W., W. Steurbaut, and R.H. Kips. 1975. Residues of quintozene, hexachlorobenzene,
dichloran and pentachloroaniline in soil and lettuce. Bulletin of Environmental Contamination and
Toxicology. 13:720-729.
De La Cruz, A.A. and B. Rajanna. 1975. Mirex incorporation and in the environment: uptake and
distribution in crop seedlings. Bulletin of Environmental Contamination and Toxicology. 14:
38-42.
Borough, H.W. and B.C. Pass. 1972. Residues in corn and soils treated with technical chlordane and
high-purity chlordane (HCS 3260). Journal of Economic Entomology. 65: 976-979.
Edwards, C.A. 1970. Persistent Pesticides in the Environment. CRC Press, Cleveland, OH.
Edwards, N. T., R. M. Ross-Todd, E. G. Garver. 1982. Uptake and metabolism of 14C anthracene
by soybean (Glycine max). Environ. Exp. Bot. 22(3): 349-357.
Eshel, J., R.L. Zimdahl, and E.E. Schweizer. 1978. Uptake and translocation of ethofumesate in
sugar-beet plants. Pesticide Science. 9:301-304.
Greichus, Y.A. and B.A. Dohman. 1980. Polychlorinated biphenyl contamination of areas surrounding
two transfer salvage companies, Colman, South Dakota-September 1977. Pesticide Monitoring
Journal. 14:26-30.
Eco-SSL Attachment 4-1 Appendix B App B Ref - 1 April 2007
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Iwata, Y., W.E. Westlake, J.H. Barkley, G.E. Carman, and F.A. Gunther. 1977. Aldicarb residues in
oranges, citrus by-products, orange leaves, and soil after an aldicarb soil-application in an orange
grove. Journal of Agricultural and Food Chemistry. 25: 933-937.
Iwata, Y. and F.A. Gunther. 1976. Translocation of the polychlorinated biphenyl aroclor 1254 from
soil into carrots under field conditions. Archives of Environmental Contamination and Toxicology.
4: 44-59.
Kipopoulou, A.M., E. Manoli, and C. Samara. 1999. Bioconcentration of polyaromatic hydrocarbons
in vegetables grown in an industrial area. Environmental Pollution. 106: 369-380.
Lichenstein, E.P. 1960. Insecticidal residues in various crops grown in soils treated with abnormal
rates of aldrin and heptachlor. Journal of Agricultural and Food Chemistry. 8:448-451.
Lichenstein, E.P. 1959. Absorption of some chlorinated hydrocarbon insecticides from soils into
various crops. Journal of Agricultural and Food Chemistry. 7:430-433.
Maitlen, J.C. and D. M. Powell. 1982. Persistence of aldicarb in soil relative to the carry-over of
residues into crops. Journal of Agricultural and Food Chemistry. 30: 589-892.
Moza, P. I. Weisgerber, and W. Klein. 1976. Fate of 2,2'-dichlorobiphenyl-14C in carrots, sugar
beets, and soil under outdoor conditions. Journal of Agricultural and Food Chemistry. 24 (4).
1976881-885.
Moza P, Scheunert I, Klein W, Korte F. 1979. Studies with 2,4',5-trichlorobiphenyl-14C and
2,2',4,4',6-pentachlorobiphenyl-14C in carrots, sugar beets, and soil. Journal of Agricultural and
Food Chemistry. 1979. 27(5): 1120-4.
Saha, J. G., C. H. Craig, and W. K. Janzen. 1968. Organochlorine insecticide residues in agricultural
soil and legume crops in northeastern Saskatchewan. Journal of Agricultural and Food Chemistry.
16(4): 617-619.
Schneider, J.F., S.D. Zellmer, N.A. Tomczyk, J.R. Rastorfer, D. Chen, and W.L. Banwart. 1995.
Uptake of Explosives from Contaminated Soil by Existing Vegetation at the Iowa Army
Ammunition Plant. U.S. Army Environmental Center, Environmental Technology Division,
Program Management Branch, Safety Office. Aberdeen Proving Ground, Maryland. Report No.
SFIM-AEC-ET-CR-95013. February, 1995.
Shane, L.A. and B. Bush. 1989. Accumulation of polychlorobiphenyl congeners and p,p'-DDE at
environmental concentrations by corn and beans. Ecotoxicology and Environmental Safety. 17:
Eco-SSL Attachment 4-1 Appendix B App B Ref - 2 April 2007
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38-46.
Tafuri, F., M. Businelli, L. Scarponi, and C. Marucchini. 1977. Decline and movement of AG
chlordane in soil and its residues in alfalfa. Journal of Agricultural and Food Chemistry. 25:
353-356.
Trapp, S., M. Matthies, I. Scheunert and E. M. Topp. 1990. Modeling the Bioconcentration of
Organic Chemicals in Plants. Environmental Science and Technology. 24(8): 1246-1252.
Travis, C.C. and A.D. Arms. 1988. Bioconcentration of organics in beef, milk, and vegetation.
Environmental Science and Technology. 22: 271 -274.
Viswanathan, R., I. Scheunert, J. Kohli, W. Klein, and F. Korte. 1978. Long-term studies on the fate
of 3,4-dichloroaniline-14C in a plant-soil-system under outdoor conditions. Journal of
Environmental Health and Safety. B13: 243-259.
Voerman, S. and A.F.H. Besemer. 1975. Persistence of dieldrin, lindane, and DDT in a light sandy
soil and their uptake by grass. Bulletin of Environmental Contamination and Toxicology. 13:
501-505.
Weber, J. B. and E. Mrozek Jr. 1979. Polychlorinated biphenyls: phytotoxicity, absorption and
translocation by plants, and inactivation by activated carbon. Bulletin of Environmental Toxicology
and Chemistry. 23:412-417.
Weisgerber, L, J. Kohli, R. Kaul, W. Klein, and F. Korte. 1974. Fate of aldrin-14C in maize, wheat,
and soils under outdoor conditions. Journal of Agricultural and Food Chemistry. 22:609-646.
Wild, S.R. and K.C. Jones. 1992. Polynuclear aromatic hydrocarbon uptake by carrots grown in
sludge-amended soil. Journal of Environmental Quality. 21:217-225.
Wild, S.R., M.L. Berrow, S.P. McGrath, and K.C. Jones. 1992. Polynuclear aromatic hydrocarbons
in crops from long-term field experiments amended with sewage sludge. Environmental Pollution.
76:25-32.
Wild, S.R., M.L. Berrow, and K.C. Jones. 1991a. The persistence of polynuclear aromatic
hydrocarbons (PAHs) in sewage sludge amended agricultural soils. Environmental Pollution.
72:141-157.
Wild, S.R., J.P. Obbard, C.I. Munn, M.L. Berrow, and K.C. Jones. 1991b. The long-term persistence
of polynuclear aromatic hydrocarbons (PAHs) in an agricultural soil amended with metal-contaminated
Eco-SSL Attachment 4-1 Appendix B App B Ref - 3 April 2007
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sewage sludges. The Science of the Total Environment. 101-235-253.
Wild, S.R., K.S. Waterhouse, S.P. McGrath, and K.C. Jones. 1990. Organic contaminants in an
agricultural soil with a known history of sewage sludge amendments: polynuclear aromatic
hydrocarbons. Environmental Science and Technology. 24:1706-1711.
Eco-SSL Attachment 4-1 Appendix B App B Ref - 4 April 2007
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Eco-SSL Attachment 4-1
Appendix C
Bioaccumulation Factors (BAFs) and Regression Equations for
the Uptake of Eco-SSL Non-Ionic Organic Contaminants into
Plant Foliage
February 2005
Revised April 1007
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Appendix C
Bioaccumulation Factors (BAF) and Regression Equations Soil to Plant Foliage for Non-Ionic Organic Chemicals
. . ,,T Rinsed/ . Soil Cone ln(C,011, Plant Cone1 ln(C ,,, BAF
Chemical Name TT . , Plant Species , , , ^ m, , -,N
Unrmsed (mg/kg dw) mg/kg dw) (mg/kg dw) mg/kg dw) (Plant/Soil)
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDT
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
Dieldrin
TNT
TNT
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
RDX
Rinsed Grass 0.44 -0.8 0.060 -2.81 0.14
Rinsed Grass 1.2 0.2 0.090 -2.41 0.075
Rinsed Grass 4.5 1.5 2.8 1.03 0.62
Rinsed Grass 2.5 0.9 0.040 -3.22 0.016
Rinsed Grass 0.63 -0.5 0.050 -3.00 0.079
Rinsed Grass 1.5 0.4 0.070 -2.66 0.047
Rinsed Grass 12 2.5 0.28 -1.27 0.023
Rinsed Grass 5.8 1.8 0.32 -1.14 0.055
Rinsed Grass 43 3.7 1.2 0.18 0.028
Rinsed Alfalfa 0.98 0.0 0.400 -0.92 0.4
Rinsed Alfalfa 4.18 1.4 0.533 -0.63 0.13
Rinsed Grass 0.77 -0.3 0.050 -3.00 0.1
Rinsed Grass 1.73 0.5 0.180 -1.71 0.10
Rinsed Grass 7.30 2.0 0.40 -0.92 0.05
Rinsed Lettuce 0.66 -0.4 0.47 -0.76 0.71
Rinsed Lettuce 0.36 -1.0 0.800 -0.22 2.222
Rinsed Lettuce 1.8 0.6 1.13 0.13 0.62
Rinsed Lettuce 1.3 0.3 1.73 0.55 1.323
Not Specified Corn 0.60 -0.5 0.067 -2.71 0.11
Not Specified Corn 0.55 -0.6 0.20 -1.61 0.36
Not Specified Corn 1.2 0.2 0.33 -1.10 0.28
Not Specified Corn 0.72 -0.3 0.67 -0.41 0.93
Not Specified Wheat 0.42 -0.9 4.6 1.53 11.0
Not Specified Barley 2.08 0.7 8.3 2.11 4.0
Not Specified Legume 0.05 -3.0 0.0 -4.09 0.3
Not Specified Wheat 1.1 0.1 1.1 0.13 1.0
Not Specified Wheat 18.4 2.9 7.1 1.96 0.4
Rinsed blacklocust 1 -0.7 4.4 1.48 8.46
Rinsed smoothbromegrass 11,000 9.3 0.76 -0.27 0.000069
Rinsed blacklocust 1.6 0.5 17 2.84 11
Rinsed blacklocust 114 4.7 39 3.65 0.34
Rinsed goldenrod 46 3.8 5.6 1.73 0.12
Rinsed goldenrod 9.0 2.2 24 3.16 2.6
Rinsed goldenrod 57 4.0 35 3.56 0.61
Rinsed goldenrod 1,100 7.0 38 3.63 0.034
Rinsed Grass 19 3.0 10 2.31 0.52
Rinsed milkweed 46 3.8 89 4.48 1.9
Rinsed Pigweed 60 4.1 3.6 1.28 0.060
Rinsed Pigweed 3.8 1.3 11 2.37 2.8
Rinsed Ragweed 166 5.1 33 3.51 0.20
Rinsed Ragweed 702 6.6 74 4.30 0.11
Rinsed redcedar 17 2.8 42 3.74 2.5
Rinsed smartweed 3.2 1.2 5.0 1.62 1.6
Rinsed smartweed 2.5 0.9 51 3.94 20
Rinsed smoothbromegrass 1,800 7.5 42 3.73 0.023
Rinsed smoothbromegrass 5,010 8.5 72 4.28 0.014
Rinsed sunflower 46 3.8 8.6 2.15 0.19
Median BAF
(Plant/Soil)
0.136
0.037
0.41
0.39
4.23
0.430
R
R
R
U
R
R
Regression statistics ln(Cplallt ) versus In
Slope Intercept R2 p value
0.7524 -2.5119 0.5334 <0.05
0.0728 -0.8566 0.0042 NC
1.0307 -0.3073 0.5573 NC
0.1888 2.3829 0.1981 NC
Eco-SSL Attachment 4-1 Appendix C
Iof6
April 2007
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Appendix C
Bioaccumulation Factors (BAF) and Regression Equations Soil to Plant Foliage for Non-Ionic Organic Chemicals
. . ,,T Rinsed/ . Soil Cone ln(C,011, Plant Cone1 ln(C ,,, BAF
Chemical Name TT . , Plant Species , , , ^ m, , -,N
Unrinsed (mg/kg dw) mg/kg dw) (mg/kg dw) mg/kg dw) (Plant/Soil)
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Acenapthene/Fluorene
Fluorene
Fluorene
Fluorene
Fluorene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Anthracene
Unrinsed Clover 0.0230 -3.8 0.030 -3.51 1.3
Unrinsed Clover 0.0184 -4.0 0.037 -3.30 2.0
Unrinsed Ryegrass 0.0230 -3.8 0.047 -3.06 2.0
Unrinsed Ryegrass 0.0184 -4.0 0.054 -2.92 2.9
Unrinsed Tim_grass 0.0010 -6.9 0.157 -1.85 157
Unrinsed Tim_grass 0.0204 -3.9 0.090 -2.41 4.4
Not Specified Carrot 0.0146 -4.2 0.092 -2.39 6.3
Not Specified Carrot 0.0446 -3.1 0.082 -2.50 1.8
Not Specified Carrot 0.15 -1.9 0.079 -2.54 0.53
Rinsed Beet 0.0400 -3.2 0.183 - .70 4.6
Rinsed Beet 0.0530 -2.9 0.250 - .39 4.7
Rinsed Beet 0.0090 -4.7 0.299 - .21 33
Rinsed Beet 0.0350 -3.4 0.243 - .41 6.9
Rinsed Beet 0.0090 -4.7 0.213 - .55 24
Rinsed Carrot 0.0400 -3.2 0.290 - .24 7.3
Rinsed Carrot 0.0530 -2.9 0.058 -2.85 1.1
Rinsed Carrot 0.0350 -3.4 0.577 -0.55 16
Rinsed Carrot 0.0090 -4.7 0.323 -1.13 36
Rinsed Ryegrass 0.0420 -3.2 0.428 -0.85 10
Rinsed Ryegrass 0.0050 -5.3 0.135 -2.00 27
Rinsed SugarBeet 0.0010 -6.9 0.160 -1.83 160
Rinsed SugarBeet 0.0150 -4.2 0.444 -0.81 30
Rinsed Cabbage 0.10 -2.3 0.0011 -6.81 0.011
Rinsed endive 0.10 -2.3 0.0057 -5.17 0.056
Rinsed leek 0.10 -2.3 0.0026 -5.95 0.026
Rinsed Lettuce 0.10 -2.3 0.0058 -5.15 0.057
Unrinsed Clover 0.0070 -5.0 0.0020 -6.21 0.29
Unrinsed Ryegrass 0.0162 -4.1 0.0010 -6.91 0.062
Unrinsed Ryegrass 0.0070 -5.0 0.0030 -5.81 0.43
Unrinsed Tim_grass 0.0128 -4.4 0.0040 -5.52 0.31
Unrinsed Tim_grass 0.0010 -6.9 0.023 -3.77 23
Not Specified Carrot 0.0020 -6.2 0.0010 -6.91 0.50
Not Specified Carrot 0.0061 -5.1 0.0010 -6.91 0.16
Rinsed Beet 0.0020 -6.2 0.001 -6.91 0.50
Rinsed Beet 0.0150 -4.2 0.012 -4.42 0.80
Rinsed Beet 0.0530 -2.9 0.017 -4.07 0.32
Rinsed Beet 0.0160 -4.1 0.024 -3.73 1.5
Rinsed Beet 0.0150 -4.2 0.069 -2.67 4.6
Rinsed Cabbage 0.00060 -7.4 0.00060 -7.42 1.0
Rinsed Carrot 0.0530 -2.9 0.0010 -6.91 0.019
Rinsed Carrot 0.0160 -4.1 0.011 -4.51 0.69
Rinsed Carrot 0.0150 -4.2 0.025 -3.69 1.7
Rinsed Carrot 0.0130 -4.3 0.044 -3.12 3.4
Rinsed endive 0.00060 -7.4 0.0012 -6.73 2.0
Rinsed leek 0.00060 -7.4 0.00047 -7.66 0.78
Rinsed Lettuce 0.00060 -7.4 0.0014 -6.57 2.3
Rinsed Ryegrass 0.0350 -3.4 0.069 -2.67 2.0
Rinsed Soybean 0.0140 -4.3 0.014 -4.27 1.0
Rinsed Soybean 0.0100 -4.6 0.031 -3.47 3.1
Rinsed SugarBeet 0.0030 -5.8 0.0090 -4.71 3.0
Rinsed SugarBeet 0.0240 -3.7 0.036 -3.32 1.5
Median BAF
(Plant/Soil)
2.0
7.3
0.31
1.50
U
R
U
R
Regression statistics ln(Cplallt ) versus In
Slope Intercept R2 p value
-0.1632 -3.3635 0.1710 NC
-0.8556 -5.5620 0.2998 < 0.001
-0.6027 -9.1585 0.2776 NC
0.7784 -0.9887 0.5188 <0.001
Eco-SSL Attachment 4-1 Appendix C
2 of 6
April 2007
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Appendix C
Bioaccumulation Factors (BAF) and Regression Equations Soil to Plant Foliage for Non-Ionic Organic Chemicals
. . ,,T Rinsed/ . Soil Cone ln(C,011, Plant Cone1 ln(C ,,, BAF
Chemical Name TT . , Plant Species , , , ^ m, , -,N
Unrinsed (mg/kg dw) mg/kg dw) (mg/kg dw) mg/kg dw) (Plant/Soil)
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Benzo(a)anthracene/Chrysene
Chrysene
Chrysene
Chrysene
Chrysene
Benzo(a)anthracene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(a)pyrene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(b)fluoranthene
Benzo(e)pyrene
Benzo(e)pyrene
Benzo(e)pyrene
Benzo(e)pyrene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Unrinsed Clover 0.0104 -4.6 0.008 -4.83 0.77
Unrinsed Clover 0.25 -1.4 0.013 -4.34 0.052
Unrinsed Ryegrass 0.25 -1.4 0.007 -4.96 0.028
Unrinsed Ryegrass 0.0950 -2.4 0.019 -3.96 0.20
Unrinsed Tim_grass 0.0840 -2.5 0.015 -4.20 0.18
Unrinsed Tim_grass 0.17 -1.8 0.012 -4.42 0.072
NotSpecified Carrot 0.0104 -4.6 0.008 -4.83 0.77
NotSpecified Carrot 0.0316 -3.5 0.004 -5.52 0.13
NotSpecified Carrot 0.11 -2.2 0.003 -5.81 0.028
Rinsed Beet 0.0104 -4.6 0.008 -4.83 0.77
Rinsed Beet 0.45 -0.8 0.012 -4.42 0.027
Rinsed Beet 0.0660 -2.7 0.028 -3.58 0.42
Rinsed Beet 0.45 -0.8 0.026 -3.65 0.058
Rinsed Carrot 0.0630 -2.8 0.011 -4.51 0.17
Rinsed Carrot 0.0660 -2.7 0.005 -5.30 0.076
Rinsed Carrot 0.45 -0.8 0.156 -1.86 0.35
Rinsed Ryegrass 0.0640 -2.7 0.019 -3.96 0.30
Rinsed SugarBeet 0.0710 -2.6 0.023 -3.77 0.32
Rinsed SugarBeet 0.60 -0.5 0.047 -3.06 0.078
Rinsed Cabbage 0.0037 -5.6 0.00060 -7.42 0.16
Rinsed endive 0.0037 -5.6 0.0039 -5.55 1.05
Rinsed leek 0.0037 -5.6 0.0019 -6.27 0.51
Rinsed Lettuce 0.0037 -5.6 0.0039 -5.55 1.05
Rinsed Lettuce 0.0054 -5.2 0.0029 -5.84 0.54
Unrinsed Clover 0.14 -2.0 0.0080 -4.83 0.057
Unrinsed Clover 0.0580 -2.8 0.0090 -4.71 0.16
Unrinsed Ryegrass 0.14 -2.0 0.0090 -4.71 0.065
Unrinsed Ryegrass 0.0580 -2.8 0.010 -4.61 0.17
Unrinsed Tim_grass 0.0888 -2.4 0.014 -4.27 0.16
Unrinsed Tim_grass 0.0070 -5.0 0.023 -3.77 3.3
NotSpecified Carrot 0.0050 -5.3 0.0010 -6.91 0.20
NotSpecified Carrot 0.0153 -4.2 0.0010 -6.91 0.066
NotSpecified Carrot 0.0509 -3.0 0.0010 -6.91 0.020
Rinsed Beet 0.0350 -3.4 0.019 -3.96 0.54
Rinsed Beet 0.25 -1.4 0.023 -3.77 0.092
Rinsed Beet 0.25 -1.4 0.025 -3.69 0.10
Rinsed Beet 0.0300 -3.5 0.028 -3.58 0.93
Rinsed Beet 0.41 -0.9 0.042 -3.17 0.10
Rinsed Cabbage 0.0024 -6.0 0.00010 -9.21 0.042
Rinsed Carrot 0.0300 -3.5 0.012 -4.42 0.40
Rinsed Carrot 0.41 -0.9 0.016 -4.14 0.039
Rinsed Carrot 0.25 -1.4 0.021 -3.86 0.084
Rinsed endive 0.0024 -6.0 0.00024 -8.33 0.10
Rinsed leek 0.0024 -6.0 0.00015 -8.80 0.063
Rinsed Lettuce 0.0024 -6.0 0.00028 -8.18 0.12
Rinsed Ryegrass 0.26 -1.3 0.017 -4.07 0.065
Rinsed SugarBeet 0.0450 -3.1 0.037 -3.30 0.82
Rinsed SugarBeet 0.34 -1.1 0.039 -3.24 0.11
NotSpecified Carrot 0.0060 -5.1 0.0010 -6.91 0.17
NotSpecified Carrot 0.0615 -2.8 0.0010 -6.91 0.016
Rinsed Cabbage 0.0025 -6.0 0.00020 -8.52 0.080
Rinsed endive 0.0025 -6.0 0.0012 -6.73 0.48
Rinsed leek 0.0025 -6.0 0.00045 -7.71 0.18
Rinsed Lettuce 0.0025 -6.0 0.0011 -6.81 0.44
Rinsed Cabbage 0.0059 -5.1 0.00060 -7.42 0.10
Rinsed endive 0.0059 -5.1 0.0013 -6.65 0.22
Rinsed leek 0.0059 -5.1 0.00094 -6.97 0.16
Rinsed Lettuce 0.0059 -5.1 0.0016 -6.44 0.27
Unrinsed Clover 0.0750 -2.6 0.056 -2.88 0.75
Unrinsed Clover 0.32 -1.1 0.12 -2.15 0.36
Unrinsed Ryegrass 0.0750 -2.6 0.049 -3.02 0.65
Unrinsed Ryegrass 0.32 -1.1 0.060 -2.81 0.19
Unrinsed Tim_grass 0.0760 -2.6 0.056 -2.88 0.74
Unrinsed Tim grass 0.30 -1.2 0.056 -2.88 0.19
NotSpecified Carrot 0.0465 -3.1 0.012 -4.42 0.26
NotSpecified Carrot 0.0153 -4.2 0.020 -3.91 1.3
NotSpecified Carrot 0.16 -1.9 0.024 -3.73 0.15
Median BAF
(Plant/Soil)
0.13
0.32
0.16
0.10
0.091
0.310
0.19
0.361
U
R
U
R
U
R
R
U
Regression statistics ln(Cplallt ) versus In
Slope Intercept R2 p value
0.1101 -4.4680 0.0500 NC
0.5944 -2.7078 0.7007 < 0.0001
0.3620 -4.1052 0.1290 NC
0.9750 -2.0615 0.7954 < 0.0001
NC NC NC NC
NC NC NC NC
NC NC NC NC
0.4530 -2.1637 0.4492 NC
Eco-SSL Attachment 4-1 Appendix C
3 of 6
April 2007
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Appendix C
Bioaccumulation Factors (BAF) and Regression Equations Soil to Plant Foliage for Non-Ionic Organic Chemicals
. . ,,T Rinsed/ . Soil Cone ln(C,011, Plant Cone1 ln(C ,,, BAF
Chemical Name TT . , Plant Species , , , ^ m, , -,N
Unrinsed (mg/kg dw) mg/kg dw) (mg/kg dw) mg/kg dw) (Plant/Soil)
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(ghi)perylene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Benzo(k)fluoranthene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Coronene
Rinsed Beet 0.11 -2.2 0.023 -3.77 0.21
Rinsed Beet 0.53 -0.6 0.056 -2.88 0.11
Rinsed Beet 0.0900 -2.4 0.14 -1.97 1.6
Rinsed Beet 0.90 -0.1 0.16 -1.83 0.18
Rinsed Beet 0.53 -0.6 0.16 -1.82 0.31
Rinsed Cabbage 0.0036 -5.6 0.00032 -8.05 0.089
Rinsed Carrot 0.11 -2.2 0.081 -2.51 0.74
Rinsed Carrot 0.0900 -2.4 0.11 -2.22 1.2
Rinsed Carrot 0.53 -0.6 0.11 -2.20 0.21
Rinsed Carrot 0.90 -0.1 0.38 -0.97 0.42
Rinsed endive 0.0036 -5.6 0.00027 -8.22 0.075
Rinsed leek 0.0036 -5.6 0.00047 -7.66 0.13
Rinsed Lettuce 0.0036 -5.6 0.00019 -8.57 0.053
Rinsed Ryegrass 0.55 -0.6 0.093 -2.38 0.17
Rinsed Ryegrass 0.17 -1.8 0.14 -1.99 0.81
Rinsed SugarBeet 0.0980 -2.3 0.076 -2.58 0.78
Rinsed SugarBeet 0.55 -0.6 0.080 -2.53 0.15
Unrinsed Clover 0.0810 -2.5 0.0040 -5.52 0.049
Unrinsed Clover 0.0330 -3.4 0.0060 -5.12 0.18
Unrinsed Clover 0.23 -1.5 0.014 -4.27 0.060
Unrinsed Clover 0.0930 -2.4 0.018 -4.02 0.19
Unrinsed Ryegrass 0.0810 -2.5 0.0010 -6.91 0.012
Unrinsed Ryegrass 0.0330 -3.4 0.0030 -5.81 0.091
Unrinsed Ryegrass 0.0930 -2.4 0.013 -4.34 0.14
Unrinsed Ryegrass 0.23 -1.5 0.013 -4.34 0.056
Unrinsed Tim_grass 0.0570 -2.9 0.0010 -6.91 0.018
Unrinsed Tim grass 0.0080 -4.8 0.0080 -4.83 1.0
Unrinsed Tim grass 0.18 -1.7 0.0080 -4.83 0.045
Unrinsed Tim grass 0.0230 -3.8 0.013 -4.34 0.57
Rinsed Beet 0.37 -1.0 0.0090 -4.71 0.024
Rinsed Beet 0.37 -1.0 0.033 -3.41 0.089
Rinsed Beet 0.0680 -2.7 0.034 -3.38 0.50
Rinsed Beet 0.67 -0.4 0.057 -2.86 0.085
Rinsed Beet 0.0710 -2.6 0.058 -2.85 0.82
Rinsed Cabbage 0.0010 -6.9 0.000080 -9.43 0.080
Rinsed Carrot 0.0680 -2.7 0.016 -4.14 0.24
Rinsed Carrot 0.0710 -2.6 0.021 -3.86 0.30
Rinsed Carrot 0.67 -0.4 0.048 -3.04 0.072
Rinsed Carrot 0.37 -1.0 0.12 -2.13 0.32
Rinsed endive 0.0010 -6.9 0.00036 -7.93 0.36
Rinsed leek 0.0010 -6.9 0.00017 -8.68 0.17
Rinsed Lettuce 0.0010 -6.9 0.00034 -7.99 0.34
Rinsed Ryegrass 0.41 -0.9 0.0080 -4.83 0.020
Rinsed Ryegrass 0.0750 -2.6 0.025 -3.69 0.33
Rinsed SugarBeet 0.0770 -2.6 0.045 -3.10 0.58
Rinsed SugarBeet 0.47 -0.8 0.069 -2.67 0.15
Unrinsed Clover 0.0410 -3.2 0.028 -3.58 0.68
Unrinsed Clover 0.13 -2.0 0.028 -3.58 0.21
Unrinsed Ryegrass 0.13 -2.0 0.040 -3.22 0.30
Unrinsed Ryegrass 0.0410 -3.2 0.058 -2.85 1.4
Unrinsed Tim_grass 0.0170 -4.1 0.093 -2.38 5.5
Unrinsed Tim_grass 0.14 -2.0 0.097 -2.33 0.71
Not Specified Carrot 0.0119 -4.4 0.0070 -4.96 0.59
Not Specified Carrot 0.0039 -5.5 0.018 -4.02 4.6
Not Specified Carrot 0.0397 -3.2 0.023 -3.77 0.58
Median BAF
(Plant/Soil)
0.21
0.076
0.235
0.68
R
U
R
U
Regression statistics ln(Cplallt ) versus In
Slope Intercept R2 p value
1.1829 -0.9313 0.8693 <0.0001
0.1668 -4.6482 0.0280 NC
0.8595 -2.1579 0.8146 <0.0001
0.3171 -2.3620 0.2161 NC
Eco-SSL Attachment 4-1 Appendix C
4 of 6
April 2007
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Appendix C
Bioaccumulation Factors (BAF) and Regression Equations Soil to Plant Foliage for Non-Ionic Organic Chemicals
. . ,,T Rinsed/ . Soil Cone ln(C,011, Plant Cone1 ln(C ,,, BAF
Chemical Name TT . , Plant Species , , , ^ m, , -,N
Unrinsed (mg/kg dw) mg/kg dw) (mg/kg dw) mg/kg dw) (Plant/Soil)
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Dibenz(ah)anthracene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Fluoranthene
Indeno(123 cd)pyrene
Indeno(123 cd)pyrene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Naphthalene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Unrinsed Clover 0.0160 -4.1 0.0010 -6.91 0.063
Unrinsed Clover 0.0110 -4.5 0.0020 -6.21 0.18
Rinsed Cabbage 0.00043 -7.8 0.00010 -9.21 0.23
Rinsed endive 0.00043 -7.8 0.000060 -9.72 0.14
Rinsed leek 0.00043 -7.8 0.000050 -9.90 0.12
Rinsed Lettuce 0.00043 -7.8 0.000030 -10.41 0.070
Unrinsed Clover 0.14 -1.9 0.044 -3.12 0.31
Unrinsed Clover 0.33 -1.1 0.066 -2.72 0.20
Unrinsed Ryegrass 0.33 -1.1 0.038 -3.27 0.11
Unrinsed Ryegrass 0.14 -1.9 0.041 -3.19 0.28
Unrinsed Tim_grass 0.0390 -3.2 0.015 -4.20 0.38
Unrinsed Tim grass 0.21 -1.6 0.051 -2.98 0.25
Not Specified Carrot 0.0279 -3.6 0.024 -3.73 0.86
Not Specified Carrot 0.0092 -4.7 0.025 -3.69 2.7
Not Specified Carrot 0.0932 -2.4 0.025 -3.69 0.27
Rinsed Beet 0.14 -2.0 0.0090 -4.71 0.064
Rinsed Beet 1.0 0.0 0.032 -3.44 0.031
Rinsed Beet 0.22 -1.5 0.20 -1.62 0.90
Rinsed Cabbage 0.0073 -4.9 0.0030 -5.81 0.41
Rinsed Carrot 0.22 -1.5 0.11 -2.22 0.50
Rinsed Carrot 1.0 0.0 0.12 -2.13 0.12
Rinsed Carrot 0.41 -0.9 0.63 -0.46 1.5
Rinsed endive 0.0073 -4.9 0.044 -3.12 6.0
Rinsed leek 0.0073 -4.9 0.018 -4.02 2.5
Rinsed Lettuce 0.0073 -4.9 0.034 -3.38 4.7
Rinsed Ryegrass 0.13 -2.0 0.024 -3.73 0.18
Rinsed Cabbage 0.0021 -6.2 0.00015 -8.80 0.071
Rinsed endive 0.0021 -6.2 0.00031 -8.08 0.15
Unrinsed Clover 0.0070 -5.0 0.039 -3.24 5.6
Unrinsed Clover 0.0040 -5.5 0.041 -3.19 10
Unrinsed Ryegrass 0.0040 -5.5 0.025 -3.69 6.3
Unrinsed Ryegrass 0.0070 -5.0 0.026 -3.65 3.7
Unrinsed Tim_grass 0.0040 -5.5 0.0040 -5.52 1.0
Unrinsed Tim_grass 0.0054 -5.2 0.028 -3.58 5.2
Not Specified Carrot 0.0160 -4.1 0.014 -4.27 0.88
Not Specified Carrot 0.0052 -5.3 0.022 -3.82 4.2
Not Specified Carrot 0.0534 -2.9 0.025 -3.69 0.47
Rinsed Beet 0.0040 -5.5 0.052 -2.96 13
Rinsed Beet 0.0310 -3.5 0.058 -2.85 1.9
Rinsed Beet 0.0010 -6.9 0.070 -2.66 70
Rinsed Beet 0.0040 -5.5 0.079 -2.54 20
Rinsed Cabbage 0.0170 -4.1 0.0050 -5.30 0.29
Rinsed Carrot 0.0010 -6.9 0.048 -3.04 48
Rinsed Carrot 0.0040 -5.5 0.048 -3.04 12
Rinsed endive 0.0170 -4.1 0.029 -3.54 1.7
Rinsed leek 0.0170 -4.1 0.018 -4.02 1.1
Rinsed Lettuce 0.0170 -4.1 0.042 -3.17 2.5
Rinsed Ryegrass 0.0030 -5.8 0.13 -2.05 43
Rinsed Ryegrass 0.0340 -3.4 0.31 -1.18 9.1
Rinsed SugarBeet 0.0030 -5.8 0.037 -3.30 12
Rinsed SugarBeet 0.0080 -4.8 0.11 -2.18 14
Unrinsed Clover 0.0760 -2.6 0.087 -2.44 1.1
Unrinsed Clover 0.19 -1.7 0.088 -2.43 0.47
Unrinsed Ryegrass 0.19 -1.7 0.069 -2.67 0.37
Unrinsed Ryegrass 0.0760 -2.6 0.085 -2.47 1.1
Unrinsed Tim_grass 0.11 -2.2 0.072 -2.63 0.68
Unrinsed Tim grass 0.0580 -2.8 0.14 -1.94 2.5
Not Specified Carrot 0.19 -1.7 0.13 -2.05 0.69
Not Specified Carrot 0.0558 -2.9 0.13 -2.02 2.4
Not Specified Carrot 0.0183 -4.0 0.15 -1.93 7.9
Median BAF
(Plant/Soil)
0.12
0.13
0.28
0.50
0.11
5.4
12.2
1.1
U
R
U
R
R
U
R
U
Regression statistics ln(Cplallt ) versus In
Slope Intercept R2 p value
NC NC NC NC
NC NC NC NC
0.2825 -2.7221 0.5567 NC
0.4008 -2.1454 0.2981 >0.05
NC NC NC NC
0.0646 -3.5336 0.0062 NC
-0.0987 -3.4794 0.0145 >0.05
-0.2295 -2.8525 0.3384 NC
Eco-SSL Attachment 4-1 Appendix C
5 of 6
April 2007
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Appendix C
Bioaccumulation Factors (BAF) and Regression Equations Soil to Plant Foliage for Non-Ionic Organic Chemicals
. . ,,T Rinsed/ . Soil Cone ln(C,011, Plant Cone1 ln(C ,,, BAF
Chemical Name TT . , Plant Species , , , ^ m, , -,N
Unrinsed (mg/kg dw) mg/kg dw) (mg/kg dw) mg/kg dw) (Plant/Soil)
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Phenanthrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Pyrene
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Total PAHs
Rinsed Beet 0.0890 -2.4 0.19 -1.69 2.1
Rinsed Beet 0.15 -1.9 0.37 -0.99 2.5
Rinsed Beet 0.0890 -2.4 0.58 -0.55 6.5
Rinsed Beet 0.34 -1.1 0.70 -0.36 2.1
Rinsed Beet 0.98 0.0 1.1 0.07 1.1
Rinsed Cabbage 0.0086 -4.8 0.018 -4.02 2.1
Rinsed Carrot 0.15 -1.9 0.049 -3.02 0.33
Rinsed Carrot 0.34 -1.1 0.93 -0.07 2.7
Rinsed Carrot 0.0890 -2.4 0.98 -0.02 11
Rinsed Carrot 0.98 0.0 1.5 0.40 1.5
Rinsed endive 0.0086 -4.8 0.043 -3.15 5.0
Rinsed leek 0.0086 -4.8 0.033 -3.41 3.8
Rinsed Lettuce 0.0086 -4.8 0.058 -2.85 6.7
Rinsed Ryegrass 0.38 -1.0 0.024 -3.73 0.063
Rinsed Ryegrass 0.16 -1.8 0.19 -1.66 1.2
Rinsed SugarBeet 0.0300 -3.5 0.19 -1.66 6.4
Rinsed SugarBeet 0.17 -1.8 0.31 -1.17 1.8
Unrinsed Clover 0.0930 -2.4 0.011 -4.51 0.12
Unrinsed Clover 0.22 -1.5 0.031 -3.47 0.14
Unrinsed Ryegrass 0.22 -1.5 0.023 -3.77 0.10
Unrinsed Ryegrass 0.0930 -2.4 0.042 -3.17 0.45
Unrinsed Tim_grass 0.0310 -3.5 0.014 -4.27 0.45
Unrinsed Tim grass 0.15 -1.9 0.023 -3.77 0.15
Not Specified Carrot 0.12 -2.1 0.024 -3.73 0.19
Not Specified Carrot 0.0372 -3.3 0.026 -3.65 0.70
Not Specified Carrot 0.0122 -4.4 0.036 -3.32 3.0
Rinsed Beet 0.11 -2.2 0.078 -2.55 0.71
Rinsed Beet 0.10 -2.3 0.18 -1.73 1.8
Rinsed Cabbage 0.0054 -5.2 0.0039 -5.55 0.72
Rinsed Carrot 0.10 -2.3 0.033 -3.41 0.33
Rinsed Carrot 0.61 -0.5 0.035 -3.35 0.057
Rinsed Carrot 0.30 -1.2 0.35 -1.06 1.2
Rinsed endive 0.0054 -5.2 0.013 -4.34 2.4
Rinsed leek 0.0054 -5.2 0.010 -4.61 1.9
Rinsed Lettuce 0.0054 -5.2 0.020 -3.91 3.7
Rinsed Ryegrass 0.0850 -2.5 0.036 -3.32 0.42
Rinsed SugarBeet 0.0790 -2.5 0.0010 -6.91 0.013
Unrinsed Clover 0.75 -0.3 0.351 -1.05 0.47
Unrinsed Clover 2.0 0.7 0.446 -0.81 0.23
Unrinsed Ryegrass 2.0 0.7 0.341 -1.08 0.17
Unrinsed Ryegrass 0.75 -0.3 0.395 -0.93 0.52
Unrinsed Tim_grass 0.35 -1.1 0.568 -0.57 1.6
Unrinsed Tim grass 1.4 0.4 0.568 -0.57 0.40
Rinsed Beet 0.97 0.0 1.675 0.52 1.7
Rinsed Beet 5.5 1.7 1.719 0.54 0.31
Rinsed Beet 2.4 0.9 1.382 0.32 0.57
Rinsed Beet 0.73 -0.3 0.888 -0.12 1.2
Rinsed Beet 2.4 0.9 0.760 -0.27 0.31
Rinsed Carrot 0.97 0.0 1.641 0.50 1.7
Rinsed Carrot 5.5 1.7 2.415 0.88 0.44
Rinsed Carrot 0.73 -0.3 1.004 0.00 1.4
Rinsed Carrot 2.4 0.9 2.800 1.03 1.2
Rinsed Ryegrass 3.1 1.1 1.090 0.09 0.35
Rinsed Ryegrass 0.74 -0.3 0.940 -0.06 1.3
Rinsed SugarBeet 0.50 -0.7 0.608 -0.50 1.2
Rinsed SugarBeet 3.1 1.1 1.177 0.16 0.38
Median BAF
(Plant/Soil)
2.1
0.19
0.72
0.43
1.2
R
U
R
U
R
Regression statistics ln(Cplallt ) versus In
Slope Intercept R2 p value
0.6203 -0.1665 0.4642 <0.01
-0.0204 -3.7931 0.0022 NC
0.4756 -2.2170 0.2565 >0.05
-0.1062 -0.8303 0.1006
0.3015 0.0830 0.3103 <0.05
Shading indicates selected value.
s 5. Ap value was calculated only for rinsed data sets if R>0.2.
Entire Non-Ionic Organic Raw Data Set is provided in Appendix B.
NC = Not Calculated. A regression analysis was performed only if n
R = Rinsed; U = Unrinsed
Where rinsed status was unknown, the data was grouped with the unrinsed data. This was based on the distribution of data as plotted in Figure C-l.
Values were selected, if available, from rinsed data sets.
Eco-SSL Attachment 4-1 Appendix C
6 of 6
April 2007
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100%
90% -
80% -
70%
60%
50%
Figure C-l
Cumulative Frequency Distribution of BAF Values
» Rinsed BAF
Unrinsed BAF
Unknown
0.0001
0.0010
0.1000
BAF (Foliage/Soil)
1.0000
10.0000
100.0000
Eco-SSL Attachment 4-1 Appendix C
-------�
This Page Intentionally Left Blank
-------�
Acenaphthene and Fluorine
I
BE
I
1.00 -
0.00 -
-1.00 -
-2.00 -
-3.00 -
-4.00 -
-5.00 -
-6.00 -
-7.00 -
-8.00
y = -0.8556x-5.562
R2 = 0.2998
-7.0 -6.0 -5.0 -4.0 -3.0
ln(Csolb mg/kg dw)
ln(Csoil, ln(Cplant, mg/kg
mg/kg dw) dw)
-3.2
-2.9
-4.7
-3.4
-4.7
-3.2
-2.9
-3.4
-4.7
-3.2
-5.3
-6.9
-4.2
-2.3
-2.3
-2.29
-2.293
-1.70
-1.39
-1.21
-1.41
-1.55
-1.24
-2.85
-0.55
-1.13
-0.85
-2.00
-1.83
-0.81
-6.81
-5.17
-5.95
-5.15
SUMMARY OUTPUT
Regression Statistics
Multiple R 0.547516532
R Square 0.299774353
Adjusted R Square 0.253092643
Standard Error 1.727224424
Observations 17
AN OVA
Regression
Residual
Total
Intercept
X Variable 1
df
1
15
16
Coefficients
-5.562017641
-0.855612699
SS
19.15778345
44.74956315
63.9073466
Standard Error
1 .298732294
0.337639589
MS
19.15778
2.983304
tStat
-4.28265
-2.5341
F Significance F
6.421666 0.02290831
P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
0.000654 -8.33019999
0.022908 -1.57527444
-2.79384 -8.3302 -2.7938353
-0.13595 -1.5752744 -0.13595095
Eco-SSL Attachment 4-1 Appendix C
-------�
Anthracene
0.00 -
-1.00 -
^ -2.00 -
I
M -3.00 -
£ -4.00 -
1
1 -5.00 -
y,
S -6.00 -
-7.00 -
-8.00 -
-9.00
y = 0.7784x - 0.9887
R2 = 0.5188
-7.0 -6.0 -5.0 -4.0 -3.0
ln(Csolb mg/kg dw)
ln(Csoil, ln(Cplant, mg/kg
mg/kg dw) dw)
SUMMARY OUTPUT
-6.2
-4.2
-2.9
-4.1
-4.2
-7.4
-2.9
-4.1
-4.2
-4.3
-7.4
-7.4
-7.4
-3.4
-4.27
-4.605
-5.809
-6.91
-4.42
-4.07
-3.73
-2.67
-7.42
-6.91
-4.51
-3.69
-3.12
-6.73
-7.66
-6.57
-2.67
-4.27
-3.47
-4.71
Regression Statistics
Multiple R 0.720289655
R Square 0.518817188
Adjusted R Square 0.488743262
Standard Error 1.22604928
Observations 18
AN OVA
Regression
Residual
Total
Intercept
X Variable 1
df SS
1 25.93224315
16 24.0511494
17 49.98339255
Coefficients Standard Error
-0.988716072 0.968007462
0.778394279 0.187407738
MS
25.93224
1.503197
tStat
-1.02139
4.15348
F Significance F
17.2514 0.00074786
P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
0.322265 -3.04080021 1.063368 -3.0408002
0.000748 0.38110762 1.175681 0.3811076
1 .06336806
1.17568093
Eco-SSL Attachment 4-1 Appendix C
-------�
Benzo(a)anthracene and Chrysene
-1.00 -
'P -2.00 -
BE
e< -3.00 -
E
g -4.00 -
-6.00 -
-7.00 -
y = 0.5944x - 2.7078
R2 = 0.7007
-6.0
-5.0 -4.0 -3.0
ln(Csolb mg/kg dw)
ln(C.oll,
mg/kg dw)
-4.6
-0.8
-2.7
-0.8
-2.8
-2.7
-0.8
-2.7
-2.6
-0.5
-5.6
-5.6
-5.6
-5.6
-5.2
ln(Cpiant, mg/kg
dw)
-4.83
-4.42
-3.58
-3.65
-4.51
-5.30
-1.86
-3.96
-3.77
-3.06
-7.42
-5.55
-6.27
-5.55
-5.84
SUMMARY OUTPUT
Regression Statistics
Multiple R 0.729492059
R Square 0.532158664
Adjusted R Square 0.510893149
Standard Error 0.806873825
Observations 24
AN OVA
Regression
Residual
Total
Intercept
X Variable 1
df SS MS
1 16.29207805 16.29208
22 14.32299814 0.651045
23 30.61507619
Coefficients Standard Error t Stat
-3.204568852 0.338645676 -9.4629
0.487240432 0.097400392 5.002448
F Significance F
25.02449 5.2373E-05
P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
3.26E-09 -3.906877 -2.50226
5.24E-05 0.28524438 0.689236
-3.906877 -2.50226071
0.2852444 0.68923648
Eco-SSL Attachment 4-1 Appendix C
-------�
I
BE
I
Benzo(a)pyrene
0.00
-1.00 -
-2.00 -
-3.00 -
-4.00 -
-5.00 -
-6.00 -
-7.00 -
-8.00 -
-9.00 -
-10.00
y = 0.975x- 2.0615
R2 = 0.7954
-7.0
-5.0
4.0 -3.0
1, mg/kg dw)
ln(C.oll,
mg/kg dw)
-3.4
-1.4
-1.4
-3.5
-0.9
-6.0
-3.5
-0.9
-1.4
-6.0
-6.0
-6.0
-1.3
-3.1
-1.1
ln(Cpiant, mg/kg
dw)
-3.96
-3.77
-3.69
-3.58
-3.17
-9.21
-4.42
-4.14
-3.86
-8.33
-8.80
-8.18
-4.07
-3.30
-3.24
SUMMARY OUTPUT
Regression Statistics
Multiple R 0.891839745
R Square 0.79537813
Adjusted R Square 0.779637986
Standard Error 1.066763516
Observations 15
AN OVA
Regression
Residual
Total
Intercept
X Variable 1
df SS
1 57.50442387
13 14.7937972
14 72.29822107
Coefficients Standard Error
-2.061528487 0.502501933
0.97500356 0.137158816
MS
57.50442
1.137984
tStat
-4.10253
7.108574
F Significance F
50.53182 7.9494E-06
P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
0.001247 -3.14711791
7.95E-06 0.67868995
-0.97594 -3.1471179 -0.97593906
1.271317 0.67869 1.27131717
Eco-SSL Attachment 4-1 Appendix C
-------�
Benzo(ghi)perylene
-1.00 -
,-v -2.00 -
I
M -3.00 -
3,
£ -4.00 -
1
1 -5.00 -
y,
£ -6.00 -
-7.00 -
-8.00 -
-9.00
y = 1.1829x- 0.9313
R2 = 0.8693
-6.0
-5.0
-4.0 -3.0
ln(Csolb mg/kg dw)
ln(Csoil, ln(Cplant, mg/kg
mg/kg dw) dw)
SUMMARY OUTPUT
-2.2
-0.6
-2.4
-0.1
-0.6
-5.6
-2.2
-2.4
-0.6
-0.1
-5.6
-5.6
-5.6
-0.6
-1.77
-2.323
-0.598
-3.77
-2.88
-1.97
-1.83
-1.82
-8.05
-2.51
-2.22
-2.20
-0.97
-8.22
-7.66
-8.57
-2.38
-1.99
-2.58
-2.53
Regression Statistics
Multiple R 0.93234326
R Square 0.869263954
Adjusted R Square 0.860548218
Standard Error 0.979163541
Observations 17
AN OVA
Regression
Residual
Total
Intercept
X Variable 1
df
1
15
16
Coefficients
-0.931299783
1.182915248
SS
95.62205092
14.38141861
110.0034695
Standard Error
0.361637942
0.118448574
MS
95.62205
0.958761
tStat
-2.57523
9.986741
F Significance F
99.735 5.0849E-08
P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
0.021114 -1.70211281
5.08E-08 0.93044809
-0.16049 -1.7021128 -0.16048676
1 .435382 0.9304481 1 .43538241
Eco-SSL Attachment 4-1 Appendix C
-------�
Benzo(k)fluoranthene
0.00
a
BE
M
-10.00
y = 0.8595x-2.1579
R2 = 0.8146
-8.0
-7.0
-6.0
-4.0 -3.0 -2.0
i, mg/kg dw)
mg/kg dw)
-1.0
-1.0
-2.7
-0.4
-2.6
-6.9
-2.7
-2.6
-0.4
-1.0
-0.9
-2.59
-2.564
-0.755
piant, mg/kg
dw)
-4.71
-3.41
-3.38
-2.86
-2.85
-9.43
-4.14
-3.86
-3.04
-2.13
-7.93
-8.68
-7.99
-4.83
-3.69
-3.10
-2.67
SUMMARY OUTPUT
Regression Statistics
Multiple R
R Square
Adjusted R Square
Standard Error
Observations
AN OVA
0.902579601
0.814649936
0.802293265
1.040939846
17
Regression
Residual
Total
df
1
15
16
Coefficients
Intercept
X Variable 1
-2.157869032
0.859537607
SS
71 .43660592
16.25333645
87.68994237
Standard Error
0.395465007
0.105859566
MS
71.43661
1 .083556
tStat
-5.45654
8.119603
F
65.92795
P- value
6.62E-05
7.17E-07
Significance F
7.1692E-07
Lower 95% Upper 95%Lower 95.0% Upper 95.0%
-3.00078274
0.63390328
-1.31496
1.085172
-3.0007827
0.6339033
-1
1
.31495533
.08517193
Eco-SSL Attachment 4-1 Appendix C
-------�
1.50
a o.oo -
BE
~BE -°-50
E
g -1.00 -
y, -1-50'
jg1
-2.00 -
-2.50 -
-3.00 -
DDT, ODD and DDE
y = 0.7524x-2.5119
R2 = 0.5334
0.0 1.0 2.0
ln(Csolb mg/kg dw)
3.0
4.0
ln(Csoil, ln(Cplant, mg/kg
mg/kg dw) dw)
SUMMARY OUTPUT
-0.8
0.2
1.5
0.9
-0.5
0.4
2.5
1.8
3.7
-2.81
-2.41
1.03
-3.22
-3.00
-2.66
-1.27
-1.14
0.18
Regression Statistics
Multiple R 0.730321659
R Square 0.533369725
Adjusted R Square 0.466708258
Standard Error 1.098986582
Observations 9
AN OVA
Regression
Residual
Total
Intercept
X Variable 1
df
1
7
8
Coefficients
-2.511937879
0.752355338
SS
9.663584966
8.454400559
18.11798553
Standard Error
0.465410395
0.265978334
MS
9.663585
1 .207772
tStat
-5.39725
2.828634
F Significance F
8.00117 0.02545601
P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
0.001011 -3.61245858
0.025456 0.12341652
-1.41142 -3.6124586 -1.41141717
1.381294 0.1234165 1.38129416
Eco-SSL Attachment 4-1 Appendix C
-------�
0.50 - H
y =
0.00 -
£ -0.50 -
I-
S -1.50 -
1
£ -2.00 -
"a" ~2-50 "
-3.00 - * -
-3.50 - *
-4.00 -
-5.0 -4.5
Phenanthrene
0.6203x- 0.1665
R2 = 0.4642 *
<
* J«^**'****^
^^^^
^^^
-4.0 -3.5 -3.0 -2.5 -2.0
ln(Csolb mg/kg dw)
!
*
>
*
-1.5 -1.0 -0.5 0.0
ln(C,0n, ln(Cpiant, mg/kg
mg/kg dw) dw) SUMMARY OUTPUT
-2.4 -1.69
-1.9 -0.99
-2.4 -0.55
-1.1 -0.36
0.0 0.07
-4.8 -4.02
-1.9 -3.02
-1.1 -0.07
-2.4 -0.02
0.0 0.40
-4.8 -3.15
-4.8 -3.41
-4.8 -2.85
-1.0 -3.73
-1.8 -1.66
-3.51 -1.66
-1.772 -1.17
Regression Statistics
Multiple R 0.681293808
R Square 0.464161253
Adjusted R Square 0.428438669
Standard Error 1.108606538
Observations 17
AN OVA
df
Regression 1
Residual 15
Total 16
SS MS F Significance F
15.96911685 15.96912 12.9935 0.00260075
18.43512685 1.229008
34.4042437
Coefficients Standard Error tStat P-value Lower 95% Upper 95%Lower 95.0% Upper 95.0%
Intercept -0.16651164
X Variable 1 0.620257058
0.488996405 -0.34052 0.738189 -1.2087828 0.87576 -1.2087828 0.87575952
0.172071404 3.604649 0.002601 0.25349554 0.987019 0.2534955 0.98701857
Eco-SSL Attachment 4-1 Appendix C
-------�
1.00 -
^ 0.80 -
I
BE 0.60 -
g 0.40 -
1
a. 0.20 -
-0.60
Total PAHs
y = 0.3015x + 0.083
R2 = 0.3103
0.0 0.5 1.0
ln(Csolb mg/kg dw)
ln(Csoil, ln(Cplant, mg/kg
mg/kg dw) dw)
0.0
1.7
0.9
-0.3
0.9
0.0
1.7
-0.3
0.9
1.1
-0.3
-0.7
1.1
0.52
0.54
0.32
-0.12
-0.27
0.50
0.88
0.00
1.03
0.09
-0.06
-0.50
0.16
SUMMARY OUTPUT
Regression Statistics
Multiple R
R Square
Adjusted R Square
Standard Error
Observations
AN OVA
0.557010992
0.310261245
0.247557722
0.386981558
13
Regression
Residual
Total
df
1
11
12
Coefficients
Intercept
X Variable 1
0.082971219
0.301466221
SS
0.740996445
1.647301988
2.388298432
Standard Error
0.127862385
0.135525452
MS
0.740996
0.149755
tStat
0.64891
2.224425
F
4.948067
P- value
0.529711
0.047992
Significance F
0.04799237
Lower 95% Upper 95%Lower 95.0% Upper 95.0%
-0.19845199
0.00317671
0.364394
0.599756
-0.198452
0.0031767
0.36439443
0.59975573
Eco-SSL Attachment 4-1 Appendix C
-------�
-------�
Eco-SSL Attachment 4-1
Appendix D
Bioaccumulation Data for DDT, DDD and DDE
February 2005
Revised April 2007
-------�
This page intentionally left blank
-------�
Appendix D-l Bioaccumulation Data for the Uptake of DDT, DDD and DDE from Soil into Invertebrates
Species Information
ConimonName (Genus/Species)
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Harpalus rufipes)
Beetle (Harpalus rujipes)
Beetle (Harpalus nifipes)
Beetle (Harpulus aeneus)
Beetle (Harpulus aeneus)
Beetle (Harpulus aeneus)
Beetle (Harpulus aeneus)
Beetle (Harpulus aeneus)
Beetle (Harpulus aeneus}
Beetle (Harpulus aeneus')
Beetle (Harpulus aeneus)
Beetle (Poecilius chalcites)
Beetle (Poecilius chalcites)
Beetle (Poecilius chalcites)
Beetle (unidentified)
Beetle (unidentified)
Beetle (unidentified)
Beetle (unidentified)
Beetles
Beetles
Beetles
Cricket (Gryllius assimilis )
Cricket (Gryllius assimilis )
Cricket (Gryllius assimilis )
Cricket (Gryllius assimilis )
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Exposure
Field
(F)/
Lab
(L)
F
F
F
F
L
L
L
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
Chemical
Form
p.p'-DDE
p,p'-DDE
p.p'-DDE
p.p'-DDE
Total DDT
Total DDT
Total DDT
p.p'-DDE
p.p'-DDE
p.p'-DDE
p.p'-DDE
p.p'-DDE
p.p'-DDE
p,p'-DDT
p.p'-DDT
Total DDT
Total DDT
Total DDT
p.p'-DDE
p.p'-DDE
p,p'-DDE
p,p'-DDE
p.p'-DDT
p.p'-DDT
p.p'-DDE
Total DDT
Total DDT
Total DDT
Total DDT
p,p'-DDT
o.p'-DDT
DDT
Total DDT
p,p'-DDT
Total DDT
Total DDT
Total DDT
DDE
p.p'-DDE
p.p'-DDT
p,p'-DDT
DDT
DDE
p.p'-DDT
o,p'-DDT
p.p'-DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDD
DDE
DDE
DDD
DDT
Group
DDE
DDE
DDE
DDE
DDT
DDT
DDT
DDE
DDE
DDE
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDE
DDE
DDE
DDE
DDT
DDT
DDE
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDE
DDT
DDT
DDT
DDE
DDT
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDD
DDE
DDE
DDD
DDT
Duration
Resident
Resident
Resident
Resident
84 d
84 d
84 d
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
resident
resident
resident
Resident
Resident
Resident
Resident
NR
NR
NR
resident
resident
resident
resident
NR
NR
NR
11 yr
Resident
Syr
6yr
Syr
6yr
NR
Resident
Resident
6yr
lyr
NR
NR
NR
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
NR
NR
NR
NR
Invertebrate Tissue Information
Reported
Tissue
Cone.
0.1
0.4
0.06
0.7
3.5
6.1
25.4
0.3
0.07
0.1
0.2
2.2
0.6
0.5
0.5
0.19
0.47
0.09
0.05
0.05
0.2
0.2
0.095
0.5
3.6
0.12
0.08
0.08
0.04
2.1
0.2
157
28.8
2.1
0.315
0.13
0.157
0.77
0.9
11.7
30.4
0.36
1.81
21.05
1.25
4.3
1.18
21.33
1.1
1.47
1.57
4.2
8.86
3.14
2.52
1.1
6.19
12.33
140.74
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?1
ww
ww
ww
ww
NR
NR
NR
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
NR
NR
NR
ww
ww
ww
ww
NR
NR
dw
NR
ww
NR
NR
NR
dw
NR
ww
ww
dw
dw
NR
NR
NR
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
Moisture
Tissue2
NR
NR
NR
NR
NA
NA
NA
NR
NR
NR
NR
NR
NR
NR
NR
NA
NA
NA
NR
NR
NR
NR
84
84
84
NA
NA
NA
NA
84
84
NR
84
NR
NR
NR
NR
NA
84
NR
NR
NA
NA
84
84
84
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Conversion
Factor to
mg/kg dw
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
7.14
7.14
7.14
6.25
6.25
6.25
6.25
7.14
7.14
1
7.14
6.25
6.25
6.25
6.25
1
7.14
6.25
6.25
1
1
7.14
7.14
7.14
1
1
1
1
1
1
1
1
1
1
1
1
1
Tissue
Cone.
(mg/kg
dw)
0.6
2.5
0.4
4.4
21.9
38.1
158.8
1.9
0.4
0.6
1.3
13.8
3.8
3.1
3.1
1.19
2.94
0.56
0.3
0.3
1.3
1.3
0.679
3.57
25.7
0.75
0.5
0.5
0.25
15
1.43
157
206
13.1
1.969
0.813
0.981
0.77
6.43
73.1
190
0.36
1.81
150.4
8.93
30.71
1.18
21.33
1.1
1.47
1.57
4.2
8.86
3.14
2.52
1.1
6.19
12.33
140.74
In (Tissue
Cone.
mg/kg
dw)
-0.4700
0.9163
-0.9808
1.4759
3.0853
3.6409
5.0673
0.6286
-0.8267
-0.4700
0.2231
2.6210
1.3218
1.1394
1.1394
0.1719
1.0776
-0.5754
-1.1632
-1.1632
0.2231
0.2231
-0.3878
1.2730
3.2470
-0.2877
-0.6931
-0.6931
-1.3863
2.7081
0.3567
5.0562
5.3265
2.5745
0.6774
-0.2076
-0.0189
-0.2614
1.8608
4.2922
5.2470
-1.0217
0.5933
5.0130
2.1893
3.4247
0.1655
3.0601
0.0953
0.3853
0.4511
1.4351
2.1815
1.1442
0.9243
0.0953
1.8229
2.5120
4.9469
Depurated?
NR
NR
NR
NR
No
No
No
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil
Cone.
0.02
0.03
0.1
0.2
2.5
5
10
0.1
0.02
0.02
0.03
0.1
0.2
1.5
13.3
0.08
0.07
0.05
0.02
0.02
0.03
0.03
0.37
7.4
4.3
0.05
0.08
0.07
0.05
0.37
0.06
19
13.6
0.3
1.3
1.2
1.55
0.17
0.11
1.5
13.3
0.02
0.13
7.4
0.7
1.20
0.34
0.14
0.28
0.22
0.13
0.31
0.28
2.06
2.8
0.015
0.43
2.63
3.43
Reported
Soil
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight
or Dry
Weight?3
ww
ww
ww
ww
NR
NR
NR
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
NR
NR
NR
ww
ww
ww
ww
NR
NR
dw
dw
ww
NR
NR
NR
dw
NR
ww
ww
dw
dw
NR
NR
NR
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
%
Moisture
Soil
16-23
16-23
16-23
16-23
NR
NR
NR
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
78.05
78.05
78.05
16-23
16-23
16-23
16-23
NA
NA
NA
78.05
78.05
78.05
78.05
NA
NA
NA
NA
16-23
NR
NR
NR
NA
NA
16-23
16-23
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Conversion
Factor to
mg/kg dw
1.19
1.19
1.19
1.19
1
1
1
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
4.56
4.56
4.56
1.19
1.19
1.19
1.19
1
1
1
4.56
4.56
4.56
4.56
1
1
1
1
1.19
1
1
1
1
1
1.19
1.19
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Soil Cone.
(mg/kg dw)
0.024
0.036
0.119
0.238
2.5
5
10
0.119
0.024
0.024
0.036
0.119
0.238
1.786
15.833
0.364
0.319
0.228
0.024
0.024
0.036
0.036
0.37
7.4
4.3
0.228
0.364
0.319
0.228
0.37
0.06
19
13.6
0.357
1.3
1.2
1.55
0.17
0.11
1.79
15.83
0.02
0.13
7.4
0.7
1.2
0.34
0.14
0.28
0.22
0.13
0.31
0.28
2.06
2.8
0.015
0.43
2.63
3.43
hi (Soil
Cone.
mg/kg
dw)
-3.7377
-3.3322
-2.1282
-1.4351
0.9163
1.6094
2.3026
-2.1282
-3.7377
-3.7377
-3.3322
-2.1282
-1.4351
0.5798
2.7621
-1.0093
-1.1429
-1.4793
-3.7377
-3.7377
-3.3322
-3.3322
-0.9943
2.0015
1.4586
-1.4793
-1.0093
-1.1429
-1.4793
-0.9943
-2.8134
2.9444
2.6101
-1.0296
0.2624
0.1823
0.4383
-1.7720
-2.2073
0.5798
2.7621
-3.9120
-2.0402
2.0015
-0.3567
0.1823
-1.0788
-1.9661
-1.2730
-1.5141
-2.0402
-1.1712
-1.2730
0.7227
1.0296
-4.1997
-0.8440
0.9670
1.2326
BAF
R/C
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
BAF (Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
26.3
70.0
3.2
18.4
8.75
7.63
15.9
15.8
18.4
26.3
35.0
116
15.8
1.8
0.2
3.26
9.21
2.47
13.1
13.1
35.0
35.0
1.83
0.48
5.98
3.29
1.37
1.57
1.10
40.5
23.8
8.26
15.1
36.8
1.51
0.68
0.63
4.53
58.4
41.0
12.0
18.0
13.9
20.3
12.8
25.6
3.47
152
3.93
6.68
12.1
13.5
31.6
1.52
0.90
73.3
14.4
4.69
41.0
Reference
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Dempster, 1968
Dempster, 1968
Dempster, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis and Harrison, 1966
Davis and Harrison, 1966
Davis and Harrison, 1966
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Davis and Harrison, 1966
Davis and Harrison, 1966
Dustman and Stickel, 1966
CoUett and Harrison, 1968
Davis, 1968
Dimond, 1970
Dimond, 1970
Dimond, 1970
Gish, 1970
Davis and Harrison, 1966
Davis, 1968
Davis, 1968
Gish, 1970
Gish, 1970
Davis and Harrison, 1966
Davis and Harrison, 1966
Davis and Harrison, 1966
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Eco-SSL Attachment 4-1 Appendix D
Iof4
April 2007
-------�
Appendix D-l Bioaccumulation Data for the Uptake of DDT, DDD and DDE from Soil into Invertebrates
Species Information
ConimonName (Genus/Species)
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Exposure
Field
(F)/
Lab
(L)
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
Chemical
Form
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDT
DDE
DDD
DDT
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDD
DDD
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDT
DDE
DDT
DDE
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
Group
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDT
DDE
DDD
DDT
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDD
DDD
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDT
DDE
DDT
DDE
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
Duration
NR
NR
lyr
lyr
lyr
lyr
lyr
lyr
Syr
Syr
NR
lyr
lyr
lyr
lyr
10 yr
NR
NR
NR
NR
NR
NR
2.5 yr
NR
NR
NR
NR
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
NR
NR
NR
NR
NR
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
Invertebrate Tissue Information
Reported
Tissue
Cone.
0.17
0.4
0.21
0.24
0.6
0.25
0.18
1.14
2.03
1.21
0.11
0.86
0.25
0.41
0.33
0.1
11.85
23.8
75.54
0.3
0.16
0.63
0.063
0.092
0.41
0.46
0.083
17.63
18.76
1.09
9.58
5.23
0.73
2.74
1.13
1.13
0.59
1.31
2.03
56.01
2.12
1.19
1.66
5.56
0.27
0.2
1.45
0.51
4.7
1.94
1.63
21.39
5.99
4.86
20.85
1.35
0.75
7.37
1.43
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?1
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
Moisture
Tissue2
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Tissue
Cone.
(mg/kg
dw)
0.17
0.4
0.21
0.24
0.6
0.25
0.18
1.14
2.03
1.21
0.11
0.86
0.25
0.41
0.33
0.1
11.85
23.8
75.54
0.3
0.16
0.63
0.063
0.092
0.41
0.46
0.083
17.63
18.76
1.09
9.58
5.23
0.73
2.74
1.13
1.13
0.59
1.31
2.03
56.01
2.12
1.19
1.66
5.56
0.27
0.2
1.45
0.51
4.7
1.94
1.63
21.39
5.99
4.86
20.85
1.35
0.75
7.37
1.43
In (Tissue
Cone.
mg/kg
dw)
-1.7720
-0.9163
-1.5606
-1.4271
-0.5108
-1.3863
-1.7148
0.1310
0.7080
0.1906
-2.2073
-0.1508
-1.3863
-0.8916
-1.1087
-2.3026
2.4723
3.1697
4.3247
-1.2040
-1.8326
-0.4620
-2.7646
-2.3860
-0.8916
-0.7765
-2.4889
2.8696
2.9317
0.0862
2.2597
1.6544
-0.3147
1.0080
0.1222
0.1222
-0.5276
0.2700
0.7080
4.0255
0.7514
0.1740
0.5068
1.7156
-1.3093
-1.6094
0.3716
-0.6733
1.5476
0.6627
0.4886
3.0629
1.7901
1.5810
3.0374
0.3001
-0.2877
1.9974
0.3577
Depurated?
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil
Cone.
0.011
0.0067
0.014
0.024
0.008
0.021
0.032
0.026
0.21
0.069
0.012
0.11
0.037
0.02
0.007
0.0099
0.86
1.52
0.19
0.077
0.07
0.036
0.018
0.0069
0.029
0.014
0.009
4.36
5.56
5.38
4.28
5.56
1.64
0.89
2.5
0.2
0.52
0.22
0.55
5.33
12.73
0.72
0.95
1.14
0.035
0.051
0.026
0.13
0.34
0.15
0.34
0.17
0.63
1.68
0.63
0.12
0.31
0.075
0.24
Reported
Soil
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight
or Dry
Weight?3
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
%
Moisture
Soil
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Conversion
Factor to
mg/kg dw
Soil Cone.
(mg/kg dw)
0.011
0.0067
0.014
0.024
0.008
0.021
0.032
0.026
0.21
0.069
0.012
0.11
0.037
0.02
0.007
0.0099
0.86
1.52
0.19
0.077
0.07
0.036
0.018
0.0069
0.029
0.014
0.009
4.36
5.56
5.38
4.28
5.56
1.64
0.89
2.5
0.2
0.52
0.22
0.55
5.33
12.73
0.72
0.95
1.14
0.035
0.051
0.026
0.13
0.34
0.15
0.34
0.17
0.63
1.68
0.63
0.12
0.31
0.075
0.24
hi (Soil
Cone.
mg/kg
dw)
-4.5099
-5.0056
-4.2687
-3.7297
-4.8283
-3.8632
-3.4420
-3.6497
-1.5606
-2.6736
-4.4228
-2.2073
-3.2968
-3.9120
-4.9618
-4.6152
-0.1508
0.4187
-1.6607
-2.5639
-2.6593
-3.3242
-4.0174
-4.9762
-3.5405
-4.2687
-4.7105
1.4725
1.7156
1.6827
1.4540
1.7156
0.4947
-0.1165
0.9163
-1.6094
-0.6539
-1.5141
-0.5978
1.6734
2.5440
-0.3285
-0.0513
0.1310
-3.3524
-2.9759
-3.6497
-2.0402
-1.0788
-1.8971
-1.0788
-1.7720
-0.4620
0.5188
-0.4620
-2.1203
-1.1712
-2.5903
-1.4271
BAF
R/C
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
BAF (Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
15.5
59.7
15.0
10.0
75.0
11.9
5.63
43.85
9.67
17.5
9.17
7.82
6.76
20.5
47.1
10.1
13.8
15.7
398
3.90
2.29
17.5
3.50
13.3
14.1
32.9
9.22
4.04
3.37
0.20
2.24
0.94
0.45
3.08
0.45
5.65
1.13
5.95
3.69
10.5
0.17
1.65
1.75
4.88
7.71
3.92
55.8
3.92
13.8
12.9
4.79
126
9.51
2.89
33.1
11.3
2.42
98.3
5.96
Reference
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Eco-SSL Attachment 4-1 Appendix D
2 of 4
April 2007
-------�
Appendix D-l Bioaccumulation Data for the Uptake of DDT, DDD and DDE from Soil into Invertebrates
Species Information
ConimonName (Genus/Species)
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm (Allolobophora caliginosa)
Earthworm (Allolobophora caliginosa)
Earthworm (Allolobophora caliginosa )
Earthworm (Allolobophora caliginosa )
Earthworm (Allolobophora calignosa)
Earthworm (Allolobophora calignosa)
Earthworm (Allolobophora calignosa)
Earthworm (Allolobophora chlorotica)
Earthworm (Allolobophora longa)
Earthworm (Allolobophora longa)
Earthworm (Allolobophora rosea)
Earthworm (Allolobophora rosea)
Earthworm (H. caliginosis trapezoides )
Earthworm (H. caliginosis trapezoides )
Earthworm (Helodrilus zeteki )
Earthworm (Helodrilus zeteki )
Earthworm (L terrestris and A. caliginosa )
Earthworm (Lumbricidae)
Earthworm (Lumbricidae)
Earthworm (Lumbricidae)
Earthworm (Lumbricus rubellus )
Earthworm (Lumbricus rubellus )
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus sp )
Earthworm (Lumbricus sp )
Earthworm (Lumbricus sp. )
Earthworm (Lumbricus sp. )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Helodrilus caliginosus )
Exposure
Field
(F)/
Lab
(L)
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
Chemical
Form
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDT
Total DDT
Total DDT
Total DDT
Total DDT
Total DDT
Total DDT
p.p'-DDE
p.p'-DDE
o.p'-DDT
o,p'-DDT
o,p'-DDT
DDT
DDE
DDT
DDE
p.p'-DDT
p,p'-DDT
o,p'-DDT
o.p'-DDT
p.p'-DDT
o,p'-DDT
p,p'-DDT
o.p'-DDT
DDE
DDT
DDE
DDT
DDT
Total DDT
Total DDT
Total DDT
DDE
DDT
p,p'-DDT
p.p'-DDT
o.p'-DDT
p,p'-DDT
p,p'-DDT
Total DDT
Total DDT
DDT
DDE
DDT
DDE
DDE
DDT
DDT
Group
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDD
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDE
DDT
DDT
DDT
DDT
DDE
DDT
DDE
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDT
DDE
DDT
DDT
DDT
DDT
DDT
DDE
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDT
DDE
DDE
DDT
DDT
Duration
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Resident
Resident
Resident
NR
NR
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
NR
NR
2yr
Invertebrate Tissue Information
Reported
Tissue
Cone.
0.53
4.02
1.59
1.19
9.36
3.64
10.71
5.25
1.53
0.87
5.07
2.93
2.8
2.2
5.2
7.4
30
32
0.9
2.1
0.2
0.9
1.6
28
6.3
18
4.7
1.5
2.9
0.35
0.72
0.77
0.19
1.6
0.3
14
39
33
164
21
0.05
0.14
0.13
59
145
260
80.0
410.0
520.0
180.0
750.0
250.0
16.2
3.9
10.2
3.3
24
33
64.8
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/kgfat
ug/kgfat
ug/kgfat
ug/kgfat
ug/kgfat
ug/kgfat
ug/kgfat
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
Wet
Weight or
Dry
Weight?1
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
ww
ww
ww
ww
ww
ww
ww
ww
ww
NR
NR
NR
NR
NR
NR
NR
NR
ww
ww
ww
ww
NR
ww
ww
ww
ww
ww
NR
NR
NR
NR
NR
NR
NR
ww
ww
ww
ww
ww
ww
NR
Moisture
Tissue2
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NR
NR
NR
NR
NR
NR
NR
NR
NR
NA
NA
NA
NA
NA
NA
NR
NA
NR
NR
NR
NR
NR
NA
NA
NA
NR
NR
NA
NA
NA
NA
NA
NA
NA
NR
NR
NR
NR
NR
NR
NA
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
0.000125
0.000125
0.000125
0.000125
0.000125
0.000125
0.000125
6.25
6.25
6.25
6.25
6.25
6.25
6.25
Tissue
Cone.
(mg/kg
dw)
0.53
4.02
1.59
1.19
9.36
3.64
10.71
5.25
1.53
0.87
5.07
2.93
2.8
2.2
5.2
7.4
30
32
5.6
13.1
1.3
5.6
10.0
175
39.38
112.5
29.38
9.38
18.13
2.19
4.50
4.81
1.19
10
1.88
87.5
243.8
206.3
1025.0
131.25
0.3125
0.875
0.8125
368.8
906.3
0.0325
0.0100
0.0513
0.0650
0.0225
0.0938
0.0313
101.3
24.38
63.75
20.63
150
206.3
405.0
In (Tissue
Cone.
mg/kg
dw)
-0.6349
1.3913
0.4637
0.1740
2.2364
1.2920
2.3712
1.6582
0.4253
-0.1393
1.6233
1.0750
1.0296
0.7885
1.6487
2.0015
3.4012
3.4657
1.7272
2.5745
0.2231
1.7272
2.3026
5.1648
3.6731
4.7230
3.3801
2.2380
2.8973
0.7828
1.5041
1.5712
0.1719
2.3026
0.6286
4.4716
5.4961
5.3291
6.9324
4.8771
-1.1632
-0.1335
-0.2076
5.9101
6.8093
-3.4265
-4.6052
-2.9710
-2.7334
-3.7942
-2.3671
-3.4657
4.6176
3.1936
4.1550
3.0265
5.0106
5.3291
6.0039
Depurated?
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
N
N
N
N
N
N
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Y
Y
Y
Y
Y
Y
Y
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil
Cone.
0.34
0.097
0.28
1.52
0.64
0.11
0.28
0.066
0.23
0.45
0.073
0.24
0.46
0.49
1.4
1.5
4.7
6.3
0.1
0.3
0.04
0.2
13.3
6.3
2.0
8.6
2.5
0.64
0.64
0.14
0.14
0.64
0.14
0.64
0.14
5.4
9.5
5.4
9.5
56
0.05
0.08
0.05
5.4
9.5
6.8
1.4
4.3
3.2
12
15
92
6.3
2.0
8.6
2.5
5.4
9.5
30.1
Reported
Soil
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
ug/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
Wet
Weight
or Dry
Weight?3
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
ww
ww
ww
ww
ww
dw
dw
dw
dw
dw
dw
ww
ww
dw
ww
ww
ww
dw
dw
dw
dw
NR
ww
ww
ww
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
NR
%
Moisture
Soil
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NR
NA
NA
NA
NA
NA
16-23
16-23
16-23
16-23
16-23
NR
NR
NR
NR
NA
NA
NA
NA
NA
NA
NA
NA
NR
NR
NR
NR
NR
78.05
78.05
78.05
NR
NR
NA
NA
NA
NA
NA
NA
NA
NR
NR
NR
NR
NR
NR
NA
Conversion
Factor to
mg/kg dw
1.19
1.19
1.19
1.19
1.19
1
1
1
1
4.56
4.56
4.56
1
1
0.001
0.001
0.001
0.001
0.001
0.001
0.001
1
1
1
1
1
1
1
Soil Cone.
(mg/kg dw)
0.34
0.097
0.28
1.52
0.64
0.11
0.28
0.066
0.23
0.45
0.073
0.24
0.46
0.49
1.4
1.5
4.7
6.3
0.119
0.357
0.048
0.238
15.833
6.3
2
8.6
2.5
0.640
0.640
0.63
0.63
0.640
0.63
0.64
0.63
5.4
9.5
5.4
9.5
56
0.228
0.364
0.228
5.4
9.5
0.0068
0.0014
0.0043
0.0032
0.012
0.015
0.092
6.3
2
8.6
2.5
5.4
9.5
30.1
hi (Soil
Cone.
mg/kg
dw)
-1.0788
-2.3330
-1.2730
0.4187
-0.4463
-2.2073
-1.2730
-2.7181
-1.4697
-0.7985
-2.6173
-1.4271
-0.7765
-0.7133
0.3365
0.4055
1.5476
1.8405
-2.1282
-1.0296
-3.0445
-1.4351
2.7621
1.8405
0.6931
2.1518
0.9163
-0.4463
-0.4463
-0.4620
-0.4620
-0.4463
-0.4620
-0.4463
-0.4620
1.6864
2.2513
1.6864
2.2513
4.0254
-1.4793
-1.0093
-1.4793
1.6864
2.2513
-4.9908
-6.5713
-5.4491
-5.7446
-4.4228
-4.1997
-2.3860
1.8405
0.6931
2.1518
0.9163
1.6864
2.2513
3.4045
BAF
R/C
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
R/C
R/C
R/C
R/C
R/C
R/C
R/C
R/C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
1.56
41.4
5.68
0.78
14.6
33.1
38.3
79.5
6.65
1.93
69.5
12.2
6.1
4.5
3.7
4.9
6.4
5.1
47.3
36.8
26.3
23.6
0.63
27.8
19.7
13.1
11.8
14.6
28.3
28.8
3.47
7.52
7.64
1.86
15.9
16.2
25.7
38.2
108
2.34
1.37
2.40
3.57
68.3
95.4
4.78
7.14
11.9
20.3
1.88
6.25
0.34
16.1
12.2
7.41
8.25
27.8
21.7
13.5
Reference
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Barker, 1958
Barker, 1958
Barker, 1958
Barker, 1958
Doane, 1962
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Barker, 1958
Barker, 1958
Hendriks et al. 1995
Hendriks et al. 1995
Hendriks et al. 1995
Hendriks et al. 1995
Hendriks et al. 1995
Hendriks et al. 1995
Hendriks et al. 1995
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Barker, 1958
Barker, 1958
Boykins, 1966
Eco-SSL Attachment 4-1 Appendix D
3 of 4
April 2007
-------�
Appendix D-l Bioaccumulation Data for the Uptake of DDT, DDD and DDE from Soil into Invertebrates
Species Information
ConimonName (Genus/Species)
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (Lumbricus terrestris )
Earthworm (mixed)
Earthworm (mixed)
Earthworm (Octalaium cyaneum)
Earthworm (Octcdaium cyaneum)
Earthworm (Octolasium lacteum )
Earthworm (Octolasium lacteum )
Earthworm (Pheretimaposthuma)
Earthworm (unidentified)
Earthworm (unidentified)
Earthworm (unidentified)
Earthworm (unidentified)
Earthworm (Lumbricus terrestris )
Earthworm (unidentified'}
Earthworm (unidentified)
Earthworm (unidentified)
Earthworm (unidentified
Earthworm (unidentified
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Slugs
Exposure
Field
(F)/
Lab
(L)
F
F
F
F
F
F
L
F
F
F
F
F
F
F
F
L
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
Chemical
Form
p,p'-DDT
o,p'-DDT
DDT
DDE
DDT
DDE
DDT
DDT
DDE
DDE
DDT
p.p'-DDT
o,p'-DDT
DDE
DDT
Total DDT
DDE
DDT
DDT
DDT
DDT
DDT
DDE
DDT
DDE
DDT
p.p'-DDT
o.p'-DDT
p,p'-DDE
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDD
DDT
DDE
DDD
DDT
Group
DDT
DDT
DDT
DDE
DDT
DDE
DDT
DDT
DDE
DDE
DDT
DDT
DDT
DDE
DDT
DDT
DDE
DDT
DDT
DDT
DDT
DDT
DDE
DDT
DDE
DDT
DDT
DDT
DDE
DDE
DDD
DDT
DDE
DDD
DDT
DDE
DDT
DDE
DDD
DDT
DDE
DDD
DDT
Duration
NR
NR
Resident
Resident
Resident
Resident
6 mo
Resident
Resident
NR
NR
NR
NR
NR
NR
10 w
NR
2w
lyr
I.Syr
1.5 yr
NR
NR
NR
NR
NR
NR
NR
NR
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
lyr
Invertebrate Tissue Information
Reported
Tissue
Cone.
0.54
0.068
9.5
10
11.3
4.8
4
4.1
2.7
73
79
0.67
0.19
22
82
12
3
87.0
67.7
63.6
62.9
65
23
109
33
86
14.55
1.5
1.9
14.96
12.18
7.33
15.93
15.93
13.26
4.24
11.93
10
6.03
36.67
4.37
4.75
15
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug'g
mg/kg
mg/kg
ug/g
ug/g
mg/kg
mg/kg
ug/g
ug/g
mg/kg
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?1
NR
NR
ww
ww
ww
ww
NR
ww
ww
ww
ww
NR
NR
ww
ww
NR
ww
NR
NR
NR
NR
ww
ww
ww
ww
ww
NR
NR
NR
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
Moisture
Tissue2
NR
NA
NR
NR
NR
NR
NA
NR
NR
NR
NR
NA
NA
NR
NR
NR
NR
NR
NA
NA
NA
NR
NR
NR
NR
NR
84
84
84
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Conversion
Factor to
mg/kg dw
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
7.14
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
7.14
7.14
7.14
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Tissue
Cone.
(mg/kg
dw)
3.38
0.43
59.38
62.5
70.63
30
25
25.63
16.88
456.3
493.8
4.19
1.19
137.5
512.5
85.71
18.8
543.8
423.1
397.5
393.1
406.3
143.8
681.3
206.3
537.5
103.9
10.7
13.6
14.96
12.18
7.33
15.93
15.93
13.26
4.24
11.93
10
6.03
36.67
4.37
4.75
15
In (Tissue
Cone.
mg/kg
dw)
1.2164
-0.8557
4.0839
4.1352
4.2574
3.4012
3.2189
3.2436
2.8258
6.1230
6.2020
1.4321
0.1719
4.9236
6.2393
4.4510
2.9312
6.2985
6.0477
5.9852
5.9741
6.0070
4.9681
6.5239
5.3291
6.2869
4.6437
2.3716
2.6080
2.7054
2.4998
1.9920
2.7682
2.7682
2.5848
1.4446
2.4791
2.3026
1.7967
3.6020
1.4748
1.5581
2.7081
Depurated?
NR
NR
NR
NR
NR
NR
Y
NR
NR
NR
NR
NR
NR
NR
NR
Yes
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil
Cone.
0.64
0.14
13.8
4.2
6.3
2.0
0.9
8.6
2.5
5.4
9.5
0.64
0.14
5.4
9.5
1
5.4
298.1
90.1
50.1
30.1
9.5
5.4
9.5
0.3
16.9
7.40
0.70
1.20
4.36
5.56
5.38
4.36
5.56
5.38
0.89
2.5
0.63
1.68
0.63
0.12
0.31
0.075
Reported
Soil
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
mg/kg
mg/kg
ug'g
ug/g
mg/kg
mg/kg
ug'g
ug'g
mg/kg
ug/g
ug'g
ug/g
ug'g
ug/g
ug'g
ug'g
ug/g
ug'g
ug'g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight
or Dry
Weight?3
dw
ww
dw
dw
dw
dw
NR
dw
dw
dw
dw
ww
ww
dw
dw
NR
dw
NR
NR
NR
NR
dw
dw
dw
dw
dw
NR
NR
NR
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
%
Moisture
Soil
NA
NA
NR
NR
NR
NR
NR
NR
NR
NR
NR
NA
NA
NR
NR
NR
NR
NR
NA
NA
NA
NR
NR
NR
NR
NR
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Soil Cone.
(mg/kg dw)
0.635
0.63
13.8
4.2
6.3
2
0.9
8.6
2.5
5.4
9.5
0.63
0.63
5.4
9.5
1
5.4
298.1
90.1
50.1
30.1
9.5
5.4
9.5
0.3
16.9
7.4
0.7
1.2
4.36
5.56
5.38
4.36
5.56
5.38
0.89
2.5
0.63
1.68
0.63
0.12
0.31
0.075
hi (Soil
Cone.
mg/kg
dw)
-0.4537
-0.4620
2.6247
1.4351
1.8405
0.6931
-0.1054
2.1518
0.9163
1.6864
2.2513
-0.4620
-0.4620
1.6864
2.2513
0.0000
1.6864
5.6974
4.5009
3.9140
3.4045
2.2513
1.6864
2.2513
-1.2040
2.8273
2.0015
-0.3567
0.1823
1.4725
1.7156
1.6827
1.4725
1.7156
1.6827
-0.1165
0.9163
-0.4620
0.5188
-0.4620
-2.1203
-1.1712
-2.5903
BAF
R/C
R/C
R/C
C
C
C
C
C
C
C
C
C
R/C
R/C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
5.31
5.36
4.30
14.9
11.2
15.0
27.8
2.98
6.75
84.5
52.0
784
6.65
25.5
53.9
85.7
3.47
1.82
4.70
7.93
13.1
42.8
26.6
71.7
688
31.8
14.0
15.3
11.3
3.43
2.19
1.36
3.65
2.87
2.46
4.76
4.77
15.9
3.59
58.2
36.4
15.3
200
Reference
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Edwards and Jeffs, 1974
Hunt and Sacho, 1969
Hunt and Sacho, 1969
Barker, 1958
Barker, 1958
Wheatley andHardeman, 1968
Wheatley andHardeman, 1968
Barker, 1958
Barker, 1958
Yadavetal. 1976
Barker, 1958
Boykins, 1966
Boykins, 1966
Boykins, 1966
Boykins, 1966
Barker, 1958
Barker, 1958
Barker, 1958
Barker, 1958
Barker, 1958
Davis andHarrison, 1966
Davis and Harrison, 1966
Davis andHarrison, 1966
Gish, 1970
Gish, 1970
Gish 1970
Gish 1970
Gish 1970
Gish 1970
Gish 1970
Gish 1970
Gish 1970
Gish, 1970
Gish 1970
Gish 1970
Gish, 1970
Gish 1970
1 If not reported, wet weight is assumed. NA = Not applicable ww = wet weight ln(tissue) = slope * In(soil) + intercept
2 If not reported, 16% solids assumed. NR = Not reported R = Reported slope 0.8561
3 If not reported, dry weight assumed. dw=dryweight C = Calculated intercept 2.1287
d = days R2 0.6673
p value <0.0001
Median BAF = 11.3
Eco-SSL Attachment 4-1 Appendix D
4 of 4
April 2007
-------�
Appendix D-2 Bioaccumulation Data for Uptake of DDT, ODD or DDE from Diet into Mammals and Birds
Species Information
Common Name (Genus/ Species)
American kestrel (Falco sparvenus )
Barn owl (Tytoalba)
Barn owl (Tyto alba )
Japanese Quail (Cotwmx coturmx )
Japanese Quail (Coturmx coturmx )
Japanese Quail (Coturmx coturmx )
Japanese Quail (Coturmx coturmx )
Japanese Quail (Coturmx coturmx )
Pheasant
Black duck (Anas rubnpes )
Black duck (Anas rubripes )
Mallard (Anas platyrhynchos )
Mallard (Anas platyrhynchos )
American kestrel (Falco sparvenus )
American kestrel (Falco sparvenus )
American kestrel (Falco sparvenus )
Brown-headed cowbird
Cowbird (Molothrus ater )
American kestrel (Falco sparvenus )
American kestrel (Falco sparvenus )
Japanese Quail (Coturmx coturmx )
Japanese Quail (Coturmx coturmx )
rapanese Quail (Coturmx coturmx )
Mallard (Anas platyrhynchos )
Starling (Sturnus vuigans )
Starling (Sturnus vulgaris )
Double- aested cormorants (Phalacrocorax^J. ^uritul
Double-crested cormorants (Phalacrocorax a. auntits
Double-crested cormorants (Phalacrocomx a. auntits
Robin (Turdus migratorius )
Robin (Turdus migratorius )
Robin (Turdus migratorius )
Robin (Turdus migratorius )
Robin (Turdus migratorius )
Robin (Turdus migratorius )
American kestrel (Falco sparvenus )
American kestrel (Falco sparvenus )
American kestrel (Falco sparvenus )
Short-tailed shrew (Blarina brevicauda )
Brown bat (Myotis luafugvjs )
Brown bat (Myotis lucifugvjs )
Free- tailed bat ( Tadanda brasiliensis )
Free- tailed bat ( Tadanda brasiliensis )
Free- tailed bat ( Tadanda brasiliensis )
iat (Ratius norvegicus )
iat (Ratius norvegicus )
White-footed mouse (Peromyscus mamcidatus)
Rat (Ratius norvegicus)
iat (Ratius norvegicus )
iat (Ratius norvegicus )
Ex
Field
(F)/
Lab
(L)
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
F
F
F
F
L
L
L
L
L
L
L
L
L
L
L
F
L
L
L
Chemical
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDE
DDT
DDT
DDE
DDE
DDE
p,p'-DDT
p,p'-DDT
DDE
DDE
DDE
DDE
DDE
p,p'-DDE
DDE
DDE
Total DDT
Total DDT
Total DDT
Total DDT
DDT
DDT
Total DDT
Total DDT
Total DDT
Total DDT
DDE
p,p'-DDE
p,p'-DDE
DDT
DDE
DDE
DDE
DDE
DDE
Total DDT
Total DDT
Total DDT
o,p'-DDT
o,p'-DDT
o,p'-DDT
osure Information
Group
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDE
DDT
DDT
DDE
DDE
DDE
DDT
DDT
DDE
DDE
DDE
DDE
DDE
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDT
DDE
DDE
DDE
DDT
DDE
DDE
DDE
DDE
DDE
DDT
DDT
DDT
DDT
DDT
DDT
Exposure
Route
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Duration
NR
2y
2y
5 d
5 d
5 d
5 d
5 d
5 d
2bs
3bs
10 d
10 d
3 m
NR
NR
13d
12 d
NR
NR
12 w
12 w
12 w
96 d
12 w
12 w
20 d
20 d
20 d
20 d
Syr
6yr
60 d
NR
NR
7-17 d
40 d
40 d
39 d
39 d
39 d
120 d
120 d
Resident
14 d
14 d
14 d
Tissue Information
Tissue Type
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Whole body
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Whole body
Whole body
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Whole body
Whole Body
Whole Body
Whole Body
Reported
Tissue
Cone.
35.3
112
8
.6
.1
9.3
0.8
3.2
100.3
151.5
159.6
22.44
38.86
33
67
56
119.28
46
1.02
0.40
25.3
125.2
415.8
9.6
197.6
680.9
34
104
7.3
2.26
3.48
232
287.2
204.2
1159.1
680
2900
623
530
478
1.43
2.24
0.13
0.14
0.24
0.45
Reported
Tissue
Cone. Units
mg/kg
mg/kg
mg/kg
ug/g
ug/g
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
ug/g
mgkg
mg'kg
mgkg
mgkg
mgkg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mgkg
mg'kg
mglg
mglg
mgkg
mg/kg
mgkg
mgkg
mgkg
mgkg
mgkg
mg/kg
mg/kg
ug/g
mg/kg
mg/kg
Wet
weight or
Dry
Weight?1
ww
ww
ww
NR
NR
NR
NR
NR
NR
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
NR
NR
NR
ww
NR
NR
..
NR
NR
dw
dw
ww
ww
ww
ww
ww
ww
NR
NR
ww
NR
NR
NR
%
Moisture
Content
Tissue2
NR
NR
68
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
68
68
68
NR
NR
NR
NR
NR
«
68
68
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
66.5
NR
NR
NR
Conversion
Factor to
mg/kg dw
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3. 25
3. 25
3. 25
3. 25
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
2.99
3.13
3.13
3.13
Tissue Cone.
(mglig dw)
110.3125
350
243.75
5.0
12.8
60.3
127.5
228.8
313.4
473.4
498.8
70.125
121.4375
103.1
209.4
175
373
144
3.19
1.25
79.1
391
1299
30
618
2128
106
325
7.06
10.9
725
287
204
3622
2125
9063
1947
1656
1494
4.469
7.000
0.388
0.438
0.750
1.406
hi (Tissue
Cone.)
4.703
5.858
5.496
1.609
2.550
4.100
4.848
5.433
5.748
6.160
6.212
4.250
4.799
4.636
5.344
5.165
5.921
4.968
1.159
0.223
4.370
5.969
7.170
3.401
6.426
7.663
4.666
5.784
3.127
1.955
2.386
6.586
5.660
5.319
8.195
7.662
9.112
7.574
7.412
7.309
1.497
1.946
-0.946596
-0.827
-0.288
0.341
Oral Exposure Information
Reported
Diet
Cone.
5.9
2.83
2.83
50
100
250
500
1000
250
10
10
500
900
10
10
10
100
500
0.037
0.0135
5
25
100
40
25
100
5
12.5
1.75
0.315
0.13
0.157
0.097
10
10
400
150
480
107
107
107
4.25
4.25
0.0855
10
20
40
Diet Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Dry
Weight?3
ww
ww
ww
NR
NR
NR
NR
NR
NR
dw
dw
NR
NR
dw
dw
dw
NR
NR
NR
NR
dw
dw
dw
NR
NR
NR
..
NR
NR
NR
NR
NR
dw
dw
dw
NR
NR
NR
NR
NR
NR
NR
ww
NR
NR
NR
Content
Diet*
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
84
84
84
84
84
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Factor to
mg/kg dw
3.13
3.125
3.125
4.0
4.0
4.0
4.0
4.0
6.25
6.25
6.25
6.25
6.25
3.125
1
1
1.000
6.25
6.25
6.25
6.25
6.25
1
1
6.67
1
1
1
Oral
Exposure
(ing/Tig dw)
18.44
8.844
8.844
50
100
250
500
1000
250
10
10
500
900
10
10
10
100
500
0.037
0.0135
5
25
100
40
25
100
20
50
50
100
100
10.9375
1.96875
0.8125
0.98125
0.60625
150
10
10
400
938
3000
669
669
669
4.25
7.55
0.570
10
7.55
7.55
In(Diet)
Exposure)
2.914
2.180
2.180
3.912
4.605
5.521
6.215
6.908
5.521
2.303
2.303
6.215
6.802
2.303
2.303
2.303
4.605
6.215
-3.297
-4.305
1.609
3.219
4.605
3.689
3.219
4.605
2.996
3.912
3.912
4.605
4.605
2.392
0.677
-0.208
-0.019
-0.500
5.011
2.303
2.303
5.991
6.843
8.006
6.505
6.505
6.505
1.447
2.022
-0.562
2.303
2.022
2.022
BAF
R/C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mglig dw) /
Diet (mglig
dw))
5.98
39.6
27.6
0.100
0.128
0.241
0.255
0.229
1.25
47.3
49.9
0.140
0.135
10.3
20.9
17.5
3.73
0.288
86.1
92.6
15.8
15.7
13.0
0.750
24.7
21.3
5.31
6.50
6.44
7.56
6.47
4.79
2.09
3.59
13.4
16.8
21.8
4.83
28.7
20.4
9.06
2.27
3.02
2.91
2.48
2.23
1.05
0.93
0.681
0.04
0.10
0.19
Reference
Rudolph etal., 1983
Mendenhall etal., 1983
Mendenhall etal., 1983
DeWitt etal, 1955
DeWitt etal, 1955
DeWitt etal, 1955
DeWitt etal, 1955
DeWitt etal, 1955
DeWitt etal, 1955
Longcore and Stendell, 1977
Longcore and Stendell, 1977
Friend and Trainer, 1974
Friend and Trainer, 1974
Wiemeyeretal., 1986
Wiemeyeretal., 1986
Wiemeyeretal., 1986
Van Velzen et al. 1972
Stickel etal. ,1966
Lowe and Stendell, 1991
Lowe and Stendell, 1991
Dieter, 1974
Dieter, 1974
Dieter, 1974
Haegele and Hudson, 1974
Dieter, 1975
Dieter, 1975
Greichus andHannon, 1973
Greichus andHannon, 1973
Greichus andHannon, 1973
Greichus andHannon, 1973
Greichus andHannon, 1973
Johnson et 1976
Johnson et 1976
Dimondet al.,1970
Dim ond etal., 1970
Dimondet al.,1970
Dimondet al.,1970
Stendell etal, 1989
Porter and Wiemeyer, 1972
Porter and Wiemeyer, 1972
Blus, 1978
Clark and Stafford, 1981
Clark and Stafford, 1981
Clark and JKroll 1977
Clark and ICroll 1977
Clark and ICroll 1977
Martin etal., 1976
Martin etal., 1976
Korschgenl970
Wrennetal., 1971
Wrennetal., 1971
Wrennetal., 1971
[f not specified, wet weight is
[f not reported, 32% solids is a
[f not specified, dry weight is i
dw = dry weight
ww = wet weight
NA=Not Applicable
NR= Not Reported
C=Calculated
ln(tissue) = slope * In (Diet) + intercept
slope 0.6630
intercept 2.3833
R" 0.4810
p value O.0001
Median BAF =
4.83
Eco-SSL Attachment 4-1 Appendix D
1 ofl
April 2007
-------�
-------�
Appendix D DDT, DDD and DDE References
Barker, RJ. 1958. Notes on some ecological effects of DDT sprayed on elms. J.Wildl.
Manage. 22: 269-274.
Beyer, W. N. and Gish, C. D. 1980. Persistence in Earthworms and Potential Hazards to Birds
of Soil Applied DDT, Dieldrin and Heptachlor. J. Appl. Ecol. 17(2): 295-307.
Blus, L. J. 1978. Short-Tailed shrews: Toxicity and residue relationships of DDT, Dieldrin and
Endrin. Archives of Environ. Contam. and Toxic. 7:83-98.
Boykins, EA. 1966. DDT residues in the food chains of birds. Atlantic Naturalist. 21:18-26.
Clark, D. R. and J. C. Kroll. 1977. Effects of DDE on experimentally poisoned Free-tailed bats
(Tadarida brasiliensis): Lethal brain concentrations. Journal of Toxicology and Environmental
Health. 3: 893-901.
Clark, D. R. and C. J. Stafford. 1981. Effects of DDE and PCBs (Aroclor 1260) on
experimentally poisoned female little brown bats (Myotis lucifugus): Lethal brain concentrations.
Journal of Toxicology and Environmental Health. 7: 925-934.
Collett, N. and D. L. Harrison. 1968. Some observations on the effects of using organochlorine
sprays in an orchard. New Zealand J. Sci. 11: 371-379.
Davis, B. N. K. 1968. The soil macrofauna and organochlorine residues at twelve agricultural
sites near Huntingdon. Ann. AppliedBiol. 61:29-45.
Davis, B. N. K. and R. B. Harrison. 1966. Organochlorine insecticide residues in soil
invertebrates. Nature. 211: 1424-1425.
Dempster, J. P. 1968. The Control of Pieris rapae with DDT III. Some Changes in the Crop
Fauna. J. Appl. Ecol. 5: 463-475.
De Witt, J. B., J. V. Derby, and J. F. Mangan. 1955. DDT vs. Wildlife. Relationships between
quantities ingested, toxic effects and tissue storage. Journal of the American Pharmaceutical
Association. XLIV(l): 22-24.
Dieter, M. P. 1974. Plasma enzyme activities in Coturnix quail fed graded doses of DDE,
polychlorinated biphenyl, malathion, and mercuric chloride. Toxicology and Applied
Pharmacology. 27: 86-98.
Dieter, M. P. 1975. Further studies on the use of enzyme profiles to monitor residue
accumulation in wildlife: Plasma enzymes in starlings fed graded concentrations of Morsodren,
Eco-SSL Attachment 4-1 Appendix D App D Ref - 1 April 2007
-------�
DDE, Aroclor 1254, and Malathion. Archives of Environ. Contam. and Toxicol. 3(2): 142-150.
Dimond, JB, GY Belyea, RE Kadunce, SA Getchell, and JA Blease. 1970. DDT residues in
robins and earthworms associated with contaminated forest soils. Can. Entomol. 102:
1122-1130.
Doane, C. C. 1962. Effects of Certain Insecticides on Earthworms. J. Econ. Entomol. 55(3):
416-418.
Dustman, E. H. and L. F. Stickel. 1966. Pesticide residues in the ecosystem. In Pesticides and
their effects on soils and water, Smer. Soc. Agron., Spec. Publ. 8, 109-121.
Edwards, C. A. and Jeffs, K. 1974. The Rate of Uptake of DDT from Soils by Earthworms.
Nature. 247: 157-158.
Friend, M. and D. O. Trainor. 1974. Experimental DDT-duck hepatitis virus interaction studies.
J. Wildlife Management. 38(4): 887-895.
Gish, C.D. 1970. Organochlorine insecticide residues in soils and soil invertebrates from
agricultural lands. Pestic. Monit. J. 3: 241-252.
Greichus, Y. A. and M. R. Hannon. 1973. Distribution and biochemical effects of DDT, DDD,
and DDE in penned double-crested cormorants. Toxicol. and Applied Pharmacology. 26(4):
483-494.
Haegele, M. A. and R. H. Hudson. 1974. Eggshell thinning and residues in mallards one year
after DDE exposure. Archives of Environ. Contamination and Toxicology. 2(4): 356-363.
Hendricks, A. J., W. C. Ma, J. J. Brouns, E. M. de Ruiter-Dijkman and R. Gast. 1995. Modelling
and monitoring organochlorine and heavy metal accumulation in soils, earthworms, and shrews
in Rhine-delta floodplains. Archives of Environ. Contamination and Toxicology. 29: 115-127.
Hunt, L. B. and RJ. Sacho. 1969. Response of robins to DDT and methoxychlor. J. Wildl.
Manage. 33:336-345.
Johnson, E. V., L. M. Guilford, and D. Q. Thompson. 1976. The effects of orchard pesticide
applications on breeding robins. The Wilson Bulletin. 88(1): 19-35.
Korschgen, L. J. 1970. Soil-food-chain-pesticide wildlife relationships in aldrin-treated fields.
J. Wildl. Manage. 34: 186-199.
Longcore, J. R. and R. C. Stendall. 1977. Shell thinning and reproductive impairment in Black
ducks after cessation of DDE dosage. Archives of Environ. Contamination and Toxicology. 6:
Eco-SSL Attachment 4-1 Appendix D AppDRef-2 April 2007
-------�
293-304.
Lowe, T. P., and R. C. Stendell. 1991. Eggshell modifications in captive American kestrels
resulting from Aroclor 1248 in the diet. Archives of Environ. Contamination and Toxicology.
20: 519-522.
Martin, W. L., R. W. Rogers, H. W. Essig, H. W. Chambers, and L. B. Coons. 1976. Influence
of dietary treatment on rat carcass DDT residues and toxicity parameters. Journal of Animal
Science. 43(4): 786-791.
Mendenhall, V. M., E. E. Klaas, and M. A. McLanes. 1983. Breeding success of barn owls
(Tyto alba) fed low levels of DDE and Dieldrin. Arch Environ. Contain. Toxicol. 12: 235-240.
Porter, R. D. and Wiemeyer, S. N. 1972. DDE at low dietary levels kills captive American
Kestrels. Bulletin of Environmental Contamination and Toxicology. 8(4): 193-207.
Rudolf, R. W., D. W. Anderson and R. W. Resborough. 1983. Kestrel Predatory Behavior under
Chronic Low-level exposure to DDE. J. Environ. Pollution (Ser A). 32: 121-126.
Stendell, W., W. N. Beyer and R. A. Stehn. 1989. Accumulation of lead and organochlorine
residues in captive americal kestrels fed pine voles from Apple Orchards. Journal of Wildlife
Diseases. 25(3): 388-389.
Stickel, L. F., W. H. Stickel, and R. Christensen. 1966. Residues of DDT in brains and bodies of
birds that died on dosage and in survivors. Science. 151(3717): 1549-1551.
Wheatley, G. A. and J. A. Hardman. 1968. Organochlorine insecticide residues in earthworms
from arable soils. J. Sci. FoodAgr. 19:219-225.
Wiemeyer, S. N., R. D. Porter, G. L. Hensler, and J. R. Maestrelli. 1986. DDE, DDT + Dieldrin:
Residues in American Kestrels and Relations to Reproduction. U.S. Fish and Wildlife Service
Technical Report No. 6. 33 pp.
Wrenn, T. R., J. R. Weyant, G. F. Fries, and J. Bitman. 1971. Effect of several dietary levels of
o,p'-DDT on reproduction and lactation in the rat. Bulletin of Environ. Contam. and Toxicology.
6(5): 471-480.
Yadav, D. V., Pillai, M. K. K., and Agarwal, H. C. 1976. Uptake and Metabolism of DDT and
Lindane by the Earthworm, Pheretimaposthuma. Bull. Environ. Contam. Toxicol. 16(5):
541-545.
Eco-SSL Attachment 4-1 Appendix D AppDRef-3 April 2007
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M: ___
,:--- 0VMdHK<:lilt>g:Cf» Ultttl So-t««
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Appendix E-l Bioaccumulation Data for Uptake of Dieldrin from Soil into Soil Invertebrates
Species Information
Common Name (@enus/Species)
Beetle (Harpulus aeneus )
Earthworm (Lumbricus terrestris )
Earthworm (Attolobophora longa)
Earthworm (Attolobophora calignosa)
Earthworm (Attolobophora chlorotica)
Earthworm (Attolobophora rosea)
Earthworm (Octalaium cyaneum)
Earthworm
Beetles
Beetle (Harpulus aeneus )
Beetle (Harpulus aeneus )
Beetle (Harpulus aeneus )
Beetle (Harpulus aeneus )
Beetle (Harpulus aeneus )
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Agonum sp .)
Beetle (Staphylinidae)
Beetle (Staphylinidae)
Earthworm
Earthworm
Earthworm
Beetle (Harpulus aeneus )
Earthworm
Earthworm
Earthworm
Cricket (Gryllus assimilis )
Earthworm
Slugs
Earthworm
Earthworm
Earthworm
Earthworm (Lumbricus rubellus)
Earthworm (Lumbricus rubellus)
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Slugs
Earthworm
Exposure
Field
(F)/
Lab
(L)
F
F
F
F
F
F
F
F
NR
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
NR
NR
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
Duration
Resident
NR
NR
NR
NR
NR
NR
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
lyr
Resident
Resident
Resident
Resident
Resident
resident
resident
lyr
lyr
lyr
Syr
NR
Syr
lyr
lyr
lyr
lyr
2yr
NR
lyr
lyr
lyr
lyr
Invertebrate Tissue Information
Reported
Tissue
Cone.
0.05
1.6
2.2
3.8
4.6
3.9
2.4
0.98
0.105
0.04
0.08
0.01
0.09
0.04
0.1
0.2
0.06
0.06
0.1
0.2
0.08
0.8
0.4
0.5
0.1
0.78
2.48
1.09
0.09
0.43
0.3
7
8.5
19
140
99
0.63
0.18
1.93
1.64
0.13
0.26
0.92
3.1
3.5
0.78
0.36
0.76
0.24
0.82
2.84
0.42
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/kg lipid
ug/kg lipid
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet weight
or Dry
Weight 71
ww
ww
ww
ww
ww
ww
ww
ww
NR
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
dw
ww
ww
ww
NR
NR
dw
dw
dw
NR
NR
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
Moisture
Tissue2
NR
NR
NR
NR
NR
NR
NR
66.50
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
66.50
66.50
68.37
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
7.14
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
1
6.25
6.25
6.25
7.14
7.14
1
1
1
0.000125
0.000125
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Tissue
Cone.
(mg/kg
dw)
0.3125
10.00
13.75
23.75
28.75
24.38
15.00
6.125
0.75
0.25
0.5
0.0625
0.5625
0.25
0.625
1.25
0.375
0.375
0.625
1.25
0.5
5
2.5
3.125
0.625
0.78
15.5
6.8125
0.5625
3.07
2.14
7
8.5
19
0.0175
0.01238
0.63
0.18
1.93
1.64
0.13
0.26
0.92
3.1
3.5
0.78
0.36
0.76
0.24
0.82
2.84
0.42
In (Tissue
Cone.
mg/kg dw)
-1.163
2.30258509
2.62103882
3.16758253
3.35863777
3.19355802
2.7080502
1.81238
-0.28768
-1.386
-0.693
-2.773
-0.575
-1.386
-0.470
0.223
-0.981
-0.981
-0.470
0.223
-0.693
1.609
0.916
1.139
-0.470
-0.2484614
2.74084
1.91876
-0.57536
1.12214
0.76214
1.94591015
2.14006616
2.94443898
-4.0455544
-4.392077
-0.4620355
-1.7147984
0.65752
0.49469624
-2.0402208
-1.3470736
-0.083
1.131
1.253
-0.248
-1.022
-0.274
-1.427
-0.198
1.044
-0.868
Depurated?
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
N
N
N
Y
Y
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil Cone.
0.2
0.640
0.640
0.640
0.640
0.640
0.640
0.24
0.365
0.7
0.04
0.03
0.06
0.1
0.2
0.7
0.03
0.1
0.04
0.2
0.03
0.2
0.04
0.1
0.08
0.083
0.23
0.25
0.24
0.365
0.365
0.41
0.51
1.3
4.1
8.4
0.013
0.01
0.28
0.25
0.016
0.0076
0.23
0.15
0.52
0.35
0.072
0.026
0.03
0.024
0.024
0.019
Reported
Soil Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/kg
ug/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?3
ww
dw
dw
dw
dw
dw
dw
ww
NR
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
dw
ww
ww
ww
NR
NR
dw
dw
dw
NR
NR
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
Moisture
Soil4
16-23
NR
NR
NR
NR
NR
NR
21.95
NR
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
16-23
NR
21.95
21.95
21.95
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
1.19
1
1
1
1
1
1
1.281
1
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1.19
1
1.281
1.281
1.281
1
1
1
1
1
0.001
0.001
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Soil Cone.
(mg/kg dw)
0.238
0.64
0.64
0.64
0.64
0.64
0.64
0.307
0.365
0.833
0.048
0.036
0.071
0.119
0.238
0.833
0.036
0.119
0.048
0.238
0.036
0.238
0.048
0.119
0.095
0.083
0.295
0.320
0.307
0.365
0.365
0.41
0.51
1.3
0.0041
0.0084
0.013
0.01
0.28
0.25
0.016
0.0076
0.23
0.15
0.52
0.35
0.072
0.026
0.03
0.024
0.024
0.019
In (Soil
Cone.
mg/kg dw)
-1.435
-0.4462871
-0.4462871
-0.4462871
-0.4462871
-0.4462871
-0.4462871
-1.1793
-1.0078579
-0.182
-3.045
-3.332
-2.639
-2.128
-1.435
-0.182
-3.332
-2.128
-3.045
-1.435
-3.332
-1.435
-3.045
-2.128
-2.351
-2.4889147
-1.2219
-1.1385
-1.1793
-1.0078579
-1.0078579
-0.8915981
-0.6733446
0.26236426
-5.4967683
-4.7795236
-4.3428059
-4.6051702
-1.2729657
-1.3862944
-4.1351666
-4.879607
-1.469676
-1.89712
-0.6539265
-1.0498221
-2.6310892
-3.6496587
-3.5065579
-3.7297014
-3.7297014
-3.9633163
BAF
R/C
C
C
C
C
C
C
C
C
R
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
R
R
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
1.3
15.6
21.5
37.1
44.9
38.1
23.4
19.92
2.05
0.3
10.5
1.8
7.9
2.1
2.6
1.5
10.5
3.2
13.1
5.3
14.0
21.0
52.5
26.3
6.6
9.40
52.60
21.27
1.83
8.41
5.87
17.1
16.7
14.6
4.27
1.47
48.46
18.00
6.89
6.56
8.13
34.21
4.00
20.67
6.73
2.23
5.00
29.23
8.00
34.17
118.33
22.11
Reference
Davis, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Korschgen, 1970
Davis & Harrison, 1966
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Davis, 1968
Gish, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Davis & Harrison, 1966
Davis & Harrison, 1966
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Hendricks et al 1995
Hendricks et al 1995
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Eco-SSL Attachment 4-1 Appendix E
1 of 2
April 2007
-------�
Appendix E-l Bioaccumulation Data for Uptake of Dieldrin from Soil into Soil Invertebrates
Species Information
Common Name (@enus/Species)
Earthworm
Earthworm
Earthworm
Slugs
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm
Earthworm (Lumbricus rubellus)
Earthworm
Earthworm (Attolobophora longa)
Earthworm (Attolobophora chlorotica)
Earthworm (Attolobophora longa)
Earthworm (Attolobophora chlorotica)
Earthworm (Attolobophora longa)
Earthworm (Attolobophora chlorotica)
Earthworm (Attolobophora longa)
Earthworm (Attolobophora chlorotica)
Earthworm (Attolobophora longa)
Earthworm (Attolobophora chlorotica)
Cricket (Gryllus assimilis )
Cricket (Gryllus assimilis )
Beetle (Harpalus pennsylvanicus )
Beetle (Harpalus pennsylvanicus )
Beetle (Harpalus pennsylvanicus )
Beetle (Poecilus chalcites)
Beetle (Poecilus chalcites)
Beetle (Poecilus chalcites)
Exposure
Field
(F)/
Lab
(L)
F
F
F
F
F
F
F
F
F
F
F
F
F
L
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
Duration
lyr
lyr
NR
lyr
lyr
lyr
2yr
2yr
30 d
20 d
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Resident
Invertebrate Tissue Information
Reported
Tissue
Cone.
0.16
22.54
1.71
0.43
0.23
0.23
1.91
1.1
23
57
50
50
50
1
21.65
0.033
0.028
0.7
1.8
1.0
2.0
1.3
2.9
1.3
2.1
0.07
0.16
0.39
2.11
0.24
19.44
6.59
2.64
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/kg
ug/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet weight
or Dry
Weight 71
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
Moisture
Tissue2
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
68.37
68.37
59.95
59.95
59.95
59.95
59.95
59.95
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
6.25
Tissue
Cone.
(mg/kg
dw)
0.16
22.5
1.71
0.43
0.23
0.23
1.91
1.1
23
57
50
50
50
6.25
135
0.21
0.18
4.38
11.25
6.25
12.5
8.13
18.1
8.13
13.1
0.438
1.0
2.44
13.19
1.5
121.5
41.19
16.5
In (Tissue
Cone.
mg/kg dw)
-1.833
3.115
0.536
-0.844
-1.470
-1.470
0.647
0.095
3.135
4.043
3.912
3.912
3.912
1.833
4.908
-1.579
-1.743
1.476
2.420
1.833
2.526
2.095
2.897
2.095
2.575
-0.827
0.000
0.891
2.579
0.405
4.800
3.718
2.803
Depurated?
NR
NR
NR
NR
NR
NR
NR
NR
N
N
N
N
N
N
N
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil Cone.
0.021
1.02
0.025
0.01
0.01
0.017
0.024
0.22
1.3
4.5
3.4
3.4
3.4
0.7
25
0.003
0.003
0.500
0.500
0.750
0.750
1.00
1.00
1.25
1.25
0.23
0.25
0.25
0.25
0.25
0.25
0.25
0.25
Reported
Soil Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?3
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
dw
ww
ww
ww
ww
ww
ww
ww
ww
Moisture
Soil4
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
21.95
21.95
21.95
21.95
21.95
21.95
21.95
21.95
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.281
1.281
1.281
1.281
1.281
1.281
1.281
1.281
Soil Cone.
(mg/kg dw)
0.021
1.02
0.025
0.01
0.01
0.017
0.024
0.22
1.3
4.5
3.4
3.4
3.4
0.7
25
0.003
0.003
0.5
0.5
0.75
0.75
1
1
1.25
1.25
0.295
0.320
0.307
0.295
0.320
0.307
0.295
0.320
In (Soil
Cone.
mg/kg dw)
-3.8632328
0.01980263
-3.6888795
-4.6051702
-4.6051702
-4.0745419
-3.7297014
-1.5141277
0.26236426
1.5040774
1.22377543
1.22377543
1.22377543
-0.3566749
3.21887582
-5.809143
-5.809143
-0.6931472
-0.6931472
-0.2876821
-0.2876821
0
0
0.22314355
0.22314355
-1.2219
-1.1385
-1.1809
-1.2208
-1.1394
-1.1809
-1.2208
-1.1394
BAF
R/C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
7.62
22.10
68.40
43.00
23.00
13.53
79.58
5.00
17.7
12.7
14.7
14.7
14.7
8.93
5.41
68.8
58.3
8.8
22.5
8.3
16.7
8.1
18.1
6.5
10.5
1.48
3.12
7.94
44.7
4.69
396
140
51.56
Reference
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Gish, 1970
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Beyer and Gish, 1980
Lordetal., 1980
Jefferies and Davis, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Wheatley & Hardman, 1968
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
Korschgen, 1970
If not reported, wet weight is assumed.
If not reported, 16% solids assumed.
3 If not reported, dry weight assumed.
NA = Not applicable
NR = Not reported
dw = dry weight
ww = wet weight
R = Reported
C = Calculated
d = days
ln(tissue) = slope * ln(soil) + intercept
slope 0.8756
intercept 2.276
R2 0.6392
p value <0.0001
Median = 14.71
Eco-SSL Attachment 4-1 Appendix E
2 of 2
April 2007
-------�
Appendix E-2 Bioaccumulation Data for Uptake of Dieldrin from Diet into Mammals and Birds
Species Information
Common Name (f^enus/Species)
Short-tailed shrew (Blarina brevicauda )
Short-tailed shrew {Blarina brevicauda )
Sheep (Oris aries )
Sheep (Oris aries )
Sheep (Oris aries )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
Japanese quail (Corturnix coturnix )
American kestrel (Falco sparverius )
Barn owl (Tyto alba)
Barn owl (Tyto alba)
American kestrel (Falco sparverius )
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Crowned Guinea-Fowl (Numida meleagrisL .)
Exposure
Field
(F)/
Lab
(L)
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
Exposure
Route
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Diet
Duration
NR
NR
lyr
lyr
lyr
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
2yr
2yr
60 d
21m
21m
21m
21m
21m
21m
21m
21m
21m
21m
21m
21m
Tissue Information
Tissue
Type
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Carcass
Reported
Tissue
Cone.
61
55
110
203
752
15.9
17
23.85
8.04
7.8
25.4
33.92
9.95
21.23
30.4
22.42
34.72
51.1
9.43
50.09
35.71
21.67
18.03
0.1
9.6
9.2
232
0.06
0.05
0.34
0.37
0.37
0.91
0.79
4.12
3.13
8.5
7.1
0.15
Reported
Tissue
Cone.
Unitsa
mg/kg
mg/kg
mg/kg fat
mg/kg fat
mg/kg fat
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?1
NR
NR
dw
dw
dw
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
ww
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Moisture
Tissue2
NR
NR
NA
NA
NA
73.55
70.4
69.2
72.9
73.73
69.72
70.17
72.39
71.78
70.94
70.28
69.52
71.29
69.24
65.98
68.74
63.69
67.04
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
3.125
3.125
0.456
0.468
0.398
3.781
3.378
3.247
3.690
3.807
3.303
3.352
3.622
3.544
3.441
3.365
3.281
3.483
3.251
2.939
3.199
2.754
3.034
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
3.125
Tissue
Cone.
(mg/kg dw)
191
172
50
95
299
60.1
57.4
77.4
29 7
29.7
83.9
113.7
36.0
75.2
104.6
75.4
113.9
178.0
30.7
147.2
114.2
59.7
54.7
0.3125
30.0
28.75
725
0.1875
0.15625
1.0625
1.15625
1.15625
2.84375
2.46875
12.875
9.78125
26.5625
22.1875
0.46875
In(Tissue
Cone.)
5.250
5.147
3.915
4.554
5.701
4.096
4.051
4.349
3.390
3.391
4.429
4.734
3.585
4.321
4.650
4.323
4.735
5.182
3.423
4.992
4.738
4.089
4.002
-1.1631508
3.401
3.359
6.586
-1.674
-1.856
0.061
0.145
0.145
1.045
0.904
2.555
2.280
3.280
3.100
-0.758
Oral Exposure Information
Reported
Diet
Cone.
50
50
0.5
1
2
250
250
250
250
50
50
50
10
10
10
250
250
50
50
50
10
10
10
0.015
0.58
0.58
1.2
0.05
0.05
0.5
0.5
0.5
1.5
1.5
5.0
5.0
15.0
15.0
0.15
Reported
Diet Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight
or Dry
Weight?
dw
dw
dw
dw
dw
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
ww
ww
ww
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Moisture
Content
Diet"
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
62
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2.632
3.125
3.125
1
1
1
1
1
1
1
1
1
1
1
1
1
Diet
Exposure
(mg/kg
dw)
50
50
0.5
1
2
250
250
250
250
50
50
50
10
10
10
250
250
50
50
50
10
10
10
0.0395
1.8125
1.8125
1.2
0.05
0.05
0.5
0.5
0.5
1.5
1.5
5
5
15
15
0.15
1 n( Did
Exposure)
3.9120
3.9120
-0.6931
0.0000
0.6931
5.521
5.521
5.521
5.521
3.912
3.912
3.912
2.303
2.303
2.303
5.521
5.521
3.912
3.912
3.912
2.303
2.303
2.303
-3.232
0.595
0.595
0.182
-2.996
-2.996
-0.693
-0.693
-0.693
0.405
0.405
1.609
1.609
2.708
2.708
-1.897
BAF
R/C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mg/kg dw) /
Oral
Exposure
(mg/kg dw))
3.8
3.4
100
95
150
0.24
0.23
0.31
0.12
0.59
1.68
2.27
3.60
7.52
10.5
0.30
0.46
3.56
0.61
2.94
11.4
5.97
5.47
7.92
5.297
5.076
193
1.20
1.00
0.68
0.74
0.74
0.61
0.53
0.82
0.63
0.57
0.47
1.0
Reference
Blus, 1978
Blus, 1978
Davison 1970
Davison 1970
Davison 1970
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Stickel et al., 1969
Lowe and Stendell, 1991
Mendenhall et al. 1983
Mendenhall et al. 1983
Stendell et al., 1989
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
Wieseetal., 1968
1 If not specified, wet weight is assumed
If not reported, 32% solids is assumed.
3 If not specified, dry weight is assumed
NA=Not Applicable
NR = Not Reported
C=Calculated
R=Reported
ln(tissue) = slope * In(diet) + intercept
slope 0.6076
intercept 1.9582
R2 0.5119
p value <0.0001 Median BAF = 1.2
Eco-SSL Attachment 4-1 Appendix E
April 2007
-------�
-------�
Appendix E Dieldrin References
Beyer, W. N. and Gish, C. D. 1980. Persistence in Earthworms and Potential Hazards to Birds of
Soil Applied DDT, Dieldrin and Heptachlor. J. Appl. Ecol. 17(2): 295-307.
Blus, L. J. 1978. Short-Tailed shrews: Toxicity and residue relationships of DDT, Dieldrin and Endrin.
Archives of Environ. Contam. and Toxic. 7: 83-98.
Davis, B. N. K. 1968. The soil macrofauna and organochlorine residues at twelve agricultural sites
near Huntingdon. Ann. AppliedBiol. 61:29-45.
Davis, B. N. K. and R. B. Harrison. 1966. Organochlorine insecticide residues in soil invertebrates.
Nature. 211: 1424-1425.
Davison, K.L. 1970. Dieldrin accumulation in tissues of sheep. J. Agric. Food. Chem 18: 1156-
1160.
Gish, C.D. 1970. Organochlorine insecticide residues in soils and soil invertebrates from agricultural
lands. Pestic. Monit. J. 3:241-252.
Hendricks, A. J., W. C. Ma, J. J. Brouns, E. M. de Ruiter-Dijkman and R. Gast. 1995. Modelling and
monitoring organochlorine and heavy metal accumulation in soils, earthworms, and shrews in Rhine-
delta floodplains. Archives of Environ. Contamination and Toxicology. 29: 115-127.
Jefferies, D. J. and B. N. K. Davis. 1968. Dynamics of Dieldrin in soil, earthworms and song thrushes.
Journal of Wildlife Management. 42(3): 441-455.
Korschgen, LJ. 1970. Soil-food-chain-pesticide wildlife relationships in aldrin-treated fields. J. Wildl.
Manage. 34: 186-199.
Lord, K. A., G. G. Briggs, M. C. Neale, and R. Manlove. 1980. Uptake of pesticides from water
and soil by earthworms. Pesticide Science. 11:401-408.
Lowe, T. P., and R. C. Stendell. 1991. Eggshell modifications in captive American kestrels resulting
from Aroclor 1248 in the diet. Archives of Environ. Contamination and Toxicology. 20: 519-522.
Mendenhall, V. M., E. E. Klaas, and M. A. McLanes. 1983. Breeding success of barn owls (Tyto
alba) fed low levels of DDE and Dieldrin. Arch Environ. Contam. Toxicol. 12: 235-240.
Stendell, W., W. N. Beyer and R. A. Stehn. 1989. Accumulation of lead and organochlorine residues
Eco-SSL Attachment 4-1 Appendix E App E Ref - 1 April 2007
-------�
in captive americal kestrels fed pine voles from Apple Orchards. Journal of Wildlife Diseases. 25(3):
388-389.
Stickell, W. H., L. F. Stickel, and J. W. Spann. 1969. Tissue residues of Dieldrin in relation to
mortality in birds and mammals. In: Chemical Fallout Current Research on Pesticides. Ed by M.
W. Miller and G. G. Berg. Springfield, Charles C. Thomas Publishers.
Wheatley, GA and JA Hardman. 1968. Organochlorine insecticide residues in earthworms from
arable soils. J. Sci. FoodAgr. 19: 219-225.
Wiese, I.H., N. C. J. Basson, J. H. Van der Vyver, and J. H. Van der Merwe. 1968. Toxicology and
dynamices of dieldrin in the Crowned Guinea-Fowl (Numida meleagris L). Phytophylactica. 1:
161-176.
Eco-SSL Attachment 4-1 Appendix E App E Ref - 2 April 2007
-------�
Eco-SSL Attachment 4-1
Appendix F
Bioaccumulation Data for Pentachlorophenol
February 2005
Revised April 2007
-------�
This page intentionally left blank
-------�
Appendix F-l Bioaccumulation Data for Uptake of Pentachlorophenol from Soil into Plant Foliage
Species Information
Common Name
(Genus/Species)
Fescue
Fescue
Soybean (Glycine max)
Soybean (Glycine max}
Soybean {Glycine max)
Spinach (Spinacia oleracea )
Barley (Hordeum vulture )
Barley (Hordeum vulgare )
Corn (Zea mays )
Corn (Zea mays )
Exposure
Field
(F)/
Lab
(L)
F
F
L
L
L
L
L
L
L
L
Duration
NR
NR
90 d
90 d
90 d
64 d
7d
7d
7d
14d
Plant Tissue Information
Tissue
Type
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
Foliage
NR
Reported
Tissue
Cone.
0.03672
0.00051
5.21
3.47
11.74
9.3
5.1
2.1
13.8
1.008
Reported
Tissue
Cone.
Units
mg/kg
mg/kg
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
Wet
weight or
Dry
Weight?1
dw
dw
ww
ww
ww
ww
ww
ww
ww
NR
Moisture
Tissue2
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
1
1
6.67
6.67
6.67
6.67
6.67
6.67
6.67
6.67
Tissue
Cone.
(mg/kg dw)
0.03672
0.00051
34.7
23.1
78.3
62.0
34.0
14.0
92.0
6.7
In (Tissue
Cone.
mg/kg
dw)
-3.30
-7.58
3.55
3.14
4.36
4.13
3.53
2.64
4.52
1.91
Rinsed?
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Reported
Soil
Cone.
5.1
5.1
10
10
10
10
6
1
2
0.2375
Soil Information
Reported
Soil
Cone.
Units
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight
or Dry
Weight?
dw
dw
NR
NR
NR
NR
dw
dw
dw
dw
%
Moisture
Soil3
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
1
1
1
1
1
1
1
1
1
1
Soil Cone.
(mg/kg dw)
5.1
5.1
10
10
10
10
6
1
2
0.2375
In (Soil
Cone.
mg/kg dw)
1.629
1.629
2.303
2.303
2.303
2.303
1.792
0.000
0.693
-1.438
BAF
R/C
C
C
C
C
C
C
C
C
C
C
BAF
(Tissue
(mg/kg dw)
/Soil (mg/kg
dw))
0.0072
0.0001
3.47
2.31
7.83
6.20
5.67
14.01
46.02
28.31
Reference
Bellin and O'Connor, 1990
Bellin and O'Connor, 1990
Casterline et al., 1985
Casterline et al., 1985
Casterline et al., 1985
Casterline et al., 1985
Scheunert et al., 1986
Scheunert et al., 1986
Scheunert et al., 1986
Luetal.,
If not reported, assumed to be wet weight (ww).
2 If not reported, assumed to be 15% dry matter.
3 If not reported, assumed to be dry weight (dw).
C = BAF calculated
dw = dry weight
m = month
NA = Not Applicable
NR = Not Reported
R = Reported
R/C = BAF reported and either tissue concentration or soil concentration calculated
w = week
ww = wet weight
[Median BAF
Regression statistics
slope 0.0787
intercept 1.5822
R2 0.0006
Eco-SSL Attachment 4-1 Appendix F
April 2007
-------�
Appendix F-2 Bioaccumulation Data for the Uptake of Pentachlorophenol from Soil into Soil Invertebrates
Species Information
Common Name (Genus/Species)
Earthworm (Lumbricus rubettus)
Earthworm (Eiseniafoetida andrei)
Earthworm (Allolobophora caliginosa)
Earthworm (Allolobophora caliginosa)
Earthworm (Allolobophora caliginosa)
Earthworm (Lumbricus terrestris)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eiseniafoetida)
Earthworm (Eisenia foetida)
Earthworm (Eisenia eugeniae)
Earthworm (Eisenia eugeniae)
Earthworm (L. terrestris)
Earthworm (L. terrestris)
Information
Field
(F)/
Lab
(L)
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
Duration
NR
NR
14 d
14 d
131 d
131 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
28 d
Invertebrate Tissue Information
Reported
Tissue
Cone.
NR
NR
17.7
144
11.5
40
2.65
0.74
0.62
0.56
0.59
0.8
0.33
0.79
0.44
0.21
1.39
1.19
1.35
1.16
1.58
0.51
0.84
1.16
1.29
0.41
0.61
0.47
2.18
Reported
Tissue
Cone.
Units
NR
NR
ug/g
ug'g
ug/g
ug'g
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
mmol/kg
Wet
weight or
Dry
Weight?1
NR
NR
ww
ww
ww
ww
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
%
Moisture
Tissue2
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
6.25
6.25
6.25
6.25
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
1666.66
Tissue
Cone.
(mg/kg dw)
NR
NR
111
900
71.9
250
4417
1233
1033
933
983
1333
550
1317
733
350
2317
1983
2250
1933
2633
850
1400
1933
2150
683
1017
783
3633
In
(Tissue
Cone.
mg/kg
dw)
4.706
6.802
4.275
5.521
8.393
7.117
6.941
6.839
6.891
7.195
6.310
7.183
6.598
5.858
7.748
7.593
7.719
7.567
7.876
6.745
7.244
7.567
7.673
6.527
6.924
6.664
8.198
Depurated?
NR
NR
No
No
No
No
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Soil Information
Reported
Soil
Cone.
NR
NR
2.2
11.2
1.8
1.8
1800
1000
560
320
180
100
56
32
18
10
1800
1000
560
320
180
100
56
32
18
560
180
560
180
Reported
Soil
Cone.
Units
NR
NR
ug/g
ug/g
ug/g
ug/g
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
mg/kg
Wet
Weight or
Dry
Weight?3
NR
NR
dw
dw
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
%
Moisture
Soil
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Conversion
Factor to
mg/kg dw
NR
NR
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Soil
Cone.
(mg/kg
dw)
NR
NR
2.2
11.2
1.8
1.8
1800
1000
560
320
180
100
56
32
18
10
1800
1000
560
320
180
100
56
32
18
18
18
18
18
In (Soil
Cone.
mg/kg
dw)
0.788
2.416
0.588
0.588
7.496
6.908
6.328
5.768
5.193
4.605
4.025
3.466
2.890
2.303
7.496
6.908
6.328
5.768
5.193
4.605
4.025
3.466
2.890
2.890
2.890
2.890
2.890
BAF
R/
C
R
R
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
BAF (Tissue
(mg/kg/dw)
/Soil (mg/kg
dw))
8.00
3.40
50.3
80.4
39.9
138.9
2.45
1.23
1.85
2.92
5.46
13.3
9.82
41.1
40.7
35.0
1.29
1.98
4.02
6.04
14.6
8.50
25.0
60.4
119
38.0
56.5
43.5
201.9
Reference
van Oestel and Ma, 1988
van Oestel and Ma, 1988
Haque and Ebing, 1988
Haque and Ebing, 1988
Haque and Ebing, 1988
Haque and Ebing, 1988
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1997
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
Fitzgerald et al. 1996
If not reported, wet weight is assumed.
If not reported, 16% solids assumed.
3 If not reported, dry weight assumed.
NA = Not applicable
NR = Not reported
dw = dry weight
ww = wet weight
R = Reported
C = Calculated
d = days
ln(tissue) = slope * In(soil) + intercept
slope 0.3308
intercept 5.546
R2 0.4965 Median BAF = 14.6
p value O.0001
Eco-SSL Attachment 4-1 Appendix F
April 2007
-------�
Appendix F Pentachlorophenol References
Bellin, C.A. and O'Connor, G.A. 1990. Plant uptake of pentachlorophenol from
sludge-amended soils. J. Environ. Qual. 19(3): 598-602.
Casterline, J.L., Barnett, N.M., and Ku, Y. 1985. Uptake, translocation, and transformation of
pentachlorophenol in soybean and spinach plants. Environ. Res. 37: 101-118.
Fitzgerald, D.G., Lanno, R.P., Klee, U., Farwell, A., and Dixon, D.G. 1997. Critical body
residues (CBRS): Applications in the assessment of pentachlorophenol toxicity to Eisenia fetida
in artificial soil. SoilBiol. Biochem. 29(3-4): 685-688.
Fitzgerald, D.G., Warner, K.A., Lanno, R.P., and Dixon, G. 1996. Assessing the effects of
modifying factors on pentachlorophenol toxicity to earthworms: Applications of body residues.
Environ. Tox. Chem. 15(12): 2299-2304.
Gile, J.D., Collins, J.C., and Gillett, J.W. 1982. Fate and impact of wood preservatives in a
terrestrial microcosm. J. Agric. Food Chem. 30:295-301.
Haque, A., and W. Ebing. 1988. Uptake and accumulation of pentachlorophenol and sodium
pentachlorophenol by earthworms from water and soil. Sci. Total Environ. 68:113-125.
Haque, A., Gruttke, H., Kratz, W., Kielhorn, U., Weigmann, G., Meyer, G., Bornkamm, R.,
Schuphan, I, and Ebing, W. 1988. Environmental fate and distribution of sodium [14C]
pentachlorophenate in a section of urban wasteland ecosystem. Sci. Total Environ. 68:
127-139.
Haque, A., I. Scheunert and F. Korte. 1978. Isolation and identification of a metabolite of
pentachlorophenol-14C in rice plants. Chemosphere. 1:65-69.
Lu, P. Y., R. L. Metcalf and L. K. Cole. 1978. The environmental fate of 14C-
pentachlorophenol in laboratory model ecosystems. In: Rao, K. (ed.), Pentachlorophenol.
Plenum Press, New York. pp. 53-63.
Scheunert, L, Qiao, Z., Korte, F., 1986. Comparative studies of the fate of atrazine-14C and
pentachlorophenol-14C in various laboratory and outdoor soil-plant systems. J. Environ. Sci.
Health, PartB. 21(6): 457-485.
van Gestel, C.A.M., and W. Ma. 1988. Toxicity and bioaccumulation of chlorophenols in
earthworms in relation to bioavailability in soil. Ecotoxicol. Environ. Saf. 15: 289-297.
Weiss, U. M., I. Scheunert, W. Klein, and F. Korte. 1982. Fate of pentachlorophenol-14C in
soil under controlled conditions. J. Agric. Food Chem. 30: 1191-1194.
Eco-SSL Attachment 4-1 Appendix F AppFRef-1 April 2007
-------� |