United States Environmental Prevention, Pesticides EPA 738-R-04-07016
Protection Agency _ and Toxic Substance (7508C) May 2004 _
Reregistration Eligibility
Decision (RED)
Naphthaleneacetic Acid, Its
Salts, Ester, and Acetamide
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REREGISTRATION ELIGIBILITY DECISION (RED)
for
Naphthaleneacetic Acid, Its Salts, Ester, and Acetamide
CASE 0379
Includes chemicals:
056001 1-Naphthaleneacetamide
056002 1-Naphthalene acetic acid,
056003 Potassium 1-naphthaleneacetate
056004 Ammonium 1-naphthaleneacetate
056007 Sodium 1-naphthaleneacetate
056008 Ethyl 1-naphthaleneacetate
Approved by:
Debra Edwards, Ph. D.
Director
Special Review and Reregistration Division
Date:
May 26, 2004
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Naphthalene Acetates Team
Office of Pesticide Programs:
Health Effects Risk Assessment
Becky Daiss
Gary Otakie
Abdallah Khasawinah
Environmental Fate Risk Assessment
Jose Melendez
Dirk Young
Allen Vaughn
Biological and Economics Division
Julie Heflin
Nicole Zinn
Registration Division Support
John Bazuin
Risk Management
Mark T. Howard
Neil Anderson
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I. Determination of Reregistration Eligibility for the Naphthalene Acetates
Section 4(g)(2)(A) of the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA) calls
for the Environmental Protection Agency (EPA or the Agency) to determine, after submission of
relevant data concerning an active ingredient, whether products containing the active ingredient are
eligible for reregistration, which is set forth in the reregistration eligibility decision (RED). The
Agency has previously identified and required the submission of the generic (i.e., an active ingredient
specific) data required to support reregistration of products containing naphthalene acetate active
ingredients.
The Agency has completed its assessment of the dietary, residential, occupational, and
ecological risks associated with the use of currently registered pesticide products containing
naphthalene acetate active ingredients. Based on a review of these data and registrant comments on
the Agency's assessments for the naphthalene acetate active ingredients, EPA has sufficient
information on the human health and ecological effects of the naphthalene acetates to make decisions
as part of the tolerance reassessment process under the Federal Food, Drug and Cosmetic Act
(FFDCA) and reregistration under FIFRA, as amended by the Food Quality Protection Act (FQPA).
The Agency has determined that the naphthalene acetates are eligible for reregistration provided that:
(i) current data gaps and additional data needs are addressed and (ii) the label changes outlined in this
document are adopted. Accordingly, should a registrant fail to implement any of the label change or
other measures identified in this document, the Agency may take further regulatory action for the
naphthalene acetates.
n. Chemical Overview
A. Regulatory History
The first naphthalene acetate end-use product (with the naphthalene acetimide as the active
ingredient), Rootone Brand Rooting Hormone with Fungicide, was registered in 1952. Its labeled use
was to stimulate root growth of cuttings of a number of ornamental plants, vines, and shrubs,
deciduous trees, and evergreens. Seven more naphthalene acetates, including naphthalene acetic acid
(NAA), were registered in the early to mid-1960s. There are six active ingredients currently registered
as part of the naphthaleneacetates case.
In August 1981, EPA published a Registration Standard for "Naphthaleneacetic Acid its, Salts,
Ester, and Acetamide." This document described the uses and established the data requirements to
reregister the naphthalene acetates. Tolerances were established for NAA in/on apples, pears, quinces,
olives, and pineapples (as the sodium salt); for the ethyl ester of NAA in/on apples, pears, and olives;
and for naphmaleneaeetamide in/on apples and pears. Data Call-ins (DCIs) were issued in October and
November 1990, and October 1995. The 1990 DCIs mainly restated data requirements of the
Registration Standard and the 1995 DCI required data to discern post-application (reentry)
occupational and residential exposure.
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B. Chemical Identification
Common Family;
Case number:
Basic manufacturer:
Naphthalene acetates
0379
Amvac Chemical Company
Table 1. Naphthalene Acetates Nomenclature
Common name
NAA acetamide (HAAm)
NAA
Chemical structure
NH,
OH
Molecular Formula
C12HHNO
Molecular Weight
185,23
186.20
CAS name
1-naphthaleneacelamide
1-naphthaleneacetic acid
CAS#
86-86-2
86-87-3
PC Code
056001
056002
Common name
NAA potassium salt
NAA ammonium salt
Chemical structure
O NH4
Molecular Formula
C12H10O2K
C12H13N02
Molecular Weight
225.31
203,24
CAS name
1-naphthalene acetic acid, potassium salt
1-naphthaleneacen'c acid, ammonium salt
CAS#
15165-79-4
25545-89-5
PC Code
056003
056004
Common name
NAA sodium salt
NAA ethyl ester (NAA-OEt)
Chemical structure
O Na
CH,
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Molecular Formula
Molecular Weight
CAS name
CAS#
PC Code
C,2H10O2Na
209.2
1-Naphthaleneacetic acid, sodium salt
61-31-4
056007
C14HMO2
214.26
1-Naphthaleneacetic acid, ethyl ester
2122-70-5
056008
C. Use Profile and Estimated Use of Pesticide
1-Naphthaleneacetic acid (NAA), its salts, ester, and acetamide are plant growth regulators
(PGR) which are collectively referred to as naphthalene acetates. The PGR activity of NAA is due to
its structural similarity to the natural plant hormone indole acetic acid (IAA). They are currently
registered for use on various orchard and fruit crops including apple, cherry, olive, orange, pear,
tangelo, and tangerine. As plant growth regulators, they may be used on the above-listed crops to
prevent preharvest drop of fruits, thin fruit trees, and delay flower induction. They can also stimulate
growth and delay leaf drop on ornamentals.
Approximately 20,000 Ibs of the naphthalene acetate active ingredients are applied annually in
the U.S. The registered formulation classes of naphthalene acetates, which may be used on food/feed
crops, include wettable powder, dust, flowable concentrate, soluble concentrate, and liquid ready-to-
use. These formulations may be applied using broadcast ground or aerial equipment, hand-held
sprayers, paint brush, dip treatment or soil drench. The naphthalene acetates are typically applied as a
dilute (1-2%) spray solution, and the timing of treatment would vary depending on the purpose of
treatments. The ethyl ester and acetamide of NAA are used early in the season to control sprout
formation and fruit set (thinning), respectively. NAA or its ammonium, potassium, or sodium salts can
be used either early in the season for fruit thinning or later in the season for control of fruit drop.
III. Summary of Human Health and Environmental Risk Assessments
The Agency's human health and environmental risk findings for the naphthalene acetate
pesticides are summarized in the Overview ofNaphthakneacetic Acid Its Salts, Ester, ami Acetamide
Risk Assessments, dated May 25, 2004, which is located in Section VI of this document. The findings
contained in the Overview document are hereby incorporated in this RED. A complete list of
supporting documents detailing EPA's human health and ecological risk findings and conclusions for
the naphthalene acetates are provided in Appendix C. These technical support documents for the
naphthalene acetates are available on the Internet at http ://www. epa. gov/e-dockets and in the Office of
Pesticide Program's (OPP) public docket for viewing. The OPP docket is located in Room 119,
Crystal Mall #2, 1921 Jefferson Davis Highway, Arlington, VA, and is open Monday through Friday,
excluding legal holidays, from 8:30 AM to 4:00 PM.
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A. Human Health Risk Assessment
For the purpose of the human health risk assessment, all forms of the naphthalene acetates are
combined (1-Naphthaleneacetic acid (NAA), its salts, ester, and acetamide) because they are
structurally related and are metabolized to the acid form and eliminated from the body as glycine and
glucuronic acid conjugates within 48 hours after exposure. The Agency conducted a screening-level
risk assessment for the naphthalene acetates in which high-end assumptions were used for most key
parameters. Analyses of dietary (food), drinking water, residential and occupational exposure
pathways were evaluated in the naphthalene acetates risk assessment. An aggregate assessment of risk
from the combined food and drinking water pathways was also conducted.
The Agency has reviewed all toxicity studies submitted and has determined that the toxicity
database is essentially complete to support a reregistration eligibility determination for all currently
registered uses of the naphthalene acetates. The naphthalene acetates show low acute toxicity, are not
mutagenic, and are not expected to be carcinogenic. The most common effect from high exposure to
the naphthalene acetates is vomiting and reduced body weight gain. They also affect the stomach and
liver. The Agency has not identified any metabolites (break down substances) of lexicological
concern. A summary of the toxicological endpoints selected and other factors used in the human
health risk assessment are provided in Table 2.
Table 2. Summary of Toxicological Endpoints and Other Factors Used in the Risk Assessment
of the Naphthalene Acetates
Exposure
Scenario
Dose
(iBg/fcg/day)
Endpoint
Study
Uncertainty
Factor
FQPA
Safety
Factor
PAD-
(rn@/kg/day)
Dietary Risk Assessment
Acute
Dietary
ill
populations
Chronic
Dietary
all
populations
NOAEL= 50
LOAEL = 250
NOAEL = 15
LOAEL = 75
Decreased
body weight
gain during
gestation
period.
vomiting,
stomach and
liver effects
Rat
Developmental
Chronic Dog
100
100
IX
IX
0.5
0.15
Occupational and Residential Risk Assessment
Dermal
Short-Term
(1 - 30 days)
NOAEL = 300
LOAEL = 1000
reduced body
weight gain
and food
efficiency
2 1-day Dermal
Rat
100
IX
N/A
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Inhalation
Short-Term
(1-30 days)
NOAEL = 50*
LOAEL = 150
decreased
body weight
gain during
gestation
period
Oral
DevelopmentalR
at
100
N/A
N/A
NOAEL = No Observable Adverse Effects Level LOAEL - Lowest Observable Adverse Effects Level
PAD = Population Adjusted Dose
No intermediate-term (1-6 Months) or long-term (> 6 Months) dermal or inhalation exposure scenarios were
identified - therefore, toxicity endpoints were not selected.
* Inhalation NOAEL is based on an oral study with route adjustment {adjust from oral/ingestion to inhalation route)
The Food Quality Protection Act Safety Factor (FQPA SF) was removed (reduced to Ix) for
all population subgroups. The Agency determined that this safety factor is adequate to protect infants
and children because there are no residual uncertainties in the exposure databases, the toxicology
database is complete, and the endpoint and NOAELs/LOAEL for risk assessment were well defined.
In the toxicology database, there was no quantitative or qualitative evidence of increased susceptibility
in rat or rabbit fetuses following in utero exposure to naphthalene acetates or to pre- and post-natal
exposure in rat reproduction studies.
1. Dietary Risk From Food
Acute (one day) and chronic (lifetime) dietary naphthalene acetates exposure and risk
estimates resulting from food intake were determined for the general U.S. population and various
population subgroups using conservative assumptions and two different computer models (DEEM-
FCED and Lifeline) that use surveys of U.S. dietary consumption patterns. Based on analyses of
estimated dietary risks for the general U.S. population and various population subgroups, the acute and
chronic dietary exposure estimates for naphthalene acetates are significantly below EPA's level of
concern for all supported commodities and not a risk of concern; therefore, no measures are necessary
to mitigate dietary risk from food. No cancer dietary exposure assessment was performed because
carcinogenicity studies do not indicate a carcinogenic concern.
2. Dietary Risk from Water
Dietary exposures from drinking water contaminated with concentrations of the naphthalene
acetates can potentially occur from sources of ground water and surface water in areas where these
pesticides are used. EPA calculated estimated drinking water concentrations (EDWCs) for the
naphthalene acetates using screening-level computer models that provide high-end estimates of
pesticide concentrations for surface water and ground water sources. Based on these models, all
EDWCs are low and not of risk concern; therefore, no measures are necessary to mitigate dietary risk
from drinking water.
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3. Residential Risks
Residential uses are limited to application of naphthalene acetates to stimulate root growth
(root dips and soil drench) and application of the ethyl ester of naphthalene acetates to control sprouts
and sucker growth on fruit and ornamental trees. Both uses are considered short-term (1 - 30 days)
exposure scenarios. Estimated dermal and inhalation margins of exposure (MOEs) for the most highly
exposed scenario of residential exposure to the naphthalene acetates are well above the target MOE of
100 and are not of risk concern; therefore, no measures are necessary to mitigate risk from residential
uses,
4. Aggregate Risk
The aggregate risk assessment integrates the assessments conducted for food and drinking
water, and residential exposure where appropriate. Since there is potential for concurrent exposure via
the food, drinking water and short-term residential exposure pathways, the combined exposures are
estimated and compared with modeling-based estimates of drinking water contamination. The acute
and chronic aggregate risk assessment for naphthalene acetates include exposure from food and
drinking water only. Both acute and chronic aggregate risks are not of concern; therefore, no
measures are necessary to mitigate risk from the aggregation of dietary (food and drinking water)
exposures. Short-term aggregate risk cannot be estimated for dietary and residential exposures,
because the toxicity endpoints selected for the dietary routes of exposure and those selected for
residential exposures of the naphthalene acetates are not based on common effects.
5. Occupational Handler and Post-Application Risks
Based on actively registered labels for the naphthalene acetates, EPA assessed 12 scenarios for
the naphthalene acetates RED. All handler scenarios evaluated indicate that risks are not of concern.
Both dermal and inhalation MOEs for the occupational handler exposure scenarios are above the target
MOE of 100 using baseline personal protective equipment (PPE), which includes long-sleeved shirt,
long pants, shoes, and socks.
For individuals who can be exposed to pesticides after entering areas previously treated with
pesticides and performing certain activities (also often referred to as reentry exposure), two
occupational post-application scenarios were assessed for the naphthalene acetates. Post-application
exposures are based on dermal routes only, inhalation exposure is not expected. The MOEs for the
two post-application exposure scenarios are well above the target MOE of 100 on the day of
application and, therefore, not of risk concern. As a result no measures are necessary to mitigate risk
from occupational exposures.
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B. Environmental Risk Assessment
1. Risk to Non-Target Species
Based on the limited data set available, EPA believes that the naphthalene acetates risks are not
of concern to nontarget organisms, including mammals, birds, aquatic organisms, and nontarget plants.
Risks to terrestrial insects cannot be quantified, but the available data do not suggest a substantial
potential for adverse effects. Therefore, no measures are needed to mitigate risk to non-target species.
2. Endangered Species Assessment
For endangered species, the Agency adopts lower levels of concern (LOCs) for risks to some
groups - i.e., 0,1 for mammals and birds and 0.05 for aquatic animals - relative to levels of concern for
acute risks in non-endangered species - i.e., 0.5 for mammals and birds as well as aquatic animals.
Based on the environmental risk assessment, the Agency's levels of concern for endangered and
threatened species for mammals., birds, aquatic animals and plants are not exceeded for the
naphthalene acetates. Hence, the Agency concludes that the use of NAA will have no effect on any
endangered or threatened species or their critical habitat, from the uses currently registered.
C. Cumulative Risk
The estimated risks summarized in this document are those that result only from the use of the
naphthalene acetates. FQPA requires that the Agency consider "available information" concerning the
cumulative effects of a particular pesticide's residues and "other substances that have a common
mechanism of toxicity." The reason for consideration of other substances is due to the possibility that
low-level exposures to multiple chemical substances that cause a common toxic effect by a common
toxic mechanism could lead to the same adverse health effect as would a higher level of exposure to
any of the substances individually. Unlike other pesticides for which EPA has followed a cumulative
risk approach based on a common mechanism of toxicity, EPA has not made a common mechanism of
toxicity finding for the naphthalene acetates. They do not appear to produce a toxic metabolite
produced by other substances. Therefore, for the purposes of the risk assessments, EPA has not
assumed that the naphthalene acetates have a common mechanism of toxicity with other substances.
For information regarding EPA's efforts to determine which chemicals have a common mechanism of
toxicity and to evaluate the cumulative effects of such chemicals, see the policy statements released by
the EPA's Office of Pesticide Programs concerning common mechanism determinations and
procedures for cumulating effects from substances found to have a common mechanism on EPA's
website at http://www.epa.gov/pesticides/cumulative/.
D. Endocrine Disrupter Effects
EPA is required under the FFDCA, as amended by FQPA, to develop a screening program to
determine whether certain substances (including all pesticide active and other ingredients) "may have
an effect in humans that is similar to an effect produced by a naturally occurring estrogen, or other such
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endocrine effects as the Administrator may designate." Following the recommendations of its
Endocrine Disrupter Screening and Testing Advisory Committee (EDSTAC), EPA determined that
there were scientific bases for including, as part of the program, the androgen and thyroid hormone
systems, in addition to the estrogen hormone system. EPA also adopted EDSTAC's recommendation
that the Program include evaluations of potential effects in wildlife. For pesticide chemicals, EPA will
use FIFRA and, to the extent that effects in wildlife may help determine whether a substance may have
an effect in humans, FFDCA authority to require the wildlife evaluations. As the science develops and
resources allow, screening of additional hormone systems may be added to the Endocrine Disrupter
Screening Program (EDSP). When the appropriate screening and/or testing protocols being
considered under the Agency's EDSP have been developed, the naphthalene acetates may be subjected
to additional screening and/or testing to better characterize effects related to endocrine disruption.
E. Tolerance Summary
The Agency has determined that the terminal residues of concern in plants, resulting from
currently registered food/feed uses, are the parent compounds, NAA and its conjugates. There are
several tolerance expressions for naphthalene acetates resulting from applications of NAA, its salts,
ester, and acetamide. Currently, the tolerances listed under 40 CFR §180.155 (a) are for residues of 1-
naphthaleneaeetic acid. The tolerances listed under 40 CFR §180.155 (b) are for residues of the ethyl
ester of 1-naphthaleneacetic acid. The tolerances listed under 40 CFR §180.309 are for residues of a-
naphthaleneacetamide and its metabolite a-naphthaleneacetic acid (calculated as cc-naphthaleneacetic
acid). According to 40 CFR §180.3(d)(7), for commodities having both NAA and NAA metabolite
tolerances, the total amount of residues, calculated as NAA, shall not exceed the higher of the two
tolerances.
EPA is now recommending that various NAA tolerance expressions under 40 CFR §180 be
combined in § 180.155(a). In 40 CFR § 180.155, the Agency is recodirying paragraph (b) and the table
under it from (b) to (a). Also, to conform to current Agency practice, paragraphs (b), (c), and (d)
should be established and reserved as follows:
(b) Section 18 emergency exemptions. [Reserved]
(c) Tolerances with regional registrations. [Reserved]
(d) Indirect or inadvertent residues. [Reserved]
Consequently, 40 CFR §180.309 will be removed because that specific tolerance expression is
no longer needed since it is included in the recodified paragraph (a).
Available olive residue data using application rates representative of the use pattern in a region
where the naphthalene acetate products are commonly used, show residues of NAA which range
(0.306 to 0.604 ppm) above the current tolerance level of 0.1 ppm. Therefore, the Agency is
recommending that the tolerance on olive for combined residues of 1-naphthaleneacetic acid, its
ammonium, sodium, and potassium salts, ethyl ester, and acetamide should be increased to 0.7 ppm in
40CFR§180.155(a).
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At this time, the Agency has tentatively determined that NAA is a Category 3 pesticide (i.e., no
reasonable expectations of finite residues of concern in meat and milk). This tentative conclusion is
reserved pending submission of the required citrus processing study and a determination of the
residues in the processed commodities of citrus fruits. When the requested processing data are
submitted, the Agency will re-evaluate NAA's Category 3 determination and, if necessary, recalculate
the estimated dietary burden for ruminants. There are no poultry feed items associated with the
currently registered food/feed uses of naphthalene acetates.
The reassessed tolerance for sweet cherry is contingent upon revising existing labels to specify
a 30-day pre-harvest interval. EPA is also recommending that the naphthalene acetate tolerances
currently established for apple, pear and quince be reassigned to Suit, pome; and the tolerance level be
lowered to 0.1 ppm because residue levels from field trial data never exceeded 0.06 ppm. A summary
of the tolerance reassessments and the changes to occur under 40 CFR §180.155 for the naphthalene
acetates is presented in Table 3.
Table 3. Tolerance Reassessment Summary for Naphthalene Acetates,
Commodity
Current
Tolerance
(ppm)
Tolerance
Reassessment
(ppm)
Comment/
[Correct Commodity Definition]
Tolerances Listed Under 40 CFR §180.155 (a)
Apple
Cheny, sweet
Olive
Oranges, sweet
Pear
1
0.1
0.1 (N)
0.1
1
Reassign
0.1
0.1
0.7
0.1
Reassign
0.1
Crop group tolerance is being established at 0, 1 ppm
based on field trial data that indicate a range of <0.02
(nondetectable) to 0.06 ppm residues for NAA-OEt,
NAAm, and NAA-potassium salt, [fruit, pome, group
11]
Residues of NAA in/on whole cherries were each
nondetectable (<0.04 ppm) in/on treated samples
collected at 2 hours, 15 days, and 30 days post-treatment.
Residues of NAA ranged from 0.306 to 0.610 ppm in/on
olives harvested 102-112 days following the last of two
sequential treatments consisting of: (i) a single spot
treatment of the 1.15% RTU formulation (NAA ethyl
ester) applied to runoff at a rate of 0.14-1.00 Ib ai/A to
control suckers and sprouting early in the growing
season; and (ii) a single broadcast thinning application of
the 24.2% SC formulation (NAA-potassium salt) at
0.871-1.13 Ib ai/A.
The maximum expected residue of NAA resulting from
registered uses on oranges is 0.05 ppm. [Orange}
Crop poup tolerance is being established at 0. 1 ppm
based on field trial data that indicate a range of <0.02
(nondetectable) to 0.06 ppm residues for NAA-OEt,
NAAm, and NAA-potassium salt, (fruit, pome, group
11]
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Table 3, Tolerance Reassessment Summary for Naphthalene Acetates.
Commodity
Pineapple (from the
application of the
sodium salt to the
growing crop)
Quince
Tangerine
Current
Tolerance
(ppm)
0.05
1
0.1
Tolerance
Reassessment
(ppm)
0.05
Reassign
0.1
0.1
Comment/
[Correct Commodity Definition]
Registrant is supporting tolerance for importation
purposes only.
Crop group tolerance is being established at 0. 1 ppm
based on field trial data that indicate a range of <0.02
(nondetectable) to 0.06 ppm residues for NAA-OEt,
NAAm, and NAA-potassium salt, [fruit, pome, group
11]
The residue data that were submitted by IR-4 for
tangerine and in combination with orange, through
PP#7E1956, are adequate to support reregistration
requirements.
Tolerances Currently Listed Under 40 CFR §180.155 (b)
** all tolerances in this section are to be reassigned to 40 CFR §180. 155 (a) **
Apple
Pear
Olive
1
1
0.1
Reassign
0.1
Reassign
0.1
Reassign
0.7
See Comments for apple above under 40 CFR §180.155
(a), [fruit, pome, group 11]
See Comments for pear above under 40 CFR §180.155
(a), [fruit, pome, group 11]
See Comments for olive above under 40 CFR §180.155
(a).
Tolerances Currently Listed Under 40 CFR §180.309
** all tolerances in this section are to be reassigned to 40 CFR §180. 155 (a) **
Apple
Pear
0.1
0.1
Reassign
0.1
Reassign
0.1
See Comments for apple and pear above under 40 CFR
§180.155(a). [fruit, pome, group 1 1]
Codex/International Harmonization
No maximum residue limits (MRLs) have been established in the Codex aMmentarius, the food
code established by the UN's World Health Organization and the Food and Agriculture Organization
for NAA, its salts, ester, and acetamide; therefore, issues of compatibility between Codex MRLs and
U.S. tolerances do not exist. Moreover, no Canadian or Mexican MRLs have been established for
naphthalene acetates. For more information on Codex see
http://www.codexalimentarius.net/standardjist.asp.
IV, Confirmatory Generic Data Requirements
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The generic database supporting the reregistration of the naphthalene acetates is substantially
complete, except for the following additional required confirmatory data:
UV/visible Absorption (OPPTS 830.7050)
Storage stability data on the processed commodities of apples (or citrus fruits) and
olives. (OPPTS 860.1380)
Data depicting residues of NAA and its conjugates in the processed commodities of
citrus (dried pulp, oil, and juice). (OPPTS 860.1520)
The replenishment of analytical reference standards for all registered NAA acid salts,
ester, and acetamide as requested by the Repository. (OPPTS 860.1650)
V. Label Changes:
In order to be eligible for reregistration, all product labels are to be amended to incorporate
measures outlined in this RED document. Furthermore, many of the existing labels for the
naphthalene acetates need to be revised to provide clear use directions. EPA, through discussions with
the registrant, user groups, and USD A, determined the following maximum use pattern information
which is to be clearly stated on naphthalene acetates product labels. Table 4 describes how language
on the labels should be amended.
Maximum single application rate: 0.11 Ib ai/acre
Maximum application rate per year or crop cycle: 0.33 Ib ai/acre/year or crop cycle
Minimum re-treatment interval between applications: 5 days
Restricted Entry Interval (REI): 48 hours for NAA; NAA Potassium
Salt; NAA Ammonium Salt; NAA
Sodium Salt; and NAA Acetamide
12 hours for NAA Ethyl Ester
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Table 4: Summary of Labeling Changes for Naphthalene Acetates
Description
Amended Labeling Language
Placement on Label
Manafecturing Use Products
For all Manufacturing Use
Products
One of these statements may be
added to a label to allow
reformulation of the product for
a specific use or all additional
supported by a formulator
or user group
Environmental Hazards
Statements Required by the
RED and Agency Label
Policies
"Only for formulation into plant growth regulators for the following use(s) [fill blank only
with those uses that are being supported by MP registrant]"
"This product may be used to formulate products for specific use(s) not listed on the MP
label if the formulator, user group, or grower has complied with U.S. EPA submission
requirements regarding support of such use(s)."
"This product may be used to formulate products for any additional use(s) not listed on the
MP label if the formulator, user group, or grower has complied with U.S. EPA submission
requirements regarding support of such use(s)."
"Do not discharge effluent containing this product into lakes, streams, ponds, estuaries,
oceans, or other waters unless in accordance with the requirements of a National Pollution
Discharge Elimination System (NPDES) permit and the permitting authority has been
notified in writing prior to discharge. Do not discharge effluent containing this product to
sewer systems without previously notifying the local sewage treatment plant authority. For
guidance contact your State Water Board or Regional Office of the EPA."
.. . :::.' :;::'i-h;;.h ;;;;;;_ -N;;;;;;;; : : :':':^::::^i:!!!!:;-!!!:!!;!!;;;£nd;Use Prdd^^ ,-..^v!:"::"
PPE Requirements Established
by the RED1 for All
Formulations
"Personal Protective Equipment (PPE)"
"All mixers, loaders, applicators, flaggers, and other handlers must wear:
Long-sleeved shirt and long pants,
Shoes plus socks."
Directions for Use
Directions for Use
Precautionary
Statements
Immediately
following/below
Precautionary
Statements: Hazards
to Humans and
Domestic Animals
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Table 4: Summary of Labeling Changes for Naphthalene Acetates
User Safety Requirements
"Follow manufacturer's instructions for cleaning/maintaining PPE. If no such instructions
for washables exist, use detergent and hot water. Keep and wash PPE separately from other
laundry."
Precautionary
Statements; Hazards
to Humans and
Domestic Animals
immediately following
the PPE requirements
User Safetv Recommendations
"User Safety Recommendations
Users should wash hands before eating, drinking, chewing gum, using tobacco, or using the
toilet.
Users should remove clothing/PPE immediately if pesticide gets inside. Then wash
thoroughly and put on clean clothing.
Users should remove PPE immediately after handling this product. As soon as possible,
wash thoroughly and change into clean clothing."
Precautionary
Statements under:
Hazards to Humans
and Domestic Animals
immediately following
Engineering Controls
(Must be placed in a
box.)
Environmental Hazards
'Tor terrestrial uses: Do not apply directly to water, or to areas where surface water is
present or to intertidal areas below the mean high water mark. Do not contaminate water
when disposing of equipment washwater or rinsate."
Precautionary
Statements
immediately following
the User Safety
Recommendations
-13-
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Table 4: Summary of Labeling Changes for Naphthalene Acetates
Restricted-Entry Interval for
Products Formulated with any
of the Following Active
Ingredients:
NAA
NAA Potassium Salt
NAA Ammonium Salt
NAA Sodium Salt
NAA Acetamide
"Do not alter or allow worker entry into treated areas during the restricted entry interval
(REI) of 48 hours."
Directions for Use,
Under Agricultural
Use Requirements Box
Early Entry Personal
Protective Equipment
established by the RED for the
Following Active Ingredients:
NAA
NAA Potassium Salt
NAA Ammonium Salt
NAA Sodium Salt
NAA Acetamide.
"PPE required for early entry to treated areas that is permitted under the Worker Protection
Standard and that involves contact with anything that has been treated, such as plants, soil,
or water, is:
* coveralls,
* shoes plus socks,
* chemical-resistant gloves made of any waterproof material,
* protective eyewear"
Direction for Use
Agricultural Use
Requirements box
"Do not enter or allow worker entry into treated areas during the restricted entry interval
(REI) of 12 hours."
(Products containing NAA Ethyl Ester may be eligible for a 4 hour REI. Registrants are
required to submit the required certification statement to the Agency and formally request the
4-hour REI as specified in PR Notice 95-3.)
Restricted-Entry Interval for
Products Formulated with
NAA Ethyl Ester
Directions for Use,
Under Agricultural
Use Requirements Box
-14-
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Table 4: Summary of Labeling Changes for Naphthalene Acetates
Early Entry Personal
Protective Equipment
established by the RED for
NAA Ethyl Ester
"PPE required for early entry to treated areas that is permitted under the Worker Protection
Standard and that involves contact with anything that has been treated, such as plants, soil,
or water, is:
* coveralls,
* shoes plus socks
* chemical-resistant gloves made of any waterproof material"
General Application
Restrictions
"Do not apply this product in a way that will contact workers or other persons, either
directly or through drift. Only protected handlers may be in the area during application."
Place in the Direction
for Use directly above
the Agricultural Use
Box.
Other Application Restrictions
(Risk Mitigation)
"For broadcast use, the maximum application rate is 0.11 pounds active ingredient per acre
of NAA equivalent for all uses. [Registrant: state the maximum use rate as a maximum
rate of pounds or gallons of formulation per acre equivalent to 0,1 J pounds active
ingredient per acre or less]"
"The maximum application rate per year or crop cycle is not to exceed 0.33 pounds active
ingredient per acre of NAA equivalent. [Registrant: state the maximum rate per year or
crop cycle as a maximum rate of pounds or gallons of formulation per acre equivalent to
0.33 pounds active ingredient per year or crop cycle or less]"
"The minimum interval between applications is to be no less than 5 days."
Directions for Use
Spray Drift
"Avoiding spray drift is the responsibility of the applicator. The interaction of many
equipment and weather-related factors determine the potential for spray drift. The applicator
is responsible for considering all these factors when making decisions."
Directions for Use
-15-
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Table 4: Summary of Labeling Changes for Naphthalene Acetates
End Use Products Intended foe Residential Use
Application Restrictions
Entry Restrictions
Environmental Hazards
"Do not apply this product in a way that will contact any person, pet, either directly or
through drift. Keep people and pets out of the area during application."
Liquid:
"Do not allow people or pete to enter the treated area until sprays have dried."
"Do not apply directly to water. Do not contaminate water when disposing of equipment
washwaters or rinsate."
Directions for Use
under General
Precautions and
Restrictions
Directions for use
under General
Precautions and
Restrictions
1 PPE that is established on the basis of Acute Toxicity of the end-use product must be compared to the active ingredient PPE in this document. The more
protective PPE must be placed in the product labeling. For guidance on which PPE is considered more protective, see PR Notice 93-7.
-16-
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VL Overview Document
The following Overview of Naphthaleneacetic Acid Its Salts, Ester, andAcetamide Risk
Assessments document provides further details on the human health and environmental risk
assessments and conclusions.
-17-
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Overview of Naphthaleneacetic Acid
Its Salts, Ester, and Acetamide
Risk Assessments
May 26, 2004
This document summarizes the Environmental Protection Agency's (EPA or the Agency)
human health risk and environmental assessments and conclusions for the chemicals collectively
referred to as the naphthalene acetates1. The naphthalene acetates are plant growth regulators
currently registered for use on various orchard and fruit crops and on ornamental trees. Naphthalene
acetates are used to stimulate growth, delay flower induction and leaf drop, prevent preharvest fruit
drop, thin fruit, and control sprout formation.
The purpose of this overview is to assist the reader by identifying the key features and findings
of the risk assessments, and to allow the reader to better understand the conclusions reached in the
assessments and in the Reregistration Eligibility Decision (RED). The Agency developed this
overview format in response to comments and requests from the public which indicated that the risk
assessments were difficult to understand, that they were too lengthy, and that it was not easy to
compare the assessments for different chemicals due to differing formats.
The Agency now has adequate information to make eligibility decisions for all of the
naphthalene acetate products. EPA has reviewed the data provided by the naphthalene acetates
registrant and data available in the public literature. Using this information, EPA has conducted
assessments of the human health and environmental risks for the labeled use of the naphthalene acetate
products. These assessments and all their supporting technical documents are posted on the Internet
(http:www.epa.gov/edockets) under docket number OPP-2004-0144.
The estimated risks summarized in this document are those that result only from the use of the
naphthalene acetates. The Food Quality Protection Act (FQPA) requires that the Agency consider
"available information" concerning the cumulative effects of a particular pesticide's residues and "other
substances that have a common mechanism of toxicity." The reason for consideration of other
substances is due to the possibility that low-level exposures to multiple chemical substances that cause
a common toxic effect by a common toxic mechanism could lead to the same adverse health effect as
1 Naphthalene acetates include: 1-Naphthaleneacetamide, 1-Naphthalene acetic acid, Potassium
1-naphthaleneacetate, Ammonium 1-naphthaleneacetate, Sodium 1-naphthaleneacetate, Ethyl
1 -naphthaleneacetate
-18-
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would a higher level of exposure to any of the substances individually. Unlike other pesticides for
which EPA has followed a cumulative risk approach based on a common mechanism of toxicity, EPA
has not made a common mechanism of toxicity finding for the naphthalene acetates. They do not
appear to produce a toxic metabolite produced by other substances. For the purposes of the risk
assessments, therefore, EPA has not assumed that the naphthalene acetates have a common
mechanism of toxicity with other substances. For information regarding EPA's efforts to determine
which chemicals have a common mechanism of toxicity and to evaluate the cumulative effects of such
chemicals, see the policy statements released by the EPA's Office of Pesticide Programs concerning
common mechanism determinations and procedures for cumulating effects from substances found to
have a common mechanism on EPA's website at http://www.epa.gov/pesticides/cumulative/.
The naphthalene acetates are plant growth regulators. The plant growth regulating activity of
the naphthalene acetates is due to their structural similarity to the most common, naturally occurring
plant growth hormone (auxin), which is chemically known as indole acetic acid (IAA). Auxins
promote growth in excised plant organs, induces adventitious roots, inhibits axillary bud growth, and
regulates gravitropism. Naphthalene acetates are used to stimulate growth, delay flower induction and
leaf drop, prevent preharvest fruit drop, thin fruit, and control sprout formation and sucker growth.
Technical Registrant: AMVAC Chemical Company
Use Sites and Use Related Information:
Approximately 20,000 Ibs of the naphthalene acetate active ingredients are applied annually in
the U.S.
The naphthalene acetates are registered for use on apples, pears, citrus, olives, cherries, some
non-bearing fruit and nut trees, ornamental plants (herbaceous, non-flowering trees, woody
shrubs and vines) and shade trees. They also have residential uses to stimulate root growth
(root dips and soil drench) and to control sprouts and sucker growth on fruit and ornamental
trees.
* Apples and pears represent approximately 95% of the total active ingredient used annually with
all other registered use sites accounting for the remaining use.
Formulations:
-19-
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Forty active products are currently registered for the naphthalene acetates with 12 Special
Local Need registrations (FIFRA §24(c)) in California, Oregon and Washington.
* Registered products include the following formulations: dust (0.2% active ingredient or a.L),
emulsifiable concentrate (6.25-15.1% al), wettable powder (7.1-8.4% a.i.), soluble
concentrate/liquid (0.1-24.2% a.L), ready-to-use (0.08-1.15% a.i.), flowable concentrate (0.45-
1.2% a.i.), and pressurized liquid (1% a.L).
Application Methods and Equipment:
« Thinning and stop drop formulations - ground spray or aerial equipment.
Sprout/sucker formation control - hand held sprayer and paint brush.
* Root growth stimulant - dilute root dip or soil drench.
Dietary Risk from Food
Acute and chronic dietary exposure assessments were conducted for all supported naphthalene
acetates food uses using both Dietary Exposure Evaluation Model software with the Food Commodity
Intake Database (DEEM-FCID, Version 1.3) and Lifeline Model (Version 2) software. The acute
and chronic dietary (food) risk analyses were conducted using tolerance values and assuming 100%
crop treated (Tier 1). The acute and chronic dietary exposure and risk estimates resulting from intake
of food with residues of the naphthalene acetates was determined for the general U.S. population and
various population subgroups. No cancer dietary exposure assessment was performed because
careinogenieity studies do not indicate a carcinogenic concern.
The assessment concludes that, for all supported commodities, the acute and chronic dietary
exposure estimates are well below EPA's level of concern. Naphthalene acetate risks from food
consumption are summarized in Table 1 below for the general U.S. population and the various
population subgroups. Risks less than 100% of the Population Adjusted Dose (PAD), either acute
(aPAD) or chronic (cPAD), are not of concern to the Agency. The aPAD is the dose at which a
person could be exposed on any given day and no adverse health effects would be expected. The
cPAD is the dose at which an individual could be exposed over the course of a lifetime and no adverse
health effects would be expected.
-20-
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Table 1. Estimated Acute and Chronic Dietary Exposures and Risks for the Naphthalene
Acetates
Population Subgroup
U.S. Population
All Infants (
-------
The acute reference dose (acute RfD) is 0.5 mg/kg/day, calculated by dividing the
NOAEL (50 mg/kg/day) by the UF (100).
The Food Quality Protection Act Safety Factor (FQPA SF) was removed (reduced to
Ix) for all population subgroups. The Agency determined that this safety factor is
adequate to protect infants and children because there are no residual uncertainties in
the exposure databases, the toxicology database is complete, and the endpoint and
NOAELs/LOAEL for risk assessment were well defined. In the toxicology database,
there was no quantitative or qualitative evidence of increased susceptibility in rat or
rabbit fetuses following in utero exposure to naphthalene acetates or to pre- and post-
natal exposure in rat reproduction studies.
The aPAD is 0.5 mg/kg/day, and is calculated by dividing the acute RfD (0.5
mg/kg/day) by the FQPA SF. Since the FQPA SF is Ix, the aPAD and the acute RfD
are identical.
The acute dietary exposure analysis is based on the DEEM-FCED, which uses
exposure and consumption data to calculate risk as a percentage of the PAD. The
DEEM-FCID analysis evaluated individual food consumption as reported by
respondents in the USDA 1994-1996 and 1998 Continuing Surveys of Food Intake by
Individuals (CSFII). For acute dietary risk assessments, the entire distribution of
consumption events for individuals is multiplied by a randomly selected distribution of
residues (probabilistic analysis, referred to as "Monte Carlo") to obtain a distribution of
exposures.
Acute dietary (food) risk was also estimated using the Lifeline model (Version 2.0).
The Lifeline model estimated acute exposure based on the acute 1-day dietary dose
drawn randomly from an age-specific seasonal profile of 1000 individuals. Results of
the acute dietary (food) Lifeline analysis are fully consistent with the DEEM-FCID
results.
Chronic Dietary Risk from Food
Chronic dietary risk from food is calculated by using the average consumption value for foods
and average residue values on those foods over a 70-year lifetime. As previously shown in Table 1,
chronic dietary exposure for the naphthalene acetates in all populations subgroups is equal to or less
than 8% of the cPAD, and therefore not of concern to the Agency.
* The chronic dietary exposure/risk analysis for all supported naphthalene acetates food uses
were conducted using Tier 1 conservative exposure assessments: assuming tolerance level
residues for all registered uses, 100% crop treated for all commodities, and default processing
factors. Chronic dietary risk was then calculated by comparing dietary exposure to the cPAD.
-22-
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« EPA calculated the cPAD and dietary risk levels for the naphthalene acetates using the
following data:
The toxicity endpoint selected for chronic dietary food exposure is based on a one-year
oral feeding study in dogs. The NOAEL was 15 mg/kg/day and a LOAEL of 75
mg/kg/day was based on stomach lesions and slight sinusoidal histiocytosis in the livers
of males.
The uncertainty factor (UF) is 100, based on a 1 Ox for standard uncertainties in
applying animal studies to humans (interspecies extrapolation) and a 1 Ox for varying
effects among individuals (intraspecies variability).
The chronic reference dose (chronic RfD) is 0.15 mg/kg/day, calculated by dividing the
NOAEL (15 mg/kg/day) by the UF (100).
The FQPA SF was removed (reduced to Ix) for all population subgroups, as discussed
in the acute dietary section.
The cPAD is 0.15 mg/kg/day, and is calculated by dividing the chronic RfD (0.15
mg/kg/day) by the FQPA SF. Because the FQPA SF is Ix, the cPAD and the chronic
RfD are identical.
The chronic dietary exposure analysis is also based on the DEEM-FCID, as
discussed in the acute dietary section. For chronic dietary risk assessments, a 3-day
average consumption for each subpopulation is combined with average residues in
commodities to determine average exposures.
Dietary Risk from Drinking Water
Drinking water exposure to pesticides can occur through surface and ground water
contamination. EPA considers both acute (one day) and chronic (lifetime) drinking water risks and
uses either modeling or actual monitoring data, if available and of sufficient quality, to estimate those
risks. However, for the naphthalene acetates water monitoring data are not available.
This section describes the Estimated Drinking Water Concentrations (EDWCs) of the
naphthalene acetates in drinking water. Output values from computer modeling (FIRST and
SCIGROW) are based on use of 1-naphthalenacetic acid on apples, which represents the highest use
rate scenario and results in the highest potential environmental loading. Risks from exposure to these
concentrations are discussed later in the section titled "Aggregate Exposure and Risk."
-23-
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In the environment, the sodium, potassium, and ammonium salts, amide, and ester of NAA are
expected to rapidly degrade to the acid in the environment. Therefore, 1-naphthalenacetic acid
is the only residue of concern in drinking water.
The Agency calculated screening-level EDWCs (high-end estimates) for the naphthalene
acetates using computer modeling for both surface (FIRST) and ground water (SCIGROW)
sources. Both models provide estimates suitable for screening purposes. Table 2 presents the
modeled concentrations for 1-naphthalenacetic acid.
For the purpose of estimating risks from surface water sources, EPA uses the 1 in 10 year
annual peak concentration of 1-naphthalenacetic acid generated by FIRST for acute
exposures. For evaluating reasonable worst case chronic concerns, the estimated 1 in 10 year
annual mean concentration of 1-naphthalenacetic acid in drinking water is used.
For estimating drinking water risks from ground water sources, both acute and chronic, EPA
uses a single EDWC because ground water is generally more stable than surface water and less
likely to exhibit different concentrations over time.
Table 2. Modeled 1-naphthalenacetic acid EDWCs from Surface and Ground Water Sources.
Drinking Water Source
Surface Water (FIRST)
Ground Water (SCIGROW)
Acute Peak (ppb)
12.9
0.0008
Chronic Annual Average {ppb)
0.712
N/A
Residential Exposure and Risk
Residential uses of the naphthalene acetates are limited to applications to stimulate root growth
(dips and soil drench) of ornamentals, and spray applications to control sprouts and sucker growth on
fruit and ornamental trees. Only the spray application of naphthalene acetates to control sprout and
sucker growth was evaluated for the residential exposure assessment. Residential exposures from root
dip applications are expected to be significantly less than spray applications for sucker growth because
of the low concentration of NAA in root dip and soil drench products, and the very short exposure
duration and limited area of exposure associated with use of these products. Further, only short-term
exposures (<30 days) are expected for residential applications of the naphthalene acetates. Post-
application exposure to homeowners reentering and children playing in treated areas is expected to be
negligible based on the use patterns and were, therefore, not assessed.
To estimate residential risks, the Agency calculates a margin of exposure (MOE), which is the
ratio of the NOAEL selected for risk assessment to the exposure. This MOE is compared to a level of
concern which is the same value as the uncertainty factor (UF) applied to a particular toxicity study.
-24-
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The standard UF is lOOx (lOx to account for interspecies extrapolation and lOx for intraspecies
variation), plus any additional safety factor retained due to concerns unique to the protection of infants
and children under FQPA. A MOE less than the target MOE, or level of concern (LOG), is generally a
risk concern to the Agency.
Residential handlers can be exposed to the naphthalene acetates by mixing, loading, or
applying products containing this active ingredient. Exposure assumptions for residential handler
included maximum label application rate for an aerosol spray application, application of the entire
contents (one quart) of the sprout inhibitor formulation available for residential use, and no protective
clothing. Estimated dermal and inhalation margins of exposure (MOEs) for this residential exposure
scenario to the naphthalene acetates are 3,800 and 58,000, respectively. The combined MOE is 3,600.
These MOEs are well above the target MOE of 100 and not of risk concern.
Toxicity Summary
Short-term dermal risk assessments for the naphthalene acetates are based on a 21-day dermal
toxicity study with a systemic NOAEL of 300 mg/kg/day, based on reduced body weight gain
and food efficiency at the LOAEL of 1000 mg/kg/day.
Short-term inhalation risk assessments for the naphthalene acetates are based on an oral route
development study with a NOAEL of 50 mg/kg/day, based on decreased body weight gain
during gestation at the LOAEL of 150 mg/kg/day.
Intermediate and long-term dermal and inhalation exposures from the use of naphthalene
acetates are not expected, since they are used only during growing seasons.
The FQPA SF has been reduced to Ix for the reasons explained above in the dietary section.
Therefore, the target MOE from dermal and inhalation exposures is 100.
Table 3. Acute Toxicity Data of NAA
870.1100
Acute Oral
870.1200
Acute Dermal
gjmjgm
NAA
NAA acetamide
NAA Na Salt
NAA Ethyl Ester
NAA
NAA acetamide
NAA Na Salt
NAA Ethvl Ester
::: »:jj-j~. .-. u /fry ::.::::
JVlTvl'U "tt\ ^1
00103128
43495901
00108829
43494101
00103129
43495902
00108829
43494102
i:|iipiii;;;i
LDso = 2520 mg/kg
LDso = >50QO mg/kg
LD.^ 933-1 350 mg/kg
LDso = 21 86 mg/kg
LDso = > 2000 mg/kg
LDso = > 2000 mg/kg
LDso = > 2000 mg/kg
ID = > 2000 mg/kg
;;§|:|ii[
m
rv
m
ffl
ffl
ffl
m
ffl
-25-
-------
870.1300
Acute
Inhalation
870.2400
Primary Eye
Irritation
870.2500
Primary Skin
Irritation
870.2600
Dermal
Sensitizatiom
NAA
NAA acetamide
NAA Na Salt
NAA Ethyl Ester
NAA
NAA acetamide
NAA acetamide
NAA Na Salt
NAA Ethyl Ester
NAA
NAA acetamide
NAA Na Salt
NAA Ethyl Ester
NAA
NAA acetamide
NAA Na Salt
NAA Ethyl Ester
43495903
43494103
00103127
00103051
43495904
00108829
43494104
00103127
00108829
00103053
00153217
43495905
43494105
LC5o = >2.17mg/L
LC5o = >2.13mg/L
corrosive
corrosive
minimally irritating
corrosive
minimally irritating
not a skin irritant
not a skin irritant
not a skin irritant
not a skin sensitizer
not a skin sensitizer
not a skin sensitizer
IV
IV
I
I
IV
I
rv
rv
IV
IV
NA
NA
NA
Aggregate Exposure and Risk
An aggregate risk assessment evaluates the combined risk from dietary exposure to residues in
food and drinking water and, if applicable, residential exposure to homeowners. For aggregate risk,
EPA typically considers combined exposures from food and residential sources and calculates a
drinking water level of comparison (DWLOC), which represents the maximum allowable exposure
through drinking water after considering food and residential exposures. If the estimated drinking
water concentrations (EDWCs) in water are less than the DWLOCs, EPA does not have concern for
aggregate exposure. If EDWCs are greater than DWLOCs, EPA will conduct further analysis to
characterize the potential for aggregate risk of concern.
While there is potential for concurrent naphthalene acetate exposure via the food, water, and
short-term residential exposure pathways, short-term aggregate risk cannot be estimated for
naphthalene acetates because the toxicity endpoints selected for the different exposure pathways are
not based on common effects. The toxicity endpoint for chronic dietary and the drinking water routes
of exposure are based on systemic effects, while those selected for residential exposures (inhalation and
dermal) are based on decreased body weight gain. Therefore, the aggregate exposure assessment for
the naphthalene acetates considers only food and drinking water exposures.
Acute and chronic DWLOCs were calculated based on the dietary exposure estimates, default
body weights and water consumption figures, and are shown in Table 4. Peak (acute) and average
-26-
-------
(chronic) modeled EDWCs for both surface water and groundwater are significantly below the acute
and chronic DWLOCs for all population subgroups. Hence, aggregate exposure to naphthalene
acetates in food and water do not present risks of concern.
Table 4. Naphthalene Acetates Drinking Water Levels of Comparison (DWLOC) and
Estimated Drinking Water Concentrations (EDWC)s
Acute Risk
Chronic Risk
Population Subgroup
All
All
DWLOC (ppb)
^3000
^1400
Surface Water Cone.
12.9
0.7
Ground Water Cone.
(ppb)
0.0008
0.0008
^Occupational Risk
Workers can be exposed by mixing, loading, or applying (handlers) naphthalene acetates or by
entering a previously treated site (post-application). Worker risk is also measured as a MOE, which
determines how closely the occupational exposure comes to a NOAEL. For the naphthalene acetates,
all occupational scenarios assessed (handler and post-application) had MOEs greater than 100, and
therefore are not of risk concern.
Only short-term exposures (<30 days) are expected and assessed for occupational exposure
scenarios because exposures for more than 30 days is unlikely to occur based on use patterns.
Occupational toxicity endpoints and uncertainty factors are the same as those described in the
residential risk assessment above. However, the FQPA SF is not applied in occupational risk
assessments. No chemical-specific handler or post-application exposure data have been submitted by
the registrant. Therefore, an exposure assessment for each handler scenario was developed using
PHED Version 1.1 and EPA Standard Operating Procedures for agricultural exposure. The
mixer/loader/handler/applicator exposure scenarios were assessed utilizing liquid formulations for the
risk assessment because those products had the highest percentage of active ingredients and highest
usage patterns when compared to the dry formulations (wettable powder and dust).
Handler Exposure Assessment
The term "handler" refers to individuals who mix, load, and apply the pesticide product. Based
on actively registered labels, EPA assessed 12 handler scenarios for the naphthalene acetates.
Mixing and loading for aerial sprayers resulted in the highest level of exposure.
-27-
-------
« A target MOE of 100 for the dermal and inhalation routes is considered adequate for the
occupational handler risk assessment. Using baseline personal protective equipment (PPE),
combined dermal and inhalation MOEs are > 130 for all handler scenarios and not of risk
concern. Baseline PPE include long pants, long sleeved shirts, shoes, socks, and no respirator.
Post-Application Exposure Assessment
"Post-application" is the term used to describe individuals who can be exposed to pesticides
after entering areas previously treated with pesticides and performing certain activities (also
often referred to as reentry exposure). Occupational post-application activities were assessed
for the naphthalene acetates uses expected to result in the highest exposures. Based on their
use on apples and pears, EPA assessed the following post-application activities: irrigation,
scouting, and weeding, and harvesting, pruning, propping, training, and thinning for the
naphthalene acetates.
For post-application exposures, EPA calculates the minimum length of time required following
an application before residues have dissipated to the level where the calculated MOE reaches
the target MOE. EPA uses this information to determine restricted entry intervals (REIs), the
time period after which workers are allowed to reenter a treated area.
» A target MOE of 100 for the dermal exposure route is considered adequate for the
occupational post-application risk assessment. No post-application inhalation exposure is
expected. The MOEs for the two post-application exposure scenarios are > 3500, and
significantly greater than the target MOE of 100, and not of risk concern on the day of
application.
« A minimum 48-hour REI is required for 1-naphthaleneacetamide, 1-naphthalene acetic acid,
potassium 1-naphthaleneacetate, ammonium 1-naphthaleneacetate, and sodium
1-naphthaleneacetate because they are classified as Toxicity Category I for eye irritation.
* A 12-hour REI is required for ethyl 1-naphthaleneacetate because it is classified as Toxicity
Category III or IV for all acute toxicity endpoints. However, products containing ethyl
1-naphthaleneacetate may be eligible for a 4 hour REI. Registrants are required to submit the
required certification statement to the Agency and formally request the 4-hour REI as specified
in PR Notice 95-3.
Occupational Incident Reports
The Agency has conducted a review and consulted the following databases of reported
poisoning incidents associated with human exposure from occupational uses of naphthalene acetates:
-28-
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Office of Pesticide Programs (OPP) Incident Data System; Poison Control Center Data, 1993 through
1998; California Data, 1982 through 1998; and the National Pesticide Information Center.
No incidents were reported from the use of naphthalene acetates in the Incident Data System,
Poison Control Center Data, and the National Pesticide Information Center. Detailed descriptions of
six cases submitted to the California Pesticide Illness Surveillance Program (1982-1998) were
reviewed. Workers were exposed either through accidental spraying in the face from broken
equipment during treatment or from post-application contact with treated foliage or fruit. These
exposures resulted in eye or sinus irritation, chemical conjunctivitis, dermatitis, and a rash. None of the
incidents resulted in hospitalization
To estimate potential ecological risk, EPA integrates the results of the exposure and
ecotoxicity data to evaluate the potential for adverse ecological effects. The method divides exposure
estimates, which are based on maximum application rates (worst case), by ecotoxicity data to derive
risk quotients (RQs) for acute and chronic effects. These RQ values are then compared to the
Agency's levels of concern (LOCs), which indicate whether a chemical, when used as directed, has the
potential to cause adverse effects on nontarget organisms. When the RQ exceeds the LOG for a
particular category, the Agency presumes a potential risk of concern to that category.
Based on the data available and through the use of Structure Activity Relationships (SAR),
EPA believes that the naphthalene acetates present little or no potential for risks to nontarget
organisms, including mammals, birds, aquatic organisms, nontarget plants, and threatened and
endangered species. In other words, all RQs are below the Agency's LOG, and therefore are not of
risk concern. All RQs (acute and chronic) for birds, mammals and aquatic organisms are <0.02. RQ's
for nontarget plants, including endangered, are all ^0.9. Risks to terrestrial insects cannot be
quantified but the available data do not suggest a substantial potential for adverse effects. Moreover,
no ecological incidences have been reported for the naphthalene acetates.
Generally speaking, risks from the use of plant growth regulators (PGRs) are not adequately
addressed using data from current plant studies that deal with growth endpoints. Currently, there are
no validated tests which address reproductive effects on plants. EPA recognizes that reproductive
plant studies would be useful to characterize potential reproductive risks to non-target plants, from
herbicides as well as PGRs.
-29-
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Environmental Fate
Environmental fate of all naphthalene acetates is expected to be similar. A detailed discussion
of the environmental fate, transport, and physical-chemical properties and chemical structures of
naphthaleneacetic acid, naphthaleneacetamide, and ethyl 1-naphthaleneacetate are given in the
Amended Environmental Fate and Effects Risk Assessment for the Reregistration of 1-
Naphthaleneacetic acid (NAA) and Related Compounds as a Low Toxicity Substance, dated May 13,
2004 (see particularly Tables 2 and 3, pages 9 & 10). In the environment, the sodium, potassium, and
ammonium salts of NAA rapidly degrade to the acid. Physical and chemical properties suggest
moderate to low soil mobility. The major routes of dissipation appear to be volatilization (on plants)
and photolysis (on plants in water), and perhaps some through biodegradation.
Outstanding data needs include:
UV/visible Absorption (OPPTS 830.7050)
Storage stability data on the processed commodities of apples (or citrus fruits) and
olives. (OPPTS 860.1380)
Data depicting residues of NAA and its conjugates in the processed commodities of
citrus (dried pulp, oil, and juice). (OPPTS 860.1520)
The replenishment of analytical reference standards for all registered NAA acid salts,
ester, and acetamide as requested by the Repository. (OPPTS 860.1650)
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