EPA/600/R-03/142
December 2003
Summary Report of the U.S. EPA Technical
Peer Review Meeting on the Draft Document Entitled:
Exposure and Human Health Evaluation of Airborne Pollution
from the World Trade Center Disaster
U.S. Environmental Protection Agency
New York, NY
July 14-15, 2003
National Center for Environmental Assessment
Office of Research and Development
U.S. Environmental Protection Agency
Washington, DC
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NOTICE
This document has been reviewed in accordance with U.S. Environmental Protection
Agency (EPA) policy and approved for publication. Mention of trade names or commercial
products does not constitute endorsement or recommendation for use.
This report was prepared by Versar, Inc., an EPA contractor (Contract No. 68-C-02-061),
as a general record of discussion held during the technical peer review meeting on the draft
document entitled Exposure and Human Health Evaluation of Airborne Pollution from the
World Trade Center Disaster (July 14-15, 2003). As requested by EPA, this report captures
the main points and highlights of the meeting. It is not a complete record of all details discussed,
nor does it embellish, interpret, or enlarge upon matters that were incomplete or unclear.
Statements represent the individual view of each meeting participant; none of the statements
represent analyses by or positions of EPA.
Preferred Citation:
U.S. Environmental Protection Agency (EPA). (2003) Summary Report of the U.S. EPA
Technical Peer Review Meeting on the Draft Document Entitled: Exposure and Human Health
Evaluation of Airborne Pollution from the World Trade Center Disaster. National Center for
Environmental Assessment, Washington, DC; EPA/600/R-03/142. Available from: National
Technical Information Service, Springfield, VA, and .
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CONTENTS
LIST OF ACRONYMS AND ABBREVIATIONS v
EXECUTIVE SUMMARY vii
1. INTRODUCTION 1
1.1 Meeting Purpose 1
1.2 Background on Peer Review Process 1
1.3 Meeting Participants and Agenda 5
1.4 Organization of Meeting Summary Report 6
2. SUMMARY OF OPENING REMARKS/PRESENTATIONS 7
2.1 Welcome from Meeting Organizer/Facilitator 7
2.2 Welcome from NCEA Director 8
2.3 Chair's Introduction 8
2.4 Background Presentation on World Trade Center Assessment 9
2.5 Peer Reviewer Question and Answer on Background Presentation 9
3. DISCUSSION SESSIONS 11
3.1 Purpose and Scope of Assessment 11
3.2 Exposure Assessment and Risk Characterization Approach 13
3.3 Monitoring Data 16
3.4 Particulate Matter 18
3.5 Metals 21
3.6 Polychlorinated Biphenyls and Dioxins 23
3.6.1 PCBs 23
3.6.2 Dioxins and Related Compounds 25
3.7 Asbestos 28
3.8 Volatile Organic Compounds 30
3.9 Comment on the First Several Days After September 11 32
3.10 Occupational and Indoor Exposures 32
3.10.1 Occupational Exposure Assessment 32
3.10.2 Indoor Air Exposure Assessment 34
3.11 Conclusions/Executive Summary 35
4. OBSERVER COMMENTS 36
4.1 First Comment Period 36
4.2 Second Comment Period 38
4.3 Third Comment Period 40
4.4 Fourth Comment Period 40
REFERENCES 43
in
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CONTENTS (continued)
APPENDIX A
APPENDIX B
APPENDIX C
APPENDIX D
APPENDIX E
APPENDIX F
APPENDIX G
PEER REVIEWER BIOGRAPHICAL SKETCHES
LIST OF OBSERVERS
AGENDA
POWERPOINT PRESENTATIONS
FLIP CHARTS FROM MEETING
WRITTEN COMMENTS FROM REVIEWERS
COMMENTS AND WRITTEN MATERIALS FROM OBSERVERS
IV
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LIST OF ACRONYMS AND ABBREVIATIONS
AHERA
AQI
ATSDR
f/cc
COPC
DOH
EOHSI
EPA
HVAC
IRIS
MIXTOX
MOE
MRL
MVA
NAAQS
NCEA
NIEHS
NIOSH
NOAEL
NYCDOHMH
NYSDEC
NYU
OSHA
PAH
PCB
PCM
Asbestos Hazardous Emergency Response Act
Air Quality Index
Agency for Toxic Substances and Disease Registry
fibers of asbestos per cubic centimeter
contaminants of potential concern
New York City Department of Health
Environmental and Occupational Health and Safety Institute
Environmental Protection Agency
heating, ventilation, and air conditioning
Integrated Risk Information System
microgram
micrometer
Toxicologic Interaction Data Base
margin of exposure
Minimum Risk Level
Millette Vanderwood Associates, Inc.
National Ambient Air Quality Standard
National Center for Environmental Assessment
National Institute of Environmental Health and Safety
National Institute for Occupational Safety and Health
no-observed-adverse-effects-level
New York City Department of Health and Mental Hygiene
New York State Department of Environmental Conservation
New York University
Occupational Safety and Health Administration
polycyclic aromatic hydrocarbon
polychlorinated biphenyl
phase contrast microscopy
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PEL
PM, PM2 5 PM10
PVC
RfC
REL
STEL
TDI
TEM
TEQ
TERA
TSP
UC-Davis
VOC
WHO
WTC
Permissible Exposure Limit
particulate matter, and PM less than 2.5 |im and less than 10 |im diameter
polyvinyl chloride
Reference Concentration
Recommended Exposure Level
Short Term Exposure Limit
Tolerable Daily Intake
transmission electron microscopy
toxic equivalent
Toxicology Excellence for Risk Assessment
total suspended particle
University of California-Davis
volatile organic compound
World Health Organizations
World Trade Center
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EXECUTIVE SUMMARY
The United States Environmental Protection Agency (U.S. EPA) Technical Peer Review
Meeting on the draft document entitled: Exposure and Human Health Evaluation of Airborne
Pollution from the World Trade Center Disaster was held July 14 - 15, 2003, in New York, NY.
This two-day meeting was organized and hosted by Versar, Inc., for the U.S. EPA's Office of
Research and Development/National Center for Environmental Assessment (NCEA). The
purpose of the meeting was to provide a scientific peer review of the draft document Exposure
and Human Health Evaluation of Airborne Pollution from the World Trade Center Disaster.
Versar, Inc., assembled a group of seven experts in air monitoring and transport modeling,
environmental chemistry, public and occupational health, exposure and risk assessment,
toxicology, risk characterization, and risk communication. In addition, reviewers had
demonstrated expertise with the contaminants that were evaluated in EPA's assessment
(particulate matter [PM], dioxins, polychlorinated biphenyls [PCBs], asbestos, volatile organics,
and metals). In addition to considerations of expertise and experience, selection was based on
the reviewers' availability for the peer review meeting. Additionally, the reviewer selection
process consisted of screening for conflict of interest. All seven reviewers were asked a series of
questions concerning potential conflict of interest, and they signed forms certifying that they had
no conflicts of interest related to EPA's assessment. About 50 observers attended the meeting,
providing additional comments and input on issues related to EPA's document.
The peer review meeting consisted of introductory presentations to establish the scope and
procedures for the review, observer comment periods during both days of the meeting, and
extended discussion sessions among the reviewers on each major section of the assessment
document. These comment periods addressed the document's scope, approach, and use of
monitoring data, as well as on the chemical-specific assessments. Details on the discussion,
comments, and recommendations can be found in this report.
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Reviewers generally had positive responses to EPA's assessment; however, several major
recommendations and suggestions were provided for revisions to the report. They include the
following:
• The document should focus on ambient "outdoor air" exposures for the general
population. Although the indoor air and occupational assessments (rescue/recovery
workers) are important, they are not the focus of the text and could be presented in
summary form in the appendix to this report. The introduction to this report could
mention that it focuses on general public exposures to outdoor air, and it could provide
links to existing or potential reports on the indoor air and occupational exposure
assessment efforts. EPA was encouraged to complete this outdoor air assessment as
quickly as possible and work with other organizations to enhance efforts on the indoor
and occupational issues, possibly by convening an independent group (e.g., the National
Academy of Sciences) to analyze the indoor air data.
• It was recommended that the monitoring data section (Section III) of the document be
expanded to describe in more detail the monitoring program design and available data.
This section should include information on the purpose, scope, time frame, and
location/number of samples and other information related to the monitoring that was
conducted. Providing more information and consolidating the presentation in one section
of the document would give the reader a more complete picture of the monitoring data
available for the exposure and health evaluation. The section should also mention those
chemicals that were not monitored for (or for which data are insufficient for the
assessment). It is important that EPA's document clearly present discussion on the utility
and limitations of the available monitoring data, particularly in terms of their end use for
evaluating exposures and potential health effects. This section of the report also could
introduce lessons learned to provide a basis for better response to future events.
• Reviewers agreed that no conclusions can be made about concentrations and exposures in
the days immediately following the disaster, prior to the initiation of monitoring.
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Discussion of risk-based benchmarks should be expanded in the approach section
(Section II) to introduce the types of benchmarks that are available, their applicability to
this assessment, and the human health endpoints of concern for each benchmark.
Although some reviewers felt that occupational exposure limits should not be used to
assess general population exposures, others felt that they could be used if appropriately
adjusted for exposure duration and sensitive individuals. In addition, the report should
describe the potential health impacts of exceedances, including toxicology and
epidemiology information for the chemicals of concern.
Issues related to chemical mixtures should be introduced, where exposures to multiple
chemicals having the same toxic endpoints or modes of action might be of concern.
Reviewers suggested that EPA include relevant information from the chemical mixtures
guidelines, framework for cumulative risk assessment, historic MIXTOX data base
interactions, and the Agency for Toxic Substances and Disease Registry (ATSDR)
interaction profiles (notably those including lead and chromium, and benzene, toluene,
ethylbenzene, and xylene) and other recent information on mixtures. It was
recommended that the document acknowledge and discuss the mixtures issue
qualitatively, because the data are probably not sufficient to do a quantitative analysis.
Reviewers had extensive comments on the PM assessment, recommending that EPA
examine PM10 data and applicable benchmarks. Basing the assessment on PM2 5 values
might not be health protective because of concerns over respiratory effects from the
unique PM emitted from the World Trade Center collapse (larger particles, glass fibers,
and particles that exhibited alkaline characteristics). Suggestions were made to examine
monitoring data for larger PM and to determine an applicable health-protective
benchmark. The panel also noted potential inconsistencies in some of the PM25 data and
offered to provide additional input following review of the raw data.
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Reviewers found that EPA's assessments for metals (lead, chromium, and nickel) were
acceptable and agreed that, with the exception of small exceedances in the first few days,
metals were not of concern. Although lead was found at elevated concentrations in
outdoor air, the event contributed little exposure for the general population, especially
relative to historic lead background exposures. Comments on the chromium and nickel
assessments were favorable, generally agreeing with EPA's approach and conclusions
that these metals are of low concern.
The benchmarks for the noncancer PCB assessment should be reexamined. If
occupational benchmarks are used, they should be adjusted for application to general
population exposures, which would account for differences in exposure duration and
sensitive populations as indicated (because depending on the benchmark, there may
already be some accounting for sensitive subgroups). It was noted that if adjusted
benchmarks are used, the conclusions might change because more exceedances would be
expected. The reviewers found EPA's cancer assessment for PCBs to be acceptable,
agreeing that cancer risks would be well below levels of concern.
The dioxin assessment was generally acceptable, but reviewers did raise concerns about
(1) dioxin detection limits and presentation of the available data, (2) the approaches used
for the cancer and noncancer assessments, and (3) exposure factors used for inhalation
rate and exposure duration for the occupational worker assessment (if retained in the final
document). Reviewers requested that EPA improve the presentation to make this
complicated assessment more transparent to the reader. It was also suggested that EPA
describe in more detail the noncancer health assessment using margin of exposure,
because it is different from approaches historically used for other chemicals. Revised
exposure scenarios and exposure factors should be considered for the World Trade
Center resident and rescue/recovery worker assessments (if retained in the report).
Finally, reviewers strongly suggested that EPA state that dioxin air concentrations are
unknown for the first days following 9/11, prior to the initiation of monitoring. The
document could mention that modeling is currently being done to better estimate releases
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and concentrations during the days immediately following the disaster, but that a
quantitative assessment of potential health effects could not be conducted at this time.
It was noted that the assessment does not address compounds that would be expected to
be present in elevated concentrations, such as organic combustion byproducts, including
polycyclic aromatic hydrocarbons (PAHs) and brominated compounds, as evidenced by
the extremely high dioxin concentrations. It was suggested that EPA discuss PAH data
availability, perhaps in the expanded monitoring section.
Several criticisms were voiced on the asbestos assessment. It was recommended that
EPA: use the Integrated Risk Information System (IRIS) toxicity values for a health-
based assessment, instead of the Asbestos Hazardous Emergency Response Act
(AHERA) approach; revisit raw asbestos transmission electron microscopy (TEM)
monitoring data to convert them from structures per square millimeter (s/mm2) to
volumetric units (structures per cubic centimeter [s/cc]); conduct a risk assessment; and
discuss uncertainties. A more appropriate and health-protective approach would be for
EPA to revisit the raw TEM analyses data to obtain the concentrations of fibers longer
than 5 jim and the air volume data from the sampling. These data can be used to convert
the asbestos data to appropriate volumetric units (s/cc) that can be used in conjunction
with the IRIS asbestos value to conduct the risk assessment. Several of the reviewers
commented that they believed that the results of this assessment would likely result in
slightly more conservative health risk estimates. Reviewers also agreed that there should
be a qualitative discussion of the uncertainties in the risk assessment, due to the inherent
uncertainties in the sampling and analysis of asbestos and the conservative assumptions
used in the risk assessment.
Reviewer discussion on the volatile organic compound (VOC) assessment raised several
issues about the applicability of the VOC monitoring data to assess general population
exposures because of the locations of the samples, type of samples collected (most data
points are for grab samples), and issues related to detection limits. All of these issues
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could impact the conclusions drawn from the assessment. Therefore, EPA should include
appropriate caveats because of the data limitations. Reviewers also suggested that EPA
consider using different benchmarks for the VOC assessment, such as ATSDR
Intermediate Minimum Risk Levels (also considering the toxicity information on which
they are based) with the 24-hour sample data to evaluate potential risks to the general
public, and Short Term Exposure Limits, for site recovery workers (if retained in the final
assessment). Overall, reviewers agreed that VOC concentrations in outdoor air posed
minimal impacts to the general population, but they were concerned about the limitations
of the monitoring data.
The future studies section (Section VII) should add some suggested efforts, including
conducting animal toxicity testing with archived dust samples (e.g., 14- and 90-day rat
inhalation studies and a 2-year rat study to address chronic exposures). Other future
studies should revisit the nonasbestos fibers, PAHs, and other combustion byproducts,
incorporating information from other researchers as available (e.g., health studies at New
York University and PAH analyses from University of North Carolina).
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1. INTRODUCTION
1.1 Meeting Purpose
The United States Environmental Protection Agency (U.S. EPA) Technical Peer Review
Meeting on the Draft Document Entitled: Exposure and Human Health Evaluation of Airborne
Pollution from the World Trade Center Disaster was held July 14 - 15, 2003, at the Sofitel Hotel
in New York, NY. This two-day meeting was organized and hosted by Versar, Inc., for the U.S.
EPA's Office of Research and Development/National Center for Environmental Assessment
(NCEA). The purpose of the meeting was to provide a scientific peer review of the draft
document Exposure and Human Health Evaluation of Airborne Pollution from the World Trade
Center Disaster.
1.2 Background on Peer Review Process
Versar was tasked by NCEA to convene an expert panel and conduct an external scientific peer
review meeting on EPA's assessment document. This effort was conducted under EPA Contract
No. 68-C-02-061, Support for NCEA Peer Review and Risk Assessment Guideline Activities.
This contract provides for support to NCEA on peer review, exposure and risk assessment
document preparation, meeting organization, and related activities. Under this contract, Versar
conducts numerous peer reviews for NCEA of exposure and risk assessment documents. Many
of these reviews are "letter" reviews where documents are sent to experts who provide individual
reviews to evaluate the technical merits of an NCEA product. In some cases, peer review
meetings are held to assemble reviewers to exchange ideas and discuss issues related to a
document, particularly when the product being reviewed is complex or potentially controversial.
Additionally, other reviews provide for reviewer interaction through conference calls. The peer
review of Exposure and Human Health Evaluation of Airborne Pollution from the World Trade
Center Disaster, conducted under Task Order No. 27, was initiated in April 2003, with the goal
of conducting a peer review meeting in New York during the summer of 2003.
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Versar's responsibilities included identification and selection of the experts, organization of the
meeting, and production of the peer review meeting report. These activities were conducted on
the basis of the specifications in EPA's Statement of Work and in accordance with the policies
and procedures established by EPA's Peer Review Handbook (U.S. EPA, 2000). EPA's
Statement of Work called for assembly of a panel of experts with experience in air monitoring,
environmental chemistry, air transport modeling, public and occupational health, exposure and
risk assessment, toxicology, risk characterization, and risk communication. In addition, EPA
specified that reviewers were to have demonstrated expertise with the contaminants that were
evaluated in EPA's assessment (parti culate matter [PM], dioxins, poly chlorinated biphenyls
[PCBs], asbestos, volatile organics, and metals).
On the basis of these specifications, Versar identified more than 50 candidate experts and
selected a final group of seven who had the requisite expertise. A few of the selected reviewers
had experience specific to monitoring and assessing exposures and human health effects of air
emissions from the World Trade Center disaster. In addition to considerations of expertise and
experience, selection was based on the reviewers' availability for the peer review meeting.
Furthermore, the reviewer selection process consisted of screening for conflict of interest. All
seven reviewers were asked a series of questions concerning potential conflict of interest, and
they signed forms certifying that they had no conflicts of interest related to EPA's assessment.
Following Versar's final selection of the reviewers, EPA provided consent that the group of
experts met EPA's requirements.
The members of the seven-person panel assembled by Versar for this peer review were:
Eric J. Chatfield, Ph.D.
Chatfield Technical Consulting Limited
2071 DicksonRoad
Mississauga, Ontario L5B 1Y8
Canada
Michael L. Dourson, Ph.D., DABT (Chair )
Toxicology Excellence for Risk Assessment
1757 Chase Avenue
Cincinnati, OH 45223
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Alison S. Geyh, Ph.D.
Johns Hopkins University School of Public Health
Department of Environmental Health Sciences
615 N. Wolfe Street Room W6010
Baltimore, MD 21205
Gary T. Hunt, M.S., QEP
TRC Environmental Corporation
Boot Mills South
Lowell, MA 01852
Patrick L. Kinney, Sc.D.
Columbia University Mailman School of Public Health
Department of Environmental Health Sciences
60 Haven Avenue, B-l
New York, NY 10032
Margaret M. MacDonell, Ph.D.
Argonne National Laboratory
Environmental Assessment Division
Argonne, IL 60439
Clifford P. Weisel, Ph.D.
Environmental and Occupational Health Sciences Institute (EOHSI)/UMDNJ
Department of Environmental Medicine
170 Frelinghuysen Road
Piscataway, NJ 08854
Following selection of the panel members, Versar's attention turned to selecting a Chair for the
group. As called for in EPA's Statement of Work, the function of the Chair would be to
facilitate the meeting, ensure that the meeting proceeded in a timely and effective manner, and
provide all panel members with an ample opportunity to raise issues and contribute to
discussions during the two-day meeting. The Chair would also assist Versar in developing the
meeting agenda and peer review report. Versar selected Dr. Michael Dourson to serve as the
Chair because of his demonstrated abilities in leading scientific meetings.
Materials were mailed to the reviewers so they could begin their individual evaluations of EPA's
assessment. Versar provided reviewers with EPA's document and instructions for preparing
brief written premeeting comments and EPA provided a list of general questions to help guide
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their reviews. The written premeeting comments were compiled by Versar and distributed to all
reviewers in the week prior to the meeting so they could be aware of what issues had been raised
by the other reviewers and prepare for meeting discussions. During this time, Versar began
working with the Chair to craft a meeting agenda, which was organized according to the major
sections of the assessment report. The agenda also provided for introductory presentations and
question-and-answer sessions to help establish the scope and purpose of the document prior to
moving into more detailed comments on the report. The agenda also set aside four observer
comment periods during the two days to allow the public to provide input regarding EPA's
assessment report.
Plans for the peer review proceeded with identification of a meeting site in New York City for
July 14 - 15, 2003, based on the availability of the peer reviewers. Logistics information for the
meeting was prepared and provided to EPA for inclusion in the Federal Register notice
announcing the meeting. The Federal Register notice, published on June 18, 2003, informed the
public of the meeting, listed logistics information (dates, times, and location), instructed the
public on how to obtain a copy of EPA's assessment, and described procedures to preregister for
the meeting. Versar developed observer preregi strati on procedures to facilitate members of the
public in attending the meeting and making statements during the observer comment periods. A
Web site was developed by Versar (http://www.versar.com/epa/wtcpeerreview.htm) to facilitate
observer registration. Interested members of the public preregistered with Versar via telephone,
fax, email, or using the web site. Approximately 50 people preregistered and approximately 10
people signed up to make statements during the observer comment periods. Prior to the meeting,
observers were provided with the agenda and logistics fact sheet on the location of the peer
review meeting.
Versar conducted observer registration and opened the peer review meeting with a statement of
purpose and ground rules for conducting the review. Versar staff assisted in organizing observer
comment sessions and collecting materials submitted by reviewers. The Chair had the lead
responsibility for conducting the meeting and the observer comments periods. Versar
documented the proceedings via note taking and tape recording, which were used in preparing
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this peer review summary report. This report captures the main points and highlights of the
meeting. It is not a complete record of all detailed discussion, nor does it embellish, interpret, or
enlarge upon matters that were incomplete or unclear. The report summarizes the major
recommendations and suggestions provided by the reviewers, documents reviewer discussion,
and describes other aspects of the peer review meeting, including introductory presentations,
question and answer sessions, and observer comment periods.
1.3 Meeting Participants and Agenda
Attendees at the peer review meeting included the seven peer reviewers (biographical sketches
for the peer reviewers are presented in Appendix A) and about 50 observers (list of observers is
presented in Appendix B). The agenda for the peer review meeting (Appendix C) was developed
by Versar and the Chair to include introductory presentations to provide background and
establish the scope for the peer review, discussion sessions among the reviewers on each major
section of the assessment document, and observer comment periods during both days of the
meeting. In general, the agenda for reviewer discussion followed the organization of the
assessment document. Specifically, the meeting began with a welcome, introductions, and a
presentation highlighting the assessment and major conclusions, which were followed by
extended discussion among the reviewers on the scope, approach, and use of monitoring data in
the assessment. The second day of the meeting continued with reviewer discussion on the
assessment, addressing the major chapters of the report, which present the assessments for each
chemical/contaminant of concern. Over the course of the two-day meeting, four observer
comment periods were scheduled to allow the public to provide input on the document.
1.4 Organization of Meeting Summary Report
This report summarizes the meeting discussions, focusing on the recommendations and
suggestions provided by the peer reviewers.
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The executive summary provides a summary of the peer review meeting,
including a brief list of the major recommendations and suggestions from the peer
reviewers.
Section 2 of this report summarizes the opening presentations and discussion.
Section 3 presents summaries of the major discussion, comments, and
recommendations provided by the reviewers on the assessment document.
Section 4 summarizes the observer comments and statements.
Section 5 contains references cited in this meeting report.
The appendices to this report present written and visual materials from the
meeting, including biographical sketches for the reviewers, list of observers, the
agenda, presentation materials, flip charts produced during the meeting
summarizing major recommendations, and the reviewers' written comments
(prepared before the meeting and, in some cases, revised after the meeting). In
addition, statements and handouts provided by the observers at and following the
peer review meeting are presented.
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2. SUMMARY OF OPENING REMARKS/PRESENTATIONS
Opening remarks and presentations were provided by several of the people responsible for
organizing and hosting the peer review meeting, including staff from Versar, Inc., and EPA's
National Center for Environmental Assessment (NCEA), as well as the meeting Chair.
Presentation materials used in these talks are included in Appendix D.
2.1 Welcome from Meeting Organizer/Facilitator
Mr. David Bottimore, Project Manager from Versar, Inc., opened the meeting by welcoming the
peer reviewers and observers. He provided an overview of the meeting agenda, including a
statement of the goals and intended outcome of the peer review. The objective of the meeting
was to obtain technical input on EPA's document related to the assessment approaches used,
data analysis, and interpretation of the results. Included in these opening remarks were ground
rules and procedures for conducting the meeting. One issue that was emphasized was that
consensus would not be sought; rather, the goal was to seek the individual comments and
suggestions from the peer reviewers. He also clarified the roles of observers, including EPA
staff, and highlighted the time periods set aside to obtain observer comments. These opening
remarks concluded with an overview of the agenda and introductions of the seven peer
reviewers. During the introductions, reviewers provided summaries of their pertinent experience
and disclosed information related to conflict of interest. Following these introductions, Mr.
Bottimore introduced the meeting Chair, Dr. Michael Dourson, Director of Toxicology
Excellence for Risk Assessment (TERA). Dr. Dourson continued the conflict of interest
discussion among the reviewers. None of the panel members had additional questions or
concerns about conflict of interest for the reviewers.
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2.2 Welcome from NCEA Director
Dr. Peter Preuss, Office Director of NCEA, welcomed the panel and observers to the peer review
meeting. He voiced his enthusiasm for the peer review panel that was assembled to provide
feedback on EPA's assessment because of their credentials and experience with the topic areas
and chemicals addressed in the document. EPA increasingly relies on peer review to ensure that
its documents use the best science. EPA was not involved with selection of the reviewers; that
was Versar's role, so the process was as independent as possible. He also welcomed the
observers and stated that he looked forward to hearing their thoughts on the document. During
his introduction he noted that written public comments had been received earlier on the
assessment, and he invited observers to provide additional comments and suggestions. The
ultimate goal is for EPA to receive recommendations and suggestions from the peer reviewers
and observers on how best to improve the scientific content of the assessment, which will be
incorporated by EPA into the final report.
2.3 Chair's Introduction
Dr. Dourson was the Chair for the peer review meeting and served as facilitator. He began his
introduction by describing the peer review process and setting the ground rules. He reiterated
the goal of the meeting and emphasized that technical input was sought from each participant,
noting that there would be no attempt to achieve consensus. Rather, the discussion should bring
out the diverse perspectives of individual experts in the group. He also described the procedure
for the observer comment periods and encouraged observers to provide technical information
that might be of assistance to the panel and to EPA in revising the assessment; observers were
further requested to answer clarifying questions from either panel members or authors at the time
of their presentation. He also permitted reviewers to approach either authors or observers with
technical questions during breaks, but not the reverse. Reviewers were asked to report
significant information from such conversations back to the entire group during the discussion
sessions. Authors were permitted to respond to reviewers' questions and were also permitted to
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ask clarifying questions of panel members, but not to participate in the discussion. He concluded
his opening remarks by reviewing the agenda for the meeting.
2.4 Background Presentation on World Trade Center Assessment
Mr. Matthew Lorber of NCEA provided a presentation summarizing the scope, approach, and
findings of EPA's assessment. He began his presentation with background information on the
development of the assessment, which was initiated at the request of EPA Region 2. The
assessment focuses on outdoor measurements of exposure to the general population and
evaluation of the potential human health effects. The contaminants evaluated include paniculate
matter (PM), metals, polychlorinated biphenyls (PCBs), asbestos, dioxin, and volatile organic
compounds (VOCs), which were monitored by EPA and other organizations following the World
Trade Center collapse. His presentation summarized the principal findings from EPA's
assessment, including specific conclusions for each chemical/contaminant of concern. Included
in this discussion were the available monitoring data and approach for evaluating potential health
effects. This approach relied on the use of health-based screening benchmarks and traditional
risk assessment procedures, according to available data for each chemical. Although some
chemicals were found at elevated concentrations in the time period following September 11,
most returned to background concentrations in the following months. He concluded his
presentation by noting lessons learned with respect to monitoring and assessing exposures and
health effects. He also reviewed some general charge questions for the peer review panel to
consider during its deliberations.
2.5 Peer Reviewer Question and Answer on Background Presentation
The peer reviewers asked clarifying questions, which introduced many of the topics that would
be discussed in further detail over the course of the two-day meeting. Some of these questions
were raised prior to the meeting by reviewers in their individual comments (Appendix F). Most
of these initial comments pertained to the scope, approach, and overall purpose of the
assessment. Specifically, reviewers raised questions about the target audience for the document,
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selection of the contaminants of concern, and breadth of issues that are addressed in the report.
Several reviewers inquired about EPA's purpose for the document relative to the various issues
that the report addresses. Consideration was given to the idea that the document might benefit if
it were to focus on the outdoor ambient air exposures to the general public, leaving other issues
to be assessed in separate documents. Reviewers questioned the assessment's focus on
inhalation exposures, noting that there are concerns about dermal contact, ingestion, or
secondary inhalation exposures from indoor dust. The Chair concluded this questions session by
reminding reviewers that these issues would the topics for more in-depth discussion during the
rest of the meeting.
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3. DISCUSSION SESSIONS
This section presents reviewer discussion on EPA's assessment, organized according to the
major sections of the document. Subsections include brief summaries of major
recommendations and suggestions, followed by more detailed presentation of the discussion.
3.1 Purpose and Scope of Assessment
The reviewers began their discussion by addressing the overall purpose and scope of the
assessment and report. Most reviewers suggested that the purpose and scope of the EPA study
be clarified to explicitly state that this report emphasizes ambient (outdoor) air quality and
inhalation exposures to the general population. It does not focus on occupational (e.g., rescue
and recovery worker) risks or secondary indoor air exposures. It was recommended that the
language be clarified so the reader would get the proper impression of the report's purpose and
scope. Several reviewers noted that secondary exposure to indoor dust should be examined, but
that might be the focus of another (or subsequent) report. Another reviewer pointed out that the
report does a good job of identifying other issues and studies that might be of interest to readers
but agreed that this report should be kept more focused on ambient (outdoor) concentrations to
which the general population might have been exposed and the potential health effects.
One reviewer noted that the document does an adequate job of summarizing ambient
concentrations of contaminants following the World Trade Center event and of indicating when
levels had returned to background. It was pointed out that the document does have a short
section on indoor and occupational exposures, but they are secondary to the ambient air
assessment for the general population. Although a few reviewers felt that the indoor air section
should be significantly expanded to provide the data and assessments that these topics warrant,
other reviewers recognized that this report cannot be comprehensive. Another reviewer offered
the opinion that indoor air issues are totally different because of the nature of the particles and
should be addressed separately. As a result of this discussion, most reviewers felt that the
document would be better served by keeping the focus on ambient exposures. The indoor air and
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occupational exposures are important, but they should be addressed in a separate assessment, and
with other organizations who have been involved in these issues. EPA was encouraged to
complete this outdoor air assessment as quickly as possible while expanding associated efforts
on the indoor and occupational issues and perhaps convening an independent group to analyze
the indoor air data (e.g., the National Academy of Sciences). If there are plans to do such a
separate assessment, then the current section in this report can be kept brief or even removed so
that it does not confuse the reader or distract from the main purpose of this assessment.
Following this discussion, it was suggested that the title of the report be changed to reflect the
focus on ambient (outdoor) air monitoring, general population exposures, and the potential
health effects (both short- and long-term endpoints). Another suggestion was that the executive
summary be revised and expanded, such that it could be used as a stand-alone document, because
many readers will not take the time to read the entire report.
Reviewer discussion raised the importance of completing and releasing this document as soon as
possible, while referencing the other issues and on-going studies that are being performed. One
idea proposed was that the document could be a "living text," updated with new information as it
becomes available. The final report could be considered an interim report, which links this
report to studies being conducted by other groups (e.g., EPA Regions, Occupational Safety and
Health Administration [OSHA], National Institute for Occupational Safety and Health [NIOSH],
Agency for Toxic Substances and Disease Registry [ATSDR], National Institute of
Environmental Health Sciences [NIEHS], etc.) that will be published at later dates. The final
report would include mention of the occupational studies, indoor air assessments, evaluations of
other exposure routes, epidemiological assessments, and modeling efforts (used to "back
calculate" concentrations and exposures immediately following the September 11 disaster,
before monitoring was initiated) that are ongoing. Most reviewers agreed with these suggestions
and encouraged EPA to continue associated efforts and issue other reports at later dates. Two
reviewers agreed to provide lists of on-going health and epidemiological studies.
A suggestion was made that the document be restructured so as to explicitly lay out the subject
matter in a more linear fashion, particularly with respect to the monitoring data. One reviewer
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suggested that the document expand and reorganize the presentation of information on the
monitoring that had been conducted. The document would be clearer if the monitoring section
(Section III) included background on the purpose of different data collection efforts, including
information on how decisions were made, why they were made, and the purpose for which the
data were to be used. There is a lack of clarity on the process and how the monitoring efforts
evolved over time. Readers would better understand the data and the challenges in trying to
assess the data for exposure and risk assessment purposes if this discussion were to be reworked
in this manner. The report should outline the process and highlight what can be learned (and
what cannot be learned) from the data collected, recognizing that data are very limited.
It was also emphasized that ambient air data are not available for the first few days immediately
following the disaster, with the exact delay until sampling varying by the contaminants
monitored. Therefore, conclusions cannot be drawn about the potential impacts from exposures
during that time period. Including this information would also help to explain the lessons
learned with regard to the data collection process and planning to be more responsive in the
future.
3.2 Exposure Assessment and Risk Characterization Approach
Reviewer discussion on the exposure and risk characterization approach focused on (1)
identifying and selecting of public health protective benchmark values, (2) defining the
populations addressed in the exposure assessment, and (3) describing the potential short- and
long-term health effects that could result from concentrations that exceeded applicable
benchmarks.
One reviewer encouraged EPA to describe the process used to select the screening benchmark
values, such as a ranking system or hierarchy, to choose among available values. It was
recognized that not all contaminants have benchmark values available, but when more than one
is available, the reader should understand the basis for EPA's selection. This reviewer suggested
noting which benchmark value was being used, and whether that was the preferred value or not
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and explain why. Several reviewers agreed and suggested that the process be clearly delineated
and the context for decisions be made clear. It was felt that the report should provide a basis for
the benchmarks used; indicate whether acute, subchronic or chronic values were available; and
explain how they are tied to the target population being assessed. The issue was particularly
evident for the use of occupational screening values to evaluate potential impacts to the general
population. Although some reviewers felt that occupational exposure limits should not be used
to assess general population exposures, others felt that they could be used if adjusted for
exposure duration and sensitive individuals. The report should describe when such values were
used and how they were derived.
Although a few reviewers advocated derivation of new benchmarks when no applicable values
are available for a chemical, others cautioned against generating new values that have not been
peer reviewed. EPA could consider deriving new values or using benchmarks derived by EPA
Region 2 for its study (WTC, 2003), but the preference is to use existing values. Reference
concentrations (RfCs) are particularly applicable for assessing chronic effects for short-term
exposures. Reviewers reiterated that it is important that the processes for identification,
selection, and adjustment of screening benchmarks be transparent to the reader.
Discussion continued on the interpretation of potential health implications from benchmark
exceedances (first paragraph on page 16), particularly on the level of conservatism of such a
screening assessment. One reviewer suggested that the document provide more information to
the reader on the meaning of such comparisons with respect to the magnitude of the exceedance,
time frame (acute or chronic exposures), and also the endpoint (health effect) that would be of
concern. Discussion should address the potential implications of exceedances for acute and
chronic exposures and include an indication of the number of samples that exceed the
benchmark. Such qualitative information (e.g., whether there is only one high data point and all
others are well below the level of concern) would help to assess the magnitude of concern. One
suggestion was to add a table showing the benchmark values, their source/how they were
adjusted, and the health endpoints of concern. Similar discussion and guidance should be
provided to the reader on the utility of comparisons to monitoring data collected previously or
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from other areas that are intended to represent background. One reviewer cautioned that it is not
necessarily true to say that if concentrations were below benchmarks that there are no health
effects. Issues related to chemical mixtures could be discussed in this section, where exposures
to multiple chemicals having the same endpoints might be of concern. Reviewers suggested that
EPA look at their chemical mixtures guidelines, cumulative risk issues, and MIXTOX
database on interactions, additivity, and antagonism among chemicals. It was
recommended that EPA acknowledge and discuss the mixtures issue qualitatively but
recognize that the data are probably not sufficient to do a quantitative analysis.
Reviewers also reiterated the need to clarify in the exposure and health assessment approach
section (Section II) that the exposed population being evaluated is the general public and not the
rescue/recovery workers inside the restricted zone and that secondary indoor exposures are not
assessed. A suggestion was made to improve the clarity of the map depicting the restricted
zones in Figure 1 and tie in the receptor/exposure scenario information presented later on page
78. Again, such a presentation at this point in the document would help the reader to gain a
clearer picture of the specific populations being assessed with these datasets and to whom it
applied (and to whom it does not). A question was brought up as to how the area was restricted
and whether the general population could have gotten back into the restricted areas, such that
they might have been exposed to elevated concentrations. There is a need to clearly state in the
report what receptors are assessed (and not assessed, such as rescue workers) in this document so
that this is clear to the reader.
During the discussion of the exposure and risk characterization approach, one of the reviewers
pointed out that, for the asbestos assessment, the Asbestos Hazardous Emergency Response Act
(AHERA) method should be removed and health-based values from Integrated Risk Information
System (IRIS) be used. The AHERA level of concern value (70 s/mm2) is not a health-based
benchmark (it is a technology-based value), and it should not be used. The only drawback is that
the IRIS value does not include short fibers, so the assessment would have to leave those out.
Regardless, this reviewer suggested that using transmission electron microscopy (TEM) data and
the IRIS approach would result in a more health-protective assessment. Another reviewer added
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that the TEM method is inherently conservative, because it will likely identify more fibers than
is generally possible using phase contrast microscopy (PCM). Several reviewers agreed that this
approach would be preferred because of the additional protectiveness.
3.3 Monitoring Data
Suggestions were provided for reorganizing and expanding the monitoring discussion (Section
III) of the document to better introduce the scope of the monitoring effort and the data available
for the exposure and risk assessment. By expanding the section and providing additional
information, this section could provide a better basis for the subsequent exposure and health
effects evaluation in Section IV. Information should be included on the purpose of each
sampling station, analytes monitored, start and end dates of sampling, frequency of sampling,
and sampling periods with missing data. These descriptions should include qualitative
information as well as details on analytical methods and quality assurance efforts. This
reorganization would expand the section by approximately 10 pages by moving forward
information from the evaluation discussion in Section IV. It should also include the table of
monitoring locations and pollutants measured presented in Appendix B of EPA's assessment
report. This table could be rearranged by contaminant to be more intuitive, which would help to
set the stage for the subsequent use of the data to assess exposure and risks to specific
populations. As a result of this proposal for reworking this section, a reviewer suggested that
perhaps the section be re-named something like "Environmental Monitoring Program Design."
The reviewers agreed that by expanding this section to better describe the monitoring conducted,
questions could be answered as to why certain chemicals or data were not included in the
assessment. One reviewer noted that the document should point out whether some data were not
included because they were not collected under similar conditions and using comparable
protocols. Expanding this section with additional discussion would provide better context for
including or excluding data in the assessment, such as data collected from locations that might
not represent general population exposures, (e.g., grab samples taken close to Ground Zero in the
restricted zone). Reviewers agreed that the changes suggested would improve this section by
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providing a clearer presentation of the data used in evaluating exposures and risks. Providing
more information and consolidating the presentation in one section of the document would give
the reader a more complete picture of the monitoring data available for the exposure and health
evaluation. The section should also mention those chemicals that were not monitored for (or for
which data are insufficient for the assessment).
It is important that EPA's document clearly present discussion on the utility and limitations of
the available monitoring data, particularly in terms of their end use for evaluating exposures and
potential health effects. Reviewers reiterated that the section should be expanded and
reorganized to present the rationale for the monitoring sites, identifying the purpose of each
site/sample, and adding timelines and descriptions of how many and where data/samples were
collected. One reviewer suggested that additional figures be added to the report, such as
timelines and graphics showing in more detail the location of monitoring sites (denoted by
alphabetized lettering in maps) for each contaminant, explaining how they were chosen and why.
It was also suggested that a discussion of meteorological conditions be included in this section,
to better explain the behavior and movement of the plume over the time periods corresponding to
elevated concentrations at particular locations. The reader needs to understand whether elevated
concentrations at monitoring sites could be attributed to increased emissions or whether they
were due to meteorological conditions. Such information would help to provide more context
for the spatial and temporal trends in concentrations and evaluation of the data from broader
geographic scales.
3.4 Particulate Matter
Commentary from the reviewers on the PM assessment was extensive, questioning the
applicability of the PM2 5 monitoring data and PM2 5 National Ambient Air Quality Standards
(NAAQS) benchmark for evaluating the potential health effects of the PM. Several reviewers
challenged the use of the PM25 values because of concern for the health effects of larger particles
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(including glass fibers) that exhibited alkaline characteristics. Suggestions were made to
examine monitoring data for larger PM and to determine an applicable health-protective
benchmark. Additional comments on this section called for examination of dusts for combustion
byproducts such as polycyclic aromatic hydrocarbons (PAHs), which would be expected to be
present in elevated concentrations.
One reviewer stated that this section overall was well written and was comprehensive but
brought up two specific points during this initial discussion. The first point was that there is text
that discusses estimating exposures from the results of tests conducted to resuspend particulates
from settled dust. Although this is valuable information, it should be noted that it is difficult to
recreate fine aerosol from resuspended dust, and resulting data will be biased toward particulate
sizes that are larger than the original airborne PM. This needs to be stated as a caveat in the
report.
The second point was that the PM assessment should be expanded to include coarse particles
(>2.5 //m). There are some PM10 monitoring data, but they are not extensive, and there needs to
be an explanation of what the potential health implications might be from all PM. There are
respiratory health effects being identified, but the PM2 5 numbers do not indicate a problem. This
reviewer stated that this discrepancy could be attributed to the characteristics of the particulates
released from the collapse of the World Trade Center buildings. Specifically, there was an
unusually large proportion of larger particles composed of glass fibers and having high alkalinity
that may pose acute and chronic respiratory effects. It was suggested that PM10 monitoring data
be examined to determine whether they could be incorporated into the assessment. Several
reviewers agreed with this suggestion, noting that some PM10 data are available. Another
reviewer agreed with the statement about the high concentrations of the larger particle sizes
found in the dust but noted that much of it is even larger than PM10 (ranging from 10 to 53 //m)
from settled dust sampling by Lioy et al. (2002).
Several reviewers discussed the use of a more appropriate health protective benchmark than the
PM2 5 NAAQS standard or the Air Quality Index value. Reviewers noted that the PM10 NAAQS
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standard is higher than the PM25 benchmark, but because the concentrations of the larger
particulates are believed to be significantly higher, the assessment might find more exceedances.
Furthermore, because the respiratory irritation was caused by these particles, there is even more
of a concern than what would be expected for "typical" PM, which might call for an even more
protective benchmark than the PM2 5 or PM10 values. Looking at total suspended particle (TSP)
standards or occupational benchmarks might be worthwhile to determine an applicable screening
value for this unique PM. Several reviewers noted that the particulate characteristics changed
over time (after initial collapse, after resting, later from fires, etc.), so this assessment gets very
complicated.
Several reviewers considered the utility of conducting toxicity tests on the dust (e.g., 14- or 90-
day rat inhalation studies), which could be used to derive a site-specific benchmark, but such an
effort would be costly and time consuming. The reviewers concluded this PM discussion by
suggesting that EPA consider these comments and revisit the issue to determine whether a more
health-protective screening benchmark (in addition to PM2 5 and PM10 values) could be
determined that could be used in conjunction with the available PM monitoring data, providing
increased attention on the potential health effects of the larger particles.
Another reviewer voiced concern that the dust would be expected to contain elevated
concentrations of organic combustion byproducts such as PAHs and brominated compounds, as
evidenced by the extremely high dioxin concentrations. The reviewers questioned EPA as to
whether there are data available on PAHs that could be used in a manner similar to the write-ups
of other contaminants. It was stated that there are no concurrent PAH data but that it would be a
separate data set. There were limited PAH data available during the preparation of this report,
but since then, more have become available. EPA noted that there was no real ambient
measurement of PAHs; there were only two sample days in November 2001 and then regular
sampling from January 2002 through May 2002.
It was suggested by reviewers that a qualitative discussion of the new PAH data be included in
the report. A reviewer suggested that EPA should discuss the availability of PAH data in the
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methods section so that the audience is aware of what data were collected and were available for
use in the assessment. Another suggestion was made by one reviewer that the dust be
reexamined to determine the composition and concentration of PAHs and related organic
combustion byproducts. Many organic compounds persist in the environment and PAHs would
still be in the dust samples collected. It was recommended that the dust samples be analyzed for
other organic combustion byproducts that could substantially increase estimated risks.
Alternatively, if toxicity testing were to be conducted on the dusts, it might more accurately
reflect the cumulative effects from contaminants that had not been characterized and for which
no benchmarks are available. The reviewers felt that such tests might be worthwhile in the
future but that other approaches could be used in the short term for this document.
In subsequent discussion, reviewers raised miscellaneous comments related to the PM section.
One reviewer suggested that the 1976 New York University (NYU) Medical Center monitoring
data (included in Table 2 on page 43) be moved to a different table, separate from the 2000
values, and be more clearly described as providing historical context on background levels.
Another reviewer, reflecting back to previous discussion, suggested that pie charts be added to
the presentation, showing information on particle size distribution and composition of PM.
Other comments reflected on the difficulty in characterizing exposures, especially in the first few
days following the disaster, before monitoring was initiated. Additionally, there were some
regional episodes in the following weeks when concentrations were elevated in areas away from
Ground Zero, which could have been due to transport of the plume. One such episode occurred
in early October, but the data were suspect. To help assess the PM issue in more detail, one
reviewer offered to examine in more detail the PM data from three perimeter monitoring sites
(particularly an October 2, 2001 data point that appeared to be suspect). Another reviewer
volunteered to do some research to see whether any health-based benchmark values exist for
glass fibers. This reviewer reported later that NIOSH has an occupational exposure limit of 3
fibers/cm2 for glass fiber.
Discussion concluded with the Chair asking the reviewers whether they agreed with the
conclusions presented in EPA's report. It was agreed by the reviewers that EPA's conclusion
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bullets, presented on page 2 of the assessment, would hold true for PM25 However, reviewers
were concerned about larger particulates and the need to evaluate PM10 monitoring data against a
site-specific PM10 benchmark that would account for the unique composition of the particles
released from the World Trade Center collapse and fires. Reviewers generally agreed that the
greatest risks were from exposures in the time period immediately following the collapse and
that PM levels to which the general public would be exposed decreased after a few weeks. They
agreed that it was tough to apply such broad conclusions to a particular contaminant and
suggested that if contaminant-specific conclusions are presented in this manner, that more
precision should be applied to the statement of the time frame before levels returned to
background.
3.5 Metals
The reviewers discussed the assessments for those metals that were reported to be contaminants
of concern: lead, chromium, and nickel. In general, reviewers found that EPA's assessments for
metals were acceptable and agreed that, with the exception of small exceedances in the first few
days, metals were generally not of concern.
The first metal addressed by the panel was lead. One reviewer suggested looking at the source
of lead and indicated that the discussion on lead was good but there was a need for more fate and
transport information. A question was raised as to the bioavailability of the airborne lead in
comparison to the types of sources to which the NAAQS standard would typically be applied.
The bioavailability would depend on the form present which would be a result of the type of
source. If the bioavailability were lower, then the dose resulting from a similar concentration
would be lower (making the assessment more conservative). Two reviewers discussed this issue
and suggested that EPA look further into the relative bioavailability of lead in the ambient air
samples collected. In discussing this issue in more detail, the question was raised as to whether
the lead concentrations observed were a product of particulates or combustion. Several
reviewers hypothesized that lead was likely combustion generated, because it was found
predominantly in the 2.5 //m fraction, and concentrations decreased fairly quickly. Reviewers
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generally agreed that, with the exception of small exceedances in the first few days, outdoor air
exposures to lead was not of concern. Another reviewer agreed with this statement and pointed
out that the event contributed little exposure relative to background exposures, especially relative
to historic lead concentrations.
The next metals discussed were chromium and nickel. Several suggestions were made that are
applicable to all the metals, such as presenting graphs with the tables that summarize the metals
concentration data (such as Table 2). Such a visual presentation would help the reader to see
that metals levels were generally not above background concentrations. Similarly, it was
suggested that the graphs of chromium and nickel concentration data in Figure 18 include
notations on where the benchmarks and background levels would be, much like what was done
in the PM graphs. One reviewer suggested that EPA review data from the Speciation Trend site
(operated by the New York State Department of Environmental Conservation, on Canal Street)
to show background levels of metals from 2000 to the present. It was also suggested that trace
metal data be included in the report even if they were below detection levels.
Comments on the chromium and nickel assessments were favorable, with reviewers generally
agreeing with the approach and conclusions that these metals are of low concern. Questions
were raised briefly on whether the benchmarks selected for chromium and nickel were the best
available, and whether EPA has newer reference concentrations (RfCs) for these compounds that
could be used instead of the OSHA Permissible Exposure Limit (PEL) and ATSDR Minimum
Risk Level (MRL) values. It was later clarified that there is an RfC for hexavalent chromium,
but that the one for nickel was only in draft form.
Several reviewers stated that the data do not seem to indicate elevations of chromium and nickel
above background levels and therefore felt that EPA's conclusions were correct, though they did
question what the source of nickel might be. Another reviewer pointed out that nickel is a fuel-
related element that is commonly present whenever there is a fuel combustion source. One
reviewer stated that the plots for chromium and nickel for the 2.5 //m fraction do not follow the
other plots and suggested that the monitored concentrations might not be attributable to the
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World Trade Center. Another reviewer pointed out that the third paragraph on page 33, which
talks about all metals and elements, states that chromium, arsenic, antimony, potassium, and zinc
all had ambient air concentration peaks in late November. The reviewer stated that these
elevated concentrations might be associated with the World Trade Center but could also be due
to other sources. Another reviewer stated that the graphs on page 55 show that concentrations of
metals and halides track with the World Trade Center collapse and seem to be indicative of
combustion sources. The reviewer felt that the report should also mention that there were
significant sources of chlorine and bromine in the World Trade Center prior to the collapse (e.g.,
PVC wire coating and perhaps bromine flame-retardant material on the furniture). It was
suggested that the report present data for other trace metals, even if the levels are low or below
detection limits.
3.6 Polychlorinated Biphenyls (PCBs) and Dioxins
3.6.1 PCBs
Reviewer comments on the PCB assessment generally focused on the benchmarks used for the
noncancer assessment and the suggestion that the occupational benchmarks used should be
adjusted for application to general population exposures. The results for the assessment could
change as there might be exceedances if adjusted benchmarks are used. The reviewers found
EPA's cancer assessment for PCBs to be acceptable, agreeing that cancer risks would be well
below levels of concern. Additional comments were made on the presentation of the PCB data
and the need for more discussion of organic combustion byproducts such as PAHs and
brominated compounds.
One reviewer observed that there are not a lot of benchmarks available for PCBs; there are no
subchronic or acute MRLs and no subchronic or acute RfCs. The reviewer suggested
considering deriving a new benchmark based on available no-observed-adverse-effect-levels
(NOAELs). There is already good information on the bottom of page 68 that could be used in
setting a safe margin of exposure (MOE) or dose. Alternatively, the assessment of noncancer
effects could be based on the NIOSH Recommended Exposure Level (REL) and OSHA PEL
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occupational benchmarks, but those values should be adjusted for exposure duration and
susceptible populations if they are to be health protective for the general population. This
reviewer estimated that comparison of ambient air concentrations with either of these adjusted
benchmarks might result in some exceedances.
Another reviewer noted that the rationale and description for adjusting occupational benchmarks,
to make them more appropriate for assessing general population exposures, should be introduced
earlier in the document, in Section II, the exposure and health assessment approach. Another
reviewer noted that some of the PCB samples were taken close to "the pile," which might
provide concentration data that are more representative of rescue/recovery worker exposures; in
this case, occupational benchmarks could be used, but with an adjustment for exposure duration
(because recovery workers were present for much more than the typical 8 hrs/day and 5 days/wk
used in deriving occupational benchmarks).
Other comments on the PCB section included identification of a missing value in Table 3 (PCB
monitoring data from September 2001 to April 2002) for the November 2, 2001 sample at
Barclay and West Broadway. Another comment provided on the location of PCB monitoring
stations in Figure 21 questioned the sampling site numbering and whether it matches the official
designations for the World Trade Center buildings (i.e., WTC Building #5). One reviewer noted
that the report identifies the likely fact that PCBs were in the building and that levels found were
in some cases higher than those in ambient air. This reviewer felt that the levels and extent of
PCB contamination were well characterized in the report. It was reiterated that various types of
organic compounds that were found to be present in the buildings can participate in the creation
of a variety of combustion byproducts, such as brominated compounds, which have not been
characterized and could contribute to elevated risks. Several reviewers agreed that this larger
issue should be discussed in the expanded monitoring section to clearly state what data are
available and which compounds that might be a concern have not been characterized. One of the
reviewers emphasized the importance of introducing such issues early in the document, in the
monitoring section, to reduce the complexity of the exposure and risk evaluation discussion.
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Reviewer discussion on PCBs concluded by reiterating that EPA's cancer risk assessment
appears to be accurate, finding risks to be well below levels of concern. The noncancer effects
assessment should be revised by revisiting the benchmarks used, which might change the
conclusions.
3.6.2 Dioxins and Related Compounds
Reviewer comments on the dioxin assessment addressed (1) issues related to the monitoring
data, particularly with respect to detection limits and presentation of the available data, (2) the
approaches used for the cancer and noncancer assessments, and (3) exposure factors used for
inhalation rate and exposure duration, particularly for the occupational worker assessment. In
general, the reviewers found this section to be well done and requested that EPA improve the
presentation to make this complicated assessment more accessible to the reader.
Initial discussion on the dioxin section focused on monitoring methods and detection limit
issues, which resulted from two types of sampling that were used. Several reviewers questioned
the applicability of some of the monitoring data that had high detection limits, but they
ultimately agreed that EPA used the available data in an appropriate manner. Although
reviewers did have concerns about the data, they recognized that dioxin levels were extremely
high during the first few months, so detection limit issues were not of major concern until later,
as levels decreased. Reviewers suggested that the discussion be clarified, both in the Section III
monitoring methods section as well as in this section (particularly Table 4, which summarizes
dioxin toxicity equivalent [TEQ] concentrations at three monitoring locations). This should
provide a better characterization of the limitations of the data and the impact of the high
detection limits for select samples at WTC Building #5 and Church and Dey during the first few
months. In addition, the Park Row data should also include detection limit information.
Reviewers also asked that EPA reorganize Table 4 to make the dates comparable across the three
dioxin sampling locations. Reviewers also commented that EPA should provide its rationale for
using half the detection limit, which is commonly used, instead of other possible approaches for
dealing with nondetects. These comments also pointed out certain data points (e.g. 10/11 at
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WTC Building #5), where most of the dioxin TEQ was contributed by non detects.
Reviewers also questioned why the highest measurements that were observed on
September 23 were used to extrapolate back to earlier time periods when no data were
available. One reviewer felt that it would be better to state that concentrations are
unknown from the time period before monitoring was conducted, as was considered for
other chemicals. This discussion should be included up front in Section III and reiterated here.
The reviewer added that the document should state that modeling is currently being done to
better estimate dioxin releases and concentrations during the first 10 days but that no assessment
of potential health effects should be conducted at this time. Reviewers concluded the discussion
of the dioxin monitoring data by reiterating that the table and text should provide more
clarification on these issues.
Comments on the dioxin cancer and noncancer health assessments were generally positive, with
requests that EPA clarify the approaches used. One reviewer noted that the dioxin cancer
assessments were straightforward for estimating risks from short-term exposures. It was noted
that a short qualitative discussion should be added to differentiate between potential impacts to
different populations, such as the difference between a short-term, high exposure to children
versus to the elderly. For the noncancer assessments, one reviewer commented that EPA's
approach using an MOE based on body burdens should be described in more detail because it is
atypical from approaches used for other chemicals. This MOE (the ratio of body burden where
effects are found divided by a body burden at a level of interest) discussion might also benefit
from the addition of information on background body burdens, as well as levels at which effects
would be of concern. Such a discussion would give context for the degree of concern one might
have from a 10% increase in body burden. It might also be noted that uncertainties related to
this analysis, including animal-to-human extrapolation, could add another 10-fold factor, which
might start to approach body burdens where effects might be observed. One reviewer would
have liked to have seen a comparison of dioxin levels with health-based benchmarks but
recognized that EPA does not have noncancer reference values for dioxin. This reviewer asked
that EPA consider examining the World Health Organization's tolerable daily intake for dioxin
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to see if it might be appropriate if adjusted for this application.
Overall, reviewers found the dioxin health effect analyses to be acceptable, but a few reviewers
suggested that EPA revisit a few exposure factors used in the occupational exposure assessment.
Specifically, several reviewers suggested that a higher exposure frequency be used (12 hrs/day
and 7 days/wk) because it has been well documented that recovery workers were on site for
extended periods, with few days off. Similarly, because of the strenuous work performed,
reviewers suggested that EPA consider using an inhalation rate higher than 1.3 m3/hr, possibly as
much as twice that value. One reviewer also added that the inhalation rate for the residential
receptor, 0.55 m3/hr, might be increased to 0.7 m3/hr. Reviewers suggested that EPA revisit
these inhalation rates by consulting Exposure Factors Handbook. It was acknowledged,
however, that if these exposure factors were changed, the results would be only slightly
impacted.
An issue was raised during discussion of the dioxin occupational assessment, and discussed in
more detail during other portions of the meeting, was that the focus of this report should be on
general population exposures. Occupational exposures should be the topic of another document,
where a more extensive assessment can be undertaken; therefore, it might benefit this document
to move some of these analyses to an appendix. Also during this session it was suggested that
the document set aside a subsection on chemical mixtures and cumulative risk because of
concerns about interactions among chemicals. Although quantitative analyses, such as
calculating hazard indices across multiple contaminants, might not be conducted for this report,
it should be mentioned for consideration in future studies. The assessment approach section
(Section II) would be an appropriate place to introduce these concepts.
3.7 Asbestos
Several criticisms were voiced on the asbestos assessment. It was recommended that EPA use
the IRIS toxicity values for a health-based assessment, instead of the AHERA approach; revisit
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raw data to convert them from s/mm2 to s/cc; conduct a risk assessment (similar to what was
done for dioxin); and discuss uncertainties.
One reviewer expressed concern over EPA's use of the AHERA standard as the benchmark
because it is not a health-based value, but rather is based on practicality of measurements in
asbestos abatement. This reviewer reiterated that the overall approach should be changed to a
more appropriate procedure for outdoor (ambient) air and risk assessment purposes. This would
also call for converting the monitoring data presented in s/mm2 (used for the AHERA approach)
to volumetric units (s/cc or s/mL) for use in the risk assessment with the IRIS unit risk value.
There were concerns about the use of PCM for measurement for ambient air samples, because it
could frequently lead to misleading conclusions. The preferred method for ambient (outdoor) air
would be TEM, which is more sensitive and provides more reliable results for outdoor samples
that have high concentrations of other fibers. This reviewer acknowledged that the existing
measurement data can be used for the assessment, possibly by considering calculating an average
of concentrations for the PCM and TEM measurements. EPA should revisit the raw TEM
analyses data to obtain the concentrations of fibers longer than 5 jim and the air volume data
from the sampling. This information can be used to convert the asbestos data to appropriate
units (s/cc).
Additional discussion among several reviewers supported using the IRIS value for the asbestos
risk assessment. One reviewer provided an overview of the suggested approach, which would be
to use the converted data (reported in s/cc) and the IRIS toxicity value (4xlO"5 fibers/mL at a
target risk value of 1 in 100,000). The assessment should also take into account the less-than-
lifetime exposure duration, distinguishing between the lifetime exposure duration used in
deriving the IRIS value (similar to how an assessment would be done for children). This
approach would be similar to what EPA used for the dioxin risk assessment. Several of the
reviewers commented that they believed that the results of this assessment would likely result in
slightly more conservative health risk estimates. Reviewers also agreed that there should be a
qualitative discussion on the uncertainties in the risk assessment due to the inherent uncertainties
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in the sampling and analysis of asbestos and the conservative assumptions used in the risk
assessment.
One of the reviewers also revisited the issue of glass fiber and mineral wool raised earlier in the
PM discussion, acknowledging that these are large-diameter fibers (unlike those of asbestos) that
can pose respiratory impacts. This reviewer reported that NIOSH has an occupational exposure
limit of 3 fibers/cm2 for glass fiber, which could be adjusted for application for the general
population. Concentration data for glass fiber could be obtained from the filters collected for
asbestos measurement, and a qualitative assessment could be added to the discussion to address
potential health effects. Another approach, which would require more work, would be to use the
PM2 5 teflon filters and do an indirect analysis. Such an indirect analysis would be more of a
future effort rather than being useful for this assessment. Several reviewers attempted to
characterize potential risks from the glass fibers, which may be responsible for some of the
respiratory irritation effects. One reviewer commented that there could be some exceedances for
glass fibers, especially for the recovery workers, but less so for the general population.
Conclusions for asbestos could not be addressed because of the need for these additional
analyses.
3.8 Volatile Organic Compounds
Reviewer discussion on the VOC assessment raised several concerns about the utility of the
VOC monitoring data to assess general population exposures because of the locations of sample
collection, type of samples collected (most data points are for grab samples), and issues related
to detection limits. All of these issues could impact the conclusions drawn from the assessment;
therefore, EPA should include appropriate caveats because of the data limitations. Reviewers
also discussed the benchmarks that should be used to characterize risks to the general public and
site recovery workers (if retained in this assessment). Overall, reviewers agreed that VOC
concentrations in outdoor air posed minimal impacts to the general population, but they were
concerned about the limitations of the monitoring data.
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One reviewer stated that the discussion on VOCs was very clear and well laid out, but this
reviewer did have some concerns with using the data sets provided to draw conclusions on
exposures and risks to the general populations. This reviewer added that most of the VOC data
are from grab samples, which were not collected to characterize exposures but were intended to
inform recovery workers within the restricted zone of the location of hot spots. As a result, the
locations for most of the sampling were near the sources and plumes of smoldering fires, so they
are not well suited for characterizing exposures for the general population (or even for recovery
workers). Although grab samples of VOCs can be valuable for indicating high levels at certain
locations and give an indication of which chemicals are present, 24-hour samples would be much
more appropriate for an exposure assessment. Several reviewers were concerned about the
possibility of inaccurate representation of VOC exposure from grab sample data.
After discussing the extent of the VOC grab samples, some reviewers felt more comfortable that
there was reasonable spatial and temporal coverage, such that the data could be used as an upper
bound estimate, with the proper caveats. Several reviewers reiterated the importance of
presenting this information in the revised "monitoring design" section of the document to help
the reader to understand the limitations of the data sets before they are used for the exposure and
risk assessment. The reviewers also inquired about the extent of the 24-hour samples,
discovering that those data sets were limited to one day in late September 2001 and a few days in
December 2001. Reviewers concluded that use of the available data, which are mostly grab
samples, would be acceptable if the appropriate caveats are included in the discussion on the
limitations of the data. This should acknowledge that there are few exceedances, even using the
grab sample data, that would be expected to be higher than levels to which the general
population would be exposed. For the health effects assessment, reviewers advocated the use of
the ATSDR Intermediate MRLs (also considering the toxicity information on which they are
based) with the 24-hour samples to evaluate potential risks to the general public. Another
reviewer suggested that the grab samples would be useful for comparison to Short Term
Exposure Limits (STELs) to assess risks for recovery workers (if retained in the assessment).
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In general, reviewers found the conclusions to be acceptable, noting that only benzene would be
of slight concern from the grab samples. When using the 24-hour samples, there were no
exceedances, based on the ATSDR acute and intermediate MRLs. One reviewer identified a
potential problem with detection limits for benzene, which raised additional concerns about the
conclusions. Several reviewers suggested that the last sentences dealing with benzene on page
110 be revised or deleted, because the conclusion states that exposure to the general population
within the restricted zone was minimal, but this conclusion is based on few samples. It was
suggested that this last sentence could be included in the report if the proper caveats are clearly
stated. Another reviewer suggested taking out the entire last paragraph because it depended too
much on limited data. It was generally agreed to by all the reviewers that more information be
provided on the VOC sampling (such as the total number of samples, number below detection
limits, spatial and temporal distribution, etc.) so that the data are more transparent to the reader
in understanding the limitations in using these data for assessing general population exposures.
3.9 Comment on the First Several Days After September 11
The reviewers felt that the discussion presented in this section could be moved up to the front of
the document to be included in the monitoring section (Section III). The issues raised are similar
to the discussion that should be expanded upon in that section, which would provide a better
description of the data that are available, what time periods can be reliably evaluated, and what
populations can be evaluated using the data collected. It was suggested earlier that information
be added to the report on the monitoring program design, including information on what
monitoring was done and not done. The discussion currently presented in this section would fit
well in that expanded section.
3.10 Occupational and Indoor Exposures
In general, reviewers felt that the occupational and indoor air information presented in the
document distracted the reader from the primary focus of the document, which is ambient
(outdoor) exposures to the general population. Reviewers found these assessments to be of
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variable quality, which would be expected because of limited data to characterize concentrations
to which recovery workers in the restricted zone might be exposed. Some reviewers felt that
these discussions should be removed from the document, and others suggested that they be
moved to appendices. Most reviewers stated that these issues need to be addressed in a more
comprehensive manner, which would call for separate stand-alone documents. Because such
documents might not be developed (at least by EPA), some reviewers suggested that the
assessments done to date be retained, but be de-emphasized by placing them in the appendix.
3.10.1 Occupational Exposure Assessment
Reviewer discussion began with one reviewer suggesting removing the section on occupational
exposure because there were not a lot of onsite measurements, especially for PM. The reviewer
claimed that the data collected do not reflect the exposures of on-site recovery workers within
the restricted zone. Several reviewers agreed that the workers participating in the recovery effort
were exposed to more extreme conditions than indicated by the data presented (mostly from
perimeter monitoring locations). The exposure was outdoors, but it was an extremely unique and
unknown exposure. In addition, the recovery workers were often on site 12 hrs/day for 7
days/wk and they didn't use respiratory protection. Another reviewer suggested leaving the
section in, but removing the references to occupational exposures to PM, because of the data
shortcomings. Similarly, another reviewer added that the asbestos measurements do not provide
an adequate characterization of occupational exposures. Limitations in the asbestos data result
from variability in the PCM analyses, the location of the monitors, and other complexities, which
call for a more extensive assessment in a separate report. Alternatively, several reviewers
commented that the dioxin occupational analysis was well developed and appropriate, somewhat
because on-site measurements were available. This discussion brought up again the suggestion
that the monitoring methods section be revised to better describe the sampling procedures,
methods, time frames, etc., which would better illustrate the strengths and weaknesses of the
various data sets for use in estimating exposures.
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Several reviewers felt that the occupational exposure discussion should be removed; however, a
question was raised asking whether other reviewers would suggest removing this section if
another assessment were not done focusing on worker exposure. One reviewer noted that the
downside to keeping this section in the report is that the data do not provide a clear picture of
conditions for recovery workers and that it distracts the reader from the main focus on outdoor
exposures of the general population. Several reviewers agreed that "someone needs to do this"
and suggested that EPA work with NIOSH, OSHA, and other organizations to conduct a more
extensive assessment. Reviewers did acknowledge, however, that unless there will be a separate
report on occupational exposure, it would be better to include the available information, but
possibly de-emphasize this section or put it into an appendix. Many reviewers agreed with this
sentiment, commenting that such a suggestion would be an acceptable middle ground.
3.10.2 Indoor Air Exposure Assessment
Reviewers felt similarly about the indoor exposure discussion, suggesting that it would be best if
it were taken out and prepared as a separate report. The issues are very complicated and warrant
more extensive analysis and discussion. In addition, there are many other groups addressing
aspects of the indoor air issue, including many health studies that might not be completed for
some time. It was pointed out that the main data set included in this section was the ASTDR
study, and this creates an uneven match when compared to the rest of the document. It was also
not clear whether the ASTDR study had been peer reviewed. The indoor air issue is more
complicated than the ambient air assessment due to the challenges in cleanup and confirmatory
sampling, which deserves a more extensive treatment in a stand-alone document.
Many reviewers agreed that the indoor exposure section should be further developed as a
separate document, or it could be added to what has already been prepared and peer reviewed
(WTC, 2003). This document could introduce the issue and refer readers to other
studies/organizations that are addressing ancillary studies. One reviewer cautioned against
adding web sites for ongoing studies because they can become outdated very quickly. It was
also suggested that EPA re-examine the indoor air sections in the current draft of the report (e.g.,
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asbestos assessment) because of errors in the measurements and assessment. Reviewers
concluded their discussion with a suggestion that EPA work with other organizations with
responsibilities for the indoor air issue. It might even consider commissioning an independent
group of experts to further address the indoor air issue, such as the National Academy of
Sciences. Reviewers wrapped up the discussion and recommended that EPA should move
forward quickly to determine the most appropriate future activities and mechanisms for
completing an indoor air health assessment.
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3.11 Conclusions/Executive Summary
In general, the reviewers' comments on previous sections addressed the contaminant-specific
and overall conclusions presented in the executive summary. The executive summary will
change after EPA revises the assessment, based on the panel's comments. One reviewer felt that
the second paragraph of the executive summary, which indicated that the report covers the
inhalation exposures of the general population residing and working in the area, which are
indoor activities, does not fit with the outdoor assessments, which are the focus of the report.
Also, the executive summary should be improved to make it suitable to be a stand-alone
document. One reviewer commented that the executive summary should more clearly indicate
the time frames when contaminant levels returned to background levels.
During this final discussion session of the meeting, the Chair facilitated preparation of flip charts
summarizing the major recommendations from the reviewers (presented in Appendix E). The
items placed on the flip charts included those issues where the reviewers felt strongly about
corrections or improvements that should be made by EPA to the document. Following this
discussion, reviewers made final concluding statements. Overall, the reviewers felt that EPA
should be commended for its assessment. The document will be well received if time is taken to
revise and incorporate the proposed recommendations and suggestions. The document needs to
be refined, with a clearly stated purpose and scope, which should result in an excellent
assessment. When completed, this document will be the definitive statement on outdoor air and
the potential health effects from the airborne pollution created by the World Trade Center
disaster. The document should be completed in a timely manner because of the public's need for
information on potential health risks. It would also be desirable to make it the first of a series of
documents focusing on ambient (outdoor) air exposures for the general population. EPA was
encouraged to consider further enhancing its separate assessments on indoor air (WTC, 2003)
and to work with other groups on the occupational exposure issues. In addition, other longer-
term studies should be considered, such as conducting toxicity tests on the dusts and
characterizing other contaminants of concern, to better assess potential health impacts.
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4. OBSERVER COMMENTS
Several opportunities during the two-day meeting were provided for observers to make
comments and provide feedback on EPA's document. This section summarizes the statements
made by observers who spoke during the meeting. Written statements, handouts, and documents
provided by observers during and following the meeting are presented in Appendix G.
4.1 First Comment Period
Mr. Joel Kupferman, of the New York Environmental Law and Justice Project, stated that he was
an attorney with the firefighter's union. He commented that EPA did not provide the data that it
had obtained in a prudent manner. The data that were collected were very revealing and
exhibited exceedances. He stated that releasing this information after the fact is really only an
academic exercise Mr. Kupferman felt that EPA did not go out of its way to obtain data
and that his organization did. He also commented that only 218 out of 1000 landowners
responded to questions on why they either did or did not re-open their buildings. Mr
Kupferman felt that there was inaccuracy in the monitoring data and indicated that the statement
had been made that personal monitoring data had been thrown out because it was too high; they
were dismissed as a spiked sample. Mr. Kupferman noted that studies are still on-going on the
plume moving towards Brooklyn and that, in addition, trucks were known to have taken things
from Ground Zero to other areas. Scientists indicate they want lots of data, but none of the site
workers were registered beforehand so as to keep track of them. Nurses who have come forward
with respiratory problems have not been included in reports. Mr. Kupferman felt that people
should have been warned that they could have been exposed to chemical hazards from the World
Trade Center buildings (e.g., 6800 pounds of mercury) and also that there is a need to better
understand where the chemicals are moving. Mr. Kupferman offered, upon request by the Chair,
to provide a list of names of the people he had mentioned who have come forward with
respiratory illnesses.
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Ms. Diane Dreyfus commented that no testing had been done on workers. She also stated that
Dr. Chatfield was not a good choice for the panel because of his past work for W.R. Grace in the
Libby, Montana, case. Ms. Dreyfus suggested that another reviewer be added to the panel, Jim
Millette from EPA Region 8 (who is actually not an EPA employee but is a principal of a private
corporation, Millette Vanderwood Associates, Inc. [MVA, Inc.]).
Ms. Ann Warner Arlen stated that she was the Vice-Chair of Community Board #2 (which
covers Canal Street to 14th and the Bowery to the Hudson River) and reviews projects and brings
matter of urgency to city agencies. Ms. Arlen raised two points. The first point was that she felt
that the line drawn at Canal Street was extremely arbitrary. Particles were still found in the air,
and the smell of fires could be detected beyond this cut-off point. Apartments beyond this area
were full of fumes, and some people reported coming down with chronic cases of bronchitis and
sinusitis. High levels of particulates were found near NYU and Beekman as well as in areas in
Brooklyn and New Jersey; however, these impacted places were left out of the monitoring that
was performed. The second point was that lessons learned are important in this situation; she
hoped that responses would be better and stated that there is also a need to commit to doing the
right thing now. She stated that people were told that "there is nothing to worry about" and that
she had the feeling that these issues did not matter to the government. Upon request, Ms. Arlen
offered to provide copies of the NYU/Beekman and University of California, Davis, particulate
studies (not received as of the finalization of this report).
Ms. Jo Polett noted that she "is the target audience" because she lives just six blocks north of the
World Trade Center and returned to her apartment on September 18, 2001, but then had to leave
in November and only returned again ten days ago. Ms. Polett requested that EPA investigate
indoor air. She noted that the cleaning efforts in her apartment were not done properly. She had
no history of respiratory problems but has had recurring problems since returning to her
apartment. Her apartment had been cleaned in May 2002, but during the subsequent testing, she
found that one of the fans was never turned on in her apartment and that the others were not
oscillating, as is required in the testing protocol. She made the point that this makes the
sampling data useless. Ms. Polett also noted that the ATSDR/NYCDOHMH study referenced in
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the report only sampled two buildings and was not representative of what was actually in the
building. She stated that assessments can not be based on the available indoor air data.
Although the outdoor air might be acceptable, there are high levels of contaminants in the indoor
air, so the exposures are ongoing.
Ms. Kimberly Flynn, of 9/11 Environmental Action, read aloud a letter that she had written on
behalf of the 9/11 Environmental Action group to the Regional Administrator of EPA Region 2,
Jane M. Kenny, dated July 14, 2003. The letter was written to formally object to the failure of
EPA to comply with the "proper, legally mandated public process in its assessment and cleanup
of hazardous substances released in the World Trade Center disaster." The letter requested
implementation of a public process to include affected communities in the decisions being made
that affect their health and environment. Ms. Flynn noted in the letter that EPA had promised to
establish a citizen's advisory group in 2002, but this was never created. The letter also voiced
objection to the failure of both EPA and Versar to conduct public outreach for the current peer
review meeting. She noted that community-based organizations and advocacy groups were not
given the opportunity to nominate qualified experts to serve on the panel nor was the public
given ample time to review the chosen panelists' CVs. The letter also noted objections to certain
panelists who were chosen, based on possible ties to either EPA or major polluting industries
regulated by EPA. The letter requested (and stated that this request was made in two previous
letters) that EPA initiate a "legitimate public process" and a comprehensive cleanup of all
affected residences and workplaces.
4.2 Second Comment Period
Ms. Jenna Orkin, of 9/11 Environmental Action, requested that Dr. Thomas Cahill's PM data be
included in the PM section of the report. These data were made public in February of last year.
She pointed out that the PM2 5 data for areas beyond the site have consistently been reported by
EPA to be at levels that are fine, but she stated that this was not the case. At Stuyvesant High
School, PM concentrations were much higher than at Ground Zero. Ms. Orkin noted that EPA
has stated that it does not expect short- or long-term health effects, but she pointed out that there
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already are illnesses. She commented that there has not been any effort to do a study on the
students at the high school. Most of her knowledge on the situation is anecdotal, but she stated
that students have had respiratory illnesses and that one teacher at the high school was reported
to have been a lung cancer victim. Ms. Orkin requested that EPA acknowledge the potential
health effects from the high levels of contaminants. At Stuyvesant High School, asbestos
concentrations were found to be as high as 123 s/mm2; however, the contractor hired to sample
in the high school reported no problems. All of these data are suspect. Ms. Orkin requested that
a doctor be added to the panel to examine health effects from the World Trade Center. In answer
to a question from the panel, Ms. Orkin noted that the PM concentrations at the high school were
provided by sampling overseen by the parent's association of the high school (ATC-inside
sampling; ATC and EPA-outside sampling). A question was raised by the panel whether
Cahill's data are readily available. It was noted by Ms. Orkin that they were available on the
web site, http://www.nyenvirolaw.org .
Dr. Robert L. Jaffe, of Environmental Toxicology Laboratory, questioned whether in vitro tests
were performed. He noted that pollutant mixtures should have been evaluated, as well as the
toxicity of small particles and new types of pollutants not previously studied. He suggested that
if samples are still available, his laboratory could do tests with them. His lab has developed a
new toxicity test using protozoa. Dr. Jaffe provided information to Versar to pass on to the panel
describing his lab and testing procedure.
Ms. Jo Polett spoke for Ms. Nina Lavin, noting that the EPA fact sheet on the report being
discussed does not say "ambient" in the discussion of potential short- and long-term effects. She
also suggested that the executive summary be rewritten to add uncertainties on the health effects.
She provided the peer review panel with copies of a New York Times article from December 28,
2002, for review, adding that such articles, stating that there are no health effects, hinder cleanup
of apartments. She provided the panel with the executive summary of the
ATSDR/NYCDOHMH study as well as supporting data. She requested that the panel review
the full ATSDR/NYCDOHMH study, which is available on the Internet, as well as the
underlying data. Ms. Polett posed a question asking whether asbestos really is a good indicator
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of World Trade Center contamination, because it is being used to determine the need to clean up
apartments.
4.3 Third Comment Period
Dr. Catherine McVay Hughes, of NYU, has prepared community outreach materials on the
World Trade Center, highlighting ongoing research projects. She also pointed out that local
papers have reported on a survey of respiratory problems in residents. She commented that the
public outreach to the communities needed to be better. Dr. Hughes stated that there needed to
be a consideration of risks from ingestion of dusts inside homes. This also poses additional risks
to residents who work in the area, so they are exposed 24 hrs/day. It should also be highlighted
that the restricted zones were not always effective at keeping people out of the restricted area.
She pointed out that there are still buildings available for collection of dust samples. One
suggestion she made was that EPA include, along with meteorological data, temperature maps,
which could be useful in discussing the fate and transport of pollutants. A panel member asked
whether there was further information on the respiratory symptom survey, and Dr. Hughes
directed the panel to the Community Board #1 Web site, http://www.cb 1 .org , which provides
the contact information for the District Manager, Paul Goldstein.
4.4 Fourth Comment Period
Dr. Marjorie J. Clarke, of Lehman and Hunter Colleges, commented that she was glad to hear the
panel recommending that more studies be done, particularly indoor air studies involving
additional organizations. She criticized EPA for releasing conclusions prior to conducting peer
review of its studies, which resulted in confusion in the public on the potential health effects
from the World Trade Center. She suggested removing conclusion #3 from the report and
argued that it was being used to silence the cleanup program advocates. Other concerns were for
synergistic effects of the complex mixture of pollutants, such that conclusions should not be
made before the interactions are better understood. Using the precautionary principle should be
encouraged. In addition, EPA's premature statements led to bad decisions, including delegating
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responsibilities to other authorities for cleanup and other activities, which have resulted in
increased exposures.
Ms. Kimberly Flynn suggested a re-writing of the executive summary and conclusion #3 to
better reflect the information from various doctors on the extent of disease resulting from the
World Trade Center exposures, even though the available chemical exposure data are limited.
Qualitative statements should be made on the limited knowledge on chemical mixtures and
impacts to occupational environmental health. She mentioned a presentation by Steve
Markowitz that had been given at the New York Academy of Sciences in February 2003 that
supports that statement. EPA has the opportunity to provide accurate information on risks to
help restore public confidence and increase public awareness. Ms. Flynn endorsed the panel's
recommendation for a separate document on indoor exposures and chronic health effects as well
as the use of an independent panel to address the indoor air issues related to the cleanup. She
stated that she hoped the case would be made to re-open the cleanup effort and to re-examine the
indoor air data.
Ms. Orkin suggested that the reviewers consult a white paper by Congressman Nadler and also
the EPA Inspector General's report of January 27, 2003, which criticizes EPA on apartment
cleanup. She noted that EPA cleaned very few HVAC systems and left most decisions to the
residents, who had little information on which to make decisions. EPA's cleanup was also
incomplete and insufficient. She commented that the outreach by EPA needs to be more
extensive to educate the public. Ms. Orkin noted that at Stuyvesant High School, a barge waste
transport site was located very close by. However, the ventilation system of the school was only
cleaned after threats were made to sue over elevated lead levels. Ms. Orkin reiterated that, based
on NIOSH respiratory studies of faculty and staff, as of last May, 60% of them still had
respiratory symptoms attributed to the World Trade Center. She also encouraged EPA to look at
shorter asbestos fibers.
Ms. Jo Polett suggested that the term "ambient" be replaced with "outdoor" to make it clearer to
the reader what the report addresses. She also advocated that an independent panel address the
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indoor air issue and that a community representative be included on the panel. She also provided
information on the inadequacy of the cleanup and stated that EPA did not address dust inside air
conditioning systems. Most buildings were not completely cleaned up. EPA's outreach also
needed to be improved; the May 2002 mailing was not received by many people, and other
materials were not helpful.
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REFERENCES
Lioy, P. I; Weisel, C. P.; Millette, J. R.; Eisenreich, S.; Vallero, D.; Offenberg, J.; Buckley, B.;
Turpin, B.; Zhong, M.; Cohen, M. D.; Prophete, C.; Yang, I; Stiles, R.; Chee, G.; Johnson, W.;
Porcja, R.; Alimokhtari, S.; Hale, R. C.; Weschler, C.; Chen, L. C. (2002) Characterization of
the dust/smoke aerosol that settled east of the World Trade Center (WTC) in lower Manhattan
after the collapse of the WTC 11 September 2001. Environ. Health Perspect. 110: 703-714.
U.S. Environmental Protection Agency (2000). Peer Review Handbook. 2nd Edition. Office of
Science Policy. EPA 100-B-OO-OOl.
U.S. Environmental Protection Agency (2002). Exposure and Human Health Evaluation of
Airborne Pollution from the World Trade Center Disaster. External Review Draft. National
Center for Environmental Assessment. Office of Research and Development. EPA/600/P-
2/002A. October 2002. (http://www.epa.gov/ncea/wtc.htm).
WTC (2003). World Trade Center Indoor Environment Assessment: Selecting Contaminants of
Potential Concern and Setting Health-Based Benchmarks. Contaminants of Potential Concern
(COPC) Committee.
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APPENDIX A
Peer Reviewer Biographical Sketches
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Compilation of Biographical Sketches for Peer Reviewers of
Exposure and Human Health Evaluation of Airborne Pollution from the World Trade Center
Disaster
Peer Reviewers
Eric J. Chatfield, Ph.D.
Chatfield Technical Consulting Limited
Mississauga, Ontario L5B 1Y8 Canada
Michael Dourson, Ph.D.
Toxicology Excellence for Risk Assessment
Cincinnati, OH 45223
Alison Geyh, Ph.D.
Johns Hopkins University School of Public Health
Baltimore, MD 21205
Gary Hunt, M.S.
TRC Environmental Corporation
Lowell, MA 01852
Patrick L. Kinney, Sc.D.
Mailman School of Public Health at Columbia University
New York, NY 10032
Margaret MacDonell, Ph.D.
Argonne National Laboratory
Argonne, IL 60439
Clifford P. Weisel, Ph.D.
Environmental & Occupational Health Sciences Institute (EOHSI)/UMDNJ
Piscataway, New Jersey 08854
A-l
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Eric J. Chatfield. B.A.. M.A.. Ph.D.
Dr. Chatfield received his B.A., M.A. and Ph.D. from Cambridge University in the United
Kingdom. His B.A. and M.A. were in Natural Sciences and included mineralogy and
crystallography; his Ph.D. thesis was in Colloid Science, and was based on studies of particulate
hydrosols and aerosols. From 1958 to 1968, Dr. Chatfield was with the Nuclear Safety Section
of the United Kingdom Atomic Energy Authority where his work involved studies of particle
size distribution of aerosols, using electron microscopy and diffraction, and included design and
execution of field studies of the dispersion of airborne particulate. From 1968 to 1985 he was
Head of the Electron Optical Laboratory at the Ontario Research Foundation. Dr. Chatfield is
currently President and Principal Analyst of Chatfield Technical Consulting Limited which he
formed in 1986 to specialize in asbestos analysis and research.
Dr. Chatfield has been developing methods for determination of asbestos since 1970, including a
method for determination of asbestos in resilient flooring materials to provide quantitative results
and to overcome the problem of false-negative results often obtained by routine PLM, a
gravimetric method which provides reliable quantification of low concentrations of asbestos in
building materials such as plasters, cementitious and texture materials, a method using PLM and
SEM for screening of vermiculite samples for the presence of amphiboles, and preparation of
reference standard suspensions for quality assurance in TEM analysis of water samples.
For the U.S. EPA, Dr. Chatfield developed the analytical method for determination of asbestos in
water, a standard operating procedure for collection and analysis of air samples for asbestos, an
analytical methodology for sampling and analysis to provide results for airborne asbestos with
sufficient sensitivity and precision to permit risk assessment determination, a quality assurance
guideline for TEM asbestos laboratories, and an analytical method for determination of asbestos
in vermiculite. Dr. Chatfield was a member of the Select Committee which drafted the U.S. EPA
AHERA TEM Analytical Methodology for asbestos abatement site clearance.
Dr. Chatfield is Project Leader of the International Organization for Standardization (ISO)
Working Groups which have developed 3 analytical methodologies for measurement of airborne
asbestos in ambient atmospheres, and are currently developing a sampling strategy for
measurement of asbestos in building atmospheres. He is also a member of the ASTM
Committee which is developing reference analytical methods for measurement of asbestos in
dust and in air. Dr. Chatfield was a member of the Der Verband der Chemischen Industrie e.V.
Working Group which developed a standard procedure for measurement of asbestos in parenteral
medicines.
Dr. Chatfield was a consultant to The Royal Commission on Matters of Health and Safety
Arising from the Use of Asbestos in Ontario, and prepared advisory reports on both PCM and
TEM measurements of asbestos in air. He was editor of "Asbestos Fibre Measurements in
Building Atmospheres", prepared for Health and Welfare Canada. Dr. Chatfield was a member
of the Literature Review Panel and the TEM Analysis Steering Committee of the Health Effects
Institute - Asbestos Research. Dr. Chatfield is a Technical Advisor and Laboratory Assessor for
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the Hong Kong Laboratory Accreditation Scheme (HOKLAS) asbestos analysis accreditation
programs, has provided training courses in TEM analysis for asbestos, has been a consultant to a
number of laboratories concerning set-up, equipment requirements and operation of a TEM
analysis service for asbestos, and on behalf of the U.S. EPA, he has conducted audits of
laboratories performing TEM analysis for asbestos for EPA programs. Dr. Chatfield has been an
expert witness on asbestos measurement for a number of court cases. Dr. Chatfield is a Fellow
of the Chemical Institute of Canada. He has over 60 publications relating specifically to asbestos
measurement.
Michael L. Dourson. Ph.D.. PAST
Dr. Dourson directs Toxicology Excellence for Risk Assessment (TERA), a nonprofit
corporation dedicated to the best use of toxicity data for estimating risk assessment values.
TERA's projects include the development of complex risk assessments, such as soluble nickel
salts, research into improvements of risk methods, such as comparative dietary risk for fish
consumption, and education and outreach on risk assessment values through lectures and data
bases, such as the International Toxicity Estimates for Risk (ITER). TERA prizes the
development of partnerships between government agencies and industry.
Dr. Dourson has a Ph.D. in Toxicology, University of Cincinnati (1980) and is a Diplomate of
the American Board of Toxicology and served on its Board as President, Vice President and
Treasurer. He has published more than 50 papers on risk assessment methods, co-authored over
100 government risk assessment documents, and made over 80 invited presentations.
For fifteen years, Dr. Dourson held leadership roles in the U.S. Environmental Protection
Agency, as chair of EPA's Reference Dose (RfD) Work Group, charter member of the EPA's
Risk Assessment Forum and chief of the group that helped create the Integrated Risk
Information System (IRIS) in 1986. Dr. Dourson won 4 EPA Bronze medals during his tenure.
Professional affiliations include past presidents of the Dose-Response Specialty Group of the
Society for Risk Analysis, of the Society of Toxicology's Specialty Section on Risk Assessment
and of the Ohio Chapter of the Society for Risk Analysis. Current affiliations include
membership on the editorial board of three journals. Dr. Dourson previously chaired a panel that
peer reviewed EPA's World Trade Center Indoor Air Assessment: Selecting Contaminants of
Potential Concern and Setting Health-Based Benchmarks.
Alison S. Gevh. Ph.D.
Alison S. Geyh is an assistant professor at the Johns Hopkins Bloomberg School of Public
Health (JHSPH), Department of Environmental Health Sciences in Baltimore MD. Her work
related to the World Trade Center disaster has included area monitoring and exposure
assessment of one group of workers at the disaster site, and a health assessment of approximately
8000 workers who were involved in the clean up and recovery effort. Other research interests
include assessing the impact of vehicle-related air pollution on the health and environment of
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inner city residents and an exploration into the specific chemical composition of metal species
found in particulate matter. Before moving to JHSPH, she was a Staff Scientist at the Health
Effects Institute where she was project officer for several studies focused on issues of exposure
to particulate matter. She holds a doctorate in physical organic chemistry from Brandies
University and conducted postdoctoral research at Department of Environmental Health of the
Harvard School of Public Health in Boston, MA.
Gary Hunt. M.S.
Mr. Gary Hunt is a Vice President of Air Toxics Programs and Director of Air Toxics
Monitoring within TRC in their Lowell, MA office. He works principally in the toxic air
pollutant area and, in particular, the characterization, quantification and control of toxic air
pollutant emissions from stationary and fugitive sources (esp. combustion) , as well as their
distribution, occurrences, transport and fate in the atmosphere. Areas of particular interest and
professional activity presently include the following:
Characterization, Quantification and Control of Toxic Air Pollutant Emissions
Environmental Monitoring (Multimedia) in the Vicinity of Combustion/Incineration Facilities
(MSW, Hazardous Waste)
Waste Incineration - Emissions Testing Programs (Trial Burns, Performance Testing,
Compliance Testing; RCRA/TSCA/MSW/BIF)
Toxics Monitoring - Indoor/Workplace Air (e.g., PCB Fires)
Ambient Monitoring for PCDDs/PCDFs, PAHs and other semivolatile organics
Odor Diagnostics and Abatement - Air Emissions From Industrial Facilities
Fugitive Dust Emissions (MSW Landfills, Quarries, Etc.)
PCDDs/PCDFs Emissions From Industrial Sources - Characterization, Diagnostics
Ambient Monitoring of Toxic Air Pollutants
Litigation Support/Expert Testimony
Title V/CAA Compliance Monitoring Programs (CAM, PM, MACT)
Air Permitting (Title V, BACT, RACT, etc.)
Analytical Methods Development
Mr. Hunt, who holds a B.S. in chemistry from Villanova University and an M.S. in
Environmental Sciences from Rutgers University, has more than 25 years of experience in air
quality consulting. He is an internationally recognized expert in the field of toxic air pollutants.
Mr. Hunt is a Qualified Environmental Professional (QEP) and Fellow Member of the Air &
Waste Management Association, as well as a faculty member of A&WMA's CAM workshop
series. He is also a member of the American Chemical Society, Sigma XI, the Water
Environment Federation, and the American Society of Mechanical Engineers. Mr. Hunt has
authored more than 100 journal manuscripts and symposia presentations on environmental
topics.
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Patrick L. Kinnev. Sc.D.
Dr. Kinney is an air pollution epidemiologist with a strong interest in exposure assessment. He
has carried out numerous epidemiologic studies addressing the human health effects of air
pollution, including studies of the effects of ozone and particulate matter on children's lung
function, on pulmonary inflammation in adult joggers, and on daily mortality in large cities. His
recent work has focused on characterizing levels and determinants of indoor, outdoor, and
personal exposures to air pollution in the underprivileged neighborhoods of NYC, including
studies of indoor allergens, diesel vehicle emissions, volatile organic compounds, PAHs, and
other air toxins. He directed an NIEHS-funded intervention trial seeking ways to reduce
exposures to indoor allergens among asthmatic children living in Northern Manhattan and the
South Bronx. He also is the P.I. of a study entitled "Urban Air Toxics Exposures of High School
Students," funded by the National Urban Air Toxics Research Center. The study characterized
air toxin exposures among minority high school students living in New York City and Los
Angeles. Dr. Kinney co-directs the Exposure Assessment Cores of the Columbia Center for
Children's Environmental Health and the Center for Environmental Health in Northern
Manhattan.
Margaret MacDonell, Ph.D.
Margaret MacDonell is manager of the environmental health risk section of the environmental
assessment division at Argonne National Laboratory. She has a Ph.D. from Northwestern and an
M.S. from Notre Dame in civil / environmental health engineering, and a B.S. from Notre Dame
in biology (with honors). Her work at Argonne has focused on risk assessments for
contaminated sites, primarily for federal cleanup programs with an emphasis on Department of
Energy (DOE) facilities. In addition to interacting with regulators and the public in evaluating
multi-pathway risks, she has also conducted risk training workshops for federal, state, and tribal
risk program managers as well as risk workshops for the local community at a contaminated site.
Margaret is an adjunct professor at Northwestern University (teaching risk analysis and
environmental impact assessment in the Technological Institute) and president of the Chicago
Regional Chapter of the Society for Risk Analysis. She serves on the editorial board of
international environmental journal and is a participant in various cumulative risk initiatives,
including the interagency Mixed Exposures Research Group, American Chemistry Council Risk
Assessment Methods Technical Implementation Panel, and collaborative DOE-Environmental
Protection Agency interagency agreement on screening guidance for cumulative risk assessment.
Clifford P. Weisel. Ph.D.
Clifford P. Weisel, Ph.D. is a Professor in Environmental and Community Medicine at the
University of Medicine and Dentistry of New Jersey-Robert Wood Johnson Medical School and
Deputy Director of the Exposure Measurement and Assessment Division of the Environmental
and Occupation Health Sciences Institute. Dr. Weisel also holds appointments at the Graduate
Faculty of Rutgers University and the School of Public Health of UMNDJ and directs the
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Doctoral Graduate Study option in Exposure Assessment, jointly given by the Graduate School
of Biomedical Sciences of UMNDJ and the Department of Environmental Sciences of Rutgers
University. He was the treasurer of the International Society of Exposure Assessment and an
associate editor of the Journal of Exposure Analysis and Environmental Epidemiology and the
Journal of the Air Waste and Management Association.
Dr. Weisel has conducted research to evaluate multi-route exposures to volatile organic
compounds and trace metals using direct exposure measurements and biomarkers of exposures.
His broad areas of interest are analyzing the relationship among ambient, indoor and personal air
pollutants; the effect of air pollutants on asthmatics; multi-route exposure to disinfection by-
products in drinking water; how the body burden of contaminants and their metabolites vary to
reduce uncertainty in extrapolating basic mechanistic data determined at high concentrations in
animals to environmental exposures in humans; measuring biomarkers and variations in
metabolic rates for use in pharmacokinetic models in humans at environmentally relevant levels;
and application of genomics to understand gene-environmental interactions.
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APPENDIX B
List of Observers
-------�
Technical Peer Review Meeting on the Draft Document Entitled: Exposure and Human
Health Evaluation of Airborne Pollution from the World Trade Center Disaster
July 14-15, 2003
OBSERVERS
Name
Sara Allen
Belina Anderson
Michael Brown
Nancy Clark
Marjorie J. Clarke
Nathalie Cohen
Bernard Cooney
Avidan Cover
Diane Dreyfus
George C.D. Duke
Aura Engel
Barbara A. Finazzo
Kimberly Flynn
Robin Forst
Herman Gibb
Paul Gingrass
Virali Gokaldas
Hiller Hammer
Jenny Ho
Robert L. Jaffe
Joel R. Kupferman
Organization
Ecology & Environment, Inc.
New York City Law Department
U.S. EPA-ORD
NYC DOHMH
Lehman and Hunter Colleges
New York City Law Department
N.Y. Environm. Law and Justice Project
New York City Law Department
Little Italy Neighbors Association
New York City Law Department
N. Y. Environ.Law and Justice Project
U.S. EPA -Region 2
9/1 1 Environmental Action
Council Member Gerson
U.S. EPA-NCEA
Zelle Hofmann
Natural Resources Defense Council
A.K.R.F.
Environmental Defense
Environmental Toxicology Laboratory
N.Y. Environ. Law & Justice Project
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OBSERVERS
Name
Diane Levy
Carrie Loewenherz
Matthew Lorber
Faye Lubinof
Amy Mahl
Shek Mark
Stephen Mazzalonga
Kelly R McKinney
Catherine McVay Hughes
Mary Means
Yosef Moshe
Morton Orentlicher
Jenna Orkin
La- Verne Parris
Joseph Pinto
Jo Polett
Peter Preuss
Kara Robrish
Jessica Rosenzweig
Amy Rozenfeld
Alex Salvagno
Rudy Sanfilippo
Susan Smollens
Organization
Columbia University
NYC DOHMH
U.S. EPA-NCEA
New York City Law Department
Ecology and Environment, Inc.
U.S. EPA-OIG
New York City Law Department
New York City Department of Health
New York University
EPA
NYELJP
Ecology & Environment, Inc.
9/1 1 Environmental Action
Environmental Defense
U.S. EPA-NCEA
Downtown Resident - 9/1 1 Environmental
Action
U.S. EPA-NCEA
New York City Law Department
Council Member Gerson
New York City Law Department
AAR Environmental
Uniformed Firefighters Association
New York City Law Department
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OBSERVERS
Name
Steven Tishco
Diane Van Dyke
Ann Warner Arlen
Josh Weinberg
Henry Willis
Organization
New York City Law Department
N. Y. Environ. Law and Justice Project
Community Board #2 Manhattan
N. Y. Environ. Law and Justice Project
RAND
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APPENDIX C
Agenda
-------�
United States
Environmental Protection Agency
Office of Research and Development
Technical Peer Review Meeting on the
Draft Document Entitled
Exposure and Human Health Evaluation of Airborne
Pollution from the World Trade Center Disaster
Sofitel New York Hotel
45 West 44th St.
New York, NY 10036
Agenda
MONDAY, JULY 14, 2003
8:30AM Registration Begins
9:00AM
Welcome, Introductions, and Conflict of Interest Discussion
David Bottimore, Versar, Inc.
9:15AM Welcome Peter Preuss, Director, National Center for Environmental
Assessment (NCEA), Office of Research and Development, U.S. Environmental
Protection Agency
9:20AM Chair's Introduction Michael Dourson, Workshop Chair
9:30AM Background on WTC Assessment Matthew Lorber, U.S. EPA/NCEA
10:00AM Peer Reviewer Q&A Session on Background Presentation
10:30AM Break
10:45AM Observer Comment Period
11:15AM Discussion Session - Purpose and Scope of Assessment
12:15PM Lunch
1:15PM Discussion Session - Exposure Assessment and Risk Characterization
Approach
2:15PM Discussion Session - Monitoring Data
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3:15PM Break
3:30PM Discussion Session - Particulate Matter
4:30PM Observer Comment Period
5:00PM Wrap-Up of First Day
TUESDAY, JULY 15, 2003
8:30AM EPA and/or Observer Comments
9:OOAM Discussion Session1
- Metals
- PCBs and Dioxins
- Asbestos
12:00PM Lunch
1:00PM Discussion Session - VOCs
1:45PM Discussion Session - Occupational and Indoor Exposures
2:30PM Break
2:45PM Discussion Session - Conclusions/Executive Summary
3:30PM Observer Comment Period
4:OOPM Summary of Comments and Recommendations on WTC Document and
Writing Assignments for Workshop Report
5:00PM Adjourn
1 The Chair will determine the appropriate time for the break during this discussion period.
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APPENDIX D
PowerPoint Presentations
-------�
I. Introductory Talk by David Bottimore, Versar
Technical Peer Review Meeting
on the Draft Document Entitled
Exposure and Human Health Evaluation
of Airborne Pollution from the World
Trade Center Disaster
July 14-15, 2003
David Bottimore
Goal for Meeting - Provide technical feedback on Exposure
and Human Health Evaluation of Airborne Pollution from
the World Trade Center Disaster
Focus on Technical Issues - Purpose and scope of
assessment, approach, data evaluation, conclusions,
•communication, additional analysis and research
Peer Reviewers - Seven experts from different disciplines and
areas of expertise: air monitoring, environmental chemistry,
air transport modeling, public health, exposure
assessment, toxicology, and risk assessment. Also.
specific expertise on the contaminants that were evaluated
in the assessment (FM, dioxins, RGBs, asbestos, VOCs,
and metals).
Peer Review Meeting
Process and Groundrules
Individual comments: Everyone participates
Consensus Is not necessary and will not be
actively sought
Chair will facilitate to clarify, expand, and
summarize major points
Document suggestions and recommendations in
workshop summary report - taplng/notetaking
Postmeeting writing assignments
Groundrules
Please keep to the logistics of time,
subject, and scope
Peer review among the reviewers is the
primary activity - not a dialogue with EPA
and observers
Factually-based comments and
distinguish fact from opinion
Observer Comment Periods
Overview of Agenda
Numerous opportunities for observers to
make comments on the document
Sign up sheet for each day
Written statements are helpful
Timekeeping
Peer reviewer Introduction and COI discussion
Welcome from NCEA Director Peter Preuss
Chair - Mike Dourson
EPA background presentation - Matt Lorber
Peer reviewer discussion periods - review of
document by chapter/contaminants
Observer comments
Housekeeping
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Introduction of Reviewers
Eric Ch.miPln - Chat field
Technical Consulting Limited
Patrick Kinney - Mailman
School of Public Health at
Columbia University
Michael Dourson (Chair] *
ToxicoEogy Excellence for
Risk Assessment
Margaret MacDonell -
Argonne National
Laboratory
AHsm Geyh - Johns Hopkins
University School of Public
Health
GaryHunt-TRC
Environmental Corporation
Clifford Weisel -
Environmental &
Occupational Health
Sciences Institute
(EOHSO/UMDNJ
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II. Overview Presentation of Document by Matthew Lorber, EPA
Exposure and Human Health Evaluation
of Airborne Pollution Ironi the World
Trade Center Disaster
Mutlhew Lorber
National Center for Environmental Assessment
Office of Research and Development
Technical Panel Peer Review Meeting
New York City
July 14-15,2003
N:IA
Background
In November of 2001, HPA's Office of Research and
Development begun an assessment of inhalation exposure
and potential Jiealrli risk Iliat resulted from the collapse of
the World Trade Center Towers. This effort began at the
request of E-PA'a Region 2 office in New York City
After several revisions, a drall report of this evaluation was
released in December of 2002 for public comment.
The report thai results from this peer panel meeting will be
used by EPA to finalize this World Trade Center risk
The assessment focuses on:
Outside measurements of exposure
- some discussion of indoor exposure
General population exposure
- some discussion of worker exposure
Relationship of measured concentrations to:
- Urban or New York CTity background air concentrations;
Air concentration bencJimarks, suoli as Minimal Risk
Level (MRLs) or Reference Concentrations (RiCs)
Contaminants include:
Pcirticulalc matter
Metals (Lead, Chromium, Nickel)
PolydilorinattJtl Biphenyls (PCBs)
Asbestos
Dioxin
Volatile Organic Compounds
(benzene, toluene, acetone, ethylhen^ene, etc.)
N::A
Contaminants selection criteria:
Tliey were a subset of all monitoring that was undertaken
by EPA and other Agencies in (tie immediate altermaUi ul~
the WTC collapse
- Daln on other cnin.uiiiiuint-. of nntcntittl cunccni. :-iith nfl I'.M-I- or
niL'i i 'in : were o«ly spnrin^ly iiiuis'in L-.I (ff not mcnstired iirtil '.IILI
inlimt. such as November fit 2001
They were found to be elevated and unambiguously
associated with WTC impacts
Potential for health impacts clear
Principal Finding #1
Persons exposed tu the extremely high levels of
ambient paniculate matter and its components during
the collapse of the World Trade Center Towers and lor
several hours afterwards were at risk for immediate
aculc (and possibly chronic) respiratory and other
types (e.g., cardiovascular) of symptoms.
NCIA
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Spread of
I >ust/Smokc
()vcr I ,ower
Manhattan
Immediately
after Collapse
of the WTC
Towers
Principal Finding #2
"["he first measurements of some of the contaminants
wen; on September 14r while other contaminants
were not measured until September 2.V Available
data suggests thai the concentrations within and near
Ground Zero were likely to be highest in the few
clays following September 11. Because there were
only limited data on these critical few days,
exposures and potential health impacts cannot be
evaluated with certainty for this time period.
NCIA
Dates When Key Contaminants Were First
Sampled in Mr Within and Near Ground Zero
Asbestos
Lead
I
Dioxin
9/11
I
Bulk Dust
. i i
9/14 9/16 9/18
I
nell7-ene
PCBs
9/21 9/23
t
The Concentrations of These Contaminants
Were the Hiahesl in Their First Measurements
Satellite
Photograph
of the WTC
Plume
Lolling From
Ground Zero
at 11:43 a.m.
on Sept 12,
2001
CIA
World Trade
Center Plume
from Intense
Fires ( 500 C)
during Days
Following
September 11
K:U\
D-4
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Principal Finding #3
Kxcept for exposures on September 11 and possibly
during the next few days, persons in the surrounding
community were unlikely to suffer short-term or long-
term adverse health effects caused by exposure to
elevations in ambient air concentrations of the
contaminants evaluated in this report. These elevated
concentrations were measured mostly within and very
near l! round /era, and they lasted for 1 to 3 months
after September 11.
N:IA
Figure Showing the Shrinkages of the
Restricted Zones in the Vicinity of Ground
Zero Over Time
Definition of
Restricted Zones:
All vehicular and
pedestrian Ira Ilk-
proliibiltd witliin
the boundaries
defined for the
jzivt'ii date*.
Paniculate Matter
For several days afU-r the attack-
Levels ol'PMv', exceeded EPA's 24-hour Air Quality
Index (AQ1) for susceptible subgroups at some lower
Manhattan sites
Levels of Prvf:. <•, exceeded EPA's National Ambient Air
Quality Standard at WTC perimeter
Levels of PM.,.. have wtewtkd (he AQ1 on dates prior to
9/11/01 in lower Manhattan.
By mid- to late October, PM values? had largely relumed to
levels typical of New York City arid other U.S. urban
areas, with only a few sites occasionally approaching the
AQI.
i
Panel A: Daily PM 2 5 concentrations at sites near
Ground Zero and al 290 Broadway
Panel ]5; Daily PM i, concentrations observed 3-10
blocks from WTC
Sites A,C', K wtrt in tbt
Rtfjricied Zone through
October. 290 Rroarfuay
\VSL* oimifjt the rt3[rictt(L
nine after 9^14.
Thi.'yc silce (Chambers SI..
1'ark Row. Coast Guard
Station} were not in the
Rcflricted Zone in October.
Even though the
WTC collapse
resulted in
elevated airborne
participate matter
(PM) near the
site, it is clear
that the overall
pattern of PM
after 9/11 is not
different from
historical trends.
PM.., Since Scptimhcr II
Lead
The National Ambient Air (Juality Standard for
lead (90 day average of 1.5 ng/'m3) was not
exceeded al any sampling site.
Five 24-hour air lead concentrations measured at
three air samplers between September 17 and
September 2S at WTC Ground /,ero and al
perimeter sites were between 1.7 and 5.4 jjg'ni3.
After October 8. lead levels at all sampling sites
were below 1.5 ug nv1.
D-5
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Lead (Pb) Air Monitoring Trends
lru.de and Curudc WTC Zone
Chromium, Nickel. PCBs
• None of the air samples exceeded any of the
health benchmarks lor these eonliiminants
Air concentrations of P(*Bs presented
minimal concern for cancer risk.
VOCs
Exposures to mosl VOCs were of minimal concern
to the general population.
Sustained benzene concent rations above the New
York (nity background may have occurred for about
a month after September 11 outside of Ground /ero
hut were of minimal health consequence.
N:UI
Asbestos
High levels of airborne asbestos were found in two apartments
sampled on September IS.
A larger and more systematic study of residences conducted in
November and December suggested indoor levels of asbestos
iii dust were slightly higher near Ihe WTC.
"ITiere were relatively few outside airborne nieaeuimiL-iiLtf
exceeding the EPA and OS HA benchmark values,
Much discussion oil the relevancy of both. the measurement
teclmiques and these benchmarks for evaluating human health
impacts in this situation.
1 )ioxins
Exposure and Risk Assessment
A more robust exposure and risk assessment was conducted
for clioxin-tike compminda because:
- lii.-:; -1 ..I i -,,:M|.!> i.,.; ir At Oroiifid Zero and nearby, and iltc 72-hoiir
samples jnkc-ti a tew blocks away allowed tor a more representative
samplifljfllanibitniconctiiirnliaiwto which a n-siie workers, ofl-jite
- Procedures 10 convert alion-icrin doft to the- polential for long-term
cancer and non-cancer impacts have been developed, or are in
development us part ol'ITP.-Vs Dioxin Re^se.^menr.
Tiih;]hi[i(Hi |jei[tl3in;irfcs Ibr sihcn-ttr-lerm t
far JiaxJii-likc tmiipoutKh. as for olhtr tr
nihJilt
Dioxins - Concentrations
11 !• h Ambient :• i. 'i 11 ;i ;• 'i ever ineasurtMi
Tj^picaJ urban concentrations are 0. t -0.2 pg TKQ/m*
200
•k 150 H
o 100
B
50
k Raft Ron MOrr.*JKt
/ O^
D-6
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Dioxins - Exposures
Jnhalation exposures assumed between Sep 11 and
Nov 30
- Site Worker: 9 pg TEQ/kg-day
- Office Worker: 0.6 pg TEQ,'kg-da.y
Nearby Resident: 0.7 pgTEQ/kg-diiy
Background exposures:
- 0-6 pg Tr-'Q/kg-day from all eomccs
0.02 pg TEQ.'Tcg-day from inhalation
Dioxins - Health Risks
Estimated lifetime cancer risk
- Site Worker 3 * 104
- Office Worker, Resident 3 * lO''
Modeled increment to body burden
Site Worker: 1.8 pg TEQ/g lipid
Office Worker, Resident: 0.2 pg TEQ.'g lipid
Background risk
- 1.4 * 10 4 lifetime from all sources
- Average US adult body burden: 18 pg TEQ/g lipid
Lessons Learned - Assessing Exposure
Sample as early as possible
- Some coniami nanlE not sampled for cwo weeks
- "m. i....---. and power -HI jiin^ bee-mine a problem
Objectives fur mcmitoriiL^ need to be clearly dtfincd:
Sample to ch.iracteri?* plum* (grab s,ini]i]ies into the smoldering fires
iisinsprohes)
Sample \9 vlKtftKltritJt individud tJipwsurt l.ptrswiiil saucers I
- Sample* lo tli;inu'lenjce I
Measurenienl tarhniqu*;* need lo be identified:
- Methods lor asbestos sampling
"72- vtrsus 8-hr sampling liw dinxin-like con^ouiwl*
Lessons Learned - Assessing Health Effects
Health guidance values for acute and siihchronic exposures
ore needed
How relevant ut rfauuJurds developed for workers lo outdoor
exposures and lo exposures faced by Ihc general population?
- "Acult FspnMirc Guideline levels1' prouram develops enidaiKC
I. • •- I !.- '- I l.i :-!..•- Mill • tin , in,. - !, . n. • . • .ucs, bill
values for WTC fDiiluniiminis were luckinp
Better miderKtaiidiiig of:
- short fiber toxicily and chemical mixturcB especially as ihcy relate
lo iicnie-esposun-
alkriliiiily olconcrti* dual
Charge for the Panel
• I lave we considered all relevant and available
data?
Do you agree with our basic approach to
evaluate air monitoring data with ruspcul to
background concentrations and to established
air concentration benchmarks?
Charge for the Panel
In addition to this basic approach, do you have
any concerns with the manner in which we
dealt with any of the specific contaminants?
Docs our analysis support the principal
conclusions of this assessment?
D-7
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Charge for the Panel
With the exception of dioxin. we did not
evaluate worker exposure. Also, we did not
evaluate the indoor environment or the
epidemiology studies being completed on
worker impacts, although we reviewed some
data on all three areas. Do you agree with our
decisions It) narrow the scope in this way, or do
you think our target audience w:ould be better
served with a more expansive assessment
doimmcnl?
D-8
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APPENDIX E
Flip Charts from Meeting
-------�
Major Recommendations from Reviewers at Close of Meeting
In the afternoon of the second day of the peer review meeting, the Chair led a brief session with
the reviewers to recap some of the major recommendations and suggestions that were provided
during the meeting.
• Replace AHERA asbestos standard with IRIS value; conduct analysis as for dioxin and
PCB cancer evaluation
• Clarify dioxin monitoring and MOE discussion; revise exposure scenarios for WTC
worker and resident
• Revise PCB noncancer benchmark
• Review data of potential inconsistencies of PM25 data; incorporate data on PM10
• State monitoring program design up front; state COPC not addressed (e.g., PAHs)
Rank benchmarks for health; adjust OELs for duration and sensitivity; compare
exceedances with tox or epi. data
• Define populations of concern (e.g., are "illegal" residents consider resident-worker
scenarios)
• Keep text focused on out-door air; state text as interim subject to change; link to other
efforts
Enhance VOC discussion with LOD, then caveat conclusions as appropriate; revise tables;
give "n" for samples
• Enhance ongoing effort on indoor environment; consider independent group analysis (e.g.,
NAS)
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APPENDIX F
Written Comments from Reviewers
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Review by
Eric J. Chatfield, Ph.D.
Exposure and Human Health Evaluation of Airborne Pollution
from the World Trade Center Disaster. Report NCEA-W-1395,
EPA/600/P-2/002A
Initial Comments by Eric J. Chatfield, 2003 June 29
I would suggest that the title of the report be changed to:
"Measurements of Ambient Airborne Pollution and Evaluation of the Potential Health Impacts
from the World Trade Center Disaster".
This title would emphasize that the measurements under consideration are for ambient air, and
introduction of the word "potential" conveys the acknowledged fact that there is a great deal of
uncertainty in the interpretation, particularly for September 11 and the early days afterwards.
Overall, the draft report effectively summarizes a great deal of data collected from
diverse sources, and the general conclusions reached appear to be consistent with the available
data. However, I believe the report could be improved by re-organizing the sections into the
following topics:
1. Executive Summary
2. Purpose
3. Rationale for Selection or Rejection of Pollutants to be measured
4. Measurements of Pollutants
5. Discussion
6. Conclusions and Recommendations
In a report such as this, the Executive Summary is particularly important, in view of the
wide audience who may read this report. Many readers will read only the Executive Summary,
and will not read the more detailed discussions later in the report. It is therefore most important
that this section be as free-standing as possible. The Executive Summary should carefully
discriminate between firm conclusions and other areas about which there is uncertainty or
insufficient knowledge. It should also be clear that the general conclusions of the report refer
only to exposures from ambient (outdoor) atmospheres, and not to the indoor atmospheres of
buildings in which deposited pollutants were unchanged by weathering. I believe that the
Executive Summary should also include reference to the limitations of some of the measurement
methods.
Early in the document, there should be a detailed discussion of the contaminants
considered to be of concern, the rationale for selection of those to be measured, and the rationale
for those excluded. For example, glass fiber and mineral wool are known to have been major
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components of the dust cloud from the collapse of the World Trade Center towers, but the only
consideration given to them seems to be as a constituent of the particulate material (PM)
measurements. These fibers do not normally contribute significantly to the airborne particulate
material in urban environments, and it is therefore questionable whether the NAAQS screening
benchmark for PM used in the report is a sufficiently protective value, given the irritating nature
and composition of the dust that was generated by the collapse of the towers.
The use of screening benchmarks based on occupational PELs or TLVs should be
re-examined. Given the unprecedented nature of the events and the need for some rational basis
for interpretation of data, the PELs and TLVs provide a good starting point. For ionizing
radiation, the practice is to adjust such benchmarks for application to the general public by
taking account of the working week vs. the full year and the normal years worked vs. the normal
life expectancy, and then reducing these modified PELs and TLVs by a further factor of 10.
The presentation and interpretation of the asbestos data needs to be re-examined. The
practice of using phase contrast microscopy (PCM) as a screening measurement for ambient air
samples could frequently lead to misleading conclusions. In general building atmospheres and in
the outside atmosphere, there has usually been very little correlation between PCM results and
transmission electron microscopy (TEM) results obtained from the same or parallel-collected
samples. Accordingly, there is no reason to believe that samples showing elevated PCM fiber
counts would necessarily coincide with those showing elevated TEM asbestos fiber counts.
High PCM fiber counts could represent nothing more than an elevation in the number of paper
fibers or naturally-occurring organic fibers, and elevations in asbestos fibers could have been
overlooked. It has long been generally recognized that PCM is not a suitable means for
measurement of asbestos in ambient atmospheres, however for some reason it was applied in this
report.
All of the TEM data for asbestos are presented in terms of structures/mm2 (s/mm2) on the
collection filters. There appears to be no reason to do this, and reporting the data in terms of
structures/cc (s/cc) would be far more useful and scientific. The AHERA clearance value of
70 s/mm2 is actually based on the average of 5 samples, and is itself only an initial screening test
which substitutes for a statistical comparison of sets of 5 indoor and 5 outdoor samples. The
value of 70 s/mm2 is not a health-based standard, and it was derived solely from the asbestos
contamination that existed on filter media available in 1987. The asbestos contamination on air
sampling filters in current use is virtually undetectable, and as a consequence the continued use
of the 70 s/mm2 criterion amounts to an acceptance of a clean air standard of approximately
0.02 s/cc. Also, the AHERA protocol is intended to simulate the worst case situation indoors by
use of aggressive air sampling after extensive cleaning of all surfaces. The outside results
tabulated in this report would likely have been different if surfaces had been disturbed with leaf
blowers close to and up-wind of the sampling location. Moreover, there appears to be variation
in the analytical sensitivities of the analyses, which are dependent on the air volumes collected
and on the area of the TEM specimens examined. I would recommend that all data expressed in
terms of s/mm2 be converted into air concentrations expressed as s/cc, with additional reporting
of the concentrations of fibers longer than 5 |j,m. Assuming that all TEM analyses were
performed in accordance with the AHERA method, the concentrations of fibers longer than 5 |j,m
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should be available in the data, and these would provide a limited basis for risk estimation which
cannot be performed using values in terms of s/mm2.
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Exposure and Human Health Evaluation of Airborne Pollution from the
World Trade Center Disaster. Report NCEA-W-1395, EPA/600/P-2/002A
Supplementary Comments by Eric J. Chatfield, 2003 October 12
The following are supplementary comments on the EPA report. These additional
comments were too detailed in nature to be included in my initial comments, and they were not
discussed at the Peer Review Meeting because they did not fall under any of the general charges
to the reviewers, but they may be helpful to EPA during the revision of the report.
1. In the List of Acronyms and Abbreviations, "f" should refer to "fibers", rather than to
"fibers of asbestos", the letter "L" in "REL" and "STEL" I believe is "Limit", rather than
"Level", "TEM" is "Transmission Electron Microscopy", and "XRF" is "x-ray
fluorescence".
2. In the Executive Summary on Page 1, Paragraph 2, Line 3, it is stated that "It is an
assessment of the inhalation exposure and potential human health risk incurred by the
general population residing and working in the vicinity of the WTC." This statement
requires some additional clarification, because most people residing and working near the
WTC spend most of their time indoors, and indoor exposures are not the primary focus of
this report.
3. On Page 2, in Line 8 of Paragraph 2, the sentence beginning "Dioxin and VOC's..."
needs to be re-worded. As it stands, the sentence can be taken to mean that these
pollutants are produced only from fuels. There were many other potential sources in the
WTC buildings.
4. On Page 2, the final paragraph contains the expression "in the surrounding community".
It would be good if this could be better defined.
5. On Page 9, Line 2, it is stated that PCM is used to identify structures greater than 5 |im in
length. PCM does not have the ability to identify anything.
6. On Page 9, Line 3, the statement in parentheses is incorrect. TEM is used to detect and
identify asbestos structures greater than 0.5 |im in length
7. On Page 9 in the final line of Paragraph 1, a reference for the value of 0.003 f/cc as
typical of urban background should be given, particularly since it is used in the report as
a definition of background. In fact, I remain uncomfortable with the concept of using
PCM as a measurement method for asbestos in the general environment. I recognize that
it may have been useful for rapid measurements in the early hours after the collapse, but
the authors should be careful to not place too much reliance on the PCM measurements,
either outdoors or indoors. In the measurements we made in the apartments, I never even
contemplated the use of PCM.
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8. On Page 9 of the report, in the 3rd Paragraph, it is stated that "One apartment was highly
affected by the collapse of the WTC towers with completely shattered windows and dust
piled throughout the apartment. The other was in a building that had little exterior
damage ". In fact, I was present at the sampling and only one small window had been
broken in the first apartment, and the opening had been sealed with plastic sheet and
adhesive tape. The other building had no exterior damage.
9. On Page 10 of the report in the first paragraph, some reference to the method of analysis
of the bulk samples should be given, and a caution on the reliability of these data. It is
well known that measurements by PLM in the range below about 5% are quite unreliable,
and it is unlikely that the figures quoted to two significant digits are meaningful.
Moreover, I think that asbestos was likely present in all of the bulk samples collected,
and that the failure to detect asbestos in many of the settled indoor dust samples or the
outdoor samples was a question of deficiencies in either the analytical method, or the
conduct of the method.
10. On Page 11, Paragraph 2, Line 9, the method of analysis should be stated..
11. On Page 17, the last entry in Table 1 is incorrect. The AHERA clearance standard is not
"a level of concern". Abatement activities were not undertaken to reduce air
concentrations, because abatement decisions were not made on the basis of measured air
concentrations. It is incorrect to say that school children were not allowed back in until
several consecutive readings were less than the AHERA standard. In fact, the clearance
decision is based on the average of 5 simultaneously collected samples in the work area
being lower than 70 s/mm2. Even that value is considered to be an "initial screening
test".
12. On Page 70, there is a blank cell for the Barclay & West Broadway location on 9/27 in
the final column.
13. On Page 86 at the beginning of the 2nd paragraph, the word "classified" would be more
appropriate than "characterized".
14. On Page 86 in the 3rd Paragraph, it is stated that "Both asbestosis and benign pleural
plaques result in reduced breathing capacity and mortality". I suggest that this be re-
phrased, since it currently means that asbestosis and pleural plaques result in reduced
mortality, which I do not believe is the case.
15. On Page 87 in Section IV.e.l, it is stated with respect to PCM: "It counts all fibrous
structures with a minimum diameter of 0.3 |im and has a magnification range of 100 -
400X". The minimum diameter is usually taken to be 0.25 |im in the U.S., and counts
are made at a fixed magnification of between 400 and 450. Later in the same paragraph,
it is stated that "PCM results are reported on a mass-per-volume basis, ....". This is not
correct - PCM results are never reported in that manner.
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16. On Page 88 in the first paragraph, there needs to be some mention of the fact that the
AHERA method specifies the use of aggressive sampling to create the worst case
situation.
17. On Page 88 in the 3rd line of the first paragraph, it is stated: "The AHERA Final Rule
establishing a 70 s/mm2 standard for asbestos in schools ". The AHERA Final Rule
actually established an indoor-outdoor comparison as the clearance criterion. The
70 s/mm2 criterion is an "initial screening test". In this paragraph, it should also be
mentioned that the air sampling is to be conducted under aggressive conditions.
18. On Page 88 in the final three sentences of Paragraph 2, it is an over-simplification to state
that there is not a good correlation between PCM and TEM measurements. When the
direct-transfer TEM method is used, and the PCM size fraction of fibers is measured
using TEM, the correlation can be very close. It is true to say that, in the general
environment, there is generally little correlation between PCM measurements and TEM
measurements of all fiber sizes. There are two reasons for this: the PCM measurements
include fibers other than asbestos, and the TEM measurement includes asbestos fibers
outside of the visible range for PCM. In fact, there is no reason to expect a correlation.
Although it is not the responsibility of the authors of this report, I believe that the
ATSDR procedure to obtain what are termed "TEM units" by multiplying PCM data by
60 is totally invalid. It needs to be clarified as to what these "TEM units" are - are they
for all fiber sizes greater than 0.5 |im in length, or are they all fibers longer than 5 |im?
19. On Page 88 in the 3rd paragraph, it is stated that".... structures meeting a minimum
diameter of >0.3 |im with length >5 |im are counted as PCM equivalent ("PCME")
fibers". NIOSH 7402 defines "PCME" fibers as those longer than 5 |im and thicker than
0.25 |im, and ISO 10312 defines them as longer than 5 |im and thicker than 0.2 |im.
20. On Page 89 in the first paragraph, on line 4, the AHERA clearance criterion is actually
based on the average of a single set of 5 samples. There is no requirement for such TEM
readings to be "consistently" below 70 s/mm2, just that the average of the clearance set be
below this value.
21. On Page 89, Paragraph 4, Line 5, it should be stated that the mass concentration of
30,000 ng/m3 was derived only for chrysotile. and the data on which this value is based
have a very large range. I have already commented in Item 18 about the multiplier used
to convert PCM to TEM data.
22. On Page 91 in the first paragraph, reference is made to sampling stations set up in public
schools. It is not clear whether these were external samples or actually inside the
buildings. If they were inside, was the sampling aggressive or passive? The sampling
conditions should be stated, since the AHERA protocol specifically requires aggressive
sampling.
23. On Page 128 in the 2nd paragraph of Section Vl.b. 1, the description of how PLM
distinguishes between fiber types requires revision - it is not correct. I doubt that a
simple, one sentence description is even possible, and a more detailed explanation would
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be out of place. I suggest that the sentence be truncated to: "PLM can distinguish
between fiber types in a bulk sample.". I also suggest that a caution be added regarding
the inaccuracy and unreliability of routine PLM measurements in the vicinity of 1%. As
stated in Item 9, it is my opinion that the failure to detect asbestos in 82% of the
residential units, and in 8 of the outdoor samples was more a question of limitations of
the analytical method and the conduct of the method.
24. On Page 128 in the final paragraph, it states that "All air filter samples were analyzed
first using PCM to determine if fibrous materials were present. It seems highly
questionable to use a method, already admitted to have little correlation with TEM data,
as a screening method for selection of samples for subsequent TEM analysis. Under this
protocol, the existence of a few cellulose fibers could trigger analysis by TEM, and a
sample containing considerable numbers of thin chrysotile fibers could be overlooked.
Again, the ATSDR work is simply being reviewed by the authors of this report.
25. On Page 133, on the 5th line the report states: "A small-scale monitoring study of two
residential buildings was conducted by contract (Chatfield and Kominsky, 2001)." The
statement is incorrect - the work was not done under contract; all individuals involved in
the study donated their time and the analytical costs to conduct this study.
26. On Page 133 in the 2nd paragraph, it is stated that the TEM analyses were conducted
using AHERA counting protocols. In fact, ISO 10312 was used. The end result,
however, would be similar. Chrysotile is also spelled incorrectly at the beginning of the
3rd sentence.
27. On Page 133 in the final paragraph, it should be mentioned that amphibole asbestos
(amosite and actinolite/richterite) at concentrations of approximately 0.02% was also
detected in these outdoor dust samples.
28. On Page 134, it is not clear whether the air sampling referred to was aggressive or
passive. This should be clarified, because it affects the interpretation of the data. In fact,
whether the air sampling was aggressive or passive should be stated for all of the
asbestos air sampling data.
29. On Page 135, various dates are quoted. It would be helpful if the year was added to each
of these dates.
30. On Page 135, the first sentence of Paragraph 4 needs to be re-worded. One suggestion
would be to insert the word "who" or "that" between "people" and "may" on Line 2 of
this paragraph.
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Review by
Michael Dourson, Ph.D.
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1. What is the comparison, if any, between health benchmarks of EPA Region 2 (Appendix A)
and those used in Chapter 4?
2. Have health benchmarks been normalized among chemicals, for example, an OSHA PEL
dose not equal an acute MRL (page 23)?
3. Consider developing a ranking among health benchmarks, i.e., which one would you use first
if given several?
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Review by
Alison Geyh, Ph.D.
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Comments on "Exposure and Human Health Evaluation of Airborne Pollution from the World
Trade Center Disaster"
NCEA-W-1395
EPA/600/P-2/002A
Date: 28 June 03
Reviewer: A.S. Geyh
The report, on "Exposure and Human Health Evaluation of Airborne Pollution from the World
Trade Center Disaster" is the first summary of air contaminant data collected in response to the
events of September 11, 2001. What follows are general comments about the report with some
specific suggestions about the presentation of the data and results. A more detailed set of
comments about this report from this reviewer will be offered at the meeting in NYC set for July
14 and 15.
General comments:
The report appears to the best of my understanding to have considered all the available data
collected post 9/11 as well as historical data collected in and around the NYC area.
The use of available standards and benchmarks was appropriate overall. However, for some of
the contaminants, such as the VOCs, it may be best to not try to put the results into a health
context because of the sampling method and the original purpose for that sampling.
1. From my overall reading of this report there appears to be 3 key objectives
1. To describe the data collection effort in response to the disaster
2 . To put the post 9/11 airborne contaminant data into historical perspective
3 . To assess to the extent possible the health implications from exposure to
these airborne contaminants at the levels measured for the general population.
The third objective is clearly stated in the first paragraph of section I. The other 2 objectives are
implied. I believe it is important to state them explicitly. In addition, I believe the data will speak
for themselves in terms of their limitations and so the first paragraph could be condensed to
listing these objectives along with the last sentence of paragraph 1 starting with " Accordingly,
this report attempts to take a practical "
If it is true that this assessment is focused on the general population, it would be best to leave
out any discussion of exposure of the on site rescue/recover/cleanup workers. As we are
learning there was a very steep concentration gradient from the center of the pile toward the
perimeter, and the perimeter sites as well, as the 290 Broadway site, do no well reflect
concentrations in the middle of the site and thus exposure on the site. As stated in the Lorber and
Gibbs memo of 3 June 2003 good data on the worker population are limited and other agencies
such as OSHA and NIOHS have conducted analyses of worker exposure at the WTC that may be
more complete.
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The brief review of the OSHA and NIOHS data in section VI should be left out as it is too brief
to give a good picture of what these agencies did and how there results could be integrated with
the EPA data. In addition, if the focus of this report is the general population in Lower
Manhattan these sections may not be relevant.
The presentation of data on the indoor environments would be better served by a separate report
that is solely devoted to all the issues related to EPA becoming involved with indoor air quality
and apartment clean up.
Under section IV " Evaluation" subsections IVb(metals) - IVf(VOCs) were extremely well
presented starting with a brief, but complete description of the health concerns related to the
particular contaminant, background levels measured in and around the NYC area and also in
other parts of the US, a description of the monitoring methods at the site, the number of samples
collected, how the values measured compare with historical data and available benchmarks.
However, section IVa, the section describing the PM results is not as well organized and as a
result is confusing. Some significant restructuring along the lines of the other sections would
help the reader understand this very complicated data set and the implication of the
concentrations actually measured. For example, in this section, the initiation of sampling for PM
started some time after 9/11 but it is not stated when each site was set up and when actual data
collection commenced by site. It is also not stated what PM were sampled for (PM2.5, PM10,
both, TSP??) at any of the site except the 290 Broadway site. No end dates for sample collection
are given ( this information is also not offered in Appendix B). Sampling frequency is not given.
Was sampling only done by TEOM or were filter based samples collected as well? It would also
be helpful to have a summary of results before the discussion of the implication of exposure to
PM by the community is started. Although this would probably entail a length table it would be
helpful to the reader in terms of understanding what concentrations were measured.
Specific comments for section IVa
This section of the report spends a fair amount of space on estimating exposure during the first
day and 2-3 days after the event. The numbers offered from this exercise are very approximate
and represent only a very first cut at understanding people's exposures during this time period.
As a result the subsequent health assessment is couched in the conditional ( exposures may have
been, potential health effects could be, it is possible, etc). As stated in the report, a significant
amount of modelling work is currently being conducted to estimate concentrations on the day of
and 2-3 days after from satellite data and other data sources. The results of these models will like
give more robust estimates of exposure than are presented here and it might be best to wait for
those result before embarking on a discussion of exposure and health effects during that time
period.
The use of the Lioy et al. analysis of the settled dust samples to describe the composition of the
airborne PM needs to be considered more carefully. By definition, settling is as size selective
process for PM and so the smaller particles will naturally be under represented in a settled dust
sample. In addition, on a mass basis the smaller particles contribute very little to the over all
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mass and so the size distribution evaluation of a settled dust will find a small contribution of the
mass due to small PM. Therefore, care must be taken in the extrapolation these results of this
analysis of what was in the air during that time period.
Finally, the section entitled " High Temporal Resolution Analysis" states that it may be
important for the health assessment to understand PM concentrations on a more highly resolved
time scale, however the section does not discuss what temporal resolution is being considered
that is different from 24 hr integrated measurements. In addition, the time period of Oct 3-5 is
cited as a period of importance for understanding what was going on on a time scale less than
24hrs. Data collected by Cahill et al. are offered as evidence of the usefulness of having more
resolved data but those data are not described in terms of time (or size) resolution.
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Review by
Gary Hunt, M.S.
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Preliminary Review
Exposure and Human Health Evaluation of Airborne Pollution from the World Trade
Center Disaster (EPA/600/P-2/002A; October 2002)
Prepared by Gary T Hunt/TRC Corporation
The text to follow was based upon review of the External Review Draft of the EPA document as
titled above (EPA/600/P-2/002A; October 2002) as well as, public review comments received by
EPA contained in a Supplemental Document (June 2003).
The EPA document provides a significant amount of information in support of the primary stated
objective of the project, which was an assessment of potential human health impacts associated
with exposure to emissions from the collapse of the World Trade Center on September 11, 2003
(pg 13). It should be noted that the assessment focuses deliberately on exposure associated with
direct inhalation of air emissions from the WTC site commencing on September 18 2001. This
reviewer finds this report to be a very comprehensive document addressing large quantities of
data collected by a number of agencies engaged in the monitoring effort. The report does a good
job of identifying the point in time when air quality in the vicinity of the WTC site had returned
to normal or background levels. Unfortunately, due to the emergency nature of the event itself
and logistics issues there are little or no data available representing inhalation exposure during
the critical hours and days immediately following the 9/11 disaster.
Perhaps the most critical question that needs to be asked in any study of this nature is what is the
ultimate end use of the data? Based upon my review of the data in the EPA report as well as the
attendant public review comments it is obvious that there is much disagreement over the end use
of the data collected and ultimately the purpose and objectives of the program itself. As a result,
data currently do not exist to satisfy a " wish list" of program objectives. Accordingly, it is this
reviewer's recommendation that one of the charges of the forthcoming Workshop (July 14 and
15 2003) should be to reexamine the purpose and objectives of the EPA study and redefine these
if warranted. These goals and objectives when clearly defined will dictate data needs. More
specifically, do we have the data needed to satisfy program objectives and if not what course of
action should be taken to gather the necessary data. For example, the October 2002 report does
not adequately characterize current and future human exposure associated with inhalation of
dusts present in the environment around the WTC site and the NYC Metropolitan area. These
dusts likely represent a significant source of secondary exposure long after air emissions from
the primary WTC Site had ceased in 2002.
Other recommendations for discussion on the agenda of the forthcoming Workshop including
some justification for each are as follows:
• The target compound list of parameters monitored while quite comprehensive did not
consider a number of critical compounds and compound classes of toxicological
significance from a human health perspective that might also be contained in WTC air
emissions. Mercury was not included nor were brominated POPs. The latter class of
compounds includes PBDEs and other bromine substituted organics likely formed from
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combustion of materials impregnated with bromine containing flame retardants. Data
presented in the report do identify significant levels of elemental bromine in selected
particulate samples collected in ambient air and dusts in and around the WTC Site.
• No data on PAHs are contained in the report. These perhaps represent the class of
semivolatile organic compounds most likely present in the highest concentrations in air
emissions from the WTC particularly during fires and combustion conditions.
• Due to the dynamic nature of the disaster and the lack of steady state combustion
conditions in the days and months following 9/11 additional products of combustion
analyses are warranted. These analyses if deemed warranted could likely be conducted on
samples or sample extracts maintained in archival storage at the participating
laboratories. The necessary data for products of incomplete combustion and in particular
organics could be developed using existing GC/MS electronic data files.
• The data contained in the report are still too preliminary to support reliable quantitative
predictions of potential human health risks (pg 24 EPA Report). The reviewer agrees
with this statement. That stated the report should be viewed as a work in progress.
Conclusions and recommendations based upon the available data should be limited to the
quality of ambient air in and around the WTC site. As a result, broader conclusions about
the effects of long-term exposure to entrained dusts and human health effects over time
associated with the initial acute exposure to WTC air emissions cannot be supported by
the data presented. The Workshop should consider addressing this charge as well in its
deliberations on July 14 and 15 2003.
• It is well known that the calendar period of September 11-18 2001 was poorly
represented in the available data-base. Due to the emergency nature of the event and
logistics problems likely hampered the response times to deploy sampling equipment to
the site. A lesson learned from the WTC disaster is to put the necessary planning and
systems in place in the very near future so as to be ready for emergency monitoring on an
as needed basis. This should include availability of portable instrumentation (e.g. battery
powered) and " real time" monitors that can be readily deployed to respond to any
national emergency.
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November 18 2003
Peer Review Addendum
Exposure and Human Health Evaluation of Airborne Pollution from the World
Trade Center Disaster (EPA/600/P-2/002A; October 2002)
Prepared by Gary T Hunt/TRC Corporation
Information Sources
The review to follow herein was based upon information provided to this reviewer from a
number of sources. These sources include:
a Review of the External Review Draft of the EPA document as titled above
(EPA/600/P-2/002A; October 2002).
a Public review comments received by EPA contained in a Supplemental
Document (June 2003).
a Participation in Peer Review Meeting , which took place in New York City on July
14-152003.
a Review of Summary Report of the USEPA Technical Peer Review Meeting;
September 11 2003 Draft Version.
a Review of Executive Summary of the USEPA Technical Peer Review Meeting,
October 28 2003 Draft.
a Observers Comments offered during the Peer Review Meeting and subsequent
to the July 14-15 2003 meeting.
a Journal article provided by Dr Clifford Weisel which appeared in Environmental
Health Perspectives Volume 110 Number 7 July 2002.
a Short papers and oral presentations which appeared on the agenda of the Dioxin
2003 conference in Boston Ma during the period August 24-29 2003.
a Package of materials provided by Versar on August 11 2003.
Summary Comments and Findings
1. Purpose and Objectives of Program- Data End Uses
a The EPA document, which was the focus of the Peer Review Meeting provides a
significant amount of information in support of the primary stated objective of the
project, which was an assessment of potential human health impacts associated
with exposure to emissions from the collapse of the World Trade Center on
September 11, 2003 (pg 13). It should be noted that the assessment focuses
deliberately on exposure associated with direct inhalation of air emissions from
the WTC site commencing on September 18 2001. This reviewer finds this report
to be a very comprehensive document addressing large quantities of data
collected by a number of agencies engaged in the monitoring effort. The report
does a good job of identifying the point in time when air quality in the vicinity of
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the WTC site had returned to normal or background levels. Unfortunately, due to
the emergency nature of the event itself and logistics issues there are little or no
data available representing inhalation exposure during the critical hours and days
immediately following the 9/11 disaster.
a Based upon my review of the information sources cited above it is obvious that
there is much disagreement over the end use of the data collected and ultimately
the purpose and objectives of the program itself. As a result, data currently do
not exist to satisfy a " wish list" of program objectives. Accordingly, I would
recommend that the Peer Review Summary Report and perhaps Executive
Summary contain a section regarding the end use of the data and what it can
and cannot be used for. This is particularly relevant in light of what the former
EPA Administrator, Ms Whitman, said about the health impacts associated with
WTC air emissions based upon the data contained in the EPA Report that was
the subject of the Peer Review. She drew more global conclusions about the
significance of the data than the data could justifiably support. These same
sentiments were echoed in the Observers Presentations and comments rendered
during the July 14-15 Peer Review Proceedings.
a The October 2002 EPA report does not adequately characterize current and
future human exposure associated with inhalation of dusts present in the
environment around the WTC site and the NYC Metropolitan area. These dusts
likely represent a significant source of secondary exposure long after air
emissions from the primary WTC Site had ceased in 2002.
a That being said I would recommend that the section to be added to the EPA Final
Report regarding suggested end uses of the data include the following: The data
contained in this report are recommended for use in examining human health
effects associated with direct inhalation of regulated air pollutants present in the
ambient air in the aftermath of the WTC disaster. These data which focus on
atmospheric concentrations of primarily regulated air pollutants cannot be used
for inhalation exposure in the hours and in some cases days immediately
following the WTC disaster nor can they be used in assessing exposures not
related to direct inhalation of air emissions from the WTC site. For example,
these data cannot provide a reliable benchmark for secondary exposure
associated with inhalation of dusts deposited in indoor environments after their
initial release during the WTC disaster.
a The October 2002 EPA report should be viewed as a work in progress.
Conclusions and recommendations based upon the available data should be
limited to the quality of ambient air in and around the WTC site. As a result,
broader conclusions about the effects of long-term exposure to entrained dusts
and human health effects over time associated with the initial acute exposure to
WTC air emissions cannot be supported by the data presented.
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2. Target Parameters- Compounds of Interest Monitoring Program
a No rationale has been provided in the information sources cited regarding the
basis for the selection of target parameters. In the opinion of this peer reviewer it
appears that the target parameters were limited to primarily regulated air
pollutants monitored using traditional or readily available sample collection and
analyses procedures. The Peer Review Committee has directed EPA to address
the rationale for the selection of target parameters in further editions of the Final
Report.
a Combustion by products formed during the WTC initial collapse and more so in
the numerous fires which took place in the ensuing months following 9/11 were
not adequately addressed at any time during the monitoring program.
Measurements were limited to PCDDs and PCDFs and even these were
hampered by abnormally high detection limits and the unavailability of data for
several weeks following the initial collapse.
a The WTC collapse and ensuing numerous fires , which persisted until December
19, 2001 constitutes a unique environmental disaster unprecedented in history. It
is highly likely that significant quantities of combustion by products currently
regulated and many new compounds at present unknown were introduced into
the environment vicinal to the WTC site and the New York City Metropolitan area.
These by products include but are not limited to the following types of
semivolatile organic compounds: PAHs, PCBs, PBDEs, PCNs.
a In addition, it is likely that the WTC fires introduced many combustion by
products into the environment whose toxicity to humans as individual compounds
or as a composite mixture of compounds is unknown at the present time. Recent
publications cited in the above information sources have provided the chemical
characterization of a wide variety of these classes of compounds. These
compounds were identified in both films deposited on Lower Manhattan windows
as well as dusts and smoke aerosols deposited in weather protected locations
east of the WTC site.
a The latter publication included analysis of both indoor and outdoor dusts
representative of materials that settled immediately following the explosion and
fire and concurrent collapse of the WTC. (Lioy et al Environmental Health
Perspectives Volume 110/Number 7 July 2002). The results of these analyses,
while limited to three samples, illustrate the chemical complexity of the mixtures
released and provide some indication of the types of acute exposures
experienced by residents, commuters and rescue workers in the minutes and
hours immediately following the WTC collapse. Further these data should help
us better appreciate the risks associated with longer term exposures to the dusts
generated by the WTC disaster, and in particular exposure to dusts in work areas
and residential properties downwind of the WTC site. These types of data are
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currently unavailable through the EPA data base that was the subject of the Peer
Review Meeting.
The data from these studies further support the need to have the interiors of
buildings affected by these dusts and associated HVAC systems cleaned so as
to minimize the longer-term risks for building occupants.
The target compound list of parameters monitored while quite comprehensive did
not consider a number of critical compounds and compound classes of
toxicological significance from a human health perspective that might also be
contained in WTC air emissions. Mercury was not included nor were brominated
POPs. The latter class of compounds includes PBDEs and other bromine
substituted organics likely formed from combustion of materials impregnated with
bromine containing flame retardants. Data presented in the report do identify
significant levels of elemental bromine in selected particulate samples collected
in ambient air and dusts in and around the WTC Site.
No data on PAHs are contained in the report. These perhaps represent the class
of semivolatile organic compounds most likely present in the highest
concentrations in air emissions from the WTC particularly during fires and
combustion conditions.
Due to the dynamic nature of the disaster and the lack of steady state
combustion conditions in the days and months following 9/11 additional products
of combustion analyses are warranted. These analyses if deemed warranted
could likely be conducted on samples or sample extracts maintained in archival
storage at the participating laboratories. The necessary data for products of
incomplete combustion and in particular organics could be developed using
existing GC/MS electronic data files.
The window films data (Dioxin 2003) can be used to back calculate gas-phase
concentrations for a variety of semivolatile organics found in these samples.
These include PBDEs, PCBs, PAHs, and PCNs. The window films serve as a
convenient passive sampler representative of atmospheric concentrations on an
historical basis. These samples accordingly may provide a means to establish
human inhalation exposure over time for gas phase concentrations of a variety of
semivolatile organic compounds present in the atmosphere.
The results of the window film analyses suggest that a large quantity of
combustion products were released by the WTC disaster and that the deposition
of these contaminants occurred primarily within a 1 kilometer radius of the WTC
site.
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6. Lessons Learned and Implications for the Future
It is well known that the calendar period of September 11-18 2001 was poorly
represented in the available data-base. Due to the emergency nature of the
event and logistics problems likely hampered the response times to deploy
sampling equipment to the site. A lesson learned from the WTC disaster is to put
the necessary planning and systems in place in the very near future so as to be
ready for emergency monitoring on an as needed basis. This should include
availability of portable instrumentation (e.g. battery powered) and " real time"
monitors that can be readily deployed to respond to any national emergency.
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Review by
Patrick L. Kinney, Sc.D.
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Initial Comments on
Exposure and Human Health Evaluation of Airborne Pollution from the World Trade Center
Disaster
EPA/600/P-2/002A External Review Draft
Patrick L. Kinney, Sc.D.
July 6, 2003
This document summarizes results of EPA's comprehensive evaluation of potential health effects
associated with air pollution emissions from the World Trade Canter collapse. Extensive air
monitoring data collected by EPA and other agencies are reviewed and analyzed to examine
trends over time and space, and to determine whether and to what extent health benchmark
concentrations were exceeded. The report focuses on a subset of pollutants that are thought to be
of greatest health concern: particulate matter (PM), metals (including lead, chromium, and
nickel), polychlorinated biphenyls (PCBs), dioxin-like compounds, asbestos, and volatile organic
compounds (VOCs).
Critique:
EPA's effort to carry out a comprehensive evaluation of air pollution health risks associated with
the 9/11 disaster is commendable. The document will be of tremendous value to a variety of
stakeholders, including the general public, policy makers, scientists and the news media. The
overall quality of the report is high. The choice of pollutants to focus on makes sense. In
general, the data are chosen, analyzed and interpreted appropriately; judgments as to health risks
are well reasoned. I believe that the overall conclusions of the evaluation are reasonable given
the available data, i.e., (paraphrasing) that 1) persons caught in the initial dust cloud associated
with the collapse were probably exposed to very high concentrations of a wide range of
pollutants, and that acute and possibly chronic health problems may be associated with these
exposures; 2) after this initial phase, concentrations of air pollutants in off-site residential zones
were often elevated compared to upwind sites but that these exceedences gradually diminished
after 1-3 months following 9/11 and that the risks of adverse health effects from the elevated
levels of exposure were generally low. The report is careful to point out that these are
preliminary conclusions based on available data and that conclusions could change when new
information becomes available.
Specific comments:
p. 6, 1st paragraph, last full line: eliminate 'month'
p. 6, 2nd paragraph, second line: the fact that the OSHA PEL of 1 mg/m3 was never exceeded
seems fairly irrelevant, given that we know that generic PM2.5 can cause adverse health effects
at levels at or below the NAAQS. This brings up a more general point, which is that somewhere
early in the executive summary there needs to be a short paragraph explaining why occupational
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standards may not be directly relevant to general population health risk assessment, including
issues of voluntary and compensated risks vs. involuntary risks, healthy workers vs. widely
varying susceptibilities in general population. This very important point will not be obvious to
the general reader. It's discussed later in the report, but not mentioned in the E.S. It might be
useful to give some examples of acute air standards for which both occupational and ambient
standards exist, such as PM2.5 or SO2, to illustrate how different the numbers can be.
p. 6 last line: again for the general reader, it would be best to present concentrations in simple
and consistent units. Instead of 1*103 ng/m3, why not say 1000 ng/m3 or, better yet, 1 ug/m3.
p. 7 first line: same issue for 50 ug/m3.
p. 7, last paragraph: state the dioxin LODs
p. 9, lines 3 and 4: 'used to identify structures less than 0.5 um in length' is confusing. It
implies that TEM ignores anything longer than 0.5, which I don't think is the case. In fact, I
thought that the AHERA protocol involved counting structures as small as 0.5 but not less than
that size.
p. 10, first paragraph, last line: It would be good to append a concluding sentence to the effect
that these data support the conclusion that the WTC collapse resulted in increased indoor
asbestos levels in lower manhattan.
p. 11. first paragraph, 8 lines from bottom: the September date is missing.
p. 12, third paragraph, line 1: include 'visitors' as another at risk population.
p. 16, line 1: the use of a health benchmark in a screening exercise is only valid if the health
benchmark is appropriate for the population at risk, which I think is somewhat problematic here
where occupational benchmarks are being used to screen risks in the general population. Need
to include a few lines justifying this approach and discussing whether it's likely to be
conservative or not.
p. 32, conclusion bullet (3), line 2: in addition to quoting the distance in blocks, I think it would
be helpful to include distance in meters or km.
p. 32, last paragraph: Need to mention the problem that it's difficult or impossible reproduce the
original PM airborne size distribution based on resuspension of settled dust, since the smallest
particles have a tendency to stick very persistently to larger particles. Thus, these kind of data
will tend to overestimate the fraction of PM in the larger size ranges and underestimate the PM
in the smaller size ranges.
p. 35, third paragraph: There needs to be references to specific figures in this lengthy
paragraph.
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Review by
Clifford P. Weisel, Ph.D.
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Critique of EPA Draft Report: "Exposure and Human Health Evaluation of Airborne Pollution
from the World Trade Center Disaster"
Clifford P. Weisel, Ph.D.
August 21,2003
The draft report describes the US EPA health assessment of published and publically
available ambient air concentration data collected in and near lower Manhattan following the
World Trade Center (WTC) disaster. A large amount of data was reviewed for selected toxic
substances predicted to be most likely to have possible adverse health impacts on individuals
who entered ground zero or lived in the nearby community. Exposure to ambient pollutants to
both residents and workers (such as clean up workers) were considered and compared to
standards or "typical" urban ambient levels. A limited examination of exposure to ground zero
workers and indoor air concentrations was done as part of this report, but a full evaluation of
workers and indoor environments was beyond the scope of the report and are expected to be
presented elsewhere.
Recommendation: Since the report is predominantly focused on ambient air concentrations, it is
suggested that the title be changed to more clearly reflect this.
Recommendation: More details should be provided on the selection of which toxic substances
were analyzed and included in the report. A listing in the appendix of all the toxic substances
data have been collected, time periods, numbers and locations for the outdoor air would be
useful.
The report notes that there is a lack of air monitoring data in the days immediately
following September 11, and for some contaminants for more than a week. A more detailed
analysis and justification should be provided for the concentration used to evaluate the health
impacts for the time period between September 11 and the first available measurement. As is
indicated on Page 11, "air concentrations within and very near Ground Zero would have been at
least at these high levels (Measured on September 23 for dioxin) and probably higher during the
first several days after September 11." However, on page 78, the dioxin air concentrations
between September 12 and 23 were assumed to be equal to the September 23 measurement. The
assumption that the first measured concentration is representative of concentration for the entire
time interval may not be correct, if the emission source strengths declined during that time
period or the meteorology varied. This should be discussed in more detail for each of the
pollutants examined and upper bound estimates of what air concentrations could exist and
whether they may be of concern presented.
Recommendation: The ambient air concentrations should not be predicted for time periods prior
to the start of sampling as there is current way to properly estimate those concentration. Under
prediction could result in erroneously suggesting that the exposure was non-problematic when
this was not the case.
The choice of comparison data and health based standard to be used for comparison to
the air measurements is important in establishing a risk estimate and when discussing results in
publically available reports. For the particulate matter, one of the comparison data set chosen
was collected at the NYU Medical Center in August 1976. These data may not be appropriate
for comparison as some of the concentrations measured were at levels that have health concerns
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and the substances were subsequently listed as air toxics or Hazardous Air Pollutants in the 1990
Clean Air Act Amendments. Thus, saying exposure to similar levels in the past is not
reassuring.
Recommendation: Do not use the 1976 data for comparison.
The report also correctly cautions about using occupational standards as a basis for
environmental health criteria on page 23. However, that caution is less clear in other places in
the report, such as on page 68 where the last paragraph begins "Occupational exposure limits
provide an additional perspective by which to evaluate potential non-cancer health effects ..."
Further, even using the TWA for the cleanup workers may be problematic since there were
reports of their activities exceeding the 10 hour day - 5 day maximum that the standards are
based on. Rescue workers reported working double shifts, working more than 5 days per week
and staying in the area between shifts. These exposures would not provide the body the
recuperation time that is assumed in the standards.
Recommendation: Care should be taken in applying the TWA for occupational to the
environmental settings, even when using safety factors. Whenever these comparisons are done
the appropriate caveats should be restated to minimize the chance that the statements will be
taken out of context.
The conclusions on page 33 about the WTC emissions changing because of the changes
in the metal content of the particulate matter during the Fall needs clearer justification and
support.
Recommendation: Include the auxiliary data and discussions about the spatial distribution that
were presented at the meeting to justify the text discussion of source emissions from on site.
Include at least a paragraph about all of the metals that were measured, even if figures and/or
tables of them are not included.
The description of the dioxin measurements on the EPA samplers, which collected 7
cu.m. of air, is technically correct. However, due to the low volume the results need more
careful discussion. The samples with very high concentrations should be highlighted and the
implications of these values, greater than measured in just about any other ambient air sample
needs to be presented clearly, along with a reconsideration of whether they may present a health
risk.
Recommendation: Reorganize the discussion and tables to clarify which samples were below
detection because of the low volume collected and how the difference in detection limits
between the two types of samples that were collected need to be considered in the comparison.
Align the dates in Table 4 for the three sites so they can be more readily compared.
In the section on Potential Human Health for Dioxin the exposure scenarios and
ventilation rates need to be reviewed.
The limited discussion of the indoor air and occupational exposures while commendable
may be problematic.
Recommendation Occupational: For the occupational exposures, see if a more comprehensive
report is being planned in deciding what should or should not be included here. It is probably
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best to exclude or at least place in even stronger context the VOC measurements made for source
emission evaluation as they are not applicable for exposure estimates without extensive
modeling. Similarly, the measurements made for worker exposure determination need to be
separated from the environmental exposures that occurred off-site more clearly. It may pay to
discuss exposures to individuals who returned to their residences on-site or in the restricted zone
prior to complete authorization using the worker exposure measurements.
Recommendation Indoor: A separate indoor exposure and risk report should be prepared that at
the minimum has an oversight board with, if not prepared by, non-EPA scientists and community
representatives to expand the breadth of the report to address community concerns and facilitate
an atmosphere of trust between the community and EPA scientists. The section on indoor air
should be carefully reviewed so as not to provide more emphasis to draft reports that have not
been peer-reviewed. Having them included here provides an appearance of a peer-reviewed
status possibly providing them with undue legitimacy.
A review of the PM conclusions needs to be done after the data has been evaluated.
Several members of the audience mentioned samples collected at Stuyvesant HS, which was
apparently done by DEP with coordination by the NYC Board of Education, (see
http://www.nyc.gov/html/dep/html/airmonit.html for example and at some EPA web sites).
These should be mentioned for completeness.
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The following are supplementary comments on the EPA report. These additional
comments were too detailed in nature to be included in my initial comments, and they were not
discussed at the Peer Review Meeting because they did not fall under any of the general charges
to the reviewers, but they may be helpful to EPA during the revision of the report.
1. In the List of Acronyms and Abbreviations, "f" should refer to "fibers", rather than to
"fibers of asbestos", the letter "L" in "REL" and "STEL" I believe is "Limit", rather than
"Level", "TEM" is "Transmission Electron Microscopy", and "XRF" is "x-ray
fluorescence".
2. In the Executive Summary on Page 1, Paragraph 2, Line 3, it is stated that "It is an
assessment of the inhalation exposure and potential human health risk incurred by the
general population residing and working in the vicinity of the WTC." This statement
requires some additional clarification, because most people residing and working near the
WTC spend most of their time indoors, and indoor exposures are not the primary focus of
this report.
3. On Page 2, in Line 8 of Paragraph 2, the sentence beginning "Dioxin and VOC's..."
needs to be re-worded. As it stands, the sentence can be taken to mean that these
pollutants are produced only from fuels. There were many other potential sources in the
WTC buildings.
4. On Page 2, the final paragraph contains the expression "in the surrounding community".
It would be good if this could be better defined.
5. On Page 9, Line 2, it is stated that PCM is used to identify structures greater than 5 |im in
length. PCM does not have the ability to identify anything.
6. On Page 9, Line 3, the statement in parentheses is incorrect. TEM is used to detect and
identify asbestos structures greater than 0.5 |im in length
7. On Page 9 in the final line of Paragraph 1, a reference for the value of 0.003 f/cc as
typical of urban background should be given, particularly since it is used in the report as
a definition of background. In fact, I remain uncomfortable with the concept of using
PCM as a measurement method for asbestos in the general environment. I recognize that
it may have been useful for rapid measurements in the early hours after the collapse, but
the authors should be careful to not place too much reliance on the PCM measurements,
either outdoors or indoors. In the measurements we made in the apartments, I never even
contemplated the use of PCM.
8. On Page 9 of the report, in the 3rd Paragraph, it is stated that "One apartment was highly
affected by the collapse of the WTC towers with completely shattered windows and dust
piled throughout the apartment. The other was in a building that had little exterior
damage ". In fact, I was present at the sampling and only one small window had been
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broken in the first apartment, and the opening had been sealed with plastic sheet and
adhesive tape. The other building had no exterior damage.
9. On Page 10 of the report in the first paragraph, some reference to the method of analysis
of the bulk samples should be given, and a caution on the reliability of these data. It is
well known that measurements by PLM in the range below about 5% are quite unreliable,
and it is unlikely that the figures quoted to two significant digits are meaningful.
Moreover, I think that asbestos was likely present in all of the bulk samples collected,
and that the failure to detect asbestos in many of the settled indoor dust samples or the
outdoor samples was a question of deficiencies in either the analytical method, or the
conduct of the method.
10. On Page 11, Paragraph 2, Line 9, the method of analysis should be stated..
11. On Page 17, the last entry in Table 1 is incorrect. The AHERA clearance standard is not
"a level of concern". Abatement activities were not undertaken to reduce air
concentrations, because abatement decisions were not made on the basis of measured air
concentrations. It is incorrect to say that school children were not allowed back in until
several consecutive readings were less than the AHERA standard. In fact, the clearance
decision is based on the average of 5 simultaneously collected samples in the work area
being lower than 70 s/mm2. Even that value is considered to be an "initial screening
test".
12. On Page 70, there is a blank cell for the Barclay & West Broadway location on 9/27 in
the final column.
13. On Page 86 at the beginning of the 2nd paragraph, the word "classified" would be more
appropriate than "characterized".
14. On Page 86 in the 3rd Paragraph, it is stated that "Both asbestosis and benign pleural
plaques result in reduced breathing capacity and mortality". I suggest that this be
re-phrased, since it currently means that asbestosis and pleural plaques result in reduced
mortality, which I do not believe is the case.
15. On Page 87 in Section IV.e.l, it is stated with respect to PCM: "It counts all fibrous
structures with a minimum diameter of 0.3 |im and has a magnification range of
100 - 400X". The minimum diameter is usually taken to be 0.25 |im in the U.S., and
counts are made at a fixed magnification of between 400 and 450. Later in the same
paragraph, it is stated that "PCM results are reported on a mass-per-volume basis, ....".
This is not correct - PCM results are never reported in that manner.
16. On Page 88 in the first paragraph, there needs to be some mention of the fact that the
AHERA method specifies the use of aggressive sampling to create the worst case
situation.
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17. On Page 88 in the 3rd line of the first paragraph, it is stated: "The AHERA Final Rule
establishing a 70 s/mm2 standard for asbestos in schools ". The AHERA Final Rule
actually established an indoor-outdoor comparison as the clearance criterion. The
70 s/mm2 criterion is an "initial screening test". In this paragraph, it should also be
mentioned that the air sampling is to be conducted under aggressive conditions.
18. On Page 88 in the final three sentences of Paragraph 2, it is an over-simplification to state
that there is not a good correlation between PCM and TEM measurements. When the
direct-transfer TEM method is used, and the PCM size fraction of fibers is measured
using TEM, the correlation can be very close. It is true to say that, in the general
environment, there is generally little correlation between PCM measurements and TEM
measurements of all fiber sizes. There are two reasons for this: the PCM measurements
include fibers other than asbestos, and the TEM measurement includes asbestos fibers
outside of the visible range for PCM. In fact, there is no reason to expect a correlation.
Although it is not the responsibility of the authors of this report, I believe that the
ATSDR procedure to obtain what are termed "TEM units" by multiplying PCM data by
60 is totally invalid. It needs to be clarified as to what these "TEM units" are - are they
for all fiber sizes greater than 0.5 |im in length, or are they all fibers longer than 5 |im?
19. On Page 88 in the 3rd paragraph, it is stated that".... structures meeting a minimum
diameter of >0.3 |im with length >5 |im are counted as PCM equivalent ("PCME")
fibers". NIOSH 7402 defines "PCME" fibers as those longer than 5 jam and thicker than
0.25 |im, and ISO 10312 defines them as longer than 5 |im and thicker than 0.2 |im.
20. On Page 89 in the first paragraph, on line 4, the AHERA clearance criterion is actually
based on the average of a single set of 5 samples. There is no requirement for such TEM
readings to be "consistently" below 70 s/mm2, just that the average of the clearance set be
below this value.
21. On Page 89, Paragraph 4, Line 5, it should be stated that the mass concentration of
30,000 ng/m3 was derived only for chrysotile. and the data on which this value is based
have a very large range. I have already commented in Item 18 about the multiplier used
to convert PCM to TEM data.
22. On Page 91 in the first paragraph, reference is made to sampling stations set up in public
schools. It is not clear whether these were external samples or actually inside the
buildings. If they were inside, was the sampling aggressive or passive? The sampling
conditions should be stated, since the AHERA protocol specifically requires aggressive
sampling.
23. On Page 128 in the 2nd paragraph of Section Vl.b. 1, the description of how PLM
distinguishes between fiber types requires revision - it is not correct. I doubt that a
simple, one sentence description is even possible, and a more detailed explanation would
be out of place. I suggest that the sentence be truncated to: "PLM can distinguish
between fiber types in a bulk sample.". I also suggest that a caution be added regarding
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the inaccuracy and unreliability of routine PLM measurements in the vicinity of 1%. As
stated in Item 9, it is my opinion that the failure to detect asbestos in 82% of the
residential units, and in 8 of the outdoor samples was more a question of limitations of
the analytical method and the conduct of the method.
24. On Page 128 in the final paragraph, it states that "All air filter samples were analyzed
first using PCM to determine if fibrous materials were present. It seems highly
questionable to use a method, already admitted to have little correlation with TEM data,
as a screening method for selection of samples for subsequent TEM analysis. Under this
protocol, the existence of a few cellulose fibers could trigger analysis by TEM, and a
sample containing considerable numbers of thin chrysotile fibers could be overlooked.
Again, the ATSDR work is simply being reviewed by the authors of this report.
25. On Page 133, on the 5th line the report states: "A small-scale monitoring study of two
residential buildings was conducted by contract (Chatfield and Kominsky, 2001)." The
statement is incorrect - the work was not done under contract; all individuals involved in
the study donated their time and the analytical costs to conduct this study.
26. On Page 133 in the 2nd paragraph, it is stated that the TEM analyses were conducted
using AHERA counting protocols. In fact, ISO 10312 was used. The end result,
however, would be similar. Chrysotile is also spelled incorrectly at the beginning of the
3rd sentence.
27. On Page 133 in the final paragraph, it should be mentioned that amphibole asbestos
(amosite and actinolite/richterite) at concentrations of approximately 0.02% was also
detected in these outdoor dust samples.
28. On Page 134, it is not clear whether the air sampling referred to was aggressive or
passive. This should be clarified, because it affects the interpretation of the data. In fact,
whether the air sampling was aggressive or passive should be stated for all of the
asbestos air sampling data.
29. On Page 135, various dates are quoted. It would be helpful if the year was added to each
of these dates.
30. On Page 135, the first sentence of Paragraph 4 needs to be re-worded. One suggestion
would be to insert the word "who" or "that" between "people" and "may" on Line 2 of
this paragraph.
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APPENDIX G
Comments and Written Materials from Observers
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List of Comments and Materials Submitted by Public Observers
Comments and Materials Submitted Prior to and at Peer Review Meeting
7/14/03 Letter re: EPA/Versar Peer Review, from 9/11 Environmental Action. Statement by
Kimberly Flynn, on behalf of 9/11 Environmental Action, July 14, 2003.
Statement by Jenna Orkin, 9/11 Environmental Action, at EPA Peer Review Meeting. July 14,
2003.
Materials provided by Jo Polett on July 14, 2003, at Peer Review Meeting: (1) Executive
Summary to ATSDR report on WTC, (2) Letter to DOH from Nina Lavin (on residence 1), (3)
Results of air and settled dust sampling at residence 1, (4) Indoor air quality survey of
residence 1, (5) Indoor air quality survey of residence 1.
Sediment and Tetramitus Toxicity in NYC Drinking Water, Appendices I, II, IV. Fact Sheets
by Robert L. Jaffe, Ph.D., Environmental Toxicology Laboratory, LLC
Flagellate Swimming Patterns as an Early Warning Signal for Terrorist Poisoning of Air and
Drinking Water. Phase II White Paper. Paper by Robert L. Jaffe, Ph.D., Environmental
Toxicology Laboratory, LLC
Environmental Health Effects of WTC. EOHSI Website, University Research. Provided by
Catherine McVay Hughes, NYU, on July 15,2003.
World Trade Center Environmental Impact Research Community Update. Brochure, Fall
2002. http://niem.med.nyu.edu/wtc.pdf. Provided by Catherine McVay Hughes, NYU, on
July 15,2003.
Further Comments on EPA document for peer review '.Exposure and Human Health
Evaluation of Airborne Pollution from the WTC Disaster. Statement by Marjorie J. Clarke,
Ph.D. July 15,2003.
No Serious Health Risk for Public from Ground Zero, EPA Reports. New York Times,
December 28, 2002.
Status of EPA Office of Inspector General Investigation of EPA's Handling of WTC Fallout.
January 27, 2003. EPA/OIG.
Occupational and Environmental Health Impact of the World Trade Center Collapse,
February 2003. Abstract to presentation by Steven Markowitz, N.Y. Academy of Sciences.
Februarys, 2003.
Do Lower Manhattan Cleanup Right. NYCOSH. William Henry. Fact Sheet. August, 2002.
We Protect More Than the Environment. . . EPA Flyer
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Downtown Favors West St. Tunnel, Poll says . .. Downtown Express Online. May 2003
Predicting Health Impacts of the World Trade Center Disaster, January 2002. Article.
Produced by R. Wallace and DW Wallace. N. Y. State Psychiatric Institute and School of
Public Health, Columbia University. Provided by Joel Kupferman, Esq. July 14, 2003.
Comments on the EPA Office of Inspector General's 1/27/03 interim report titled:
"EPA's Response to the World Trade Center Towers Collapse" A DOCUMENTARY BASIS
FOR LITIGATION. July 4, 2003. Prepared by Cate Jenkins, Ph.D., US Environmental
Protection Agency.
Comments and Materials Submitted Following Peer Review Meeting
NYC Council Hearing on Post-9/11 Remediation of WTC: Problems with EPA's Scopes of
Work; EPA's Outreach. December 19, 2002. Statement by Marjorie J. Clarke, Ph.D.
NYS Assembly's second hearing on Air Quality issues surrounding the World Trade Center
collapses and fires, April 12, 2002. Statement by Marjorie J. Clarke, Ph.D.
Additional comments concerning the document: Exposure and Human Health Evaluation of
Airborne Pollution from the World Trade Center Disaster. Post meeting comment submitted
by Jenna Orkin, 9/11 Environmental Action. July 24, 2003.
EPA Public Comment /WTC Health Consequences. Post meeting comment submitted by
Carla Breeze & Wayne Decker, Neighborhood Environmental Watch. July 18, 2003.
Post Meeting Comments by Diane Dreyfus. July 16, 2003.
Respiratory Problems for Downtown Residents. From Downtown Dispatch - Summer 2003,
by Community Board #1. Submitted by Diane Dreyfus. July 31, 2003.
Independence Plaza Tenants' Association's Report on Cleaning/Testing for Review by the
NCEA Peer Review Panel. Letter from Patricia Dillon, for the IPNTA Environmental
Committee, to David Bottimore, Versar Inc. July 22, 2003. With 2 attachments (1) Letter to
Ms. Christine Todd Whitman, Administrator, U.S. Environmental Protection Agency. June 6,
2003. From Ms. Deborah Dolan, Duane Street Associates, and Diane Lapson, IPNTA
Environmental Committee. (2) Letter to EPA Region 2 on cleaning/testing reports on 80 N.
Moore and 310 Greenwich St. buildings. From Deborah Dolan, Hudson River Management
LLC.
Meeting Follow up - WTC Public Comments to EPA. Submitted by Rachel Lindov. July 22,
2003.
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Asbestos Fiber Length as Related to Potential Pathogenicity: A Critical Review. By Ronald F.
Dodson, Ph.D., FCCP, FAHA; Mark A.L. Atkinson, M.A., D.Phil.; and Jeffrey L. Levin,
M.D., M.S.P.H. Pre-publication copy, American Journal of Industrial Medicine.
Submitted by Marjorie Clarke, July 24, 2003.
Public comments regarding the July 2003 Peer Review of the EPA study entitled:
EXPOSURE AND FIUMAN HEALTH EVALUATION OF AIRBORNE POLLUTION
FROM THE WORLD TRADE CENTER DISASTER. Submitted by Bob Van Dyke, From
the Ground Up. August 1, 2003.
Question on Use of Ambient Monitoring Network Data, submitted by Henry H. Willis, Ph.D.,
RAND, July 14,2003.
Reply to Question on Use of Ambient Monitoring Network Data by Matthew Lorber, U.S.
EPA, to Henry H. Willis, Ph.D., RAND. July 18, 2003.
LATEST EPA "All Clear"& Safe to Live Downtown NOT TRUE. Comments submitted by
Ari Porter, July 15,2003.
NCEA peer review comment; PCBs, PCDD/Fs, PBBs, PBDD/fs; background levels.
Submitted by Paul Bartlett, CBNS, Queens College. July 25, 2003. With attached journal
article POLYCHLORINATED BIPHENYL (PCB) CONCENTRATIONS IN
ATMOSPHERICALLY DERIVED ORGANIC FILMS FROM LOWER MANHATTAN AFTER
SEPTEMBER 11, 2001, Craig M. Butt, Jennifer Truong, Miriam L. Diamond, and Gary A.
Stern. ORGANOHALOGEN COMPOUNDS Vol. 59, Pages 219-222 (2002).
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Submission of public comment: 2002. EXPOSURE AND HUMAN HEALTH
EVALUATION OF AIRBORNE POLLUTION FROM THE WORLD TRADE CENTER
DISASTER (EXTERNAL REVIEW DRAFT). 01 Oct 2002. Comments submitted by Joel
Kupferman, Esq., New York Environmental Law & Justice Project. August 1, 2003. With 23
attachments.
A - Toxics Targeting for WTC Complex
B - PortAuthorityVSallied
C - Kupferman9-19-01-nearWTC
D - Gonzales-Fallout-Chapter3
Dl -EPA-Daily-Summary-Oct2-2001
E - NIEHS Report-on WTC-Workers
El - CCRworkersafetyCritique
F - HealthStudyFreshKills
G - 92802Bulksample333RectorStreet
Gl - Amex testing & cleanup
H - DEP demand
I - Ladder25results73102
J - CONTAMINTED HOUSES AND RIG
K - TheAsbestosNightmare
L - WINDBORNE POLLUTANTS TRAVEL
M- ISOFrankllinStreetTestResults
N - 105DuaneStreetResults
O - asbestosdustsamplingEwing
P - WallaceHealthlmpacts
Q - DailyNewsFireMaySmolder
R - PREZANTLETTERFIREFIGHTERHEALTH
S - PublicHealthFalloutfromSeptemberl 1
NY COSH. Technical Peer Review of Exposure and Human Health Evaluation of Airborne
Pollution from the WTC Disaster. Letter with 17 articles and reports attached.
1. Four HUE reports by NIOSH, one each for Borough of Manhattan Community college,
Stuyvesant High, Office of Attorney General of State of NY, and offices of NYC
clerical workers.
2. Assessing Health of Immigrant Workers Near Ground Zero: Preliminary Results of the
WTC Day Laborer Medical Monitoring Project, 2002. Amer. J. Ind. Med, 00:1-2.
3. Levin, Herbert. WTC Worker and Volunteer Medical Screening Program-Report of
Initial Findings to Nat 7 Inst. For Occup. Safety andHlth of the Centers for Disease
Control and Prevention, January 2003.
4. Chatfield, Kominsky. Summary Report: Characterization of Particulate Found
in apartments After Destruction of the World Trade Center, October, 2001.
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5.
6.
7.
Ewing. Asbestos in Settled Dust Concentrations in NYC Before September, 11,
2001. Abstract. Conference Paper July, 2002 by ASTM Committee D22 on
Sampling and Analysis of Atmospheres.
Phase 2 Sampling and Quality Assurance Project Plan, Rev. 0, for Libby,
Montana-Environ. Mon. For Asbestos, Evaluation ofExp. To Airborne
Asbestos Fibers During Routine and Special Activities, March 2001.
Amphibole Mineral Fibers in Source Materials in Residential and Commercial
Areas of Libby Pose an Imminent and Substantial Endangerment to Public
Health, December, 2001.
8. Asbestos Rules and Regulations., city of NY, Dept. Environ. Protection.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Documents (Partial) Obtained from Freedom of Information Law Request from
NYC Dept. Of Environmental Protection, February 2003. NY Law and
Environmental Justice Project.
Report of Findings: Building Air Quality Assessment, November 2001, August
2002. Excerpts of 2 reports for high-rise commercial bldg. In Lower
Manhattan.
Summary Data ASTM D 57 5 5-9 5 Standard Method for Microvacuum Sampling
and Indirect Analysis of Asbestos in Settled Dust by TEM, February 2003.
Letter dated January 2002 describing results of air monitoring for asbestos in a
World Financial Center Bldg.
Letter dated December 2002 describing results of 3 rounds of sampling for lead
dust in a large institutional building four blocks from Ground Zero.
Re: Environmental dust and Debris Sampling and Evaluation, Letter dated
November 2001.
Two environmental sampling reports for apartments on Harrison Street, dated
November 2002 and January 2003.
Letter and environmental sampling results from ETNY Consulting and
Monitoring, to Ms. Ilona Kloupte, a resident at 300 Albany Street
Summary of TEM Results for Asbestos (ASTM D5755 Dust Microvac) for 2
apartments on Duane Street.
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