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ASTM D5980-16(2024)

(Guide)

Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and Monitoring

Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and Monitoring

SIGNIFICANCE AND USE
4.1 This guide describes a general approach for the use of existing wells in environmental investigations with a primary focus on the subsurface and major factors affecting the surface and subsurface environment.  
4.2 Existing wells represent a valuable source of information for subsurface environmental investigations. Specific uses of existing wells include:  
4.2.1 Well driller logs provide information on subsurface lithology and major water-bearing units in an area. Existing wells can also offer access for downhole geophysical logging for stratigraphic and aquifer interpretations. Examples include natural gamma logs in cased wells and an entire suite of methods in uncased bedrock wells (see Guide D5753). This information can assist in developing the preliminary conceptual model of the site.  
4.2.2 Well tests using existing wells may provide information on the hydrologic characteristics of an aquifer.  
4.2.3 Monitoring of water levels in existing wells, provided that they are cased in the aquifer of interest, allow development of potentiometric maps and interpretations of groundwater flow directions and gradients.  
4.2.4 Existing wells are the primary means by which regional drinking water quality is evaluated and monitored.  
4.2.5 Existing wells may assist in the mapping of contaminant plumes, and in ongoing monitoring of groundwater quality changes at the site-specific level.  
4.3 Data from existing wells should only be used when characteristics of the well have been sufficiently documented to determine that they satisfy criteria for the purpose for which the data are to be used.
SCOPE
1.1 This guide covers the use of existing wells for environmental site characterization and monitoring. It covers the following major topics: criteria for determining the suitability of existing wells for hydrogeologic characterization and groundwater quality monitoring, types of data needed to document the suitability of an existing well, and the relative advantages and disadvantages of existing large- and small-capacity wells.  
1.2 This guide should be used in conjunction with Guide D5730, that provides a general approach for environmental site investigations.  
1.3 This guide does not specifically address design and construction of new monitoring or supply wells. Refer to Practices D5092/D5092M and D5787.  
1.4 This guide does not specifically address groundwater sampling procedures. Refer to Guide D5903.  
1.5 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.7 This guide offers an organized collection of information or a series of options and does not recommend a specific course of action. This guide cannot replace education or experience and should be used in conjunction with professional judgment. Not all aspects of this guide may be applicable in all circumstances. This guide is not intended to represent or replace the standard of care by which the adequacy of a given professional service must be judged, nor should this guide be applied without consideration of a project's many unique aspects. The word “Standard” in the title of this document means only that the document has been approved through the ASTM consensus process.  
1.8 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

General Information

Status
Published
Publication Date
31-Dec-2023
ICS
13.020.10 - Environmental management
Technical Committee
D18 - Soil and Rock
Drafting Committee
D18.21 - Groundwater and Vadose Zone Investigations
Current Stage
Ref Project

Relations

Replaces
ASTM D5980-16 - Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and Monitoring
Effective Date
01-Jan-2024
Referred By
ASTM D8006-16 - Standard Guide for Sampling and Analysis of Residential and Commercial Water Supply Wells in Areas of Exploration and Production (E&P) Operations
Effective Date
01-Jan-2024

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ASTM D5980-16(2024) - Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and MonitoringASTM D5980-16(2024) - Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and Monitoring
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ASTM D5980-16(2024) - Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and Monitoring
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This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the
Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
Designation: D5980 − 16 (Reapproved 2024)
Standard Guide for
Selection and Documentation of Existing Wells for Use in
Environmental Site Characterization and Monitoring
This standard is issued under the fixed designation D5980; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
1. Scope aspects. The word “Standard” in the title of this document
means only that the document has been approved through the
1.1 This guide covers the use of existing wells for environ-
ASTM consensus process.
mental site characterization and monitoring. It covers the
1.8 This international standard was developed in accor-
following major topics: criteria for determining the suitability
dance with internationally recognized principles on standard-
of existing wells for hydrogeologic characterization and
ization established in the Decision on Principles for the
groundwater quality monitoring, types of data needed to
Development of International Standards, Guides and Recom-
document the suitability of an existing well, and the relative
mendations issued by the World Trade Organization Technical
advantages and disadvantages of existing large- and small-
Barriers to Trade (TBT) Committee.
capacity wells.
1.2 This guide should be used in conjunction with Guide
2. Referenced Documents
D5730, that provides a general approach for environmental site
2.1 Pertinent guides addressing specific information neces-
investigations.
sary to utilize existing wells for hydrologic and water-quality
1.3 This guide does not specifically address design and
data for environmental site characterization. A comprehensive
construction of new monitoring or supply wells. Refer to
list of guides, standards, methods, practices, and terminology is
Practices D5092/D5092M and D5787.
contained in Guide D5730. Other guidance documents cover-
1.4 This guide does not specifically address groundwater
ing procedures for environmental site investigations with
sampling procedures. Refer to Guide D5903.
specific objectives or in particular geographic settings may be
available from federal, state, and other agencies or organiza-
1.5 The values stated in SI units are to be regarded as
tions. The appropriate agency or organization should be
standard. No other units of measurement are included in this
contacted to determine the availability and most current edition
standard.
of such documents.
1.6 This standard does not purport to address all of the
2.2 ASTM Standards:
safety concerns, if any, associated with its use. It is the
D653 Terminology Relating to Soil, Rock, and Contained
responsibility of the user of this standard to establish appro-
Fluids
priate safety, health, and environmental practices and deter-
D5092/D5092M Practice for Design and Installation of
mine the applicability of regulatory limitations prior to use.
Groundwater Monitoring Wells
1.7 This guide offers an organized collection of information
D5254/D5254M Practice for Minimum Set of Data Ele-
or a series of options and does not recommend a specific
ments to Identify a Groundwater Site (Withdrawn 2019)
course of action. This guide cannot replace education or
D5408 Guide for Set of Data Elements to Describe a
experience and should be used in conjunction with professional
Groundwater Site; Part One—Additional Identification
judgment. Not all aspects of this guide may be applicable in all
Descriptors (Withdrawn 2019)
circumstances. This guide is not intended to represent or
D5409/D5409M Guide for Set of Data Elements to Describe
replace the standard of care by which the adequacy of a given
a Groundwater Site;Part Two—Physical Descriptors
professional service must be judged, nor should this guide be
(Withdrawn 2019)
applied without consideration of a project’s many unique
1 2
This guide is under the jurisdiction of ASTM Committee D18 on Soil and For referenced ASTM standards, visit the ASTM website, www.astm.org, or
Rockand is the direct responsibility of Subcommittee D18.21 on Groundwater and contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Vadose Zone Investigations. Standards volume information, refer to the standard’s Document Summary page on
Current edition approved Jan. 1, 2024. Published January 2024. Originally the ASTM website.
approved in 1996. Last previous edition approved in 2016 as D5980–16. DOI: The last approved version of this historical standard is referenced on
10.1520/D5980-16R24. www.astm.org.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
D5980 − 16 (2024)
D5410 Guide for Set of Data Elements to Describe a 5. General Considerations in Selection and Use of
Groundwater Site;Part Three—Usage Descriptors (With- Existing Wells
drawn 2016)
5.1 Selection and use of existing wells should take place in
D5521/D5521M Guide for Development of Groundwater
the context of a conceptual framework consisting of a descrip-
Monitoring Wells in Granular Aquifers
tion of the system, including, as necessary, physical and
D5730 Guide for Site Characterization for Environmental
cultural characteristics, such as climate, hydrology, ecology,
Purposes With Emphasis on Soil, Rock, the Vadose Zone
physiography, population, water use and land use, and hypoth-
and Groundwater (Withdrawn 2013)
eses about processes of interest that occur within that system.
D5753 Guide for Planning and Conducting Geotechnical
A step-wise approach for conceptualization and characteriza-
Borehole Geophysical Logging
tion is a direct approach to develop the framework for
D5787 Practice for Monitoring Well Protection At or Near 4
Hydrologic Systems as described in Kolm (1) , (see Guide
Land Surface
D5979). Conceptualization of hydrologic and regional ground-
D5903 Guide for Planning and Preparing for a Groundwater
water quality systems can be formulated using the methods
Sampling Event
outlined in Alley (2). The framework is reviewed and refined
D5979 Guide for Conceptualization and Characterization of
by an iterative process of data collection and analysis, testing
Groundwater Systems
hypotheses with data collected, and identifying data needs to
further revise the framework. Refinement must be made within
3. Terminology
the limits established by the accuracy, precision, and complete-
ness of the data. Methods for data collection are selected that
3.1 Definitions—For common definitions of technical terms
will provide data appropriate for testing hypotheses which
used in this standard, refer to Terminology D653.
evaluate the conceptual framework.
3.2 Definitions of Terms Specific to This Standard:
5.2 Well design and installation can greatly affect the quality
3.2.1 supply (production) well, n—well primarily installed
of groundwater monitoring. Such effects apply both to existing
for public supply, irrigation, and industrial use. Supply wells
wells and to wells specifically installed for a purpose. The
may be used as an observation well.
effects of well design and installation, therefore, need to be
considered regardless of whether existing wells are selected or
4. Significance and Use
if wells are specifically installed for a specific purpose. The
4.1 This guide describes a general approach for the use of
most common feature of an existing well that may render it
existing wells in environmental investigations with a primary
unsuitable for water level measurement or water-quality moni-
focus on the subsurface and major factors affecting the surface
toring is that the well is completed in multiple hydrogeologic
and subsurface environment.
units causing water levels and water-quality parameters to
reflect a mixing of multiple hydrogeologic units. Such data
4.2 Existing wells represent a valuable source of informa-
cannot be reliably compared with data from wells completed in
tion for subsurface environmental investigations. Specific uses
the individual hydrogeologic units.
of existing wells include:
4.2.1 Well driller logs provide information on subsurface 5.3 Major steps in the selection of existing wells for
lithology and major water-bearing units in an area. Existing
environmental investigations include: developing specific cri-
wells can also offer access for downhole geophysical logging teria for evaluating the suitability of existing wells in relation
for stratigraphic and aquifer interpretations. Examples include
to the objectives of the investigations (see Section 6), conduct-
natural gamma logs in cased wells and an entire suite of ing an inventory of existing wells in the area of interest (see
methods in uncased bedrock wells (see Guide D5753). This
8.1), documenting the characteristics of the wells identified in
information can assist in developing the preliminary concep- the inventory that are relevant to the selection criteria (see 8.2),
tual model of the site.
and identification of wells that satisfy the selection criteria (see
Section 9).
4.2.2 Well tests using existing wells may provide informa-
tion on the hydrologic characteristics of an aquifer.
6. Well-Selection Criteria
4.2.3 Monitoring of water levels in existing wells, provided
that they are cased in the aquifer of interest, allow development 6.1 Assessing the suitability of existing wells for hydrologi-
cal and groundwater quality studies requires development of
of potentiometric maps and interpretations of groundwater flow
directions and gradients. specific well-selection criteria. The criteria are based on
considerations of project objectives by defining the problem to
4.2.4 Existing wells are the primary means by which re-
be solved, the conceptual framework, and data-collection
gional drinking water quality is evaluated and monitored.
requirements.
4.2.5 Existing wells may assist in the mapping of contami-
nant plumes, and in ongoing monitoring of groundwater
6.2 Specific Well-Selection Criteria—Specific criteria will
quality changes at the site-specific level.
depend on the objectives of the investigation. The following
general criteria will apply to most situations:
4.3 Data from existing wells should only be used when
characteristics of the well have been sufficiently documented to
determine that they satisfy criteria for the purpose for which
The boldface numbers in parentheses refer to the list of references at the end of
the data are to be used. this standard.
D5980 − 16 (2024)
6.2.1 The well is suitably located for use in relation to the wells specially designed and installed to monitor hydrologic or
conceptual framework. water-quality studies, or both (see 7.4). Each type of well has
its own general advantages and disadvantages.
6.2.2 The well must be completed in the targeted hydrogeo-
logic unit or units.
7.2 Large-Capacity Supply Wells—Large-capacity supply
6.2.3 Well design and construction must not bias water level
wells are usually developed for drinking water systems that
measurements or water-quality sampling results (see Note 1).
supply multiple households, and for irrigation and industrial
Section 7 provides information on the general characteristics of
purposes.
major types of existing wells.
7.2.1 Advantages:
NOTE 1—Gillham et al. (3), provides information on the suitability of
7.2.1.1 Documentation of well construction commonly is
materials coming in contact with water samples and that table provides
good.
information on the compatibility of well casing materials with different
organic contaminants. 7.2.1.2 Large-capacity wells generally are well developed
and fully purged.
6.2.4 The well is accessible for measurements and sam-
7.2.1.3 Long-term access may be possible, particularly for
pling.
municipal wells.
6.2.5 The well’s maintenance condition may not compro-
7.2.1.4 Large-capacity wells generally provide a larger ver-
mise it as a sampling point; however, there are examples that
may compromise it as a sampling point, that is, a cracked tical mix of water in an aquifer or aquifer system than
small-capacity wells, and thus can provide a more integrated
casing allowing non-screened water into the well.
measure of regional groundwater quality than small-capacity
6.3 Examples of Well Selection Criteria—The following are
wells.
illustrative examples of criteria for specific investigation ob-
7.2.1.5 Much of the water produced for irrigation and
jectives (see Note 2).
municipal water is from large-capacity wells equipped with
NOTE 2—These are illustrative examples and should not be construed as
taps which allow a direct sample of the pumped water.
recommended criteria.
7.2.1.6 Long-term water-quality and quantity data may be
6.3.1 A project to determine the quality of potable ground-
available.
water might require the following selection criteria: wells
7.2.2 Disadvantages:
selected must be used for public water supply, must be
7.2.2.1 Large-capacity wells may not have flow-rate con-
geographically distributed over the entire aquifer of interest,
trols and a sampling point near the well head.
and must be able to be sampled prior to any water treatment.
7.2.2.2 High pumping rates may entrain artifacts, such as
6.3.2 All wells or a subset of wells down-gradient from a
colloids or suspended material, into the sample stream.
hazardous-waste site would be unsuitable to include in a
7.2.2.3 Pumping schedules could be irregular: for example,
network designed for a study to determine non-point source
irrigation wells generally are pumped seasonally, and could
groundwater quality.
lead to seasonal variations in water quality that actually are an
6.3.3 Choosing a well located down-gradient of a complex
artifact of the pumping regime.
mix of land uses would be inappropriate in a study designed to
7.2.2.4 Large capacity wells may have a long vertical gravel
assess the effects of specific land uses on groundwater quality.
pack, screened or open intervals might span more than one
6.3.4 A supply well screened over a long interval would not
aquifer or aquifer system, making them unsuitable for poten-
be appropriate for investigating small-scale vertical variations
tiometric mapping or water quality monitoring. For example,
in water quality down-gradient of a landfill, or for potentio-
dilution of contaminant concentrations wells with long screen
metric mapping.
intervals may result in large errors if concentrations are used
6.3.5 A well constructed of PVC (polyvinylchloride) with
for detailed delineation of the ge
...

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SIGNIFICANCE AND USE
4.1 This guide describes a general approach for the use of existing wells in environmental investigations with a primary focus on the subsurface and major factors affecting the surface and subsurface environment.  
4.2 Existing wells represent a valuable source of information for subsurface environmental investigations. Specific uses of existing wells include:  
4.2.1 Well driller logs provide information on subsurface lithology and major water-bearing units in an area. Existing wells can also offer access for downhole geophysical logging for stratigraphic and aquifer interpretations. Examples include natural gamma logs in cased wells and an entire suite of methods in uncased bedrock wells (see Guide D5753). This information can assist in developing the preliminary conceptual model of the site.  
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1.1 This guide covers the use of existing wells for environmental site characterization and monitoring. It covers the following major topics: criteria for determining the suitability of existing wells for hydrogeologic characterization and groundwater quality monitoring, types of data needed to document the suitability of an existing well, and the relative advantages and disadvantages of existing large- and small-capacity wells.  
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Standard Guide for Selection and Documentation of Existing Wells for Use in Environmental Site Characterization and Monitoring

SIGNIFICANCE AND USE
4.1 This guide describes a general approach for the use of existing wells in environmental investigations with a primary focus on the subsurface and major factors affecting the surface and subsurface environment.  
4.2 Existing wells represent a valuable source of information for subsurface environmental investigations. Specific uses of existing wells include:  
4.2.1 Well driller logs provide information on subsurface lithology and major water-bearing units in an area. Existing wells can also offer access for downhole geophysical logging for stratigraphic and aquifer interpretations. Examples include natural gamma logs in cased wells and an entire suite of methods in uncased bedrock wells (see Guide D5753). This information can assist in developing the preliminary conceptual model of the site.  
4.2.2 Well tests using existing wells may provide information on the hydrologic characteristics of an aquifer.  
4.2.3 Monitoring of water levels in existing wells, provided that they are cased in the aquifer of interest, allow development of potentiometric maps and interpretations of groundwater flow directions and gradients.  
4.2.4 Existing wells are the primary means by which regional drinking water quality is evaluated and monitored.  
4.2.5 Existing wells may assist in the mapping of contaminant plumes, and in ongoing monitoring of groundwater quality changes at the site-specific level.  
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1.1 This guide covers the use of existing wells for environmental site characterization and monitoring. It covers the following major topics: criteria for determining the suitability of existing wells for hydrogeologic characterization and groundwater quality monitoring, types of data needed to document the suitability of an existing well, and the relative advantages and disadvantages of existing large- and small-capacity wells.  
1.2 This guide should be used in conjunction with Guide D5730, that provides a general approach for environmental site investigations.  
1.3 This guide does not specifically address design and construction of new monitoring or supply wells. Refer to Practices D5092/D5092M and D5787.  
1.4 This guide does not specifically address groundwater sampling procedures. Refer to Guide D5903.  
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4.2.3 Site-specific—This practice is site-specific in tha...
SCOPE
1.1 Purpose—The purpose of this practice is to provide an alternative method to ASTM E1527 for good commercial and customary practices in the United States of America for conducting a Phase I Environmental Site Assessment2 of forestland or rural property with respect to the range of contaminants within the scope of the Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA) and petroleum products. As such, this practice is intended to permit a user to satisfy one of the requirements to qualify for the innocent landowner, contiguous property owner, or bona fide prospective purchaser limitations on CERCLA liability (hereinafter, the “landowner liability protections,” or “LLPs”): that is, the practice that constitutes “all appropriate inquiries” into the previous ownership and uses of a property consistent with good commercial and customary standards and practices as defined at 42 U.S.C. §9601(35)(B). (See Appendix X1 for an outline of CERCLA's liability and defense provisions.) Controlled substances are not included within the scope of this standard. Persons conducting an environmental site assessment as part of an EPA Brownfields Assessment and Characterization Grant awarded under CERCLA 42 U.S.C. §9604(k)(2)(B) must include controlled substances as defined in the Controlled Substances Act (21 U.S.C. §802) within the scope of the assessment investigations to the extent directed in the terms and conditions of the specific grant or cooperative agreement. Additionally, an evaluation of business environmental risk (BER) associated with a parcel of commercial real estate may necessitate investigation beyond that identified in this practice (see 1.4 and Section 13).  
1.1.1 Standard Practice Selection—The methodology included in this practice is an effective and practical process for achieving the objectives of a Phase I Environmental Site Assessment of forestland or rural property when some of the metho...

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ASTM E2173-22(Guide)
Standard Guide for Disclosure of Environmental Liabilities

SIGNIFICANCE AND USE
4.1 Significance—This guide provides additional guidance to preparers of environmental disclosures; these materials are needed to address changing audience needs, the increased regulatory and accounting complexity around environmental matters, and the emergence of a variety of long-term trends and factors, including but not limited to:  
4.1.1 Number and scope of domestic, and foreign environmental laws and their implementing regulations;  
4.1.2 Number and scope of treaties, as well as the implementing laws and regulations; parties in these treaties include multilateral organizations and indigenous peoples;  
4.1.3 Judicial decisions clarifying the impact of laws, regulations, and treaties;  
4.1.4 Costs of compliance with environmental regulations;  
4.1.5 Number of known chemical compounds (see Chemical Abstracts Service REGISTRYSM, which contains over 193 million unique organic and inorganic substances);  
4.1.6 Cost and accuracy of soil, sediment, air, soil vapor, surface water and groundwater testing equipment and procedures;  
4.1.7 Knowledge about benefits and effects of chemical compounds on human health, ecological receptors, and the environment;  
4.1.8 Number and efficacy of remedial technologies;  
4.1.9 Experience with assessing and remediating environmental conditions;  
4.1.10 Assumptions regarding impacts of environmental conditions, through modeling and other forecasting tools;  
4.1.11 Number of environmental, social and governance (ESG) metrics and their pace of adoption;  
4.1.12 Frequency and financial impact of counterparty failure; and  
4.1.13 Development of comparable accounting standards by other authorities; and  
4.1.14 Investor interest in the impact of these trends and factors on their investments.  
4.2 Uses—This guide is intended for use on a voluntary basis by a reporting entity that provides financial and qualitative disclosure regarding environmental liabilities. Disclosure is integrated with preceding elements of f...
SCOPE
1.1 Purpose—The purpose of this guide is to provide a series of options or instructions consistent with good commercial and customary practice in the United States for environmental liability disclosures accompanying audited and unaudited financial statements. This guide is consistent with Generally Accepted Accounting Principles (GAAP)2 issued by Financial Accounting Standards Board (FASB), as well as related statements, rules, regulations, and/or procedures issued by Government Accounting Standards Board (GASB), Public Company Accounting Oversight Board (PCAOB), Securities and Exchange Commission (SEC), and Federal Accounting Standards Advisory Board (FASAB). This guide is intended to be consistent with national and multinational issuers of accounting standards and practices, including International Accounting Standards Board (IASB).  
1.2 Objectives—The objectives of this guide are to:  
1.2.1 Identify the common terminology used in environmental disclosures,  
1.2.2 Explain the need for environmental disclosures,  
1.2.3 Define the conditions warranting disclosure, and  
1.2.4 Illustrate the report formats and content typically used in environmental disclosures.  
1.3 History of development of this guide—In 1993-1994, a group of insurance companies approached ASTM to request a best practice environmental cost estimation and disclosure standard, as they were experiencing high environmental remediation and asbestos claims from policyholders that were reporting no material liabilities in their annual reports. At the same time, asbestos and environmental liabilities were triggering bankruptcy more frequently, again with little prior disclosure by companies other than boilerplate legal language that costs were too uncertain or not estimable, or that such costs would not be material. Research by the ASTM standard working committee at the time found such shortcomings as (a) rarely attempting to identify a full portfo...

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ASTM
ASTM D6044-21(Guide)
Standard Guide for Representative Sampling for Management of Waste and Contaminated Media

SIGNIFICANCE AND USE
4.1 This guide defines the meaning of a representative sample, as well as the attributes the sample(s) needs to have in order to provide a valid inference from the sample data to the population.  
4.2 This guide also provides a process to identify the sources of error (both systematic and random) so that an effort can be made to control or minimize these errors. These sources include sampling error, measurement error, and statistical bias.  
4.3 When the objective is limited to the taking of a representative (physical) sample or a representative set of (physical) samples, only potential sampling errors need to be considered. When the objective is to make an inference from the sample data to the population, additional measurement error and statistical bias need to be considered.  
4.4 This guide does not apply to the cases where the taking of a nonrepresentative sample(s) is prescribed by the study objective. In that case, sampling approaches such as judgment sampling or biased sampling can be taken. These approaches are not within the scope of this guide.  
4.5 Following this guide does not guarantee that representative samples will be obtained. But failure to follow this guide will likely result in obtaining sample data that are either biased or imprecise, or both. Following this guide should increase the level of confidence in making the inference from the sample data to the population.  
4.6 This guide can be used in conjunction with the DQO process (see Practice D5792).  
4.7 This guide is intended for those who manage, design, and implement sampling and analytical plans for waste management and contaminated media.
SCOPE
1.1 This guide covers the definition of representativeness in environmental sampling, identifies sources that can affect representativeness (especially bias), and describes the attributes that a representative sample or a representative set of samples should possess. For convenience, the term “representative sample” is used in this guide to denote both a representative sample and a representative set of samples, unless otherwise qualified in the text.  
1.2 This guide outlines a process by which a representative sample may be obtained from a population. The purpose of the representative sample is to provide information about a statistical parameter(s) (such as mean) of the population regarding some characteristic(s) (such as concentration) of its constituent(s) (such as lead). This process includes the following stages: (1) minimization of sampling bias and optimization of precision while taking the physical samples, (2) minimization of measurement bias and optimization of precision when analyzing the physical samples to obtain data, and (3) minimization of statistical bias when making inferences from the sample data to the population. While both bias and precision are covered in this guide, major emphasis is given to bias reduction.  
1.3 This guide describes the attributes of a representative sample and presents a general methodology for obtaining representative samples. It does not, however, provide specific or comprehensive sampling procedures. It is the user's responsibility to ensure that proper and adequate procedures are used.  
1.4 The assessment of the representativeness of a sample is not covered in this guide since it is not possible to ever know the true value of the population.  
1.5 Since the purpose of each sampling event is unique, this guide does not attempt to give a step-by-step account of how to develop a sampling design that results in the collection of representative samples.  
1.6 Appendix X1 contains two case studies which discuss the factors for obtaining representative samples.  
1.7 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicabi...

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ASTM
ASTM E2365-21(Guide)
Standard Guide for Environmental Compliance Performance Assessment

SIGNIFICANCE AND USE
4.1 This guide may be used for environmental compliance performance assessment in the United States in a wide variety of applications and is not particularly limited to one type of user. The following groups of users may find the guide particularly helpful:  
4.1.1 Small businesses or enterprises;  
4.1.2 Service industries;  
4.1.3 Federal, state or local facilities and regulators, including departments of health and fire departments;  
4.1.4 Financial and insurance institutions;  
4.1.5 Waste managers, including liquid and solid waste haulers, treatment, recycling, disposal and transfer;  
4.1.6 Consultants, auditors, inspectors and compliance assistance personnel;  
4.1.7 Educational facilities;  
4.1.8 Property, buildings and grounds management, including landscaping;  
4.1.9 Non-regulatory government agencies, such as the military; and  
4.1.10 Specific industrial sectors such as dry cleaners, printers, photo processors, laboratories, health care, and vehicle fueling, maintenance and delivery.  
4.2 This guide is intended as a first step in crafting simplified management goals for assessing compliance with a wide variety of multimedia environmental performance standards. The framework describes a process by which the user may categorize current waste management, air quality, water, and release prevention practices in order to manage the risks associated with noncompliance. The technique classifies common environmental performance standards into tiers based on relative risks to human health, the environment and business operations. The tier classifications found in this guide reflect the general requirements of State, Federal and local compliance and enforcement programs. These authorities generally classify groups of similar environmental performance standards according to the significance of any noncompliance within each group of standards.
Note 1: Users in the United States are encouraged to review the EPA’s Audit Policy Program: Frequently Asked...
SCOPE
1.1 Overview—This guide is an organized collection of information and series of options for industry, regulators, auditors, consultants and the public, intended to measure compliance with environmental performance standards against established benchmarks. It focuses on compliance with air, water, waste prevention, waste management, and toxic reduction standards for facilities in the United States. While the guide does not recommend a specific course of action, it establishes a tiered framework of essential components, beginning with those standards where a deviation presents the greatest potential public health, environmental, and business risks. In each identified pathway, at each tier or step of analysis, the guide outlines ways to identify compliance options and reduce pollution in iterative steps. The goal in using the guide is to lower environmental, public health and business risks from Tiers 1 and 2 to Tiers 3 and 4, by evaluating the performance standards described in this guide. While this guide provides a simplified framework of explicit steps for users, a qualified professional should conduct detailed, site-specific risk analysis. This guide may act as a starting point for organizations with limited experience in systematic environmental assessment. As facilities develop their specific plan framework, they will find that risk is weighted by more than just a few parameters. For each facility risk is the complex interaction among location, size, history, surrounding community and ecological zones.  
1.2 Differences Among Standards—This guide focuses on compliance with environmental performance standards in the United States. As such it includes a unique, risk-based method to analyze specific groups of legal requirements, as well as risk reduction techniques, sometimes called “pollution prevention.”  
1.2.1 Use of this guide provides a system to evaluate the relative priority of compliance and pollution preven...

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ASTM
ASTM E2107-20(Practice)
Standard Practice for Environmental Regulatory Compliance Audits

SIGNIFICANCE AND USE
4.1 Intended Use—This practice is intended for use by parties who wish to perform or direct an audit, or rely upon audit findings or an audit report. Such use includes audits by internal and external auditors.  
4.2 Other Audit Criteria—Other audit criteria may be included in the audit scope if specified in the audit plan. Examples include safety and health requirements, and technical, operational, and management requirements.  
4.3 Related ASTM Standards—This practice is related to Practice E1527, which addresses CERCLA liability, and Practice E1528, which addresses due diligence for commercial real estate. A number of terms and procedures from these practices are similar to terms and procedures associated with this practice but they may not be the same. Guide E2365 addresses environmental compliance assessment and may be an appropriate tool for some environmental regulatory compliance audits. The user is advised that Guide E2365 is not an all-encompassing compliance assessment tool. Guide E3123 addresses the five types of environmental liabilities named in generally-accepted accounting principles (asset retirement obligations, environmental obligations, commitments, contingencies and guarantees).  
4.3.1 Not Interchangeable—Although distantly related to Practices E1527 and E1528, this practice is designed to achieve different results. Therefore, these practices shall not be used interchangeably with, or in place of, this practice.  
4.4 Related ISO Guidelines—The International Organization for Standardization (ISO) has developed guidelines addressing environmental auditing. These are ISO 14001-2015 and 19011-2018. A number of terms and procedures from these guidelines may be similar to terms and procedures associated with this practice but they may not be the same. ISO 14001-2015 added several compliance evaluation criteria, including Section 9.1.2 (Evaluation of Compliance) and Section 9.2 (Internal Audits).  
4.4.1 Not Interchangeable—Although related to IS...
SCOPE
1.1 Purpose—This practice2 identifies minimum requirements for environmental regulatory compliance audits (audits). It also provides information on the terms and procedures associated with audits as practiced in the United States of America (USA) and other jurisdictions subject to the laws thereof. It provides a reference to which interested parties may refer for definition and description of accepted audit terms and procedures.  
1.2 Background:  
1.2.1 Awareness of Benefits Associated with Audits—Various benefits have been attributed to audits. These benefits may include a better understanding of the compliance status of a facility or organization, identification of opportunities for environmental management systems improvements, reduction or elimination of potential legal and financial liabilities when implemented as part of a comprehensive compliance management program, better communications and improved relationships with governmental agencies, communities, and other stakeholders, providing information for development of both short-term and long-term environmental expenditures, and education of employees.  
1.2.2 Awareness of Risks Associated with Audits—It is also important to recognize that certain risks have been associated with audits. These risks may be managed and controlled by giving thoughtful consideration to the audit process before beginning an audit. These risks may include increased potential legal and financial liabilities for the audited entity if audit findings are not corrected in a timely manner, disclosure of confidential business information or trade secrets, inadvertent admissions against interest because of the wording of audit findings, disclosure of audit findings intended to be kept confidential under audit privilege laws or attorney-client privilege or work product doctrine, and inaccurate audit findings.  
1.2.3 Awareness of Legal Issues—A number of important legal issues are associat...

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ASTM
ASTM E3228-19(Guide)
Standard Guide for Environmental Knowledge Management

SIGNIFICANCE AND USE
4.1 Use—This guide is intended for use on a voluntary basis for evaluating data for long term storage as they relate to environmental matters. The user may elect to apply this guide for any or all of these purposes:  
4.1.1 Determining an entity’s document retention policies;  
4.1.2 Designing and implementing a system for cataloging the documents stored under this guide;  
4.1.3 Documenting whether a property is subject to regulatory action;  
4.1.4 Supporting evaluation of whether similar environmental risks (for example, permits, plant, or process expansion) are being recognized at similar points in their lifecycle per Guide E3123;  
4.1.5 Supporting evaluation of whether similar environmental risks and liabilities are being managed to similar outcomes per Guide E3123;  
4.1.6 Supporting the determination of liability values per Guide E2137;  
4.1.7 Supporting due diligence analysis for proposed mergers, acquisitions, or spinoffs;  
4.1.8 Documenting key decisions on environmental liability provisions, reserves, budgets, and cash flow forecasts, including recognition benchmarks and obligating events (see Guide E3123);  
4.1.9 Providing documentation to support the identification and analysis of liabilities associated with:  
4.1.9.1 Certain remedial alternatives;
4.1.9.2 Future land uses, property transfer, and redevelopment decisions;
4.1.9.3 Land use alternatives for former landfills and chemically impacted sites; and
4.1.9.4 Meeting regulatory requirements;  
4.1.10 Designing and implementing project and program controls;  
4.1.11 Defending against third-party lawsuits;  
4.1.12 Calculating insurance premiums;  
4.1.13 Making and settling insurance claims;  
4.1.14 Making purchase accounting adjustments;  
4.1.15 Preparing an audit defense; and  
4.1.16 Completing financial and investment analysis.  
4.2 Needs Regarding Document Formats—Preserve data across time, eliminate duplicate file collection, and maintain data and files in contem...
SCOPE
1.1 This guide describes good commercial and customary practice in documenting environmental risks, project, and program knowledge.  
1.2 Considering that management of environmental liabilities can span very long timeframes, users of this guide understand that preserving key findings, decisions, obligations, commitments, and guarantees for coming generations of project teams is essential to efficient management of associated assets and liabilities.  
1.3 Units—The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM E2637-17(Guide)
Standard Guide for Utilizing the Environmental Cost Element Structure Presented by Classification

SIGNIFICANCE AND USE
5.1 In addition to its cost management and project management functions, the ECES can also be used to support a number of other program and project functions. These functions include:  
5.1.1 Bid solicitation, collection, and evaluation;  
5.1.2 Communicating project data between installations, complexes, agencies, and industry;  
5.1.3 Providing a project checklist;  
5.1.4 Cost and schedule estimating;  
5.1.5 Historical cost/schedule data collection;  
5.1.6 Historical project data collection (for example, technology deployments, project conditions);  
5.1.7 Validating and calibrating cost estimates and software tools; and  
5.1.8 Establishing and disseminating best practices and lessons learned.  
5.2 Several government agencies are already incorporating this structure into existing and future cost estimating models, databases, and other similar software tools and systems.
SCOPE
1.1 The Environmental Cost Element Structure (ECES) covered by Classification E2150 (and Adjunct E2150) provides a consistent and comprehensive structure across all phases of environmental remediation projects and is a tool to improve the cost management of those projects. This guide is intended to facilitate the application of the ECES to any environmental remediation project, without regard to project size.  
1.2 Classification E2150 establishes the broad, top-level framework for environmental remediation projects by providing a hierarchical list of project elements to two levels of detail. Its associated Adjunct E2150 supports the top-level structure by providing more detailed elements and definitions of the ECES to three additional levels of detail. Although it is assumed that the user is familiar with Classification E2150, much of the content of the classification is repeated in this guide to relieve the user of the burden of back-and-forth referencing during use. It is assumed, however, that all users of this guide will have at hand both Classification E2150 and the Adjunct E2150 during project planning.  
1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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