ASTM E2020-1999a(2010) Standard Guide for Data and Information Options for Conducting an Ecological Risk Assessment at Contaminated Sites《在污染场地进行生态危险评定用数据和信息选择的标准指南》.pdf

1、Designation: E2020 99a (Reapproved 2010)Standard Guide forData and Information Options for Conducting an EcologicalRisk Assessment at Contaminated Sites1This standard is issued under the fixed designation E2020; the number immediately following the designation indicates the year oforiginal adoption

2、or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This guide is intended to assist remedial project teams,specifically ecologic

3、al risk assessors, in identifying data andinformation options that may be used to perform a screening orcomplex ecological risk assessment (ERA) at a contaminatedsite.1.2 The identification of data and information options forhuman health risk assessment is outside the scope of this guide.1.3 This gu

4、ide is intended to provide a list for identifyingdata and information options and does not recommend aspecific course of action for ERA activities.1.4 This guide addresses data and information options forthe ecological risk assessment, not verification or long-termmonitoring studies.1.5 This guide l

5、ists many of the common data and informa-tion options for ERA, but there may be others relevant for anyparticular site.1.6 This guide considers one component of an ERA, that is,identification of data and information options. Other ASTMguides have been developed, for example, Guides E1689 andE1848, a

6、nd are being developed to cover other components ofthe risk assessment process.1.7 This guide does not provide information on how toperform any of the analytical procedures used to perform a riskassessment once data collection options are defined.2. Referenced Documents2.1 ASTM Standards:2D5730 Guid

7、e for Site Characterization for EnvironmentalPurposes With Emphasis on Soil, Rock, the Vadose Zoneand Ground WaterE1391 Guide for Collection, Storage, Characterization, andManipulation of Sediments for Toxicological Testing andfor Selection of Samplers Used to Collect Benthic Inver-tebratesE1525 Gui

8、de for Designing Biological Tests with Sedi-mentsE1689 Guide for Developing Conceptual Site Models forContaminated SitesE1848 Guide for Selecting and Using Ecological Endpointsfor Contaminated Sites3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 assessment endpoint, nan explic

9、it expression of theenvironmental value to be protected.3.1.2 chemical stressor, na chemical, chemical mixture,or radionuclide present in an environmental medium that isknown or suspected to induce an adverse biological, toxico-logical, or ecological response in an exposed ecological recep-tor.3.1.3

10、 complex ecological risk assessment, nan ecologicalrisk assessment completed using quantitative methods, whichrelies on site-specific data and may include toxicity testing,field biological surveys, and probabilistic analysis.3.1.4 data quality objective, na specification of theamount and quality of

11、data required to adequately complete therisk assessment such that a risk management decision can bemade.3.1.5 ecological receptor, necosystems, communities,populations, and individual organisms (except humans), thatcan be exposed directly or indirectly to site stressors.3.1.6 measurement endpoint, n

12、a measurable response to astressor that is quantifiably related to the valued characteristicchosen as the assessment endpoint.3.1.7 non-chemical stressor, na biological agent, physicaldisturbance, condition, or nonchemical characteristic of awaste material, substrate, or source associated with a con

13、tami-nated site and corrective actions that is known or suspected tointerfere with the normal functioning of an ecological receptor.3.1.8 screening ecological risk assessment, nan ecologi-cal risk assessment completed using qualitative or simplequantitative methods, which relies on literature inform

14、ation1This guide is under the jurisdiction of ASTM Committee E47 on BiologicalEffects and Environmental Fate and is the direct responsibility of SubcommitteeE47.05 on Risk Assessment, Communication and Management.Current edition approved March 1, 2010. Published May 2010. Originallyapproved in 1999.

15、 Last previous edition approved 2004 as E202099a (2004). DOI:10.1520/E2020-99AR10.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary pag

16、e onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.and is unlikely to include toxicity testing, field biologicalsurveys, or probabilistic analysis.3.1.9 site, nthe terms “site,” “on-site,” and “off-site,”have not be

17、en defined in this guide. They will need to bedefined on a case-by-case basis. They could be defined byregulatory needs, natural boundaries, or property boundaries.4. Summary of Guide4.1 This guide provides a series of lists of data andinformation options for conducting an ecological risk assess-men

18、t at a contaminated site and is organized in accordancewith the major components of the risk assessment process:problem formulation, exposure characterization, effects char-acterization, and risk characterization (1-4).3Lists are providedfor screening and complex ERAs.5. Significance and Use5.1 This

19、 guide is significant in that it addresses the data andinformation options of each component of the ecological riskassessment process, for both a screening and complex ERA. Itoutlines the data and information options while recognizingthat an ecological risk assessment may be focused to achieve apart

20、icular stated goal. This guide is not intended to representthe views of the U.S. Environmental Protection Agency(USEPA), or any other regulatory agency, on data collectionfor ecological risk assessment.5.2 This guide is to be used by managers, scientists, andtechnical staff of contractors, industry,

21、 government agencies,and universities responsible for conducting ecological riskassessments at contaminated sites. It is to be used to guide datacollection phases of the ecological risk assessment. It willassist in the development of the conceptual site model (seeGuide E1689) and the identification

22、of potential assessmentand measurement endpoints (see Guide E1848). While it waswritten to assist in planning an ERA, the list also may be usedin the review of a completed ERA.6. General Guidance on Determining Data CollectionOptions for Ecological Risk Assessment6.1 It is imperative that the goals

23、of the ERA are outlined atthe beginning of the ERA process. Data collection efforts maythen be focused to ensure a sound scientific approach andcost-effective use of resources, for example, time and money.6.2 The lists are not meant to be exhaustive. Neither are theyintended to be lists of data requ

24、ired for all ERAs. The amountand type of data required for a screening or complex ERA willdepend upon the size and location of the site, the futureintended use of the site, the complexity of the site, and theoutcome of the data quality objectives (DQO) process (5).Atypical site may utilize only a sm

25、all percentage of these dataand information options. These lists are intended to serve as ageneral index to data collection efforts.7. Lists7.1 Not all of the components within the following lists willbe relevant at every contaminated site. In addition, someinformation may be site-specific and other

26、 information may beobtained from the literature. Literature data are more prevalentin screening ERAs and site-specific data are more prevalent incomplex ERAs. Whenever practicable, site-specific data arepreferred over literature data.7.2 The options in the lists are not in any particular order.Risk

27、assessment often is an iterative process, and it may bemore scientifically sound and cost-effective to complete certainoptions before others. The order for the completion of optionswill need to be determined on a case-by-case basis.8. Data Options for Problem Formulation8.1 Most of the data and info

28、rmation options in problemformulation are applicable to both screening and complexERAs and are outlined below; however, the information will bemore detailed in a complex ERA. Additional data and infor-mation options typically found only in complex ERAs arelisted in Section 9.8.2 Clearly define the g

29、oals of the ERA (6).8.3 Define data quality objectives (DQOs) for the assess-ment (see Ref. 5).8.3.1 State the problem that the risk assessment shouldaddress.8.3.2 Identify the decision(s) that require new environmen-tal data to address the contamination problem.8.3.3 Identify the inputs (data or in

30、formation) needed tosupport the decision.8.3.4 Define the scale (spatial and temporal) of the assess-ment.8.3.5 Develop a decision rule that defines choice amongalternative solutions.8.3.6 Specify acceptable limits on decision errors used toestablish performance goals for limiting uncertainty.8.3.7

31、Optimize the design for obtaining data, by identifyingthe most resource-effective sampling and analysis plan.8.4 Complete the conceptual site model (see Guide E1689)8.4.1 Identify the current and historical sources of potentialchemical stressors, such as the following:8.4.1.1 Process areas;8.4.1.2 L

32、andfill;8.4.1.3 Burial ground;8.4.1.4 Underground or aboveground storage tanks, or both;8.4.1.5 Lagoons;8.4.1.6 Holding ponds;8.4.1.7 Air stacks or other air emission sources;8.4.1.8 Effluent pipes; or,8.4.1.9 Historical spills or accidental releases.8.4.2 Identify nonchemical, for example, physical

33、 and bio-logical stressors, such as the following:8.4.2.1 Nonnative or exotic species;8.4.2.2 Pathogens;8.4.2.3 Temperature;8.4.2.4 Suspended solids;8.4.2.5 Change in water levels;8.4.2.6 Oxygen depletion;8.4.2.7 pH;8.4.2.8 Predators;8.4.2.9 Habitat alteration, degradation or destruction; or,3The bo

34、ldface numbers in parentheses refer to the list of references at the end ofthis standard.E2020 99a (2010)28.4.2.10 Non-site-related stressors, for example, local re-leases from municipal or industrial development.8.4.3 Identify potential constituent migration pathways.8.4.4 Identify geological featu

35、res that control movement ofconstituents and dictate exposure pathways. In particular, noteany features which would cause unpredictable movement ofconstituents, for example, karst formations in limestone oftencause difficulties in tracing ground water movement.8.4.5 Identify all relevant constituent

36、-bearing media, suchas the following:8.4.5.1 Soil;8.4.5.2 Ground water;8.4.5.3 Surface water;8.4.5.4 Sediment;8.4.5.5 Air; or,8.4.5.6 Biota.8.4.6 Identify direct and indirect complete exposure path-ways. Ensure that exposure pathways are identified appropri-ately, for example, PCBs may not be detect

37、ed in surface water,but may be detected in fish tissues, and therefore, food webexposure pathways are appropriate to consider. Exposurepathways may include the following:8.4.6.1 Inhalation;8.4.6.2 Ingestion;8.4.6.3 Dermal uptake;8.4.6.4 Root uptake; or,8.4.6.5 Food web.8.4.7 Identify normal and atyp

38、ical weather patterns for thesite location, such as the following:8.4.7.1 Excessive dry periods with high winds may lead toincreased levels of constituents in air from fugitive dusts, anddestruction of habitat;8.4.7.2 Storm events, for example, hurricanes, that maymobilize constituents, for example,

39、 suspension of sedimentsmay increase the bioavailability of constituents;8.4.7.3 Periodic flooding may result in certain exposurepathways that may otherwise not exist, for example, contami-nation of the floodplain community from a stream; or,8.4.7.4 Fluctuations in salinity.8.4.8 Define the assessme

40、nt endpoints and include rationalefor their selection (see Guide E1848).8.4.8.1 Ensure the assessment endpoints are relevant todecision-making.8.4.8.2 Consider whether endpoints are ecologically rel-evant.8.4.8.3 Consider whether endpoints have societal impor-tance.8.4.8.4 Determine whether endpoint

41、 species are or could beat the site.8.4.8.5 Consider whether endpoint species are sensitive tosite constituents.8.4.8.6 Consider whether endpoint species are likely toreceive high exposures.8.4.9 Identify any threatened, or endangered species (plantor animal), or both, known to inhabit, or that coul

42、d potentiallyinhabit, the vicinity of the site. Also, identify the presence ofhabitat that could be utilized by threatened and endangeredspecies. Consider using state or federal listings of threatened,rare and endangered species, for example, Natural HeritageProgram. Consider local laws and regulati

43、ons to identify anyprotected species or species of local concern.8.4.10 Identify any commercially or recreationally impor-tant species in the area of the site.8.4.11 Describe the food web. Identify multiple foodsources, where appropriate, in the foraging area of eachreceptor species. Consider consul

44、ting with local naturalists, forexample, Department of Natural Resources, Fish and WildlifeService, Department of Environmental Protection, NaturalHeritage Program, to obtain information on local species.8.4.12 Define measurement endpoints and include rationalefor their selection. Also, describe rel

45、ation between assessmentendpoints and measurement endpoints.8.4.13 Present both current and future exposure scenarios.Future exposures should be based on reasonably anticipatedfuture land use. Describe how future exposures may change, asa result of the following scenarios, for example:8.4.13.1 Incre

46、ased release from a ground water plume to astream;8.4.13.2 Increased habitat from forest succession causesadditional ecological receptor species to be in contact withconstituents;8.4.13.3 Decreased exposure because of scouring of sedi-ments out of a stream, but increased exposure downstreamwhere sed

47、iments settle;8.4.13.4 Weather-related seasonal or periodic changes; or,8.4.13.5 Continued physical degradation or biodegradationof constituents.8.5 Environmental Description of Site (7):8.5.1 Describe and map current and potential future land usescenarios of the site and surrounding area, to ensure

48、 assessmentendpoints and ecological receptor species are selected that areappropriate for current and future land uses. Land uses mayinclude the following:8.5.1.1 Residential;8.5.1.2 Park land/recreational;8.5.1.3 Industrial;8.5.1.4 Commercial;8.5.1.5 Agricultural;8.5.1.6 Forested;8.5.1.7 Wetlands;8

49、.5.1.8 Wildlife preservation area; or,8.5.1.9 Aquatic habitat.8.5.2 Describe and map the aquatic habitat.8.5.2.1 Describe and map features as follows:(a) Type and area of habitat;(b) Function of habitat;(c) Water and sediment quality parameters;(d) Pattern of ground water and surface water flow;(e) Ground water discharge and recharge points; or,(f) Flora and fauna historically present, currently present,or expected to be present.8.5.2.2 Consider photographing relevant features.8.5.2.3 Consider utilizing geographic information systems(GIS) or similar visualization tools.8.5.3