Section



[Code of Federal Regulations]
[Title 43, Volume 1]
[Revised as of October 1, 2003]
From the U.S. Government Printing Office via GPO Access
[CITE: 43CFR11.64]

[Page 271-274]
 
                    TITLE 43--PUBLIC LANDS: INTERIOR
 
PART 11--NATURAL RESOURCE DAMAGE ASSESSMENTS--Table of Contents
 
                      Subpart E--Type B Procedures
 
Sec. 11.64  Injury determination phase--testing and sampling methods.

    (a) General. (1) The guidance provided in this section shall be 
followed for selecting methodologies for the Injury Determination phase.
    (2) Before selecting methodologies, the objectives to be achieved by 
testing and sampling shall be defined. These objectives shall be listed 
in the Assessment Plan. In developing these objectives, the availability 
of information from response actions relating to the discharge or 
release, the resource exposed, the characteristics of the oil or 
hazardous substance, potential physical, chemical, or biological 
reactions initiated by the discharge or release, the potential injury, 
the pathway of exposure, and the potential for injury resulting from 
that pathway should be considered.
    (3) When selecting testing and sampling methods, only those 
methodologies shall be selected:
    (i) For which performance under conditions similar to those 
anticipated at the assessment area has been demonstrated;
    (ii) That ensure testing and sampling performance will be cost-
effective;
    (iii) That will produce data that were previously unavailable and 
that are needed to make the determinations; and
    (iv) That will provide data consistent with the data requirements of 
the Quantification phase.
    (4) Specific factors that should be considered when selecting 
testing and sampling methodologies to meet the requirements in paragraph 
(a)(3) of this section include:
    (i) Physical state of the discharged or released substance;
    (ii) The duration, frequency, season, and time of the discharge or 
release;
    (iii) The range of concentrations of chemical compounds to be 
analyzed in different media;

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    (iv) Detection limits, accuracy, precision, interferences, and time 
required to perform alternative methods;
    (v) Potential safety hazards to obtain and test samples;
    (vi) Costs of alternative methods; and
    (vii) Specific guidance provided in paragraphs (b), (c), (d), (e), 
and (f) of this section.
    (b) Surface water resources. (1) Testing and sampling for injury to 
surface water resources shall be performed using methodologies described 
in the Assessment Plan.
    (2) Chemical analyses performed to meet the requirements of the 
Injury Determination phase for surface water resources shall be 
conducted in accordance with methods that are generally accepted or have 
been scientifically verified and documented.
    (3) The term ``water sample'' shall denote a volume of water 
collected and preserved to represent the bulk water and any dissolved or 
suspended materials or microorganisms occurring in the surface water 
resource.
    (4) Sampling of water and sediments from surface water resources 
shall be conducted according to generally accepted methods.
    (5) Measurement of the hydrologic properties of the resource shall 
be conducted according to generally accepted methods.
    (6)(i) Interpretation of surface-water flow or estimation of 
transport of oil or hazardous substance in surface water through the use 
of models shall be based on hydrologic literature and current practice.
    (ii) The applicability of models used during the assessment should 
be demonstrated, including citation or description of the following:
    (A) Physical, chemical, and biological processes simulated by the 
model;
    (B) Mathematical or statistical methods used in the model; and
    (C) Model computer code (if any), test cases proving the code works, 
and any alteration of previously documented code made to adapt the model 
to the assessment area.
    (iii) The validity of models used during the assessment should be 
established, including a description of the following:
    (A) Hydraulic geometry, physiographic features, and flow 
characteristics of modeled reaches or areas;
    (B) Sources of hydrological, chemical, biological, and 
meteorological data used in the model;
    (C) Lists or maps of data used to describe initial conditions;
    (D) Time increments or time periods modeled;
    (E) Comparison of predicted fluxes of water and solutes with 
measured fluxes;
    (F) Calibration-verification procedures and results; and
    (G) Types and results of sensitivity analyses made.
    (c) Ground water resources. (1) Testing and sampling for injury to 
ground water resources shall be performed using methodologies described 
in the Assessment Plan.
    (2) Chemical analyses performed to meet the requirements of the 
Injury Determination phase for ground water resources shall be conducted 
in accordance with methods that are generally accepted or have been 
scientifically verified and documented.
    (3)(i) The term ``water sample'' shall denote a volume of water 
collected and preserved to represent the bulk water and any dissolved or 
suspended materials or microorganisms occurring in the ground water 
resource.
    (ii) The source of ground water samples may be from natural springs, 
in seeps, or from wells constructed according to generally accepted 
methods.
    (4) Sampling of ground water or of geologic materials through which 
the ground water migrates shall be conducted according to generally 
accepted methods.
    (5) Measurement of the geohydrologic properties of the resource 
shall be conducted according to generally accepted practice.
    (6) Description of lithologies, minerals, cements, or other 
sedimentary characteristics of the ground water resource should follow 
generally accepted methods.
    (7) Interpretation of the geohydrological setting, including 
identifying geologic layers comprising aquifers and any confining units, 
shall be based on geohydrologic and geologic

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literature and generally accepted practice.
    (8)(i) Interpretation of ground-water flow systems or estimation of 
transport of oil or hazardous substances in ground water through the use 
of models shall be based on geohydrologic literature and current 
practice.
    (ii) The applicability of models used during the assessment should 
be demonstrated, including citation or description of the following.
    (A) Physical, chemical, and biological processes simulated by the 
model;
    (B) Mathematical or statistical methods used in the model; and
    (C) Model computer code (if any), test cases proving the code works, 
and any alteration of previously documented code made to adapt the model 
to the assessment area.
    (iii) The validity of models used during the assessment should be 
established, including a description of the following:
    (A) Model boundary conditions and stresses simulated;
    (B) How the model approximates the geohydrological framework of the 
assessment area;
    (C) Grid size and geometry;
    (D) Sources of geohydrological, chemical, and biological data used 
in the model;
    (E) Lists or maps of data used to describe initial conditions;
    (F) Time increments or time periods modeled;
    (G) Comparison of predicted fluxes of water and solutes with 
measured fluxes;
    (H) Calibration-verification procedures and results; and
    (I) Type and results of sensitivity analyses made.
    (d) Air resources. (1) Testing and sampling for injury to air 
resources shall be performed using methodologies that meet the selection 
and documentation requirements in this paragraph. Methods identified in 
this section and methods meeting the selection requirements identified 
in this section shall be used to detect, identify, and determine the 
presence and source of emissions of oil or a hazardous substance, and 
the duration, frequency, period of exposure (day, night, seasonal, 
etc.), and levels of exposure.
    (2) The sampling and analysis methods identified in this paragraph 
are the primary methods to be used for determining injury to the air 
resource. Air modeling methods may be used for injury determination only 
when air sampling and analysis methods are not available or the 
discharge or release occurred with no opportunity to monitor or sample 
the emissions.
    (3)(i) Methods developed, evaluated, approved, and published by the 
U.S. Environmental Protection Agency may be used for sampling and 
analysis to determine injury to the air resource.
    (ii) Methods selected for air sampling and analysis may include 
those methods that have been formally reviewed, evaluated, and published 
by the following government and professional organizations: the National 
Institute for Occupational Safety and Health, the American Society for 
Testing and Materials, and the American Public Health Association.
    (iii) Methods selected for air sampling and analysis shall be 
methods that are documented for each of the following:
    (A) The range of field conditions for which the methods are 
applicable;
    (B) Quality assurance and quality control requirements necessary to 
achieve the data quality the methods are capable of producing;
    (C) Operational costs of conducting the methods; and
    (D) Time required to conduct the methods.
    (iv) The determination of concentrations in excess of emission 
standards for hazardous air pollutants established under section 112 of 
the Clean Air Act, 42 U.S.C. 7412, shall be conducted in accordance with 
the primary methods or alternative methods as required in ``National 
Emission Standards for Hazardous Air Pollutants: Source Test and 
Analytical Methods,'' 40 CFR 61.14, and as may be applicable to the 
determination of injury to air resources.
    (4) In selecting methods for testing and sampling for injury to air 
resources, the following performance factors of the sampling and 
analysis methods and the influencing characteristics of the assessment 
area and the general vicinity shall be considered:

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    (i) Method detection limits, accuracy, precision, specificity, 
interferences, and analysis of time and cost;
    (ii) Sampling area locations and frequency, duration of sampling, 
and chemical stability of emissions; and
    (iii) Meteorological parameters that influence the transport of 
emissions and the spatial and temporal variation in concentration.
    (e) Geologic resources. (1) Testing and sampling for injury to 
geologic resources shall be performed using methodologies described in 
this paragraph.
    (2) Testing pH level in soils shall be performed using standard pH 
measurement techniques, taking into account the nature and type of 
organic and inorganic constituents that contribute to soil acidity; the 
soil/solution ratio; salt or electrolytic content; the carbon dioxide 
content; and errors associated with equipment standardization and liquid 
junction potentials.
    (3) Salinity shall be tested by measuring the electrical 
conductivity of the saturation extraction of the soil.
    (4) Soil microbial respiration shall be tested by measuring uptake 
of oxygen or release of carbon dioxide by bacterial, fungal, algal, and 
protozoan cells in the soil. These tests may be made in the laboratory 
or in situ.
    (5) Microbial populations shall be tested using microscopic 
counting, soil fumigation, glucose response, or adenylate enegry charge.
    (6) Phytotoxicity shall be tested by conducting tests of seed 
germination, seedling growth, root elongation, plant uptake, or soil-
core microcosms.
    (7) Injury to mineral resources shall be determined by describing 
restrictions on access, development, or use of the resource as a result 
of the oil or hazardous substance. Any appropriate health and safety 
considerations that led to the restrictions should be documented.
    (f) Biological resources. (1) Testing and sampling for injury to 
biological resources shall be performed using methodologies provided for 
in this paragraph.
    (2)(i) Testing may be performed for biological responses that have 
satisfied the acceptance criteria of Sec. 11.62(f)(2) of this part.
    (ii) Testing methodologies that have been documented and are 
applicable to the biological response being tested may be used.
    (3) Injury to biological resources, as such injury is defined in 
Sec. 11.62(f)(1)(ii) of this part, may be determined by using methods 
acceptable to or used by the Food and Drug Administration or the 
appropriate State health agency in determining the levels defined in 
that paragraph.