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§797.1330 Daphnid chronic toxicity test.
(a) Purpose. This guideline is intended for use in developing data on the chronic toxicity of chemical substances and mixtures ("chemicals") subject to environmental effects test regulations under the Toxic Substances Control Act (TSCA) (Pub. L. 94-469, 90 Stat. 2003, 15 U.S.C. 2601 et seq.). This guideline prescribes a chronic toxicity test in which daphnids are exposed to a chemical in a renewal or a flow-through system. The United States Environmental Protection Agency will use data from this test in assessing the hazard a chemical may present to the aquatic environment.
(b) Definitions. The definitions in section 3 of the Toxic Substances Control Act (TSCA), and the definitions in part 792 Good Laboratory Practice Standards of this chapter apply to this test guideline. In addition, the following definitions apply to this guideline:
(1) Brood stock means the animals which are cultured to produce test organisms through reproduction.
(2) Chronic toxicity test means a method used to determine the concentration of a substance in water that produces an adverse effect on a test organism over an extended period of time. In this test guideline, mortality and reproduction (and optionally, growth) are the criteria of toxicity.
(3) EC (4) Ephippium means a resting egg which develops under the carapace in
response to stress conditions in daphnids.
(5) Flow-through means a continuous or intermittent passage of test
solution or dilution water through a test chamber or culture tank with no
recycling.
(6) Immobilization means the lack of movement by daphnids except for
minor activity of the appendages.
(7) Loading means the ratio of daphnid biomass (grams, wet weight) to
the volume (liters) of test solution in a test chamber at a point in time or
passing through the test chamber during a specific interval.
(8) MATC (Maximum Acceptable Toxicant Concentration) means the maximum
concentration at which a chemical can be present and not be toxic to the test
organism.
(9) Renewal system means the technique in which test organisms are
periodically transferred to fresh test solution of the same composition.
(c) Test procedures -- (1) Summary of the test. (i) Test
chambers are filled with appropriate volumes of dilution water. In the
flow-through test the flow of dilution water through each chamber is then
adjusted to the rate desired. The test substance is introduced into each test
chamber. The addition of test substance in the flow-through system is done at a
rate which is sufficient to establish and maintain the desired concentration of
test substance in the test chamber.
(ii) The test is started within 30 minutes after the test substance has been
added and uniformly distributed in the test chambers in the renewal test or
after the concentration of test substance in each test chamber of the
flow-through test system reaches the prescribed level and remains stable. At the
initiation of the test, daphnids which have been cultured or acclimated in
accordance with the test design, are randomly placed into the test chambers.
Daphnids in the test chambers are observed periodically during the test,
immobile adults and offspring produced are counted and removed, and the findings
are recorded. Dissolved oxygen concentration, pH, temperature, the concentration
of test substance, and other water quality parameters are measured at specified
intervals in selected test chambers. Data are collected during the test to
determine any significant differences (p≦0.05) in immobilization and
reproduction as compared to the control.
(2) [Reserved]
(3) Range-finding test. (i) A range-finding test should be conducted
to establish test solution concentrations for the definitive test.
(ii) The daphnids should be exposed to a series of widely spaced
concentrations of the test substance (e.g., 1, 10, 100 mg/l), usually under
static conditions.
(iii) A minimum of five daphnids should be exposed to each concentration of
test substance for a period of time which allows estimation of appropriate
chronic test concentrations. No replicates are required and nominal
concentrations of the chemical are acceptable.
(4) Definitive test. (i) The purpose of the definitive test is to
determine concentration-response curves, EC (ii) A minimum of 20 daphnids per concentration shall be exposed to five or
more concentrations of the chemical chosen in a geometric series in which the
ratio is between 1.5 and 2.0 (e.g., 2, 4, 8, 16, 32, 64 mg/l). An equal number
of daphnids shall be placed in two or more replicates. The concentration ranges
shall be selected to determine the concentration-response curves, EC (iii) Every test shall include controls consisting of the same dilution
water, conditions, procedures and daphnids from the same population (culture
container), except that none of the chemical is added.
(iv) The test duration is 21 days. The test is unacceptable if:
(A) More than 20 percent of the control organisms appear to be immobilized,
stressed or diseased during the test.
(B) Each control daphnid living the full 21 days produces an average of less
than 60 young.
(C) Any ephippia are produced by control animals.
(v) The number of immobilized daphnids in each chamber shall be recorded on
day 21 of the test. After offspring are produced, they shall be counted and
removed from the test chambers every 2 or 3 days. Concentration-response curves,
EC (vi) In addition to immobility, any abnormal behavior or appearance shall
also be reported.
(vii) Test organisms shall be impartially distributed among test chambers in
such a manner that test results show no significant bias from the distributions.
In addition, test chambers within the testing area shall be positioned in a
random manner as in a way in which appropriate statistical analyses can be used
to determine the variation due to placement.
(5) [Reserved]
(6) Analytical measurements. (i) Test chemical. Deionized water
should be used in making stock solutions of the test substance. Standard
analytical methods should be used whenever available in performing the analyses.
The analytical method used to measure the amount of test substance in a sample
shall be validated before beginning the test by appropriate laboratory
practices. An analytical method is not acceptable if likely degradation products
of the test substance, such as hydrolysis and oxidation products, give positive
or negative interferences which cannot be systematically identified and
corrected mathematically.
(ii) Numerical. The number of immobilized adults, total offspring per
adult, and immobilized offspring per adult shall be counted during each test.
Appropriate statistical analyses should provide a goodness-of-fit determination
for the adult immobilization concentration-response curves calculated on day 21.
A 21-day EC (d) Test conditions -- (1) Test species -- (i)
Selection. (A) The cladocerans, Daphnia magna or D. pulex,
are the species to be used in this test. Either species can be utilized for
testing of a particular chemical. The species identity of the test organisms
should be verified using appropriate systematic keys.
(B) First instar daphnids, ≦24 hours old, are to be used to start the
test.
(ii) Acquisition. (A) Daphnids to be used in chronic toxicity tests
should be cultured at the test facility. Records should be kept regarding the
source of the initial stock and culturing techniques. All organisms used for a
particular test shall have originated from the same culture population.
(B) Daphnids shall not be used for a test if:
(1) Cultures contain ephippia.
(2) Adults in the cultures do not produce young before day 12.
(3) More than 20 percent of the culture stock die in the 2 days
preceding the test.
(4) Adults in the culture do not produce an average of at least 3
young per adult per day over the 7-day period prior to the test.
(5) Daphnids have been used in any portion of a previous test either
in a treatment or in a control.
(iii) Feeding. (A) During the test the daphnids shall be fed the same
diet and with the same frequency as that used for culturing and acclimation. All
treatments and control(s) shall receive, as near as reasonably possible, the
same ration of food on a per-animal basis.
(B) The food concentration depends on the type used. Food concentrations
should be sufficient to support normal growth and development and to allow for
asexual (parthenogenic) reproduction. For automatic feeding devices, a suggested
rate is 5 to 7 mg food (either solids or algal cells, dry weight) per liter
dilution water or test solution. For manual once-a-day feeding, a suggested rate
is 15 mg food (dry weight) per liter dilution water or test solution.
(iv) Loading. The number of test organisms placed in a test chamber
shall not affect test results. Loading shall not exceed 40 daphnids per liter in
the renewal system. In the flow-through test, loading limits will vary depending
on the flow rate of the dilution water. Loading shall not cause the dissolved
oxygen concentration to fall below the recommended level.
(v) Care and handling of test organisms. (A) Daphnids should be
cultured in dilution water under similar environmental conditions to those used
in the test. A variety of foods have been demonstrated to be adequate for
daphnid culture. They include algae, yeasts and a variety of mixtures.
(B) Organisms should be handled as little as possible. When handling is
necessary it should be done as gently, carefully, and quickly as possible.
During culturing and acclimation, daphnids should be observed carefully for
ephippia and other signs of stress, physical damage, and mortality. Dead and
abnormal individuals shall be discarded. Organisms that touch dry surfaces or
are dropped or injured during handling shall be discarded.
(C) Smooth glass tubes (I.D. greater than 5mm) equipped with a rubber bulb
can be used for transferring daphnids with minimal culture media carry-over.
(D) Care should be exercised to introduce the daphnids below the surface of
any solution so as not to trap air under the carapace.
(vi) Acclimation. (A) Brood daphnids shall be maintained in 100
percent dilution water at the test temperature for at least 48 hours prior to
the start of the test. This is easily accomplished by culturing them in dilution
water at the test temperature. During acclimation, daphnids shall be fed the
same food as will be used for the definitive test.
(B) During culturing and acclimation to the dilution water, daphnids should
be maintained in facilities with background colors and light intensities similar
to those of the testing area.
(2) Facilities -- (i) General. (A) Facilities needed to perform
this test include:
(1) Containers for culturing and acclimating daphnids.
(2) A mechanism for controlling and maintaining the water temperature
during the culturing, acclimation and test periods.
(3) Apparatus for straining particulate matter, removing gas bubbles,
or aerating the water when water supplies contain particulate matter, gas
bubbles, or insufficient dissolved oxygen, respectively.
(4) An apparatus for providing a 16-hour light and 8-hour dark
photoperiod.
(5) An apparatus to introduce food if continuous or intermittent
feeding is used.
(6) In addition, the flow-through test shall contain appropriate test
chambers in which to expose daphnids to the test substance and an appropriate
test substance delivery system.
(B) Facilities should be well ventilated and free of fumes and other
disturbances that may affect the test organisms.
(ii) Test chambers. (A) Materials and equipment that contact test
solutions should be chosen to minimize sorption of test chemicals from the
dilution water and should not contain substances that can be leached into
aqueous solution in quantities that can affect test results.
(B) For renewal tests, daphnids can be conveniently exposed to the test
solution in 250 ml beakers or other suitable containers.
(C) For flow-through tests daphnids can be exposed in glass or stainless
steel containers with stainless steel or nylon screen bottoms. Such containers
shall be suspended in the test chamber in such a manner to ensure that the test
solution flows regularly into and out of the container and that the daphnids are
always submerged in at least 5 centimeters of test solution. Test chambers can
be constructed using 250 ml beakers or other suitable containers equipped with
screened overflow holes, standpipes or V-shaped notches.
(D) Test chambers shall be loosely covered to reduce the loss of test
solution or dilution water due to evaporation and to minimize the entry of dust
or other particulates into the solutions.
(iii) Test substance delivery system. (A) In the flow-through test,
proportional diluters, metering pump systems or other suitable systems should be
used to deliver the test substance to the test chambers.
(B) The test substance delivery system shall be calibrated before each test.
Calibration includes determining the flow rate through each chamber and the
concentration of the test substance in each chamber. The general operation of
the test substance delivery system should be checked twice daily during a test.
The 24-hour flow rate through a test chamber shall be equal to at least five
times the volume of the test chamber. During a test, the flow rates shall not
vary more than 10 percent from any one test chamber to another. For the renewal
test, test substance dilution water shall be completely replaced at least once
every 3 days.
(iv) Dilution water. (A) Surface or ground water, reconstituted water,
or dechlorinated tap water are acceptable as dilution water if daphnids will
survive in it for the duration of the culturing, acclimation, and testing
periods without showing signs of stress. The quality of the dilution water
should be constant and should meet the following specificiations: (B) The water quality characteristics listed above shall be measured at least
twice a year or when it is suspected that these characteristics may have changed
significantly. If dechlorinated tap water is used, daily chlorine analysis shall
be performed.
(C) If the diluent water is from a ground or surface water source,
conductivity and total organic carbon (TOC) or chemical oxygen demand (COD)
shall be measured. Reconstituted water can be made by adding specific amounts of
reagent-grade chemicals to deionized or distilled water. Glass distilled or
carbon filtered deionized water with a conductivity of less than 1 microohm/cm
is acceptable as the diluent for making reconstituted water.
(D) If the test substance is not soluble in water an appropriate carrier
should be used.
(v) Cleaning of test system. All test equipment and test chambers
shall be cleaned before each use following standard laboratory procedures.
Cleaning of test chambers may be necessary during the testing period.
(3) Test parameters. (i) Environmental conditions of the water
contained in test chambers should be maintained as specified in this paragraph:
(A) The test temperature shall be 20 °C. Excursions from the test temperature
shall be no greater than ±2 °C.
(B) Dissolved oxygen concentration between 60 and 105 percent saturation.
Aeration, if needed to achieve this level, shall be done before the addition of
the test substance. All treatment and control chambers shall be given the same
aeration treatment.
(C) Photoperiod of 16-hours light and 8-hours darkness.
(ii) Additional measurements include:
(A) The concentration of the test substance in the chambers shall be measured
during the test.
(B) At a minimum, the concentration of test substance should be measured as
follows:
(1) In each chamber before the test.
(2) In each chamber on days 7, 14, and 21 of the test.
(3) In at least one appropriate chamber whenever a malfunction is
detected in any part of the test substance delivery system. Equal aliquots of
test solution may be removed from each replicate chamber and pooled for
analysis. Among replicate test chambers of a treatment concentration, the
measured concentration of the test substance should not vary more than 20
percent.
(4) An apparatus for providing a 16-hour light and 8-hour dark
photoperiod.
(C) The dissolved oxygen concentration, temperature and pH shall be measured
at the beginning of the test and on days 7, 14, and 21 in at least two chambers
of the high, middle, low, and control test concentrations.
(e) Reporting. The sponsor shall submit to the U.S. Environmental
Protection Agency all data developed by the test that are suggestive or
predictive of chronic toxicity and all associated toxicologic manifestations. In
addition to the reporting requirements prescribed in the part 792 -- Good
Laboratory Practice Standards of this chapter the reporting of test data
shall include the following:
(1) The name of the test, sponsor, testing laboratory, study director,
principal investigator, and dates of testing.
(2) A detailed description of the test substance including its source, lot
number, composition (identity and concentration of major ingredients and major
impurities), known physical and chemical properties, and any carriers or other
additives used and their concentrations.
(3) The source of the dilution water, its chemical characteristics (e.g.,
conductivity, hardness, pH), and a description of any pretreatment.
(4) Detailed information about the daphnids used as brood stock, including
the scientific name and method of verification, age, source, treatments, feeding
history, acclimation procedures, and culture methods. The age of the daphnids
used in the test shall be reported.
(5) A description of the test chambers, the volume of solution in the
chambers, the way the test was begun (e.g., conditioning, test substance
additions), the number of test organisms per test chamber, the number of
replicates per treatment, the lighting, the renewal process and schedule for the
renewal chronic test, the test substance delivery system and flow rate expressed
as volume additions per 24 hours for the flow-through chronic test, and the
method of feeding (manual or continuous) and type of food.
(6) The concentration of the test substance in test chambers at times
designated for renewal and flow-through tests.
(7) The number and percentage of organisms that show any adverse effect in
each test chamber at each observation period.
(8) The cumulative adult and offspring immobilization values and the progeny
produced at designated observation times, the time (days) to first brood and the
number of offspring per adult in the control replicates and in each treatment
replicate.
(9) All chemical analyses of water quality and test substance concentrations,
including methods, method validations and reagent blanks.
(10) The data records of the culture, acclimation, and test temperatures.
(11) Any deviation from this test guideline, and anything unusual about the
test, (e.g., dilution failure, temperature fluctuations).
(12) The MATC to be reported is calculated as the geometric mean between the
lowest measured test substance concentration that had a significant
(p≦0.05) effect and the highest measured test substance concentration
that had no significant (p≦0.05) effect on day 21 of the test. The most
sensitive of the test criteria (number of adult animals immobilized, the number
of young per female and the number of immobilized young per female) is used to
calculate the MATC. The criterion selected for MATC computation is the one which
exhibits an effect (a statistically significant difference between treatment and
control groups; p≦0.05) at the lowest test substance concentration for
the shortest period of exposure. Appropriate statistical tests (analysis of
variance, mean separation test) shall be used to test for significant test
substance effects. The statistical tests employed and the results of these tests
shall be reported.
(13) Concentration-response curves utilizing the average measured test
substance concentration shall be fitted to cumulative adult immobilization data
at 21 days. A statistical test of goodness-of-fit shall be performed and the
results reported.
(14) An EC [50 FR 39321, Sept. 27, 1985, as amended at 52 FR 19060, May 20,
1987]
------------------------------------------------------------------------
Substance Maximum concentration
------------------------------------------------------------------------
Particulate matter......................... 20 mg/l.
Total organic carbon or.................... 2 mg/l.
Chemical oxygen demand............... 5 mg/l.
Un-ionized ammonia......................... 20 mg/l.
Residual chlorine.......................... <3 mg/l.
Total organophosphorus pesticides.......... 50 ng/l.
Total organochlorine pesticides plus 50 ng/l.
polychlorinated biphenyls (PCBs).
or organic chlorine.................. 25 ng/l.
------------------------------------------------------------------------
