ASTM E1963-2009 Standard Guide for Conducting Terrestrial Plant Toxicity Tests《陆上植物毒性试验的标准指南》.pdf

1、Designation: E 1963 09Standard Guide forConducting Terrestrial Plant Toxicity Tests1This standard is issued under the fixed designation E 1963; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A number in

2、parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This guide covers practices for conducting plant toxicitytests using terrestrial plant species to determine effects of testsubstances on plant gr

3、owth and development. Specific testprocedures are presented in accompanying annexes.1.2 Terrestrial plants are vital components of ecologicallandscapes. The populations and communities of plants influ-ence the distribution and abundance of wildlife. Obviously,plants are the central focus of agricult

4、ure, forestry, and range-lands. Toxicity tests conducted under the guidelines andannexes presented herein can provide critical informationregarding the effects of chemicals on the establishment andmaintenance of terrestrial plant communities.1.3 Toxic substances that prevent or reduce seed germina-t

5、ion can have immediate and large impacts to crops. In naturalsystems, many desired species may be sensitive, while otherspecies are tolerant. Such selective pressure can result inchanges in species diversity, population dynamics, and com-munity structure that may be considered undesirable. Similarly

6、,toxic substances may impair the growth and development ofseedlings resulting in decreased plant populations, decreasedcompetitive abilities, reduced reproductive capacity, and low-ered crop yield. For the purposes of this guide, test substancesinclude pesticides, industrial chemicals, sludges, meta

7、ls ormetalloids, and hazardous wastes that could be added to soil. Italso includes environmental samples that may have had any ofthese test substances incorporated into soil.1.4 Terrestrial plants range from annuals, capable of com-pleting a life-cycle in as little as a few weeks, to long-livedperen

8、nials that grow and reproduce for several hundreds ofyears. Procedures to evaluate chemical effects on plants rangefrom short-term measures of physiological responses (forexample, chlorophyll fluorescence) to field studies of trees overseveral years. Research and development of standardized planttes

9、ts have emphasized three categories of tests: (1) short-term,physiological endpoints (that is, biomarkers); (2) short-termtests conducted during the early stages of plant growth withseveral endpoints related to survival, growth, and development;and ( 3) life-cycle toxicity tests that emphasize repro

10、ductivesuccess.1.5 This guide is arranged by sections as follows:Section Title1 Scope2 Referenced Documents3 Terminology4 Summary of Phytotoxicity Tests5 Significance and Use6 Apparatus7 Test Material8 Hazards9 Test Organisms10 Sample Handling and Storage11 Calibration and Standardization12 Test Con

11、ditions13 Interference and Limitations14 Quality Assurance and Quality Control15 Calculations and Interpretation of Results16 Precision and Bias1.6 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.7 This standard does not purpo

12、rt to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. Specific precau-tionary statements are given i

13、n Section 8.2. Referenced Documents2.1 ASTM Standards:2D 1193 Specification for Reagent WaterD 4547 Guide for Sampling Waste and Soils for VolatileOrganic CompoundsD 5633 Practice for Sampling with a ScoopE 1598 Practice for Conducting Early Seedling GrowthTests3E 1733 Guide for Use of Lighting in L

14、aboratory Testing1This guide is under the jurisdiction of ASTM Committee E47 on BiologicalEffects and Environmental Fate and is the direct responsibility of SubcommitteeE47.02 on Terrestrial Assessment and Toxicology.Current edition approved March 1, 2009. Published March 2009. Originallypublished i

15、n 1998. Last previous edition published 2003 as E 196303.2For 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 page onthe ASTM website.3Wit

16、hdrawn. The last approved version of this historical standard is referencedon www.astm.org.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.2.2 Code of Federal Regulations Standard:CFR 4942.3 Other useful references have described phy

17、totoxicitytest procedures (1-11).53. Terminology3.1 General TerminologyThe words “must,” “should,”“may,”“ can,” and “might” have very specific meanings in thisguide. “Must” is used to express an absolute requirement, thatis, to state that the test ought to be designed to satisfy thespecified conditi

18、on, unless the purpose of the test requires adifferent design. “Must” is only used in connection with factorsthat directly relate to the acceptability of the test (see Section14). “Should” is used to state that the specified condition isrecommended and ought to be met if possible. Althoughviolation

19、of one “should” is rarely a serious matter, violation ofseveral will often render the results questionable. Terms suchas “is desirable,” “is often desirable,” and “might be desirable”are used in connection with less important factors. “May” isused to mean “is (are) allowed to,” “can” is used to mean

20、 “is(are) able to,” and “might” is used to mean “could possibly.”Thus the classic distinction between “may” and “can” ispreserved, and “might” is never used as a synonym for either“may” or “can.”3.2 Definitions:3.2.1 control, nthe treatment group in a toxicity testconsisting of reference soil or art

21、ificial soil that duplicates allthe conditions of the exposure treatments, but contains no testsubstance. The control is used to determine if there are anystatistical differences in endpoints related to the test substance.3.2.2 eluate, nsolution obtained from washing a solidwith a solvent to remove

22、adsorbed material.3.2.3 hazardous substance, na material that can causedeleterious effects to plants, microbes, or animals. (A hazard-ous substance does not, in itself, present a risk unless anexposure potential exists.)3.2.4 inhibition, na statistically lower value of any end-point compared to the

23、control values that is related to environ-mental concentration or application rate.3.2.5 leachate, nwater plus solutes that has percolatedthrough a column of soil or waste.3.2.6 test material, nany formulation, dilution, etc. of atest substance.3.2.7 test substance, na chemical, formulation, eluate,

24、sludge, or other agent or substance that is the target of theinvestigation in a toxicity test.3.2.8 toxicant, nan agent or material capable of producingan adverse response (effect) in a biological system, adverselyimpacting structure or function or producing death.3.2.9 toxicity endpoints, nmeasurem

25、ents of organism re-sponse such as death, growth, developmental, or physiologicalparameters resulting from exposure to toxic substances.3.3 Definitions of Terms Specific to This Standard:3.3.1 chlorotic, adjthe discoloration of shoots that occursas chlorophyll is degraded as a result of disease, tox

26、icsubstances, nutrient deficiencies, or senescence.3.3.2 coleoptile, nthe protective tissues surrounding thegrowing shoot in a monocotyledonous plant.3.3.3 cotyledon, na primary leaf of the embryo in seeds,only one in the monocotyledons, two in dicotyledons. In manyof the latter, such as the bean, t

27、hey emerge above ground andappear as the first leaves.3.3.4 cutting, na vegetative segment of a plant, usually astem that contains several nodes and associated buds, that canbe used to regenerate an entire plant.3.3.5 dead test plants, nthose individuals that expiredduring the test observation perio

28、d as indicated by severedesiccation, withering, chlorosis, necrosis, or other symptomsthat indicate non-viability.3.3.6 desiccated, adjthe plant, or portion of the plant, thatis dried in comparison to the control plant.3.3.7 development, nthe series of steps involving celldivision and cell different

29、iation into various tissues and organs.3.3.8 dicotyledon, nin the classification of plants, thosehaving two seed leaves.3.3.9 dormancy, na special condition of arrested growthin which buds, embryos, or entire plants survive at loweredmetabolic activity levels. Special environmental cues such asparti

30、cular temperature regimes or photoperiods are required toactivate metabolic processes and resume growth. Seeds thatrequire additional treatment besides adequate moisture andmoderate temperature to germinate are said to be dormant. (Seequiescence.)3.3.10 emergence, nfollowing germination of a plant,

31、theearly growth of a seedling that pushes the epicotyl through thesoil surface.3.3.11 enhanced growth and yield, nwhen a treated plantexhibits shoot growth, root elongation, lateral root growth, oryield significantly greater than the control values, the plant is“enhanced” or “stimulated.”3.3.12 epic

32、otyl, nthat portion of an embryo or seedlingcontaining the shoot. It is delineated anatomically by thetransition zone which separates the epicotyl from the hypo-cotyl.3.3.13 fruits, nthe reproductive tissues derived from theovary in the case of epigenous flowers or the ovary andaccessory tissues in

33、the case of hypigenous flowers.3.3.14 germination, nthe physiological events associatedwith re-initiation of embryo growth and mobilization of reservenutrients in seeds. The emergence of the seedling radicle fromthe seed coat defines the end of germination and the beginningof early seedling growth.3

34、.3.15 growth, na change in size or mass measured bylength, height, volume, or mass.3.3.16 hypocotyl, nthat portion of an embryo or seedlingcontaining the root or radicle. It is delineated anatomically bythe transition zone which separates the epicotyl from thehypocotyl.4Available from Standardizatio

35、n Documents Order Desk, DODSSP, Bldg. 4,Section D, 700 Robbins Ave., Philadelphia, PA 19111-5098, http:/www.dodssp.daps.mil.5The boldface numbers in parentheses refer to the list of references at the end ofthis guide.E19630923.3.17 inhibited plant growth and yield, n plant growth,root length and lat

36、eral root growth, or yield are “inhibited”when their measurements are significantly less than the controlvalues.3.3.18 lateral roots, nroots growing off the primary roots,also referred to as secondary roots.3.3.19 monocotyledon, n in the classification of plants,those having a single seed leaf.3.3.2

37、0 mottled, adjmarked with lesions, spots or streaksof different colors. This includes the discoloration of leafmargins.3.3.21 phytotoxicity, na lethal or sub-lethal response ofplants to a toxicant.3.3.22 quiescence, na condition in buds, embryos, orentire plants characterized by lowered metabolic ra

38、tes andlimited or no growth. Seeds that germinate when supplied withadequate moisture and moderate temperature are said to bequiescient. (See dormancy.)3.3.23 radicle, nthe emerging root of an embryo duringgermination.3.3.24 seed, nthe propagule of a plant derived from anovule. It consists of an emb

39、ryo, a protective covering (seedcoat), and may have storage tissue (endosperm).3.3.25 shoot, nthe above-ground portion of a plant con-sisting of stems, leaves, as well as any reproductive parts thatmay be attached.3.3.26 surviving plants, ntest plants that are alive at thetime observations are recor

40、ded.3.3.27 viable, adjplants capable of resuming metabolicfunctions and growth are considered “viable.” Buds, embryos,or entire plants may be dormant or quiescient and thereforeexhibit no growth during the period of observation. Distin-guishing dead plants from viable plants with certainty isdifficu

41、lt without special training and sophisticated measures ofmetabolic function.3.3.28 withering, vbecoming limp or desiccated, deprivedof moisture; often the result of root damage.4. Summary of Phytotoxicity Tests4.1 The terrestrial phytotoxicity tests covered under thisguide apply to a range of test c

42、onditions and test species thatcan be adapted to meet project-specific objectives. Test organ-isms are maintained either as seeds or as cuttings until aparticular test is to be conducted. A prescribed number ofindividual plants are introduced into test treatments thatinclude a negative control, a se

43、ries of positive controls, and oneor more test-substance treatment concentrations. The treatmentconcentrations may be known or unknown; nominal or mea-sured, depending on the nature of the investigation. In the casewhere the test substance is evaluated as an additive to soil, arange of concentration

44、s is recommended. In tests of environ-mental samples that already contain a putative phytotoxicsubstance, the tests may be conducted with either the test soilas collected from the field, or as diluted with a suitablereference soil. Another variant of the tests allows for amend-ments, or spikes, of s

45、elected toxic substances to be added toenvironmental samples. Finally, in the case of the root elonga-tion assay, eluates, effluents, or other aqueous derivatives of asoil sample are tested.4.2 Plants are exposed to the test substances in the formdescribed in the specific variations of the tests for

46、 a discreteperiod of time that ranges from 96 h to several months. Forshort tests, no nutrient additions or amendments are needed orrecommended as the amendments may interact with the toxi-cant and alter the toxicity response. For tests lasting more thantwo weeks, nutrient additives may be warranted

47、, depending onthe test objectives, in order to maximize the potential for plantgrowth and development. Thinning, culling, or replacing indi-vidual plants must not be done once exposure of plants to a testsubstance has begun as such actions invalidate the test throughthe introduction of bias or varia

48、ble test duration among testorganisms. At intermediate times, and at the conclusion of theexposure period, tallies of survival and measures of shootgrowth and development are made.4.3 For phytotoxicity tests, 100 to 200 mol m2s1ofvisible light (or photosynthetically active radiation, 400 to 700hm) h

49、as been found to be a broadly applicable fluence rate. Insome cases, different light levels or spectral ranges (forexample, solar ultraviolet) may be required. Guide E 1733.4.4 Measured endpoints and other observational data areused to calculate response levels in terms of ECxx or ICxx(where xx refers to a specified percentage response), orcategorical descriptions of phytotoxic effects (for example,proportion of plants exhibiting abnormal development or othersymptomatic indices that might be scored in qualitative terms)relative to controls. Th