Bi2003 Ecotoxicology Ecotoxicological bioassays Jakub Hofman 1 Content §Introduction – what, why, how, concept §Types of bioassays §Ecotoxicological bioassays’ design and results §Aquatic bioassays - examples §Soil bioassays – examples §Use of bioassays in praxis 2 Use in praxis 3 Use of bioassays in praxis §„praxis“ = environmental protection, regulation, legislation ... § §use of bioassays depends on: are they officially required by legislation/regulation?? §this is changing in time! – legislation development § §bioassays are used in both prospective (MORE) and retrospective (LESS) approaches § §in prospective approach, very often in concept of RISK ASSESSMENT 4 Use of bioassays in praxis §mainly for hazard identification / characterization of chemical substances including important specific groups of pesticides, biocides, pharmaceuticals, cosmetics ... properties of same chemical (unique CAS No.), including ecotox, are constant including the setting of limits for pollution use of bioassays in legislation § §less (but increasing) for complex samples (materials) in prospective approach (e.g. before their use) – wastes, sewage sludge, fertilizers etc. each sample is different (e.g. sewage sludge sampled different days) – new testing needed legislative use is rare (only national) § §less (but increasing) for complex environmental samples (water, soil, sediment ...) in retrospective approach (diagnostics) legislative use is rare (only national) 5 Risk assessment concept §ecotoxicological bioassays are used to quantify HAZARD (i.e. kind of property of chemicals / materials ...) § §RISK is then result of combination of hazard and exposure – probability that hazard will occur 6 Risk assessment concept HAZARDS §are also physico-chemical and toxicological and other harmful properties §ecotoxicological hazards are derived from the results of bioassays: 1.direct use of LCx/ECx, NOEC, LOEC ... 2.tuning these values towards PNEC (Predicted No Effect Concentration), often by the most sensitive result + using so called uncertainty factors § 7 Risk assessment concept §PNEC derivation from ecotoxicity data §objective is to protect real ecosystems, safe concentration è need to extrapolate bioassay results to be valid for ecosystems §how much information we have? à uncertainty factors, 1, 10, 100, 1000 Species sensitivity distribution (SSD) HC5 = 95% protection level Extrapolation PNEC (limits, EQS) 8 Risk assessment concept RISK §combines by some way EFFECT data (LCx/ECx, NOEC, NOAEL, PNEC etc.) with EXPOSURE (Predicted Environmental Concentration – PEC, Measured Environmental Concentration – MEC, etc.) §depends on situation (factors) §can be mitigated and managed § 10 Risk assessment concept §human health risk assessment (HHRA) – human health as endpoint §ecological risk assessment (EcoRA, ERA) – ecosystems, non-human organisms and populations as endpoints §environmental risk assessment (ERA) – unclear term, involves both § 12 Battery of bioassays 13 Battery of bioassays §different organisms give different response to toxicants (sensitivity, bioavailability, exposure, metabolization ...) and also different conditions and factors in different bioassays §none single bioassay can give complete response !! § §usually it is very good to combine more bioassays together = battery §more and „better“ (e.g. chronic preferably to acute) bioassays used è lower uncertainty of the finally derived hazard and risk of the tested chemical substance (lower „uncertainty factors“ in risk assessment used) § §selection should follow defined final goal of the ecotoxicity testing 14 Battery of bioassays §different approaches (different purposes/legislation needs) how to do it: 1.combine bioassays based on some principle e.g. golden rule = combine trophic levels: a) producer (plants), b) consumer (invertebrates, vertebrates), c) destruent (microbes) + also combine different routes of exposure, test duration etc. 2.mix scientific principle (1) with practical demands (low number of tests, quick, cheap, standardized tests ... etc.) - most common batteries in praxis: oalgae / D. magna / fish for aquatic environment oearthworm (enchytraeid/springtail) / plant for soil environment 3.tiered approach = based on the results of previous tier its decided if next (and what next) testing will be done: fast screening bioassays à standardized acute bioassays à chronic/prolonged studies à field tests (so called higher tiers) § 15 Battery of bioassays Example: ISO guidelines showing how to combine bioassays for testing soils and soil-like materials 16 ISO 15799: Guidance on the ecotoxicological characterization of soils and soil materials ISO 17616: Guidance on the choice and evaluation of bioassays for ecotoxicological characterization of soils and soil materials Battery of bioassays Example: Battery prepared for testing ecotoxicity of wastes §current situation: ohttps://ec.europa.eu/environment/waste/index.htm oDirective 2008/98/EC on waste (Waste Framework Directive) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02008L0098-20180705 oH14 Ecotoxicity is one of the hazardous properties of wastes oit is assessed based on the analysis of wastes and database data ono real testing with bioassays 17 Battery of bioassays Example: Battery prepared for testing ecotoxicity of wastes §there was huge ringtest focused on selection of appropriate bioassays for testing wastes (13 countries, 59 labs, 500 kg of waste tested ...) 18 Ecotoxicological Characterization of Waste Image Image Image Battery of bioassays Example: Czech legislation for waste §H14 Ecotoxicity hazardous property determination (decree 376/2001): owaste eluate 10 L/kg (EN 12457-4) oif any of these tests has LC(EC,IC)50 ≤ 10 ml/L, the waste sample is H14 -ISO 6341 Daphnia magna acute -ISO 8692 Algae growth -ISO 7346-2 Fish acute test -mustard Sinapsis alba germination and root growth o o 19 Battery of bioassays Example: Czech legislation for waste §ecotoxicity testing for waste use on land surface or landfilling (decree 294/2005): owaste eluate 10 L/kg (EN 12457-4) ouse of waste for for closing landfills, forming protective layer, sealing layer or reclamation layer of landfill is allowed if: -Fish acute test: no mortality or behavior change -Daphnia magna acute test: < 30% imobilization compatred to control -Algae growth test: < 30% inhibition compared to control -Sinapis alba germination and root elongation: < 30% inhibition compared to control 20 Battery of bioassays Example: Czech legislation for dredged sediments §before application on agricultural land §limits are given for concentration of pollutants §ecotoxicity bioassays and criteria are given o 21 21_%20Excavation_jpg Potworms (Enchytraeids doerjesi) Example of light coloured springtail (Folsomia candida) Nitrifying bacteria isolated from landfill leakage ISO 16387 ISO 11267 11269-1 ISO 15685 všechny koncentrace kompost Examples of ecotoxicity bioassays use in legislation 22 Testing of chemical substances §mainly „chemicals“ – they have CAS No. §> 100 millions of chemicals known §> 100 000 we produce and use §HPVC = high production volume chemicals > 1000 t/y production §„priority pollutants“ – e.g. Water Framework Directive, Stockholm Convention ... 23 https://echa.europa.eu/cs/information-on-chemicals/ec-inventory Testing of chemical substances §developed legislation (EU, US ...) requires determination of ecotoxicity (+ lot of other properties – phys-chem, toxicity ...) before marketing and use of chemicals §what does it mean: oprecise testing using standardized (OECD ...) bioassays in accredited labs with all validity requirements and quality assurance / quality control (QA/QC) measures oresults of ecotoxicity clearly expressed avoiding any confusion or missinterpretation: -what parameter – ECx/LCx, NOEC ... -which units – mg/L, mol/L, mg/kg, % ... -specify clearly possible variants in procedure: i.e. D. magna, 24h, LC50 = XY mg/L -... oresults used for risk assessment of chemicals, labelling, decision making, authorizations, restrictions, management etc. o 24 Example 1 Labelling chemicals - GHS 25 Informační centrum OSN GHS 26 Globally Harmonised System of Classification and Labelling of Chemicals (https://unece.org/about-ghs) §„hazardous to aquatic environment“ § § § § § § §OECD tests preferred and GLP (good laboratory praxis) should be followed oacute aquatic toxicity ochronic aquatic toxicity opotential for or actual bioaccumulation odegradation (biotic or abiotic) for organic chemicals § § o Informační centrum OSN Acute classification categories 1 to 3 §defined on the basis of the acute toxicity data only (EC50 or LC50) ofish 96h (OECD 203) oDaphnia 48h (OECD 202) oalgae growth inhibition test (OECD 201) o GHS 27 United Nations (2019): Globally Harmonized System of Classification and Labelling of Chemicals (GHS). Eighth revised edition. https://unece.org/ghs-rev8-2019 Informační centrum OSN Informační centrum OSN Chronic classification categories 1 to 3 §based on tiered approach è 1. 1.available information on chronic toxicity -fish early life stage (OECD 210) -daphnia reproduction (OECD 211) -algae growth inhibition test (OECD 201) -NOEC or ECx (e.g. EC10) 2. 2.or acute toxicity data combined with environmental fate data o GHS 28 next page next page United Nations (2019): Globally Harmonized System of Classification and Labelling of Chemicals (GHS). Eighth revised edition. https://unece.org/ghs-rev8-2019 chronic classification data available data unavailable GHS 29 United Nations (2019): Globally Harmonized System of Classification and Labelling of Chemicals (GHS). Eighth revised edition. https://unece.org/ghs-rev8-2019 Informační centrum OSN GHS 30 United Nations (2019): Globally Harmonized System of Classification and Labelling of Chemicals (GHS). Eighth revised edition. https://unece.org/ghs-rev8-2019 aquatic hazards summary Informační centrum OSN Example 2 Chemicals – in EU 31 Evropská unie – Wikipedie REACH 32 Evropská unie – Wikipedie §https://ec.europa.eu/environment/chemicals/index_en.htm § §Regulation 1907/2006, concerning the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02006R1907-20200824 § §responsible is European Chemicals Agency (ECHA) https://echa.europa.eu/home § REACH 33 Evropská unie – Wikipedie §REACH allows to produce and use in EU only such chemical substances that are registered, evaluated and authorized in EU (does not apply to substances with production or import below 1 t/y) §the risk they may pose to human health and the environment must be characterized and they must be classified accordingly §registration is based on technical dossier, which includes data on the properties of the registered substance determined by defined testing procedures Regulation No 440/2008, laying down test methods pursuant to Regulation No 1907/2006 (REACH) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02008R0440-20191016 §for substances with production or import > 10 t/y also Chemical Safety Report (CSR) must be prepared involving evaluation of hazards and risks related to production and use § §concept: with increasing volume of production (1, 10, 100 and 1000 t/y) number of needed data (methods, tests, including ecotoxicity bioassays) is increasing REACH all substances > 1 t/y 34 Evropská unie – Wikipedie REACH all substances > 10 t/y 35 Evropská unie – Wikipedie Obsah obrázku láhev, interiér, několik Popis byl vytvořen automaticky REACH all substances > 100 t/y 36 Evropská unie – Wikipedie REACH all substances > 100 t/y 37 Evropská unie – Wikipedie IMG_7022_al 62 Arthrobacter | coryneforms-2 REACH all substances > 1000 t/y 38 Evropská unie – Wikipedie 62 plant01.jpg (54.086 Byte) Japanese quail - Wikipedia REACH 39 Evropská unie – Wikipedie Regulation No 440/2008, laying down test methods pursuant to Regulation No 1907/2006 (REACH) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02008R0440-20191016 lists the methods including procedures often follows OECD guidelines REACH 40 Evropská unie – Wikipedie §chemical safety assessment ~ risk assessment principle = combination of HAZARD and EXPOSURE §detailed guidelines for each phase https://echa.europa.eu/guidance-documents/guidance-on-information-requirements-and-chemical-safety- assessment REACH 41 Evropská unie – Wikipedie Environmental hazard assessment §PNEC (predicted no effect concentration) for each environmental compartment §concentration below which adverse effects on ecosystems will not occur §derived on basis of available information on toxicity to species from relevant environments, i.e. toxicity test endpoints (LC50s or NOECs/EC10s), using appropriate assessment factors (AF) to extrapolate from single-species laboratory data to a multi-species ecosystem, to address: ointra- and inter-laboratory variation of toxicity data ointra- and inter-species variations (biological variance) oshort-term to long-term toxicity extrapolation olaboratory data to field impact extrapolation o... REACH 42 Evropská unie – Wikipedie Environmental hazard assessment §PNEC determination ECHA (2011): Guidance on information requirements and chemical safety assessment Part B: Hazard assessment. https://echa.europa.eu/guidance-documents/guidance-on-information-requirements-and-chemical-safety- assessment ECHA (2008): Guidance on information requirements and chemical safety assessment. Chapter R.10: Characterisation of dose [concentration]-response for environment. https://echa.europa.eu/guidance-documents/guidance-on-information-requirements-and-chemical-safety- assessment REACH 43 Evropská unie – Wikipedie Environmental hazard assessment §PNEC determination ECHA (2011): Guidance on information requirements and chemical safety assessment Part B: Hazard assessment. https://echa.europa.eu/guidance-documents/guidance-on-information-requirements-and-chemical-safety- assessment REACH 44 Evropská unie – Wikipedie Exposure assessment §PEC (predicted environmental concentration) for each environmental compartment §models based on production of chemicals, § § REACH 45 Evropská unie – Wikipedie Environmental risk characterization § PEC > PNEC (HQ>1) PEC < PNEC (HQ<1) REACH 46 Evropská unie – Wikipedie Example CSR report https://echa.europa.eu/support/practical-examples-of-chemical-safety-reports from page 53 REACH §some data available in EC inventory and IUCLID 6 §but not full Chemical Safety Reports §example: https://echa.europa.eu/substance-information/-/substanceinfo/100.100.840 47 https://echa.europa.eu/cs/information-on-chemicals/ec-inventory Evropská unie – Wikipedie https://iuclid6.echa.europa.eu/project-iuclid-6 REACH 48 Evropská unie – Wikipedie §for chemicals, producers and importers must provide information about risks related to substance use, based on Regulation No 1272/2008, on the classification, labelling and packaging of substances and mixtures (CLP Regulation) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02008R1272-20201114 §information on risks is provided in agreement with Globally Harmonised System of Classification and Labelling of Chemicals (https://unece.org/about-ghs) §among plenty of other data and properties, ecotoxicity is evaluated The GHS hazard pictograms for free download GHS Example 3 Pesticides - Plant protection products (PPP) – in EU 49 Evropská unie – Wikipedie Obsah obrázku tráva, exteriér, obloha, nákladní auto Popis byl vytvořen automaticky Plant protection products (PPP) §pesticides are very hazardous chemicals! §Hofman analysis 11/2018: 204 / 441 approved AS have some classification according to EC 1272/2008 (CLP) - majority AS have 3 or more (max 9 – e.g. Spiroxamin), in total there are 723 hazard statements found for all approved AS o12 acute toxicity 1 o28 carcinogenicity 2 o153 acute aq. tox. 1 o11 reprod. tox. 1B Image Image Image Image Image Image Image Image 50 Evropská unie – Wikipedie Plant protection products (PPP) §ecotoxicity assessment is related to the expected behavior and impacts after PPP application §lot of non-target biota under risk of undesired negative impact 51 Evropská unie – Wikipedie Plant protection products (PPP) §lot of non-target biota under risk of undesired negative impact, including indirect effects 52 Evropská unie – Wikipedie Plant protection products (PPP) §https://ec.europa.eu/food/plant/pesticides_en §www.efsa.europa.eu/en/topics/topic/pesticides § §in EU, EFSA is responsible for the authorization of PPP §Regulation 1107/2009, concerning the placing of plant protection products on the market https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02009R1107-20191214 §Regulation 546/2011, uniform principles for evaluation and authorisation of PPP https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02011R0546-20180524 § §overview of whole process: https://www.efsa.europa.eu/en/interactive-pages/pesticides-authorisation/PesticidesAuthorisation https://ec.europa.eu/assets/sante/food/plants/pesticides/lop/index.html § 53 Evropská unie – Wikipedie Plant protection products (PPP) §the whole system is divided to: o §active substances approval - done for whole EU a.s. – substance having action against harmful organisms § §authorization of PPP – done in member states (zones) mix of a.s. and other components: safeners (eliminate or reduce phytotoxic effects of PPP), synergists (enhance a.s. effect), co-formulants (other components), adjuvants (added to PPP by end-user) 54 Evropská unie – Wikipedie Approval of a.s. §Regulation 283/2013, setting out the data requirements for active substances https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02013R0283-20141117 §Regulation 540/2011, list of approved active substances https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02011R0540-20201126 §EU pesticide database https://ec.europa.eu/food/plant/pesticides/eu-pesticides-db_en 55 Evropská unie – Wikipedie dossier DAR/RAR peer review conclusion decision •its decided if a.s. is approved or not, what conditions and labelling (CLP) and also limits for residues are set (MRL) • •its valid for 10 year and then re-assessment Approval of a.s. §Regulation 283/2013 defines what data, including ecotoxicological, are required for approval of active substance §ANNEX section 8 §some details provided on the bioassays performance, but more in specific guideline documents 56 8.1. Effects on birds and other terrestrial vertebrates 8.3. Effect on arthropods 8.1.1. Effects on birds 8.3.1. Effects on bees 8.1.1.1. Acute oral toxicity to birds 8.3.1.1. Acute toxicity to bees 8.1.1.2. Short-term dietary toxicity to birds 8.3.1.1.1. Acute oral toxicity 8.1.1.3. Sub-chronic and reproductive toxicity to birds 8.3.1.1.2. Acute contact toxicity 8.1.2. Effects on terrestrial vertebrates other than birds 8.3.1.2. Chronic toxicity to bees 8.1.2.1. Acute oral toxicity to mammals 8.3.1.3. Effects on honeybee development and other honeybee life stages 8.1.2.2. Long-term and reproductive toxicity to mammals 8.3.1.4. Sub-lethal effects 8.1.3. Active substance bioconcentration in prey of birds and mammals 8.3.2. Effects on non-target arthropods other than bees 8.1.4. Effects on terrestrial vertebrate wildlife (birds, mammals, reptiles and amphibians) 8.3.2.1. Effects on Aphidius rhopalosiphi 8.1.5. Endocrine disrupting properties 8.3.2.2. Effects on Typhlodromus pyri 8.2. Effects on aquatic organisms 8.4. Effects on non-target soil meso- and macrofauna 8.2.1. Acute toxicity to fish 8.4.1. Earthworm — sub-lethal effects 8.2.2. Long-term and chronic toxicity to fish 8.4.2. Effects on non-target soil meso- and macrofauna (other than earthworms) 8.2.2.1. Fish early life stage toxicity test 8.4.2.1. Species level testing 8.2.2.2. Fish full life cycle test 8.5. Effects on soil nitrogen transformation 8.2.2.3. Bioconcentration in fish 8.6. Effects on terrestrial non-target higher plants 8.2.3. Endocrine disrupting properties 8.6.1. Summary of screening data 8.2.4. Acute toxicity to aquatic invertebrates 8.6.2. Testing on non-target plants 8.2.4.1. Acute toxicity to Daphnia magna 8.7. Effects on other terrestrial organisms (flora and fauna) 8.2.4.2. Acute toxicity to an additional aquatic invertebrate species 8.8. Effects on biological methods for sewage treatment 8.2.5. Long-term and chronic toxicity to aquatic invertebrates 8.9. Monitoring data 8.2.5.1. Reproductive and development toxicity to Daphnia magna 8.2.5.2. Reproductive and development toxicity to an additional aquatic invertebrate species 8.2.5.3. Development and emergence in Chironomus riparius 8.2.5.4. Sediment dwelling organisms 8.2.6. Effects on algal growth 8.2.6.1. Effects on growth of green algae 8.2.6.2. Effects on growth of an additional algal species 8.2.7. Effects on aquatic macrophytes 8.2.8. Further testing on aquatic organisms Evropská unie – Wikipedie Authorization of PPP §Regulation 284/2013, setting out the data requirements for PPP https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02013R0284-20150917 §example of PPP database from CR http://eagri.cz/public/app/eagriapp/POR/Vyhledavani.aspx?type=0&vyhledat=A&stamp=1609840149173 § 57 Evropská unie – Wikipedie Authorization of PPP §Regulation 284/2013 defines what data, including ecotoxicological, are required for PPP authorization §ANNEX section 10 §some details provided on the bioassays performance, but more in specific guideline documents §testing necessary where PPP toxicity cannot be predicted on the basis of data on AS §aim = to demonstrate PPP is more toxic than AS (bridging studies or limit test may be sufficient); if yes, definitive testing is required § 58 10.1. Effects on birds and other terrestrial vertebrates 10.4. Effects on non-target soil meso- and macrofauna 10.1.1. Effects on birds 10.4.1. Earthworms 10.1.1.1. Acute oral toxicity to birds 10.4.1.1. Earthworms — sub-lethal effects 10.1.1.2. Higher tier data on birds 10.4.1.2. Earthworms — field studies 10.1.2. Effects on terrestrial vertebrates other than birds 10.4.2. Effects on non-target soil meso- and macrofauna (other than earthworms) 10.1.2.1. Acute oral toxicity to mammals 10.4.2.1. Species level testing 10.1.2.2. Higher tier data on mammals 10.4.2.2. Higher tier testing 10.1.3. Effects on other terrestrial vertebrate wildlife (reptiles and amphibians) 10.5. Effects on soil nitrogen transformation 10.2. Effects on aquatic organisms 10.6. Effects on terrestrial non-target higher plants 10.2.1. Acute toxicity to fish, aquatic invertebrates, or effects on aquatic algae and macrophytes 10.6.1. Summary of screening data 10.2.2. Additional long-term and chronic toxicity studies on fish, aquatic invertebrates and sediment dwelling organisms 10.6.2. Testing on non-target plants 10.2.3. Further testing on aquatic organisms 10.6.3. Extended laboratory studies on non-target plants 10.3. Effects on arthropods 10.6.4. Semi-field and field tests on non-target plants 10.3.1. Effects on bees 10.7. Effects on other terrestrial organisms (flora and fauna) 10.3.1.1. Acute toxicity to bees 10.8. Monitoring data 10.3.1.1.1. Acute oral toxicity 10.3.1.1.2. Acute contact toxicity 10.3.1.2. Chronic toxicity to bees 10.3.1.3. Effects on honey bee development and other honey bee life stages 10.3.1.4. Sub-lethal effects 10.3.1.5. Cage and tunnel tests 10.3.1.6. Field tests with honeybees 10.3.2. Effects on non-target arthropods other than bees 10.3.2.1. Standard laboratory testing for non-target arthropods 10.3.2.2. Extended laboratory testing, aged residue studies with non-target arthropods 10.3.2.3. Semi-field studies with non-target arthropods 10.3.2.4. Field studies with non-target arthropods 10.3.2.5. Other routes of exposure for non-target arthropods Evropská unie – Wikipedie PPP exposure assessment exposure is expressed by different ways: §directly as application rate (e.g. g a.s. / ha) oinitial, maximum or modifications §as concentrations in various compartments oPredicted Exposure Concentration – PEC (PECs, PECsw ...) opredicted by different environmental fate models e.g. https://esdac.jrc.ec.europa.eu/projects/focus-dg-sante e.g. https://www.pesticidemodels.eu/swash/home = models of transport and behavior of PPP in the environment (drift, sorption, degradation, mobility, accumulation ...) in time §dietary daily intake (DDD) – for birds and mammals § 59 Evropská unie – Wikipedie PPP ecotoxicity and risk assessment §assessment of (eco)toxicity and acute / short-term / long-term risks for: obirds and other terrestrial vertebrates oaquatic organisms (fish, inventebrates, algae, plants, sediment organisms) obees onon-target arthropods oearthworms osoil macro- and mesofauna (other than earthworms) osoil microorganisms (C mineralization, N mineralization) onon target plants obiological methods of sewage treatment § 60 Evropská unie – Wikipedie PPP ecotoxicity and risk assessment §fundamental principle: risk assessment = combining effects and exposures omost often as TER = toxicity/exposure ratio = ratio of effect endpoint and estimated exposure obut for bees or non-target arthtropods, hazard quotient (HQ) - ratio between exposure and toxicity (usually in units of g a.s. / ha) §used endpoints (LD50, NOEL, LC50, EC50, NOEC ... acute, short-, or long-term) and units (e.g. in body or in environment, initial, long- or short-term ...) depend on the specific bioassay and results §the most sensitive organism used in the tests has key influence on the final decisions 61 Evropská unie – Wikipedie PPP ecotoxicity and risk assessment §TER is compared to trigger (= Assessment Factor = Safety Factor) §these are laid down in Regulation 546/2011 and Guidance Documents §example for birds and mammals (tier 1): § § §example for aquatic organisms (tier 1): 62 Evropská unie – Wikipedie PPP ecotoxicity and risk assessment Regulation 546/2011: no authorisation shall be granted if: §birds and other non-target terrestrial vertebrates oacute and short-term TER < 10 (using LD50) or long-term TER < 5 osecondary poisoning from food (fish, earthworms) §aquatic organisms ofish and Daphnia TER < 100 for acute exposure and < 10 for long-term exposure oalgal growth inhibition TER < 10 oBCF > 1000 for readily biodegradable or > 100 for not readily biodegradable AS §bees ohazard quotient for oral or contact exposure > 50 §beneficial arthropods other than honeybees o> 30 % of test organisms affected in lethal or sublethal laboratory tests of max application rate §earthworms olong-term TER < 5 §soil microorganisms onitrogen or carbon mineralisation affected > 25 % after 100 days However, in general more detailed decision is performed based on specific guidelines! 63 Evropská unie – Wikipedie higher tier „unless“: „unless clearly established through an appropriate risk assessment that under field conditions no unacceptable impact occurs after PPP use in accordance with the proposed conditions of use“ Regulation 546/2011, uniform principles for evaluation and authorisation of PPP https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02011R0546-20180524 PPP ecotoxicity and risk assessment §details for the testing and evaluation (risk assessment) in guideline documents §for ecotox mainly these 4 are of key importance: 64 Evropská unie – Wikipedie •EFSA (2009): Risk assessment for birds and mammals: EFSA guidance document. EFSA Journal 7(12): 1438. http://www.efsa.europa.eu/en/efsajournal/pub/1438 •EFSA (2013): Guidance on tiered risk assessment for plant protection products for aquatic organisms in edge-of-field surface waters. EFSA Journal 11(7): 3290. https://www.efsa.europa.eu/en/efsajournal/pub/3290 •European Commission (2002): Guidance document on terrestrial ecotoxicology. Draft Working Document SANCO/10329/2009, rev.2, final. https://ec.europa.eu/food/sites/food/files/plant/docs/pesticides_ppp_app-proc_guide_ecotox_terrestr ial.pdf •Candolfi (2000): ESCORT2 - Guidance document on regulatory testing and risk assessment procedures for plant protection products with non-target arthropods. •EFSA (2013): Guidance on the risk assessment of plant protection products on bees (Apis mellifera, Bombus spp. and solitary bees). EFSA Journal 11(7): 3295. https://www.efsa.europa.eu/en/efsajournal/pub/3295 Tiered approach - general §this approach saves time, money, laboratory organisms etc. §it tries to go narrow pathway „linking questions about risks asked by stakeholder to answers that can be provided by researchers“ §its always trade-off between price and accuracy of assessment and these are different for each tier 65 Evropská unie – Wikipedie Posthuma et al. 2008, Science of the Total Environment, 406:503-517 Tiered approach - general §this approach saves time, money, laboratory organisms etc. § §Tier 1 = starts with default (worst-case) parameters for exposure o= standard ecotox bioassays as we know them orough assessment, conservative oif risk is not acceptable then §Tier 2 = refinement, assessment closer to reality (e.g. representative organisms, real conditions, considering protective distances ...), if risks not acceptable then §Tier 3, Tier 4 ... e.g. mesocosm or field studies § §based on the results of previous tier, its decided what to do next 66 Evropská unie – Wikipedie Tiered approach - examples Aquatic organisms §Tier 1 - based on standard laboratory studies §Tier 2 - based on additional laboratory studies: oTier 2A – based on geomean/AF approach oTier 2B – based on SSD approach (Species Sensitivity Distribution) oTier 2C – based on refined exposure laboratory tests/AF approach §Tier 3 - based on mesocosm/microcosm studies § § § §at each tier, regulatory acceptable concentrations (RACs) derived and compared to PEC 67 Evropská unie – Wikipedie EFSA (2013): Guidance on tiered risk assessment for plant protection products for aquatic organisms in edge-of-field surface waters. EFSA Journal 11(7): 3290. https://www.efsa.europa.eu/en/efsajournal/pub/3290 Obsah obrázku rostlina, dlaň, zelenina Popis byl vytvořen automaticky Tiered approach - examples Aquatic organisms 68 Evropská unie – Wikipedie From: Better Training for Safer Food Initiative workshop, 2019 Tiered approach - examples Aquatic organisms 69 Evropská unie – Wikipedie From: Better Training for Safer Food Initiative workshop, 2019 Tiered approach - examples Birds and mammals §screening – general model, indicator species §tier 1 – specific model, generic focal species with different feeding preferences and growth stages §higher tier – focal species, corrections using measured data (monitoring studies) 70 Evropská unie – Wikipedie Indicator species – used in the screening step, it is not a real species but, by virtue of its size and feeding habits is considered to have higher exposure than (i.e. to be protective of) other species that occur in a particular crop at a particular time. Generic focal species – used in Tier 1assessment, it is not a real species, however it is considered to be representative of all those species potentially at risk. Instead of the one single food item approach of the screening step in this assessment a mixed diet is applied when appropriate for the generic focal species. In addition, interception of the spray by the crop is taken into account by calculating the residue level on the several food types for the birds and the mammals. Focal species – used in higher tier assessment, it is a real species that actually occurs in the crop when the pesticide is being used (see section 6.1.3 for identification of focal species.). Tiered approach - examples Birds and mammals §shortcut values for screening and Tier 1 calculations - describe feeding habits and other ecological needs for indicator and generic focal species § 71 Evropská unie – Wikipedie Theoretical dietary exposure routes for birds feeding in crop (e.g., cereals) sprayed with a plant protection product. Most of the plant protection product will be deposited in the treated crop area, but some may enter neighboring water bodies. Exposure to birds in the treated area can therefore occur by feeding on the crop itself (a), ground‐dwelling (b) or foliar‐dwelling (c) invertebrates, weeds (d), or weed seeds (e). Birds may also feed on earthworms living in the treated soil (f) or fish living in neighboring contaminated surface waters (g). Exposure may also occur by drinking from contaminated puddles within the treated crop area (h) Tiered approach - examples Birds and mammals §higher tiers, e.g. field studies § 72 Evropská unie – Wikipedie Tiered approach - examples Soil organisms Non-target arthropods (NTA) § 73 Evropská unie – Wikipedie Simplified example of evaluation Non-target arthropods (NTA) § §in-field and off-field assessment TIER 1 §risk assessment based on two indicator species: oTyphlodromus pyri oAphidius rhopalosiphi §standard toxicity tests to determine LR50 in g a.s. / ha based on mortality §example results for PPP „Pest-Killer“ otested at 1.25, 2.5, 5, 10, 20, 40, 80 g a.s./ha oLR50 for both species = 2.5 g a.s./ha oall in acreditted labs with GLP § 74 Evropská unie – Wikipedie Obsah obrázku zelenina Popis byl vytvořen automaticky Aphidius rhopalosiphi - BiasLabs Simplified example of evaluation Non-target arthropods (NTA) TIER 1 (cont.) §now to determine hazards, compare exposure to effect in hazard quotient (HQ) – exposure (application rate) and LR50 must not differ in units §if resulting HQ ≥ 2, there is potential hazard to non-target arthropods § § § § 75 Evropská unie – Wikipedie In-field HQ = Application rate x MAF LR50 Single application in g a.s. / ha Ratio between rate after max. recommended no. of applications and the initial rate after a single application LR50 expressed in g a.s. / ha Off-field HQ = Application rate x MAF x (drift / veg distribution factor) x correction factor LR50 = % drift/100 (90th percentile) For 2-D exposure (= glass plate) this = 10 To account for uncertainty between species this = 10 Simplified example of evaluation Non-target arthropods (NTA) § TIER 1 (cont.) §application details: oapplication rate = 56 g a.s./ha oNo. of treatments = 3 per crop oLR50 = 2.5 g a.s. / ha §assumptions: oDrift value – 2.01 oMAF – 2.3 oApplication to field crops at tier 1 use the shortest distance – 1 m (3m for orchards, vines etc) § § § §in-field risk is not acceptable (HQ ≥ 2), off-field is also not acceptable (HQ ≥ 2) § § 76 Evropská unie – Wikipedie In-field effects: 56 g a.s./ha x 2.3 2.5 g a.s./ha HQ = 51.52 Off-field effects: 56 g a.s./ha x 2.3 x (2.01/100) x 10 2.5 g a.s./ha HQ = 10.03 Simplified example of evaluation Non-target arthropods (NTA) TIER 1 (cont.) § 77 Evropská unie – Wikipedie Simplified example of evaluation Simplified example of evaluation: non-target arthropods (NTA) TIER 2 §if HQ ≥ 2 for in-field risk assessment, test affected indicator species + 1 additional species §if HQ ≥ 2 for off-field risk assessment, test affected species + 2 additional species §preferred species: Orius laevigatus, Chrysoperla carnea, Coccinella septempunctata, Aleochara bilineata, Poecilus cupreus § § § § § § §extended laboratory studies; aged residue studies; semi-field studies; field studies § 78 Evropská unie – Wikipedie Details on a Potential New Pest of Orius laevigatus - Greenhouse Grower Chrysoperla carnea | NatureSpot Coccinella septempunctata (Seven-spot ladybird): an aphid predator for biocontrol Aleochara bilineata Chrysoperla carnea - Chrysoperla - BugGuide.Net Simplified example of evaluation Non-target arthropods (NTA) TIER 2 §HQ approach with criteria of ≥ 2 is not applied ! §predicted exposure rates are calculated based on similar equations as in Tier 1 §compared directly to toxicity endpoints LR50 or ER50 (the lower one should be used) §i.e. trigger is less than 50% negative effects § 79 Evropská unie – Wikipedie Simplified example of evaluation Soil organisms § Exposure estimation - PECsoil §percentage of applied spray volume reaching soil depending on interception (e.g. 50%) §even distribution in the top 5 cm of soil §soil density of 1.5 g/cm3 §calculate PECsoil in mg a.s. / kg soil § §example results for PPP „Pest-Killer“ §application dose is 150 g a.s. / ha §1 ha of 5 cm soil corresponds to 500,000,000 cm3 which is 750,000 kg soil §PECsoil is 0.2 mg a.s. / ha 80 Evropská unie – Wikipedie Simplified example of evaluation Soil organisms § TIER 1 §reproduction effects on earthworms - NOEC are derived §TER > 5 OK, TER < 5 further studies needed § §example results for PPP „Pest-Killer“ otested at 0.02, 0.04, 0.08, 0.16, 0.32, 0.64 mg a.s. / kg oNOEC was 0.32 mg a.s. / kg § §TER = NOEC/PECsoil = 0.32 / 0.2 = 1.6 (< 5, not OK and further studies are needed) § 81 Evropská unie – Wikipedie http://t3.gstatic.com/images?q=tbn:ANd9GcR7-3EeXeOV0fHO4s2TOGWEnFANnR74gi6jRAso6-WCvT_OWvmIZlw3FsoM yA PPP assessment – results available ecotoxicological data and risk assessment (i.e. data on tox/ecotox are combined with data on exposure and env. fate) are available: §in Draft Assessment Reports or Renewal Assessment Reports (DAR / RAR) http://registerofquestions.efsa.europa.eu/roqFrontend/wicket/page?5 (generally: https://www.efsa.europa.eu/en/calls/consultations) Part A: Summary of each section; List of Endpoints Part B: Detailed evaluation for each area; Ecotox in section B.9 Part C: Confidential information §in EFSA Conclusions, Peer Reviews and Peer Review Reports; example of Epoxiconazole: https://www.efsa.europa.eu/en/efsajournal/pub/rn-138 https://www.efsa.europa.eu/en/efsajournal/pub/4123 http://registerofquestions.efsa.europa.eu/roqFrontend/wicket/page?16 82 Evropská unie – Wikipedie Example 4 Veterinary pharmaceuticals – in EU 83 Evropská unie – Wikipedie Veterinary pharmaceuticals §growing problem – increasing release of bioactive substances to environment § § § § § § § §veterinary medicines - more attention is logical ohuge consumption otheir entry into the environment (water and soil) is more possible (use of agricultural waste on soil) okilling beneficial soil organisms or development of antibiotic resitance 84 Evropská unie – Wikipedie Veterinary pharmaceuticals §Regulation 726/2004, authorisation and supervision of medicinal products for human and veterinary use https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02004R0726-20190330 §Directive 2001/83/EC, medicinal products for human use https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02001L0083-20190726 §Directive 2001/82/EC, veterinary medicinal products https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02001L0082-20090807 § §pharmacovigilance – careful assessment of all undesired impacts §European Medicines Agency (EMA) https://www.ema.europa.eu/en §part of the registration proces is also Environmental Risk Assessment §for veterinary - detailed evaluation procedure in EMA CVMP (Committee for Medicinal Products for Veterinary Use) https://www.ema.europa.eu/en/committees/committee-medicinal-products-veterinary-use-cvmp §guidelines including assessment of environmental fate, ecotoxicity and risks https://www.ema.europa.eu/en/veterinary-regulatory/marketing-authorisation/environmental-risk-asses sment-veterinary-medicines 85 Evropská unie – Wikipedie Veterinary pharmaceuticals §guidelines including assessment of environmental fate, ecotoxicity and risks https://www.ema.europa.eu/en/veterinary-regulatory/marketing-authorisation/environmental-risk-asses sment-veterinary-medicines §VICH GL6 Environmental impact assessment (EIAS) for veterinary medicinal products - Phase I §VICH GL38 Environmental impact assessments for veterinary medicinal products - Phase II § § 86 Evropská unie – Wikipedie Veterinary pharmaceuticals 87 Evropská unie – Wikipedie