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 Aquatic bioassays - examples 3 Aquatic bioassays §huge number of the tests (aquatic ecotoxicology had been for a long time the only one ecotoxicology) §today, standardized bioassays cover the whole range of levels: osuborganismal level -laboratory experiments: study of toxicity mechanisms, in vitro biomarkers, specific types of toxicity (dioxin like toxicity, xenoestrogenicity ...) oindividual species, individuals -laboratory experiments: traditional ecotoxicological bioassays with individual species, comparison of susceptibility of different species ... opopulation effects -laboratory tests - longer-term experiments - lifelong toxicity tests, tests with early developmental stages, plants - reproduction, germination ..., invertebrates - vertebrates - reproductive toxicity tests 4 Aquatic bioassays §today, standardized bioassays cover the whole range of levels (cont): oeffects in communities -laboratory microcosms - artificially established communities of organisms of various species under defined conditions (producers - consumers - destruents) -field multispecies manipulated in situ studies - field studies, aquatic mesocosms (flowing, standing, littoral – coastal ofield manipulated studies (in situ) -studies with individual species - growing plants on contaminated and control areas, cage experiments in aquatic environments (molluscs, fish) oecosystem effects (these are, in fact, not „bioassays“ but „bioindication“) -field observation - evaluation of effects in populations and communities in a real natural situation 5 Aquatic bioassays - producents §cyanobacteria – photosynthetic, nitrogen-fixing eubacteria; colonies, filaments, single cells §unicellular algae – eucaryotic; cells, filamentous, colonies; freshwater or marine §both usually evaluated by the change in the number of cells (growth) – measured often as green color § §vascular plants – aquatic plants §size, length – growth, mortality § §other endpoints: concentration of pigments (eg chlorophyll a), physiological activity (nutrient intake) and metabolic activity (photosynthetic activities, enzymatic activities) 6 Aquatic bioassays – producents - algae §unicellular algae Pseudokirchneriella subcapitata (formerly Selenastrum capricornutum), Desmodesmus subspicatus (formerly Scenedesmus subspicatus), diatoms (Navicula pelliculosa) or cyanobacteria Anabaena flos-aquae, Synechococcus leopoliensis §cultures or lyophylised stock may be used §equipment needed with high light intensity about 60-120 μE m-2 s-1 (~4500-9000 lux) at 400-700 nm §inicial density of the culture: 7 Test No. 201: Freshwater Alga and Cyanobacteria, Growth Inhibition Test 2011 ISO 8692:2012 Water quality — Fresh water algal growth inhibition test with unicellular green algae ISO Logo Organisation for Economic Co-operation and Development Aquatic bioassays – producents - algae §defined medium à §72 h exposure at light and 20-24°C §algal biomass determination: cell counts (electronic or microscope or flow cytometer) or fluorescence or color (fluorimeter, spectrophotometer) § 8 Test No. 201: Freshwater Alga and Cyanobacteria, Growth Inhibition Test 2011 ISO 8692:2012 Water quality — Fresh water algal growth inhibition test with unicellular green algae ISO Logo Organisation for Economic Co-operation and Development Aquatic bioassays – producents - algae validity §controls: oexponential growth by factor of > 16 over 72 h ocoefficient of variation (relative standard deviation, i.e. standard deviation divided by mean) < 35% (each day evaluation) and for average specific growth rate < 7% §reference substance: oe.g. 3,5-dichlorophenol or potassium dichromate should be tested at least twice a year oeffect (EC50) must be within the prescribed range 9 Test No. 201: Freshwater Alga and Cyanobacteria, Growth Inhibition Test 2011 ISO 8692:2012 Water quality — Fresh water algal growth inhibition test with unicellular green algae ISO Logo Organisation for Economic Co-operation and Development Aquatic bioassays – producents - algae 10 Test No. 201: Freshwater Alga and Cyanobacteria, Growth Inhibition Test 2011 ISO 8692:2012 Water quality — Fresh water algal growth inhibition test with unicellular green algae ISO Logo Organisation for Economic Co-operation and Development Aquatic bioassays – producents - algae miniaturization 11 Test No. 201: Freshwater Alga and Cyanobacteria, Growth Inhibition Test 2011 ISO 8692:2012 Water quality — Fresh water algal growth inhibition test with unicellular green algae ISO Logo Organisation for Economic Co-operation and Development http://ebpi.ca/_slideshows_Algaltoxkit%20F%20slide%20show.pdf Aquatic bioassays – producents - plants §„duckweed“, Lemna minor or gibba §start with 10 leaves (fronds) per 1 beaker §several recommended special media §96 h; 6500 - 10000 lux; pH 6.5; 24°C §growth: biomass – weight and no. of fronds (image analysis possible) validity: §control: doubling time < 2.5 days §reference compound: 3,5-dichlorophenol or K2Cr2O7 (EC50: 10-60 mg/L) 12 ISO Logo Organisation for Economic Co-operation and Development Test No. 221: Lemna sp. Growth Inhibition Test 2006 ISO 20079:2005 Water quality — Determination of the toxic effect of water constituents and waste water on duckweed (Lemna minor) — Duckweed growth inhibition test figure4 Aquatic bioassays – producents - plants §miniaturization with Spirodela 13 ISO Logo ISO 20227:2017 Water quality — Determination of the growth inhibition effects of waste waters, natural waters and chemicals on the duckweed Spirodela polyrhiza — Method using a stock culture independent microbiotest https://www.microbiotests.com/wp-content/uploads/2019/07/duckweed-toxicity-test_duckweed-toxkit-f_s tandard-operating-procedure.pdf Aquatic bioassays – producents - plants 14 ISO Logo Organisation for Economic Co-operation and Development ISO 16191:2013 Water quality — Determination of the toxic effect of sediment on the growth behaviour of Myriophyllum aquaticum ISO 10710:2010 Water quality — Growth inhibition test with the marine and brackish water macroalga Ceramium tenuicorne Test No. 238: Sediment-Free Myriophyllum Spicatum Toxicity Test 2014 Test No. 239: Water-Sediment Myriophyllum Spicatum Toxicity Test 2014 Aquatic bioassays – consumers - invertebrates §are very very common - sometimes ecotoxicology is confused with "Daphnia bioassays„ §standard layouts: obeakers/vessels, acute tests 1-few days, extended tests 21 d oevaluation of lethality, growth ... short-term - usually static oevaluation of reproduction etc. ... longer exposures, need for food, well controlled supply of oxygen ... §aquatic planktonic crustaceans - the most common oDaphnia magna, Ceriodaphnia dubia, Artemia salina (marine) §other invertebrates obenthic - Gammarus, Hyallela azteca ooligochaetic worms - Tubifex, Lumbriculus osnails – sand snail oinsects - midges (Chironomus), mayflies ... 15 C:\Documents and Settings\Ludek Blaha\Plocha\figure4.jpg Aquatic bioassays – consumers - invertebrates §also many of them developed to microbiotests 16 https://www.microbiotests.com http://ebpi.ca/_slideshows_Daphtoxkit%20F%20magna%20slide%20show.pdf Aquatic bioassays – consumers - invertebrates Daphnia magna acute test §5 juvenile daphnids per replicate (min 2 ml) §medium = so called reconstituted water 1.CaCl2 · 2H2O 11,76 g/l 2.MgSO4 · 7H2O 4,93 g/l 3.NaHCO3 2,59 g/l 4.KCl 0,23 g/l mix 25 ml of each to 1 L, pH 7.8, aeration §24h, 48h; dark or 16h light / 8h dark; O2 > 80 % (2 mg/l); 20°C; no food §mortality = immobilization validity: §control: mortality< 10 %; §reference compound: K2Cr2O7 (LC50: mg/L) 17 ISO Logo Organisation for Economic Co-operation and Development Test No. 202: Daphnia sp. Acute Immobilisation Test 2004 ISO 6341:2012 Water quality — Determination of the inhibition of the mobility of Daphnia magna Straus (Cladocera, Crustacea) — Acute toxicity test C:\DOCUME~1\MARTIN~1\LOCALS~1\Temp\\msotw9_temp0.bmp C:\DOCUME~1\MARTIN~1\LOCALS~1\Temp\\msotw9_temp0.bmp Aquatic bioassays – consumers - invertebrates Daphnia magna acute test § 18 ISO Logo Organisation for Economic Co-operation and Development Test No. 202: Daphnia sp. Acute Immobilisation Test 2004 ISO 6341:2012 Water quality — Determination of the inhibition of the mobility of Daphnia magna Straus (Cladocera, Crustacea) — Acute toxicity test other videos: https://www.youtube.com/watch?v=ElENqCeGNSA https://www.youtube.com/watch?v=3AxO36DLjsU Aquatic bioassays – consumers - invertebrates Daphnia magna reproduction test §24 h juveniles, 10 per replicate, 50 ml or more §medium reconstituted water or M4/M7 §21 days; 16/8 light/dark; O2 > 3 mg/l); 20°C; food (algae) §week check, aeration or medium change §mortality + number of juveniles + other parameters (behavior, malformations ...) validity: §control: mortality< 10 %; §reference compound: K2Cr2O7 (LC50: mg/L) 19 ISO Logo Organisation for Economic Co-operation and Development Test No. 211: Daphnia magna Reproduction Test 2012 ISO 10706:2000 Water quality — Determination of long term toxicity of substances to Daphnia magna Straus (Cladocera, Crustacea) Aquatic bioassays – consumers - invertebrates other invertebrates used in the bioassays 20 ISO Logo Organisation for Economic Co-operation and Development Test No. 242: Potamopyrgus antipodarum Reproduction Test 2016 Test No. 243: Lymnaea stagnalis Reproduction Test 2016 ISO 10872:2020 Water and soil quality — Determination of the toxic effect of sediment and soil samples on growth, fertility and reproduction of Caenorhabditis elegans (Nematoda) ISO 14380:2011 Water quality — Determination of the acute toxicity to Thamnocephalus platyurus (Crustacea, Anostraca) ISO 14669:1999 Water quality — Determination of acute lethal toxicity to marine copepods (Copepoda, Crustacea) ISO 20665:2008 Water quality — Determination of chronic toxicity to Ceriodaphnia dubia ISO/TS 18220:2016 Water quality — Larval development test with the harpacticoid copepod Nitocra spinipes ISO 16778:2015 Water quality — Calanoid copepod early-life stage test with Acartia tonsa ISO 17244:2015 Water quality — Determination of the toxicity of water samples on the embryo-larval development of Japanese oyster (Crassostrea gigas) and mussel (Mytilus edulis or Mytilus galloprovincialis) Obsah obrázku jídlo Popis byl vytvořen automaticky Aquatic bioassays – consumers - fish 21 ... Aquatic bioassays – consumers - fish 22 §fish cultures require specific equipment – culture labs with very controlled conditions §need for special approval to work experiments with vertebrates !!! Aquatic bioassays – consumers - fish 23 §fish cultures require specific equipment – culture labs with very controlled conditions Aquatic bioassays – consumers - fish 24 §standard layout: oaquaria smaller or larger, aeration needed ovarious arrangements (static, flow-through ...) oacute tests - 96 h, prolonged tests - days to months olethality, growth, reproduction olot of sublethal endpoints possible: behavior, spasms, food intake, breathing, health, histology, bioaccumulation, teratogenicity, carcinogenicity, xenoestrogenicity è è è Aquatic bioassays – consumers - fish 25 ISO Logo Organisation for Economic Co-operation and Development Acute toxicity test §juvenile fish, acclimatized §medium: reconstituted water, groundwater or clean water §24-96 h §conditions depend on species, e.g. pH, temp, photoperiod §disolved O2 >60% saturation §no feeding §mortality, size, weight validity §controls: mortality < 10%, O2 etc. §dissolved O2 ≥ 60% of air saturation §analytical measurement of test concentrations is compulsory Test No. 203: Fish, Acute Toxicity Test 2019 ISO 7346-1:1996 Water quality — Determination of the acute lethal toxicity of substances to a freshwater fish (Brachydanio rerio ...) - Part 1: Static method ISO 7346-2:1996 Part 2: Semi-static method ISO 7346-3:1996 Part 3: Flow-through method Aquatic bioassays – consumers - fish 26 ISO Logo Organisation for Economic Co-operation and Development Prolonged, chronic toxicity tests §prolonged = longer exposure with mortality endpoint, sublethal endpoints also recorded §from 14 to 28 d §chronic = also other endpoints like reproduction §7-200 d Test No. 210: Fish, Early-life Stage Toxicity Test 2013 Test No. 215: Fish, Juvenile Growth Test 2000 Test No. 229: Fish Short Term Reproduction Assay 2012 Test No. 204: Fish, Prolonged Toxicity Test: 14-Day Study 1984 Test No. 230: 21-day Fish Assay 2009 Test No. 240: Medaka Extended One Generation Reproduction Test (MEOGRT) 2015 ISO 10229:1994 Water quality — Determination of the prolonged toxicity of substances to freshwater fish — Method for evaluating the effects of substances on the growth rate of rainbow trout (Oncorhynchus mykiss Walbaum (Teleostei, Salmonidae)) Aquatic bioassays – consumers - fish 27 ISO Logo Organisation for Economic Co-operation and Development Embryonal, embryolarval tests §fertilized eggs are exposed to chemicals for several days §effects on development = teratogenicity §prolonged to hatching and larvae development §endpoints: hatching, survival, development, behavior, size Test No. 210: Fish, Early-life Stage Toxicity Test 2013 Test No. 212: Fish, Short-term Toxicity Test on Embryo and Sac-Fry Stages 1998 Test No. 236: Fish Embryo Acute Toxicity (FET) Test 2013 ISO 15088:2007 Water quality — Determination of the acute toxicity of waste water to zebrafish eggs (Danio rerio) 1 Aquatic bioassays – consumers - frog 28 FETAX – Frog Embryo Teratogenicity Assay Xenopus §fertilized eggs are exposed to chemicals for several days §effects on development = teratogenicity frog_pict C:\Documents and Settings\Ludek Blaha\Plocha\1.gif C:\Documents and Settings\Ludek Blaha\Plocha\1.gif Aquatic bioassays – destruents - bacteria 29 ISO Logo Vibrio fisheri luminescece test §marine bacteria - bad for samples with high minerals or organic matter - stimulation §very quick - 5-30 min §luminiscence inhibition §problem with particles and colour è flash test § ISO 11348-1:2007/Amd 1:2018 Water quality — Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) — Part 1: Method using freshly prepared bacteria — Amendment 1 ISO 11348-2:2007/Amd 1:2018 Part 2: Method using liquid-dried bacteria — Amendment 1 ISO 11348-3:2007/Amd 1:2018 Part 3: Method using freeze-dried bacteria — Amendment 1 figure4 1 Aquatic bioassays – destruents - bacteria 30 ISO Logo Pseudomonas putida growth inhibition test §... ISO 10712:1995 Water quality — Pseudomonas putida growth inhibition test (Pseudomonas cell multiplication inhibition test) Aquatic bioassays – destruents - bacteria 31 ISO Logo Mutation and genotoxicity tests §with bacteria, but used also for general testing of mutagenicity and genotoxicity §with liver fraction S9 simulate activation of xenobiotics within de-toxification in vertebrates Salmonella sp. – Ames test §mutants cannot live in medium without histidine §in case of mutagenic chemical the reverse mutation is induces – they grow Umu-C §transgenic bacteria with luciferase gene introduced to operon for DNA reparation §genotoxicity causes activation of reparation and thus luciferase and light ISO 11350:2012 Water quality — Determination of the genotoxicity of water and waste water — Salmonella/microsome fluctuation test (Ames fluctuation test) ISO 16240:2005 Water quality — Determination of the genotoxicity of water and waste water — Salmonella/microsome test (Ames test) ISO 13829:2000 Water quality — Determination of the genotoxicity of water and waste water using the umu-test Aquatic bioassays – destruents - bacteria 32 Testing the effects on activated sludge §important because of biotechnologies – water treatment plants §complex microbial community and its activities: respiration, nitrification §in erlenmeyer flasks etc. §measurements of biological oxygen demand (BOD) or respirometry ISO Logo Organisation for Economic Co-operation and Development Test No. 224: Determination of the Inhibition of the Activity of Anaerobic Bacteria 2007 Test No. 209: Activated Sludge, Respiration Inhibition Test (Carbon and Ammonium Oxidation) 2010 Test No. 244: Protozoan Activated Sludge Inhibition Test 2017 ISO 15522:1999 Water quality — Determination of the inhibitory effect of water constituents on the growth of activated sludge microorganisms ISO 8192:2007 Water quality — Test for inhibition of oxygen consumption by activated sludge for carbonaceous and ammonium oxidation ISO 9509:2006 Water quality — Toxicity test for assessing the inhibition of nitrification of activated sludge microorganisms Aquatic bioassays – sediments §sediment = aquatic equivalent of the soil è very heterogenic matrix, contains solid phase (mineral particles and organic matter) and pore water §sediment is often potential long-term reservoir / source of contaminants §distribution of contaminatns between water and sediment (sorption) – sediment organisms are exposed to contaminants in solid and/or liquid components of sediment §benthic organisms 33 Aquatic bioassays – sediments 34 Chironomus tentans Chironomus riparius C:\Documents and Settings\Ludek Blaha\Plocha\figure4.jpg Tubifex tubifex http://www.aquarium-kosmos.de/bilder/streifzuege/Lumbriculus%20variegatus_2.jpg Lumbriculus variegatus Heterocypris incongruens Hyalela aztecaincongruens Aquatic bioassays – consumers - invertebrates Tests with chironomids OECD 235 §same as Daphnia acute test, just with Chironomus larvae OECD 218+219 §10 larvae (cca 10d old) per beaker §OECD artificial sediment §100 ml sediment / 175 ml water §21-28 d; 16/8 h light/dark; controled pH, O2 §food §survival and growth OECD 233 §reproduction = development to midges § 35 Organisation for Economic Co-operation and Development Test No. 235: Chironomus sp., Acute Immobilisation Test 2011 Test No. 218: Sediment-Water Chironomid Toxicity Using Spiked Sediment 2004 Test No. 219: Sediment-Water Chironomid Toxicity Using Spiked Water 2004 Test No. 233: Sediment-Water Chironomid Life-Cycle Toxicity Test Using Spiked Water or Spiked Sediment 2010 IMG_0054 IMG_0061 IMG_0059 Soil bioassays - examples 36 Soil bioassays – producents - plants 37 §large number of different tests various endpoints §seed germination and root elongation §emergence §seedling growth §biomass production §life cycle (changes in weight, size, number of flowers, seeds ..) §physiological tests (photosynthesis, respiration) §enzymatic tests §symbiosis – N fixation, mycorhiza Soil bioassays – producents - plants 38 species §usually needed at least monocolyledenous + dicolyledenous §Sinapis alba, Lactuca sativa, Lepidium sativum, Hordeum vulgare, Zea mays § http://media-2.web.britannica.com/eb-media/69/10269-004-EEF044DB.jpg http://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/Illustration_Vicia_faba1.jpg/240px-Illustr ation_Vicia_faba1.jpg http://lh3.google.com/luirig/R5yaRJTetsI/AAAAAAAAOL8/WO5-p8bmIQE/s800/sinapis_alba_2.jpg Hordeum vulgare - Barley - THE WORLDWIDE VEGETABLES botany, corn (Zea mays), field, Germany, Additional-Rights-Clearance-Info-Not-Available Stock Photo - Alamy Soil bioassays – producents - plants 39 Root elongation inhibition §preparation of seeds to 2 mm §15 seeds to 200-300 g soil §3-5 d; soil pH; dark; 24°C §root length ISO Logo ISO 11269-1:2012 Soil quality — Determination of the effects of pollutants on soil flora — Part 1: Method for the measurement of inhibition of root growth P1010052 pokus IMG_0215 IMG_0196 IMG_7021_al IMG_7034 IMG_7022_al Soil bioassays – producents - plants 40 Emergence, early growth, growth, chronic ISO Logo Organisation for Economic Co-operation and Development IMG_0511 IMG_0502 IMG_0819 IMG_0825 plant01.jpg (54.086 Byte) Test No. 208: Terrestrial Plant Test: Seedling Emergence and Seedling Growth Test 2006 Test No. 227: Terrestrial Plant Test: Vegetative Vigour Test 2006 ISO 11269-2:2012 Soil quality — Determination of the effects of pollutants on soil flora — Part 2: Effects of contaminated soil on the emergence and early growth of higher plants ISO 17126:2005 Soil quality — Determination of the effects of pollutants on soil flora — Screening test for emergence of lettuce seedlings (Lactuca sativa L.) ISO 18763:2016 Soil quality — Determination of the toxic effects of pollutants on germination and early growth of higher plants ISO 22030:2005 Soil quality — Biological methods — Chronic toxicity in higher plants Soil bioassays – producents - plants 41 § https://www.microbiotests.com http://ebpi.ca/_slideshows_Phytotoxkit%20slide%20show.pdf Soil bioassays – consumers - invertebrates 42 Earthworms §earthworms are the most and longest time used representative of soil organisms in ecotoxicology – the oldest test OECD from 1984 §Benefits and reasons: othe whole development cycle takes place in the soil - a typical geobiont oconsume large amounts of soil (high food exposure and accumulation of contaminants) ohave very close physical contact with soil (skin exposure + oral) othey have significant bioaccumulation and bioconcentration character – macroconcentrators overy significant role in soil formation, decomposition processes, soil fertility okey role in the transfer of pollutants in food chains ooccurrence in almost all soils in high numbers and weights owell introduced in laboratory tests (easy breeding) oeasily identified in real samples (thanks to size)... STUPD00Z Lumdiap2 Soil bioassays – consumers - invertebrates 43 Earthworms - acute §Eisenia fetida / Eisenia andrei §culcure in mixture manure/soil/garden-substrate/peat §7,14 days §500 g soil; 50-60 % water holding capacity §artificial soil or LUFA 2.2 or other § ISO Logo Organisation for Economic Co-operation and Development Test No. 207: Earthworm, Acute Toxicity Tests 1984 ISO 11268-1:2012 Soil quality — Effects of pollutants on earthworms — Part 1: Determination of acute toxicity to Eisenia fetida/Eisenia andrei Eisenia Cycle CE8a-cocoon LR http://t3.gstatic.com/images?q=tbn:ANd9GcR7-3EeXeOV0fHO4s2TOGWEnFANnR74gi6jRAso6-WCvT_OWvmIZlw3FsoM yA 11 Soil bioassays – consumers - invertebrates 44 Earthworms - acute § ISO Logo Organisation for Economic Co-operation and Development Test No. 207: Earthworm, Acute Toxicity Tests 1984 ISO 11268-1:2012 Soil quality — Effects of pollutants on earthworms — Part 1: Determination of acute toxicity to Eisenia fetida/Eisenia andrei 62 71 019 012 019 012 Soil bioassays – consumers - invertebrates 45 Earthworms - reproduction §2 months: after 1 month adults removed, after 2nd month juveniles counted §soil and conditions same as for acute test but food added (dung) §various techniques how to extract juveniles from soil (usually heat) ISO Logo Organisation for Economic Co-operation and Development Test No. 222: Earthworm Reproduction Test (Eisenia fetida/Eisenia andrei) 2016 ISO 11268-2:2012 Soil quality — Effects of pollutants on earthworms — Part 2: Determination of effects on reproduction of Eisenia fetida/Eisenia andrei 068 Soil bioassays – consumers - invertebrates 46 Earthworms - reproduction ISO Logo Organisation for Economic Co-operation and Development Test No. 222: Earthworm Reproduction Test (Eisenia fetida/Eisenia andrei) 2016 ISO 11268-2:2012 Soil quality — Effects of pollutants on earthworms — Part 2: Determination of effects on reproduction of Eisenia fetida/Eisenia andrei WHC vesselsready controlwithworms wormsweighing wahingwormsJPG Soil preparation WHC measurement Water added Soil weighted to jars 10 adults from culture Washed Weighting worms 10 adults to 1 jar drysoils Soil bioassays – consumers - invertebrates 47 Earthworms - reproduction ISO Logo Organisation for Economic Co-operation and Development Test No. 222: Earthworm Reproduction Test (Eisenia fetida/Eisenia andrei) 2016 ISO 11268-2:2012 Soil quality — Effects of pollutants on earthworms — Part 2: Determination of effects on reproduction of Eisenia fetida/Eisenia andrei wormssearching wormsweighing bottomofvessel Control of the jars, activity markers Mortality assessment Weighting the worms trolleywithworms Temperated room Soil bioassays – consumers - invertebrates 48 Earthworms - reproduction ISO Logo Organisation for Economic Co-operation and Development Test No. 222: Earthworm Reproduction Test (Eisenia fetida/Eisenia andrei) 2016 ISO 11268-2:2012 Soil quality — Effects of pollutants on earthworms — Part 2: Determination of effects on reproduction of Eisenia fetida/Eisenia andrei waterbathS juvenileszoomedS juvpicking cocoonsievingS cocoonsearchontray cocoonsinthehand After 20 min juveniles appear Water bath, increasing temperature 40ºC - 60ºC Sieving the soil Collecting and counting juveniles Counting Hand sorting of cocoons Soil bioassays – consumers - invertebrates 49 Earthworms - reproduction §... ISO Logo Organisation for Economic Co-operation and Development Test No. 222: Earthworm Reproduction Test (Eisenia fetida/Eisenia andrei) 2016 ISO 11268-2:2012 Soil quality — Effects of pollutants on earthworms — Part 2: Determination of effects on reproduction of Eisenia fetida/Eisenia andrei Soil bioassays – consumers - invertebrates 50 Enchytraeids §Enchytraeus albidus or Enchytraeus crypticus §28 d; 20-30 g soil; 50-60% water holding capacity §artificial soil or LUFA 2.2 or other ISO Logo Organisation for Economic Co-operation and Development Test No. 220: Enchytraeid Reproduction Test 2016 ISO 16387:2014 Soil quality — Effects of contaminants on Enchytraeidae (Enchytraeus sp.) — Determination of effects on reproduction grindal_worm IMG_3421_1 006 Image14 Soil bioassays – consumers - invertebrates 51 Enchytraeids ISO Logo Organisation for Economic Co-operation and Development Test No. 220: Enchytraeid Reproduction Test 2016 ISO 16387:2014 Soil quality — Effects of contaminants on Enchytraeidae (Enchytraeus sp.) — Determination of effects on reproduction IMG_3360 019 024 027 032 IMG_2981 IMG_2893 pokus IMG_2984 031 Soil bioassays – consumers - invertebrates 52 Enchytraeids ISO Logo Organisation for Economic Co-operation and Development Test No. 220: Enchytraeid Reproduction Test 2016 ISO 16387:2014 Soil quality — Effects of contaminants on Enchytraeidae (Enchytraeus sp.) — Determination of effects on reproduction Soil bioassays – consumers - invertebrates 53 Springtails §Folsomia candida partenogenetic collembola or Folsomia fimetaria §28 d; 20-30 g soil; 50-60% water holding capacity §artificial soil or LUFA 2.2 or other Test No. 232: Collembolan Reproduction Test in Soil 2016 ISO 11267:2014 Soil quality — Inhibition of reproduction of Collembola (Folsomia candida) by soil contaminants ISO Logo Organisation for Economic Co-operation and Development 005 008 016 Soil bioassays – consumers - invertebrates 54 Springtails Test No. 232: Collembolan Reproduction Test in Soil 2016 ISO 11267:2014 Soil quality — Inhibition of reproduction of Collembola (Folsomia candida) by soil contaminants ISO Logo Organisation for Economic Co-operation and Development IMG_2850 005 http://www.chaloupky.cz/fotografie/foto-150-640.jpg 012 023 024 028 031 NS4 P1010056 IMG_2850 pokus 3 Soil bioassays – consumers - invertebrates 55 Springtails Test No. 232: Collembolan Reproduction Test in Soil 2016 ISO 11267:2014 Soil quality — Inhibition of reproduction of Collembola (Folsomia candida) by soil contaminants ISO Logo Organisation for Economic Co-operation and Development Soil bioassays – consumers - invertebrates 56 Avoidance tests §with earthworms or springtails §very quick (1-2 days) - screening ISO 17512-1:2008 Soil quality — Avoidance test for determining the quality of soils and effects of chemicals on behaviour — Part 1: Test with earthworms (Eisenia fetida and E. andrei) ISO 17512-2:2011 Soil quality — Avoidance test for determining the quality of soils and effects of chemicals on behaviour — Part 2: Test with collembolans (Folsomia candida) ISO Logo DSC07739 Soil bioassays – consumers - invertebrates 57 Mites §... Test No. 226: Predatory mite (Hypoaspis (Geolaelaps) aculeifer) reproduction test in soil 2016 ISO 21285:2019 Soil quality — Inhibition of reproduction of the soil mite (Hypoaspis aculeifer) by soil contaminants ISO 23266:2020 Soil quality — Test for measuring the inhibition of reproduction in oribatid mites (Oppia nitens) exposed to contaminants in soil ISO Logo Organisation for Economic Co-operation and Development Hypoaspis aculeifer olog prey predator cont. soil 0471971030 BOLD Systems: Taxonomy Browser - Oppia nitens {species} Soil bioassays – consumers - invertebrates 58 Snails §... ISO 15952:2018 Soil quality — Effects of pollutants on juvenile land snails (Helicidae) — Determination of the effects on growth by soil contamination ISO Logo haas_schnecke 散大蜗牛 Soil bioassays – consumers - invertebrates 59 Nematodes §the most abundant soil invertebrates §in fact aquatic organisms – pore water §very fast tests - short life cycle - screening C. elegans life cycle C. elegans anatomy Soil bioassays – consumers - invertebrates 60 Nematodes §Caenorhabditis elegans §grown on agar plates with E. coli §aseptic techniques and careful handling needed ! §24-48 h exposure ISO Logo ISO 10872:2020 Water and soil quality — Determination of the toxic effect of sediment and soil samples on growth, fertility and reproduction of Caenorhabditis elegans (Nematoda) ASTM E 2172 – 01 Standard Guide for Conducting Laboratory Soil Toxicity Tests with the Nematode Caenorhabditis elegans J3 stage P.redivivus body1a 082 Soil bioassays – consumers - invertebrates 61 Beneficial arthropods §testing of pesticides §natural enemies of pests Soil bioassays – destruents – microorganisms 62 Whole community testing for microbial activities §real uncontaminated agricultural soil with indigenous microflora of desired properties: osand > 70%; TOC = 1.5%; pH(KCl) = 7–7.5 omicrobial biomass 400-700 µg C . gdw-1; basal respiration 0.5-0.7 µg CO2-C . h-1 . gdw-1 § ISO Logo Organisation for Economic Co-operation and Development Test No. 216: Soil Microorganisms: Nitrogen Transformation Test 2000 Test No. 217: Soil Microorganisms: Carbon Transformation Test 2000 ISO 14238:2012 Soil quality — Biological methods — Determination of nitrogen mineralization and nitrification in soils and the influence of chemicals on these processes Lokalita_04_05b Soil bioassays – destruents – microorganisms 63 Whole community testing for microbial activities ISO Logo Organisation for Economic Co-operation and Development Test No. 216: Soil Microorganisms: Nitrogen Transformation Test 2000 Test No. 217: Soil Microorganisms: Carbon Transformation Test 2000 ISO 14238:2012 Soil quality — Biological methods — Determination of nitrogen mineralization and nitrification in soils and the influence of chemicals on these processes Soil sampling Storage Pre-incubation (7 days) START Substance application Negative control Positive control 7th day 14th day 21st day 28th day Microbial parameters OECD, ISO: respiration and N-mineralization 10 g per replicate aerobic conditions 60% WHC; 22°C; dark ISO 16072:2002 Soil quality — Laboratory methods for determination of microbial soil respiration respiration by: Soil bioassays – destruents – microorganisms 64 Whole microbial community testing §same design of exposure as in OECD 216, 217 §also other parameters can be measured !!! ISO Logo ISO 14240-1:1997 Soil quality — Determination of soil microbial biomass — Part 1: Substrate-induced respiration method ISO 14240-2:1997 Soil quality — Determination of soil microbial biomass — Part 2: Fumigation-extraction method ISO 23753-1:2019 Soil quality — Determination of dehydrogenases activity in soils — Part 1: Method using triphenyltetrazolium chloride (TTC) ISO 23753-2:2019 Soil quality — Determination of dehydrogenases activity in soils — Part 2: Method using iodotetrazolium chloride (INT) ISO/TS 29843-1:2010 Soil quality — Determination of soil microbial diversity — Part 1: Method by phospholipid fatty acid analysis (PLFA) and phospholipid ether lipids (PLEL) analysis ISO/TS 29843-2:2011 Soil quality — Determination of soil microbial diversity — Part 2: Method by phospholipid fatty acid analysis (PLFA) using the simple PLFA extraction method ISO 11063:2020 Soil quality — Direct extraction of soil DNA ISO 17601:2016 Soil quality — Estimation of abundance of selected microbial gene sequences by quantitative PCR from DNA directly extracted from soil ISO 20130:2018 Soil quality — Measurement of enzyme activity patterns in soil samples using colorimetric substrates in micro-well plates ISO/TS 20131-1:2018 Soil quality — Easy laboratory assessments of soil denitrification, a process source of N2O emissions — Part 1: Soil denitrifying enzymes activities ISO/TS 20131-2:2018 Soil quality — Easy laboratory assessments of soil denitrification, a process source of N2O emissions — Part 2: Assessment of the capacity of soils to reduce N2O biomass enzyme activity diversity •structural •genetic •functional denitrification Soil bioassays – destruents – microorganisms 65 Whole community testing for microbial activities – quick tests Potential ammonium oxidation §= ammonification, first step of nitrification §3 h oxidation of ammonium sulfate §sodium chlorate added – stops nitrite oxidation to nitrate §nitrite measured by colorimetric test Respiration curves §they indicate the growth of microbial community §respirometry – increase of CO2 or decrease of O2 § ISO Logo ISO 15685:2012 Soil quality — Determination of potential nitrification and inhibition of nitrification — Rapid test by ammonium oxidation ISO 17155:2012 Soil quality — Determination of abundance and activity of soil microflora using respiration curves 92 Soil bioassays – destruents – microorganisms 66 Arthrobacter globiformis test §introduced bacteria species NOT whole community §contaminated soil or other solid materials (waste) or soil spiked with tested chemical(s) §A. globiformis added and dehydrogenase activity measured § ISO Logo ISO 18187:2016 Soil quality — Contact test for solid samples using the dehydrogenase activity of Arthrobacter globiformis Arthrobacter | coryneforms-2 Terrestrial species bioassays - examples 67 Terrestrial species bioassays - polinators §bees or bumblebees §brood development of cells (eggs or larvae) §acute oral or contact tests, prolonged-chronic tests – mortality, behavior §semi-field tests [tunnel tests (~100 m2)] and field tests - mortality, flight density, development of bee colonies (brood and feed), behavior of bee colonies §residue analysis studies in relevant feed matrices § § 68 Obsah obrázku květina, tráva, žlutá, pole Popis byl vytvořen automaticky Obsah obrázku tráva, exteriér, žlutá Popis byl vytvořen automaticky Obsah obrázku osoba, interiér Popis byl vytvořen automaticky Test No. 213: Honeybees, Acute Oral Toxicity Test 1998 Test No. 214: Honeybees, Acute Contact Toxicity Test 1998 Test No. 245: Honey Bee (Apis Mellifera L.), Chronic Oral Toxicity Test (10-Day Feeding) 2017 Test No. 246: Bumblebee, Acute Contact Toxicity Test 2017 Test No. 247: Bumblebee, Acute Oral Toxicity Test 2017 Terrestrial species bioassays - polinators Acute oral test §adult worker honey bees §doses of test substance in sugar solution (100-200 μl, 50% sugar solution) §after consuming food (3-4 hours), the feeding device is removed §mortality is recorded daily for at least 48 h Acute contact test §test substance dissolved in a suitable vehicle §applied directly to anesthetized bees – 1 µl droplets to back area of each bee chest §control for carrier necessary § 69 Organisation for Economic Co-operation and Development Terrestrial species bioassays Birds §dietary toxicity tests §dietary dosage + 14 days of observation §reproduction tests - long-term § 70 Test No. 223: Avian Acute Oral Toxicity Test 2016 Test No. 205: Avian Dietary Toxicity Test 1984 Organisation for Economic Co-operation and Development Japanese quail Bobwhite quail Malard duck Japanese quail - Wikipedia Northern Bobwhite (Colinus virginianus) – Planet of Birds Feral pigeon - Wikipedia Feral pigeon Terrestrial species bioassays Birds §20 weeks of feeding by contaminated feed §reproduction + 14 days observation of juveniles 71 Test No. 206: Avian Reproduction Test 1984 Organisation for Economic Co-operation and Development 1 In vitro bioassays 72 §special cell lines §specific compound è specific cellular or intracellular reporter è reporter gene §dioxin-like toxicity (AhR), estrogenicity (ER), thyroid-hormone-like toxicity ... § In vitro tests 73 ISO 19040-1:2018 Water quality — Determination of the estrogenic potential of water and waste water — Part 1: Yeast estrogen screen (Saccharomyces cerevisiae) ISO 19040-2:2018 Water quality — Determination of the estrogenic potential of water and waste water — Part 2: Yeast estrogen screen (A-YES, Arxula adeninivorans) ISO 19040-3:2018 Water quality — Determination of the estrogenic potential of water and waste water — Part 3: In vitro human cell-based reporter gene assay ISO 21427-1:2006 Water quality — Evaluation of genotoxicity by measurement of the induction of micronuclei — Part 1: Evaluation of genotoxicity using amphibian larvae ISO 21427-2:2006/Cor 1:2009 Water quality — Evaluation of genotoxicity by measurement of the induction of micronuclei — Part 2: Mixed population method using the cell line V79 — Technical Corrigendum 1 ISO/CD 24295 Water quality — Determination of the dioxin-like potential of water and wastewater — Method using in vitro mammalian cell-based reporter gene assay §in vitro special cell lines: mammalian or fish §specific compound è specific cellular or intracellular receptor è reporter gene conected with luciferase è light §dioxin-like toxicity (AhR), estrogenicity (ER), androgenicity (AR), thyroid-hormone-like toxicity (RAR) ... § In vitro tests 74 H295R Microcosms / mesocosms 75 Microcosms / mesocosms §micro < 1 m3, meso > 1 m3 §usually multi-species – big benefit §optimum: less uncontrolled than field but more realistic than lab tests §considers also indirect effects §enable also environmental fate endpoints §many possible desings 76 121 C:\Documents and Settings\Ludek Blaha\Plocha\1.gif Microcosms / mesocosms §Water: large aquariums, tanks, ponds, or artificial stream ecosystems § 77 C:\Documents and Settings\Ludek Blaha\Plocha\1.gif C:\Documents and Settings\Ludek Blaha\Plocha\1.gif Microcosms / mesocosms §Water: large aquariums, tanks, ponds, or artificial stream ecosystems § 78 C:\Documents and Settings\Ludek Blaha\Plocha\1.gif C:\Documents and Settings\Ludek Blaha\Plocha\1.gif C:\Documents and Settings\Ludek Blaha\Plocha\1.gif figure4 C:\Documents and Settings\Ludek Blaha\Plocha\1.gif Microcosms / mesocosms §Soil: usually core/column (made of plastic, wood, metal) of soil with vegetation, contains standard soil or real soil; can be outside (open system) or in the climate chamber (also gas monitoring) § 79 118 118 Microcosms / mesocosms §Soil core microcosm 80 122 122 tme01_b.jpg (66.851 Byte) tme02_b.jpg (57.969 Byte) tme03_b.jpg (52.421 Byte) tme04_b.jpg (57.399 Byte) Microcosms / mesocosms §Soil core microcosm 81 1