Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:9
  • preuzimanja u poslednjih 30 dana:2

Sadržaj

članak: 4 od 86  
Back povratak na rezultate
2019, vol. 34, br. 3-4, str. 157-172
Herbicidi u površinskim vodama - ponašanje, efekti na akvatične organizme i procena rizika
Institut za pesticide i zaštitu životne sredine, Beograd

e-adresamarija.stevanovic@pesting.org.rs
Projekat:
Razvoj integrisanih sistema upravljanja štetnim organizmima u biljnoj proizvodnji sa ciljem prevazilaženja rezistentnosti i unapređenja kvaliteta i bezbednosti hrane (MPNTR - 46008)

Ključne reči: herbicidi; voda; akvatični organizmi; toksičnost; procena rizika
Sažetak
Porast broja stanovnika dovodi do konstantne potrebe za povećanjem produktivnosti biljne proizvodnje, a veoma važnu ulogu u postizanju tog cilja imaju pesticidi, hemijska ili biološka sredstva za zaštitu bilja. Pored nesporno pozitivnih mogu imati i neželjene efekte, a ulažu se veliki napori kako bi se, pre stavljanja u promet, izvršila pravilna procena koristi koju nam upotreba pesticida donosi i potencijalnih neželjenih efekata na čoveka i životnu sredinu. Najmanje dve osobine ih odvajaju od drugih supstanci - dizajnirani su da budu toksični i ciljano se unose u životnu sredinu, pa je stoga njihov promet striktno zakonski regulisan. Najčešće korišćena grupa pesticida su herbicidi, a njihova detekcija u površinskim vodama veoma je česta. Iako su dizajnirani da utiču na ometanje razvoja primarnih producenata, neželjena dejstva registrovana su i na drugim konstituentima vodene životne sredine. U cilju sprečavanja negativnih ekoloških efekata, process registracije aktivnih supstanci i sredstava za zaštitu bilje obuhvata preventivnu ekološku procenu (ERA - Environmental risk assessment). Pouzdana procena dugotajnih efekata u životnoj sredini na neciljne vrste organizama, prirodne populacije i ekosisteme je osnovni zadatak ERA-e.
Reference
*** (2012) Pravilnik o sadržini i načinu postupanja sa dokumentacijom za procenu sredstava za zaštitu bilja i metodama za ispitivanje sredstava za zaštitu bilja. Službeni glasnik RS, 69, http://www.pravno-informacionisistem.rs/SlGlasnikPortal/eli/rep/sgrs/ministarstva/ pravilnik/2016/12/8/reg Accessed: 25.11.2019
*** (2012) Pravilnik o sadržini i načinu postupanja sa dokumentacijom za procenu aktivne supstance, odnosno osnovne supstance i metodama za ispitivanje aktivne supstance, odnosno osnovne supstance. Službeni glasnik RS, 69, http://www.pravno-informacionisistem.rs/SlGlasnikPortal/eli/rep/sgrs/ministarstva/ pravilnik/2012/69/2/reg 23.11.2019
*** (2009) Zakon o sredstvima za zaštitu bilja. Službeni glasnik RS, 41, http://www.pravno-informacionisistem.rs/SlGlasnikPortal/eli/rep/sgrs/skupstina/zakon/2009/41/8/reg
Arias-Estévez, M., López-Periago, E., Martínez-Carballo, E., Simal-Gándara, J., Mejuto, J.C., García-Río, L. (2008) The mobility and degradation of pesticides in soils and the pollution of groundwater resources. Agriculture, Ecosystems & Environment, 123(4), 247-260
Azimonti, G., Galimberti, F., Marchetto, F., Menaballi, L., Ullucci, S., Pellicioli, F., van der Voet, H. (2015) Comparison of NOEC values to EC10/EC20 values, including confidence intervals, in aquatic and terrestrial ecotoxicological risk assessment. EFSA Supporting Publications, 12(12), 906E
Belanger, S.E., Rawlings, J.M., Carr, G.J. (2013) Use of fish embryo toxicity tests for the prediction of acute fish toxicity to chemicals. Environmental Toxicology and Chemistry, 32(8), 1768-1783
Beyer, J., Petersen, K., Song, Y., Ruus, A., Grung, M., Bakke, T., Tollefsen, K.E. (2014) Environmental risk assessment of combined effects in aquatic ecotoxicology: A discussion paper. Marine Environmental Research, 96, 81-91
Boivin, A., Poulsen, V. (2017) Environmental risk assessment of pesticides: State of the art and prospective improvement from science. Environmental Science and Pollution Research, 24(8), 6889-6894
Bonfanti, P., Colombo, A., Orsi, F., Nizzetto, I., Andrioletti, M., Bacchetta, R., Mantecca, P., Fascio, U., Vailati, G., Vismara, C. (2004) Comparative teratogenicity of Chlorpyrifos and Malathion on Xenopus laevis development. Aquatic Toxicology, 70(3), 189-200
Botelho, R.G., Cury, J.P., Tornisielo, V.L., Dos, S.J.B. (2012) Herbicides and the aquatic environment. u: Hasaneen M.N. [ur.] Herbicides: Properties, synthesis and control of weeds, INTECH Open Access Publisher
Boye, K., Lindström, B., Boström, G., Kreuger, J. (2019) Long-term data from the Swedish national environmental monitoring program of pesticides in surface waters. Journal of Environmental Quality, 48(4), 1109-1119
Brain, R.A., Schneider, S.Z., Anderson, J.C., Knopper, L.D., Wolf, J.C., Hanson, M.L. (2018) Extended fish short term reproduction assays with the fathead minnow and Japanese medaka: No evidence of impaired fecundity from exposure to atrazine. Chemosphere, 205, 126-136
Braunbeck, T., Kais, B., Lammer, E., Otte, J., Schneider, K., Stengel, D., Strecker, R. (2015) The fish embryo test (FET): Origin, applications, and future. Environmental Science and Pollution Research, 22, 16247-16261
Brodman, R., Newman, W.D., Laurie, K., Osterfeld, K., Lenzo, N. (2010) Interaction of an aquatic herbicide and predatory salamander density on wetland communities. Journal of Herpetology, 44(1), 69-82
Burdett, A.S., Stevens, M.M., Macmillan, D.L. (2001) Laboratory and field studies on the effect of molinate, clomazone, and thiobencarb on nontarget aquatic invertebrates. Environmnetal Toxicology and Chemistry, 20(10), 2229-2236
Carter, A.D. (2000) Herbicide movement in soils: Principles, pathways and processes. Weed Research, 40(1): 113-122
Cedergreen, N., Streibig, J.C., Spliid, N.H. (2004) Sensitivity of aquatic plants to the herbicide metsulfuron-methyl. Ecotoxicology and Environmental Safety, 57, 153-161
Cerejeira, M.J., Viana, P., Batista, S., Pereira, T., Silva, E., Valério, M.J., Silva, A., Ferreira, M., Silva-Fernandes, A.M. (2003) Pesticides in Portuguese surface and ground waters. Water Research, 37(5), 1055-1063
Chamsi, O., Pinelli, E., Faucon, B., Perrault, A., Lacroix, L., Sánchez-Pérez, J.M., Charcosset, J.I. (2019) Effects of herbicide mixtures on freshwater microalgae with the potential effects of a safener. International Journal of Limnology, 55, 3
Colombo, A., Bonfanti, P., Ciccotelli, M., Doldi, M., Del'orto, N., Camatini, M. (1996) Induction of cytochrome P4501A isoform in Xenopus laevis is a valid tool for monitoring the exposure to benzo[a]pyrene. Journal of Aquatic Ecosystem Health, 5, 207-211
Cook, L.W., Paradise, C.J., Lom, B. (2005) The pesticide malathion reduces survival and growth in developing zebrafish. Environmental Toxicology and Chemistry, 24(7), 1745-1750
Cox, C., Surgan, M. (2006) Unidentified inert ingredients in pesticides: Implications for human and environmental health. Environmental Health Perspectives, 114(12): 1803-1806
Dalton, R.L., Nussbaumer, C., Pick, F.R., Boutin, C. (2013) Comparing the sensitivity of geographically distinct Lemna minor populations to atrazine. Ecotoxicology, 22, 718-730
Damalas, C.A., Eleftherohorinos, I.G. (2011) Pesticide exposure, safety issues, and risk assessment indicators. International Journal of Environmental Research and Public Health, 8, 1402-1419
de Andrade, L.L., Do, E.S.P.A., Fernandes, F.L., Dos, R.M.B.C. (2019) Can atrazine loaded nanocapsules reduce the toxic effects of this herbicide on the fish Prochilodus lineatus?: A multibiomarker approach. Science of the Total Environment, 663, 548-559
de Brito, R.L., Gonçalves, C.G., Lundgren, T.E., da Silva, R.L., de Oliveira, R., Morais, L.D., de Oliveira, R.G.A. (2019) Impact of the glyphosate-based commercial herbicide, its components and its metabolite AMPA on non-target aquatic organisms. Mutation Research/Genetic Toxicology and Environmental Mutagenesis, 842, 94-101
de Liguoro, M., Dalla, B.M., Gallina, G., Capolongo, F., Gallocchio, F., Binato, G., di Leva, V. (2014) A monitoring of chemical contaminants in water used for field irrigation and livestock watering in the Veneto region (Italy), using bioassays as a screening tool. Environmental Science and Pollution Research, 21(5), 3546-3557
Della, V.J.F., Cruz, C., Silva, A.F., Cerveira, J.R.W.R., Garlich, N. (2016) Macrophite bioassay applications for monitoring pesticides in the aquatic environment. Planta Daninha, 34(3), 597-603
di Guardo, A., Finizio, A. (2018) A new methodology to identify surface water bodies at risk by using monitoring data: The glyphosate case study in Lombardy Region (Italy). Science of the Total Environment, 610-611, 421-429
Domingues, I., Oliveira, R., Musso, C., Cardoso, M., Soares, A.M.V.M., Loureiro, S. (2013) Prochloraz effects on biomarkers activity in zebrafish early life stages and adults. Environmental Toxicology, 28(3), 155-163
Dougherty, J.A., Swarzenski, P.W., Dinicola, R.S., Reinhard, M. (2010) Occurrence of herbicides and pharmaceutical and personal care products in surface water and groundwater around Liberty Bay, Puget Sound, Washington. Journal of Environmental Quality, 39(4), 1173-1180
EC (2002) Guidance document on aquatic ecotoxicology in the context of the Directive 91/414/EEC. Brussels: European Commission, Health and Consumer Protection Directorate-General, SANCO/3268/2001 rev. 4 (final), https://yosemite.epa.gov/oa/EAB_Web_Docket.nsf/Attachments%20By%20ParentFilingId/7B39B959EEFC9DEE85257FD20046C85C/$FILE/ PBNX%20047.pdf Accessed: 20.11.2019
EC (2009) Regulation No 1107/2009 of the European Parliament and of the Council of 21 October 2009 concerning the placing of plant protection products on the market and repealing Council Directives 79/117/ EEC and 91/414/EEC. https://eur-lex.europa.eu/legalcontent/EN/TXT/PDF/?uri=CELEX:32009R1107& qid=1584819017838&from=EN Accessed: 20.11.2019
EC (2009) Directive 2009/128/EC of the European Parliament and of the Council of 21 October 2009 establishing a framework for community action to achieve the sustainable use of pesticides. https://eurlex.europa.eu/legal-content/EN/TXT/PDF/?uri=C ELEX:32009L0128&from=EN Accessed: 20.11.2019
EC (2013) Commission regulation No 283/2013 of 1 March 2013 setting out the data requirements for active substances, in accordance with Regulation (EC) No 1107/2009 of the European Parliament and of the Council concerning the placing of plant protection produc. http://eur-lex. europa.eu/legal-content/ EN/TXT/HTML/?uri=%20 CELEX:32013R0283&from=EN Accessed: 20.11.2019
EC (2013) Commission regulation No 284/2013 of 1 March 2013 setting out the data requirements for plant protection products, in accordance with Regulation (EC) No 1107/2009 of the European Parliament and of the Council concerning the placing of plant protectio. http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2013:093:00 85:0152:EN:PDF Accessed: 20.11.2019
EFSA (2004) Opinion on the scientific panel on plant health, plant protection products and their residues on a request from EFSA on the appropriateness of using the current FOCUS surface water scenarios for estimating exposure for risk assessment in aquatic ecot. EFSA Journal, 145, 1-31
EFSA (2013) Guidance on tiered risk assessment for plant protection products for aquatic organisms in edge-offield surface waters. EFSA Journal, 11(7), 3290
EFSA (2015) Outcome of the pesticides peer review meeting on general recurring issues in ecotoxicology. EFSA Supporting publication, EN-924, 1-62
EFSA (2018) Scientific opinion on the state of the science on pesticide risk assessment for amphibians and reptiles. EFSA Journal, 16(2), e05125
FAOSTAT (2017) Food and agriculture organisation of the United Nations (FAO). http://www.fao.org/faostat/en/#data/RP, 13.11.2019
FOCUS (2015) Generic guidance for FOCUS surface water scenarios. u: Report of the FOCUS Surface Water Scenarios Group, EC Document Reference SANCO/4802/2001rev. 2, https://esdac.jrc.ec.europa.eu/public_path/ projects_data/focus/sw/docs/Generic%20FOCUS_ SWS_vc1.4.pdf Accessed: 20.11.2019
Fogg, P., Boxall, A., Walker, A., Jukes, A.A. (2003) Pesticide degradation in a 'biobed' composting substrate. Pest Management Science, 59, 527-537
Food and Agriculture Organization of the United Nations (FAO) (2000) Appendix 2: Parameters of pesticides that influence processes in the soil. u: FAO Information Division Editorial Group [ur.] Pesticide disposal series 8. Assessing soil contamination: A reference manual, Rome, http://www.fao.org/3/X2570E/X2570E00.htm, 18.11.2019
Foudoulakis, M. (2006) Ecotoxicological risk assessment for plant protection products in Europe. u: Arapis, G., Goncharova, N., Baveye, P. [ur.] Ecotoxicology, Ecological Risk Assessment and Multiple Stressors, Dordrecht: Springer, 137-154
Gaaied, S., Oliveira, M., Domingues, I., Banni, M. (2020) 2,4-Dichlorophenoxyacetic acid herbicide effects on zebrafish larvae: Development, neurotransmission and behavior as sensitive endpoints. Environmental Science and Pollution Research, 27(4), 3686-3696, 18 February 2019
Gašić, S., Budimir, M., Brkić, D., Nešković, N. (2002) Residues of atrazine in agricultural areas of Serbia. Journal of the Serbian Chemical Society, vol. 67, br. 12, str. 887-892
Gašić, S., Radivojević, L., Gajić-Umiljendić, J., Stevanović, M., Šantrić, Lj. (2012) Development of the adjuvants based on plant oils and their application. u: Marisavljević D. [ur.] International Symposium on Current Trends in Plant-Protection, Proceedings, Belgrade: Institute for Plant Protection and Environment, 415-420
Gašić, S., Orešković, Z. (2006) Novi tipovi formulacija u zaštiti bilja - emulzije ulja u vodi (EW). Pesticidi i fitomedicina, vol. 21, br. 4, str. 263-271
Gavrilescu, M. (2005) Fate of pesticides in the environment and its bioremediation. Engineering in Life Sciences, 5(6), 497-526
Grube, A., Donaldson, D., Kiely, T., Wu, L. (2012) U.S. EPA pesticides industry sales and usage: 2006 - 2007 Market estimates. Washington, DC: U.D. Environmental Protection Agency, https://www.epa.gov/sites/production/files/2015-10/documents/market_ estimates2007.pdf Accessed 18.11.2019
Hanson, M.L., Solomon, K.R., van der Kraak, G.J., Brian, R.A. (2019) Effects of atrazine on fish, amphibians and reptiles: Update of the analysis based on quanitative weight of evidence. Critical Reviews in Toxicology, 49(8), 670-709
Hasenbein, S., Lawler, S.P., Connon, R.E. (2017) An assessment of direct and indirect effects of two herbicides on aquatic communities. Environmental Toxicology and Chemistry, 36(8), 2234-2244
Hayes, T.B., Anderson, L.L., Beasley, V.R., de Solla, S.R., Iguchi, T., Ingraham, H., Willingham, E. (2011) Demasculinization and feminization of male gonads by atrazine: Consistent effects across vertebrate classes. Journal of Steroid Biochemistry and Molecular Biology, 127(1-2), 64-73
Hayes, T.B., Case, P., Chui, S., Chung, D., Haeffele, C., Haston, K., Tsui, M. (2006) Pesticides mixtures, endocrine disruption, and amphibian declines: Are we underestimating the impact?. Environmental Health Perspectives, 114(Suppl 1), 40-50
Hazra, D.K., Karmakar, R., Poi, R., Bhattacharya, S., Mondal, S. (2017) Recent advances in pesticide formulation for eco-friendly and sustainable vegetable pest management: A review. Archives of Agriculture and Environmental Science, 2(3), 232-237, https://www.aesacademy.org/journal/volume2/issue3/AAES-02-03-017.pdf, 20.11.2019
Hazra, D.K., Purkait, A. (2019) Role of pesticide formulations for sustainable crop protection and environment management: A review. Journal of Pharmacognosy and Phytochemistry, 8(2), 686-693, http://www.phytojournal.com/archives/2019/vol8issue2/PartL/8-1-568-106.pdf 20.11.2019
Hoskins, T.D., Boone, M.D. (2018) Atrazine feminizes sex ratio in Blanchard's cricket frogs (Acris blanchardi) at concentrations as low as 0.1 mg/L. Environmental Toxicology and Chemistry, 37(2), 427-435
Howe, C.M., Berrill, M., Pauli, B.D., Helbing, C.C., Werry, K., Veldhoen, N. (2004) Toxicity of glyphosatebased pesticides to four North American frog species. Environmental Toxicology and Chemistry, 23(8), 1928-1938
Hrustić, J., Mihajlović, M., Grahovac, M., Stevanović, M., Delibašić, G., Gašić, S., Tanović, B. (2019) Antifungal effect of Bacillus subtilis B6 strain on Monilinia fructicola. u: Jijakli H. [ur.] Postharvest Pathology (P045), V International Symposium, Book of Abstracts, Belgium: University of Liege
Iorio, M. (2008) Sorption studies of ionic pesticides and hydrophobic organic compounds on polymerin for potential water remediation. Naples, Italy: University of Naples Federico II, Agriculture faculty, Department of Soil, Plant, Environmental and Animal Production Sciences
Ippolito, A., Fait, G. (2019) Pesticides in surface waters: From edge-of-field to global modelling. Current Opinion in Environmental Sustainability, 36, 78-84
Janssens, L., Stoks, R. (2017) Stronger effects of Roundup than its active ingredient glyphosate in damselfly larvae. Aquatic Toxicology, 193, 210-216
Kang, H.S., Park, C.J., Gye, M.C. (2009) Effects of molinate on survival and development of Bombina orientalis (Boulenger) Embryos. Bulletin of Environmental Contamination and Toxicology, 82(3), 305-309
Kim, K., Kabir, E., Jahan, S.A. (2017) Exposure to pesticides and the associated human health effects. Science of the Total Environment, 575, 525-535
Knäbel, A., Meyer, K., Rapp, J., Schulz, R. (2014) Fungicide field concentrations exceed FOCUS surface water predictions: Urgent need of model improvement. Environmental Science & Technology, 48(1), 455-463
Knäbel, A., Scheringer, M., Stehle, S., Schulz, R. (2016) Aquatic exposure predictions of insecticide field concentrations using a multimedia mass-balance model. Environmental Science & Technology, 50(7), 3721-3728
Knäbel, A., Stehle, S., Schäfer, R.B., Schulz, R. (2012) Regulatory FOCUS surface water models fail to predict insecticide concentrations in the field. Environmental Science & Technology, 46(15), 8397-8404
Knauer, K. (2016) Pesticides in surface waters: A comparison with regulatory acceptable concentrations (RACs) determined in the authorization process and consideration for regulation. Environmental Sciences Europe, 28(1), 13
Knauer, K., Mohr, S., Feiler, U. (2008) Comparing growth development of Myriophyllum sp. in laboratory and field experiments for ecotoxicological testing. Environmental Science and Pollution Research, 15(4), 322-331
Knežević, V., Tunić, T., Gajić, P., Marjan, P., Savić, D., Tenji, D., Teodorović, I. (2016) Getting more ecologically relevant information from laboratory tests: Recovery of Lemna minor after exposure to herbicides and their mixtures. Archives of Environmental Contamination and Toxicology, 71(4), 572-588
Knowles, A. (2005) New developments in crop protection product formulation. Agrow Reports, DS, 243, 153-156, https://www.yumpu.com/en/document/read/5990529/new-developments-in-crop-protection-product-formulation-agrow
Köck-Schulmeyer, M., Ginebreda, A., Postigo, C., Garrido, T., Fraile, J., López, D.A.M., Barceló, D. (2014) Four-year advanced monitoring program of polar pesticides in groundwater of Catalonia (NE-Spain). Science of the Total Environment, 470-471, 1087-1098
Kortenkamp, A. (2014) Low dose mixture effects of endocrine disrupters and their implications for regulatory thresholds in chemical risk assessment. Current Opinion in Pharmacology, 19, 105-111
Kortenkamp, A., Backhaus, T., Faust, M. (2009) State of the art report on mixture toxicity: Final report. Brussels: European Commission, Directorate General for the Environment, 7-12, https://ec.europa.eu/environment/chemicals/effects/pdf/report_mixture_toxicity.pdf, 15.11.2019
Lenkowski, J.R., Sanchez-Bravo, G., McLaughlin, K.A. (2010) Low concentrations of atrazine, glyphosate, 2, 4-dichlorophenoxyacetic acid, and triadimefon exposures have diverse effects on Xenopus laevis organ morphogenesis. Journal of Environmental Sciences, 22(9), 1305-1308
Mac, L.C., Canosa, I.S., Silveyra, G.R., López, G.L.S., Rodríguez, E.M. (2016) Effects of atrazine on growth and sex differentiation, in juveniles of the freshwater crayfish Cherax quadricarinatus. Ecotoxicology and Environmental Safety, 131, 96-103
Mahmood, I., Imadi, S.R., Shazadi, K., Gul, A., Hakeem, K.R. (2016) Effects of pesticides on environment. u: Hakeem K., Akhtar M., Abdullah S. [ur.] Plant, Soil and Microbes, Cham, Switzerland: Springer International Publishing, 253-269
McCallum, M.L. (2007) Amphibian decline or extinction?: Current declines dwarf background extinction rate. Journal of Herpetology, 41(3), 483-491, https://www.jstor.org/stable/4498614
Mccoy, K.A., Bortnick, L.J., Campbell, C.M., Hamlin, H.J., Guillette, L.J., St. Mary, C.M. (2008) Agriculture alters gonadal form and function in the toad Bufo marinus. Environmental Health Perspectives, 116(11), 1526-1532
Mela, M., Guiloski, I.C., Doria, H.B., Randi, M.A.F., de Oliveira, R.C.A., Pereira, L., Maraschi, A.C., Prodocimo, V., Freire, C.A., de Assis, S.H.C. (2013) Effects of the herbicide atrazine in neotropical catfish (Rhamdia quelen). Ecotoxicology and Environmental Safety, 93, 13-21
Mesnage, R., Defarge, N., de Vendômois, J.S., Séralini, G. (2014) Major pesticides are more toxic to human cells than their declared active principles. BioMed Research International, Article ID 179691, 8 pages
Mesnage, R., Benbrook, C., Antoniou, M.N. (2019) Insight into the confusion over surfactant co-formulants in glyphosate-based herbicides. Food and Chemical Toxicology, 128, 137-145
Mikó, Z., Ujszegi, J., Hettyey, A. (2017) Age-dependent changes in sensitivity to a pesticide in tadpoles of the common toad (Bufo bufo). Aquatic Toxicology, 187, 48-54
Nagai, T. (2019) Sensitivity differences among seven algal species to 12 herbicides with various modes of action. Journal of Pesticide Science, 44(4), 225-232
Nagai, T., Taya, K., Yoda, I. (2016) Comparative toxicity of 20 herbicides to 5 periphytic algae and the relationship with mode of action. Environmental Toxicology and Chemistry, 35(2), 368-375
Newman, M.C., Unger, M.A. (2003) Fundamentals of ecotoxicology. Boca Raton: Lewis Publishers, 2nd ed
Oka, T., Tooi, O., Mitsui, N., Miyahara, M., Ohnishi, Y., Takase, M., Kashiwagi, A., Shinkai, T., Santo, N., Iguchi, T. (2008) Effect of atrazine on metamorphosis and sexual differentiation in Xenopus laevis. Aquatic Toxicology, 87(4), 215-226
Ortiz-Hernández, M.L., Sánchez-Salinas, E., Dantán-Gonzáles, E., Castrejón-Godínez, M.L. (2013) Pesticide biodegradation: mechanisms, genetics and strategies to enhance the process. u: Chamy R. [ur.] Biodegradation: Life of science, Rijeka: Intechpublishing, 251-287
Osano, O., Admiraal, W., Otieno, D. (2002) Developmental disorders in embryos of the frog Xenopus laevis induced by chloracetanilide herbicides and their degradation products. Environmental Toxicology and Chemistry, 21(2), 375-379
Pamanji, R., Bethu, M.S., Yashwanth, B., Leelavathi, S., Venkateswara, R.J. (2015) Developmental toxic effects of monocrotophos, an organophosphorous pesticide, on zebrafish (Danio rerio) embryos. Environmental Science and Pollution Research, 22(10), 7744-7753
Papadakis, E.N., Vryzas, Z., Kotopoulou, A., Kintzikoglou, K., Makris, K.C., Papadopoulou-Mourkidou, E. (2015) A pesticide monitoring survey in rivers and lakes of northern Greece and its human and ecotoxicological risk assessment. Ecotoxicology and Environmental Safety, 116, 1-9
Park, J., Brown, M.T., Depuydt, S., Kim, J.K., Won, D.S., Han, T. (2017) Comparing the acute sensitivity of growth and photosynthetic endpoints in three Lemna species exposed to four herbicides. Environmental Pollution, 220, 818-827
Pereira, A.S., Daam, M.A., Cerejeira, M.J. (2017) Evaluation of FOCUS surface water pesticide concentration predictions and risk assessment of field-measured pesticide mixtures-a crop-based approach under Mediterranean conditions. Environmental Science and Pollution Research, 24(21), 17394-17406
Pereira, J.L., Antunes, S.C., Castro, B.B., Marques, C.R., Gonçalves, A.M.M., Gonçalves, F.M.M., Pereira, R.L. (2009) Toxicity evaluation of three pesticides on non-target aquatic and soil organisms: commercial formulation versus active ingredient. Ecotoxicology, 18(4), 455-463
Quignot, N., Grech, A., Amzal, B. (2015) Data collection on combined toxicity of multiple chemicals for animal health and ecological risk assessment. EFSA Supporting Publications, 12(7), EN-861
Radivojević, Lj., Gašić, S., Gajić-Umiljendić, J., Stevanović, M., Šantrić, Lj. (2016) Enhancement of bentazone efficacy with newly developed ecofriendly adjuvants. Romanian Agricultural Research, 33, 323-330, https://www.incda-fundulea.ro/rar/nr33/rar33.37.pdf
Raftery, T.D., Isales, G.M., Yozzo, K.L., Volz, D.C. (2014) High-content screening assay for identification of chemicals impacting spontaneous activity in zebrafish embryos. Environmental Science & Technology, 48(1), 804-810
Reichenberger, S., Bach, M., Skitschak, A., Frede, H.G. (2007) Mitigation strategies to reduce pesticide inputs into ground and surface water and their effectiveness: A review. Science of the Total Environment, 384(1-3), 1-35
Reilly, T.J., Smalling, K.L., Orlando, J.L., Kuivila, K.M. (2012) Occurrence of boscalid and other selected fungicides in surface water and groundwater in three targeted use areas in the United States. Chemosphere, 89(3), 228-234
Rice, P.J., Rice, P.J., Arthur, E.L., Barefoot, A.C. (2007) Advances in pesticide environmental fate and exposure assessments. Journal of Agricultural and Food Chemistry, 55(14), 5367-5376
Rosenkrantz, R.T., Baun, A., Kusk, O.K. (2013) Growth inhibition and recovery of Lemna gibba after pulse exposure to sulfonylurea herbicides. Ecotoxicology and Environmental Safety, 89, 89-94
Sauco, S., Eguren, G., Heinzen, H., Defeo, O. (2010) Effects of herbicides and freshwater discharge on water chemistry, toxicity and benthos in a Uruguayan sandy beach. Marine Environmental Research, 70(3-4), 300-307
Scholz, S., Knöbel, M., Ortmann, J., Busser, F., Kramer, N., Hermens, J., Tanneberger, K., Schirmer, K. (2009) The fish embryo test as an alternative to acute fish toxicity testing: Optimisation for difficult compounds and role of metabolic activation. Toxicology Letters, 189(Suppl.), S205
Seaman, D. (1990) Trends in the formulation of pesticides: An overview. Pesticide Science, 29(4), 437-449
Sharma, A., Kumar, V., Shahzad, B., Tanveer, M., Sidhu, G.P.S., Handa, N., Kumar, T.A. (2019) Worldwide pesticide usage and its impact on ecosystem. SN Applied Sciences, 1, ID 1446
Solomon, K.R., Dalhoff, K., Volz, D., van der Kraak, G. (2014) Effects of herbicides on fish. u: Tierney K.B., Farrell A.P., Brauner C.J. [ur.] Organic chemical toxicology of fishes, USA: Elsevier, 369-409
Stehr, C.M., Linbo, T.L., Incardona, J.P., Scholz, N.L. (2006) The developmental neurotoxicity of fipronil: Notochord degeneration and locomotor defects in zebrafish embryos and larvae. Toxicological Sciences, 92(1), 270-278
Stevanović, M., Brkić, D., Marković, M., Jović, M., Tunić, T., Knežević, V., Gašić, S. (2013) Pesticidi u vodi i njihov uticaj na akvatične organizme - 1. delovanje herbicida klomazon na rast vrste Lemna minor (L.). u: Delibašić G. [ur.] Zbornik rezimea radova XII savetovanja o zaštiti bilja, Belgrade: Plant Protection Society of Serbia, 125
Stevanović, M., Brkić, D., Tunić, T., Knežević, V., Tenji, D., Pavkov, S., Gašić, S. (2016) Uticaj aktivne supstance klomazon i komercijalnih preparata na akvatične makrofite. u: Tanović B. [ur.] Zbornik rezime radova XV simpozijuma o zaštiti bilja, Belgrade: Plant Protection Society of Serbia, 45-45
Stevanović, M., Radivojević, Lj., Šantrić, Lj., Gašić, S. (2019) Pethoxamid effects in non-target aquatic macrophytes. u: Tanović B., Dolzhenko V., Nikot F. [ur.] VIII Congress on Plant Protection: Integrated Plant Protection for Sustainable Crop Production and Forestery, Zlatibor, Book of Abstracts, Belgrade: Plant Protection Society of Serbia, 144
Stevanović, M., Gašić, S., Pipal, M., Blahova, L., Brkić, D., Nešković, N., Hilscherova, K. (2017) Toxicity of clomazone and its formulations to zebrafish embryos ( Danio rerio ). Aquatic Toxicology, 188, 54-63
Stuart, S.N., Chanson, J.S., Cox, N.A., Young, B.E., Rodrigues, A.S.L., Fischman, D.L., Waller, R.W. (2004) Status and trends of amphibian declines and extinctions worldwide. Science, 306(5702), 1783-1786
Suter, G. (2006) Ecological risk assessment. Boca Raton: CRC Press
Tanović, B., Kolomiets, E., Kuptsov, V., Hrustić, J., Gašić, S., Grahovac, M., Stevanović, M. (2012) Soj N146 Bacillus subtilis kao potencijalni agens za suzbijanje Monilinia fructicola. u: Delibašić G. [ur.] Zbornik rezimea radova XIV simpozijuma o zaštiti bilja i IX kongresa o korovima, Belgrade: Plant Protection Society of Serbia
Tanović, B., Gašić, S., Hrustić, J., Mihajlović, M., Grahovac, M., Delibašić, G., Stevanović, M. (2013) Development of a thyme essential oil formulation and its effect on Monilinia ructigena. Pesticidi i fitomedicina, vol. 28, br. 4, str. 273-280
Tasiwal, V., Benagi, V.I., Hegde, Y.R., Kamanna, B.C., Naik, K.R. (2009) In vitro evaluation of botanicals, bioagents and fungicides against anthracnose of papaya caused by Colletotrichum gloeosporioides (Penz.) Penz. and Sacc. Karnataka Journal of Agricultural Sciences, 22(4), 803-806, https://www.cabdirect.org/cabdirect/abstract/20103137033
Teodorović, I., Knežević, V., Tunić, T., Čučak, M., Nikolić-Lečić, J., Leovac, A., Ivančev-Tumbas, I. (2012) Myriophyllum aquaticum versus Lemna minor: Sensitivity and recovery potential after exposure to atrazine. Environmental Toxicology and Chemistry, 31(2), 417-426
Tunić, T., Knežević, V., Kerkez, Đ., Tubić, A., Šunjka, D., Lazić, S., Brkić, D., Teodorović, I. (2015) Some arguments in favor of aMyriophyllum aquaticumgrowth inhibition test in a water-sediment system as an additional test in risk assessment of herbicides. Environmental Toxicology and Chemistry, 34(9), 2104-2115
Turgut, C., Fomin, A. (2002) Sensitivity of the rooted macrophyte Myriophyllum aquaticum (Vell.) Verdcourt to seventeen pesticides determined on the basis of EC 50. Bulletin of Environmental Contamination and Toxicology, 69(4), 601-608
U.S. EPA (1992) Framework for ecological risk assessment. Washington, DC: Risk Assessment Forum, U.S. Environmental Protection Agency, EPA/630/R-92/001, https://www.epa.gov/sites/production/files/2014-11/ documents/framework_eco_assessment.pdf 19.11.2019
van Leeuwen, C.J. (2007) Part I: Introduction. u: Van Leeuwen C.J., Vermeire T.G. [ur.] Risk assessment of chemicals: An introduction, Dordrecht: Springer, 2nd edition (pp 1-36)
Vargas, J.M. (1975) Pesticide degradation (International shade tree conference, Detroit, Michigan). Journal of Arboriculture, 232-233, http://joa.isa-arbor.com/ request.asp?JournalID=1&ArticleID=1362&Type=2
Walker, C.H. (2008) Organic pollutants: An ecotoxicological perspective. Boca Raton: CRC Press
Wang, C.J., Liu, Z.Q. (2007) Foliar uptake of pesticides: Present status and future challenge. Pesticide Biochemistry and Physiology, 87(1), 1-8
Wang, L., Liu, T., Wang, C., Zhao, F., Zhang, Z., Yao, H., Xing, H., Xu, S. (2013) Effects of atrazine and chlorpyrifos on the porduction of nitric oxide and expression of inducible nitric oxide synthase in the brain of common carp (Cyprinus caprio). Ecotoxicology and Environmental Safety, 93, 7-12
Wauchope, D.R., Yeh, S., Linders, J.B.H.J., Kloskowski, R., Tanaka, K., Rubin, B., Katayama, A., Kördel, W., Gerstl, Z., Lane, M., Unsworth, J.B. (2002) Pesticide soil sorption parameters: Theory, measurement, uses, limitations and reliability. Pest management science, 58(5), 419-445
Weichert, F.G., Floeter, C., Meza, A.A.S., Kammann, U. (2017) Assessing the ecotoxicity of potentially neurotoxic substances: Evaluation of a behavioural parameter in the embryogenesis of Danio rerio. Chemosphere, 186, 43-50
 

O članku

jezik rada: engleski
vrsta rada: pregledni članak
DOI: 10.2298/PIF1904157S
objavljen u SCIndeksu: 08.05.2020.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0