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Pesticides in Small Agricultural Catchments in the Czech Republic

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Generally, pesticides are the products containing at least one chemical substance which should protect plant or plant products against pests/diseases. Among them, the most important ones are herbicides, followed by insecticides and fungicides. As a result of intensive agriculture techniques, large amounts of pesticides are applied on agricultural soil. They remain and degrade in soil, but they can enter water bodies and negatively affect water quality and the aquatic ecosystem. The article deals with the level of pesticide load in soil, bottom sediment and surface water in chosen agriculture catchments in the Czech Republic. Results revealed that the main general problem is glyphosate and its metabolite AMPA, although their application has been constrained for several years. Furthermore, the difference in contents of chosen parent pesticide substances and their metabolites in soils and waters were pointed out.
Słowa kluczowe
Rocznik
Strony
99--112
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
  • Research Institute for Soil and Water Conservation, Žabovřeská 250, 156 27 Prague, Czech Republic
  • Research Institute for Soil and Water Conservation, Žabovřeská 250, 156 27 Prague, Czech Republic
  • RECETOX, Faculty of Science, Masaryk University, Kamenice 753/5, 625 00 Brno, Czech Republic
  • ALS Czech Republic, Na Harfě 336/9, 190 00 Prague, Czech Republic
  • Research Institute for Soil and Water Conservation, Žabovřeská 250, 156 27 Prague, Czech Republic
  • Research Institute for Soil and Water Conservation, Žabovřeská 250, 156 27 Prague, Czech Republic
Bibliografia
  • 1. Bundschuh M., Goedkoop W., Kreuger J. 2014. Evaluation of pesticide monitoring strategies in agricultural streams based on the toxic-unit concept - Experiences from long-term measurements. Sci. Total Environ., 484, 84–91.
  • 2. Commission Implementing Regulation (EU) 2017/2324 of 12 December 2017 renewing the approval of the active substance glyphosate in accordance with Regulation (EC) No 1107/2009 of the EP and of the Council concerning the placing of plant protection products on the market and amending the Annex to Commission Implementing Regulation EU No 540/2011.
  • 3. Commission Regulation (EU) 2021/2204 of 13 December 2021 amending Annex XVII to Regulation (EC) No 1907/2006 of the European Parliament and of the Council concerning the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH), as regards carcinogenic, mutagenic or reproductive toxicant (CMR) substances.
  • 4. de Souza R.M., Seibert D., Quesada H.B., de Jesus Basseti F., Fagundes-Klen M.R., Bergamasco R. 2020. Occurrence, impacts and general aspects of pesticides in surface water. A review. Process Safety and Environmental Protection, 135(3), 22–37.
  • 5. Doležal F., Kvítek T. 2004. The role of recharge zones, discharge zones, springs and tile drainage systems in peneplains of Central European high-lands with regard to water quality generation processes. Physics and Chemistry of the Earth, 29, 775–785.
  • 6. Doppler T., Camenzuli L., Hirzel G., Krauss M., Lück A., Stamm C. 2012. Spatial variability of herbicide mobilisation and transport at catchment scale: insights from a field experiment. Hydrol. Earth Syst. Sci., 16, 1947–1967.
  • 7. Fučík P., Zajíček A., Kaplická M., Duffková R., Peterková J., Maxová J., Takáčová Š. 2017. Incorporating rainfall-runoff events into nitrate-nitrogen and phosphorus load assessments for small tile-drained catchments. Water, 9(9), 712.
  • 8. Halešová T., Václavíková M., Tomešová D., Erban T. 2021. 1,2,4-triazol (Ne)známý relevantní metabolit ve vodách? Vodní hospodářství, 1, 4–7.
  • 9. Honek D., Šulc Michálková M., Smetanová A., Sočuvka V., Velísková Y., Karásek P., Konečná J., Németová Z., Danáčová M. 2020. Estimating sedimentation rates in small reservoirs – Suitable approaches for local municipalities in central Europe. Journal of Environmental Management, 261(1), 1–13.
  • 10. Hvězdová, M., Kosubová, P., Košíková, M., Scherr, E. K., Šimek, Z., Brodský, L., Šudoma, M., Škulcová, L., Sáňka, M., Svobodová, M., Krkošková, L., Vašíčková, J., Neuwirthová, N., Bielská, L., Hofman, J. 2018. Currently and recently used pesticides in Central European arable soils. Sci. Total Environ., 613–614, 361–370.
  • 11. Kladivko E.J., Brown L.C., Baker J. L. 2001. Pesticide Transport to Subsurface Tile Drains in Humid Regions of North America. Critical Reviews in Environmental Science and Technology, 31(1), 1–62.
  • 12. Kodeš V., Svátkocá M., Freisleben J. 2016. 25 years of systematic groundwater quality monitoring in the CR. Water Management Technical and Economical Inf. Journal, 58(2), 4–10
  • 13. Kodešová R., Kodeš V., Kočárek M., Drábek O., Kozák J. 2010. Soil properties affecting pesticide leaching – application in groundwater vulnerability mapping in the Czech Republic. In: Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world, Brisbane, Australia, 1–6 August 2010. http://www.iuss.org/.../2178.pdf
  • 14. Konečná, J., Karásek, P., Halešová, T., Nováková, E., Pochop, M. 2022. Soil and water conservation measures can contribute to enhancement of landscape quality in the Litenčická Upland. In: Fialová, J. (ed.) Public recreation and landscape protection – with environment hand in hand ... Křitny: Mendel University in Brno, 9.-10.5.2022, 311–315.
  • 15. Kulhavý Z., Fučík P. 2015. Adaptation Options on Land Drainage Systems for Sustainable Agriculture and Environment: A Czech Perspective. Pol. J..Environ. Stud., 24(3), 1085–1102.
  • 16. Lefrancq M., Jadas-Hécart A., La Jeunesse I., Landry D., Payraudeau S. 2017. High frequency monitoring of pesticides in runoff water to improve understanding of their transport and environmental impacts. Sci. Total Environ., 587–588, 75–86.
  • 17. MZe. 2018. Ministry of Agriculture CR. https://eagri.cz/public/web/mze/tiskovy-servis/tiskove-zpravy/x2018_ ministerstvo-zemedelstvi-vyrazne-omezi.html
  • 18. Pignatello J.J. 2022. Sorption of organic chemicals in soil. In: Reference Module in Earth Systems and Environmental Sciences. Elsevier Reference Collection. DOI: 10.1016/B978-0-12-822974-3.00077-X.
  • 19. Pérez-Lucas G., Vela N., El Aatik A., Navarro S. 2019. Environmental Risk of Groundwater Pollution by Pesticide Leaching through the Soil Profile. In: Larramedy M., Soloneski S. (eds.) Pesticides – Use and Misuse and Their Impact in the Environment, IntechOpen, London. DOI: 10.5772/intechopen.78909.
  • 20. Poláková Š., Kosubová P. 2021. Pesticidy a jejich nálezy v zemědělské půdě. Agromanual. Available at: agromanual.cz/cz/clanky/management-a-legislativa/management/pesticidy-a-jejich-nalezy-v-zemedelske-pude
  • 21. Regulation EU No. 528/2012 concerning the making available on the market and use of biocidal products. Evaluation of active substances, Assesment report Tebuconazol (PT 10).
  • 22. Regulation EC No. 1107/2009 of the European Parliament and the Council of 21 October 2009 concerning the placing of plant protection products on the market and repealing Council Directives 79/117/EEC and 91/414EEC, OJ L 309, 24.11.2009, 1–50.
  • 23. Sandin M., Piikki K., Jarvis N., Larsbo M., Bishop K., Kreuger J. 2018. Spatial and temporal patterns of pesticide concentrations in streamflow, drainage and runoff in a small Swedish agricultural catchment. Sci. Total Environ., 610–611, 623–634.
  • 24. Silva V., Montanarella L., Jones A., Fernández-Ugalde O., Mol H.G.J., Ritsema C.J., Geissen V. 2018. Distribution of glyphosate and aminomethyl-phosphonic acid (AMPA) in agricultural topsoils of the European Union. Sci. Total Environ., 621(4), 1352–1359.
  • 25. Syafrudin M., Kristanti R.A., Yuniarto A., Hadibarata T., Rhee J., Al-Onazi W.A., Algarni T.S., Almarri A.H., Al-Mohaimeed. 2021. Pesticides in Drinking Water. A Review. Int J Environ Res Public Health, 18(2), 468.
  • 26. Székács, A., Mőrtl, M., Darvas, B. 2015. Monitoring Pesticide Residues in Surface and Ground Water in Hungary: Surveys in 1990–2015. Journal of Chemistry, 15.
  • 27. Tediosi A., Whelan M.J., Rushton K.R., Gandolfi C. 2013. Predicting rapid herbicide leaching to surface waters from an artificially drained headwater catchment using a one dimensional two-domain model coupled with a simple groundwater model. Journal of Contaminant Hydrology, 145, 67–81.
  • 28. Tripathi S., Srivastava P., Devi R.S., Bhadouria R. 2020. Influence of synthetic fertilizers and pesticides on soil health and soil microbiology. In: Agrochemicals Detection, Treatment and Remediation. DOI: 10.1016/B978-0-08-103017-2.00002-7.
  • 29. Vašíčková J., Hvězdová M., Kosubová P., Hofman J. 2019. Ecological risk assessment of pesticide residues in arable soils of the Czech Republic. Chemosphere, 216(2), 479–487.
  • 30. Zajíček A., Fučík P., Kaplická M., Liška M., Maxová J., Dobiáš J. 2018. Pesticide leaching by agricultural drainage in sloping, mid-textured soil conditions – the role of runoff components. Water Science and Technology, 77(7–8), 1879–1890.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a82d6a40-f907-4c02-9630-f40b9d917282
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