Heavy metals concentration in the water of human-made objects

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dc.citation.epage187
dc.citation.issue4
dc.citation.spage177
dc.contributor.affiliationRivne State University for the Humanities
dc.contributor.affiliationRivne branch office of State Institution “Soils Protection Institute of Ukraine”
dc.contributor.affiliationUniversity of Hohenheim
dc.contributor.authorSukhodolska, Iryna
dc.contributor.authorKrupko, Halyna
dc.contributor.authorPortukhay, Oksana
dc.contributor.authorBasaraba, Ilona
dc.contributor.authorKostiuk, Kateryna
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2023-05-09T08:48:42Z
dc.date.available2023-05-09T08:48:42Z
dc.date.created2022-03-01
dc.date.issued2022-03-01
dc.description.abstractThe study concerns with the changes of heavy metals concentration in the water of human-made objects (ponds and canals of drainage system). It has been revealed the exceeding of maximum permissible norm of Cu, Zn, Pb and Cd in the ponds, and the exceeding of maximum permissible norm of Pb and Cd in the canals of drainage system during the continuous time that certifies their permanent getting in the soils and waters from point and diffuse sources. The paper analyzes basic sources of heavy metals getting in the waters and their positive and negative impact on the biota. In order to increase ecological value of water objects and resources of agricultural lands it has been offered to use fertilizers and pesticides in a rational way, move to electric car use gradually, arrange landfills in a proper way, standardize algicidal fertilization, use fish fauna representatives to regulate number and algae biomass, equip the bioplateau and implement phytoremediation technologies with the aim to remove heavy metals from the soils and waters.
dc.format.extent177-187
dc.format.pages11
dc.identifier.citationHeavy metals concentration in the water of human-made objects / Iryna Sukhodolska, Halyna Krupko, Oksana Portukhay, Ilona Basaraba, Kateryna Kostiuk // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2022. — Vol 7. — No 4. — P. 177–187.
dc.identifier.citationenHeavy metals concentration in the water of human-made objects / Iryna Sukhodolska, Halyna Krupko, Oksana Portukhay, Ilona Basaraba, Kateryna Kostiuk // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2022. — Vol 7. — No 4. — P. 177–187.
dc.identifier.doidoi.org/10.23939/ep2022.04.177
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/59048
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofEnvironmental Problems, 4 (7), 2022
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dc.relation.referencesengrowth and physiology of important food crops: a review.
dc.relation.referencesenEnvironmental Science and Pollution Research, 22(11), 8148–8162. doi: https://doi.org/10.1007/s11356-015-4496-5
dc.relation.referencesenAronsson, K. A., & Ekelund, N. G. (2004). Biological effects of
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dc.relation.referencesenJournal of Environmental Quality, 33(5), 1595–1605. doi:
dc.relation.referencesenhttps://doi.org/10.2134/jeq2004.1595
dc.relation.referencesenAryal, R., Vigneswaran, S., Kandasamy, J., & Naidu, R. (2010).
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dc.relation.referencesenkidney. Nephron Physiology, 99(4), 105–110. doi:
dc.relation.referencesenhttps://doi.org/10.1159/000083981
dc.relation.referencesenBordeleau, G., Martel, R., Ampleman, G., & Thiboutot, S.
dc.relation.referencesen(2008). Environmental impacts of training activities at an air
dc.relation.referencesenweapons range. Journal of environmental quality, 37(2), 308–317. doi: https://doi.org/10.2134/jeq2007.0197
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dc.relation.referencesen(2020). Metals and PFAS in stormwater and surface runoff
dc.relation.referencesenin a semi-arid Canadian city subject to large variations in
dc.relation.referencesentemperature among seasons. Environmental Science
dc.relation.referencesenand Pollution Research, 27(15), 18232–18241. doi:
dc.relation.referencesenhttps://doi.org/10.1007/s11356-020-08070-2
dc.relation.referencesenDragun, Z., Roje, V., Mikac, N., & Raspor, B. (2009).
dc.relation.referencesenPreliminary assessment of total dissolved trace metal
dc.relation.referencesenconcentrations in Sava River water. Environmental
dc.relation.referencesenMonitoring and Assessment, 159(1), 99–110. doi:
dc.relation.referencesenhttps://doi.org/10.1007/s10661-008-0615-9
dc.relation.referencesenDudnik, S. V., & Yevtushenko, M. Yu. (2013). Water
dc.relation.referencesentoxicology: basic theoretical positions and their practical
dc.relation.referencesenapplication. (in Ukrainian). K., The View of the Ukranian
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dc.relation.referencesenEcotoxicological and pre-remedial risk assessment of heavy
dc.relation.referencesenmetals in municipal solid wastes dumpsite impacted soil
dc.relation.referencesenin Morocco. Environmental Nanotechnology, Monitoring
dc.relation.referencesen& Management, 17. doi: https://doi.org/10.1016/j.enmm.2021.100640
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dc.relation.referencesenwith Heavy Metals and Their Influence on Crop
dc.relation.referencesenProductivity in North-Western Black Sea Region. (in
dc.relation.referencesenUkrainian). Bulletin of Odessa State Environmental
dc.relation.referencesenUniversity, 13, 131–141. Retrieved from
dc.relation.referencesenhttp://eprints.library.odeku.edu.ua/id/eprint/4059/1/hosenu_13_2012_131.pdf
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dc.relation.referencesenwood combustion fly ash. Chemosphere, 45(1), 123–128.
dc.relation.referencesendoi: https://doi.org/10.1016/S0045-6535(01)00026-1
dc.relation.referencesenHüffmeyer, N., Klasmeier, J., & Matthies, M. (2009). Georeferenced modeling of zinc concentrations in the Ruhr river
dc.relation.referencesenbasin (Germany) using the model GREAT-ER. Science of
dc.relation.referencesenthe total environment, 407(7), 2296–2305. doi:
dc.relation.referencesenhttps://doi.org/10.1016/j.scitotenv.2008.11.055
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dc.relation.referencesenparameters in Artemisia annua.Biologia plantarum, 48(2), 255–260. doi: https://doi.org/10.1023/B:BIOP.0000033453.24705.f5
dc.relation.referencesenKlimas, A. A. (1995). Impacts of urbanisation and protection of
dc.relation.referencesenwater resources in the Vilnius district, Lithuania. Hydrogeology
dc.relation.referencesenJournal, 3(1), 24–35. doi: https://doi.org/10.1007/s100400050058
dc.relation.referencesenKomarnicki, G. J. (2005). Lead and cadmium in indoor air and
dc.relation.referencesenthe urban environment. Environmental Pollution, 136(1), 47–61. doi: https://doi.org/10.1016/j.envpol.2004.12.006
dc.relation.referencesenKondratyuk, V. A., Lotots'ka, O. V., & Flekey N. V. (2009).
dc.relation.referencesenCombined action of sodium and cadmium in condition of
dc.relation.referencesensharp sanitary'toxicological experiment. (in Ukrainian).
dc.relation.referencesenHygiene of populated places, 53, 81–85. Retrieved from
dc.relation.referencesenhttps://cyberleninka.ru/article/n/kombinovana-diyanatriyu-i-kadmiyu-v-umovah-gostrogo-sanitarnotoksikologichnogo-eksperimentu/viewer
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dc.relation.referencesen(Cu and Zn) on the content of photosynthetic pigments in
dc.relation.referencesenthe cells of algae Chlorella vulgaris. Journal of Ecological
dc.relation.referencesenEngineering, 19(3). doi: https://doi.org/10.12911/22998993/85375
dc.relation.referencesenLinnik, P. N. (2014). Copper in surface waters of Ukraine:
dc.relation.referencesencontent, forms of occurrence, and regularities of migration.
dc.relation.referencesenHydrobiological Journal, 50(1). doi: https://doi.org/10.1615/HydrobJ.v50.i1.70
dc.relation.referencesenLinnik, P. N., Zhezherya, V. A., & Zubenko, I. B. (2012).
dc.relation.referencesenContent of metals and forms of their migration in the water
dc.relation.referencesenof the rivers of the Pripyat River Basin. Hydrobiological
dc.relation.referencesenJournal, 48(2), 85–101. doi: https://doi.org/10.1615/HydrobJ.v48.i2.90
dc.relation.referencesenLópez-Millán, A. F., Ellis, D. R., & Grusak, M. A. (2005).
dc.relation.referencesenEffect of zinc and manganese supply on the activities of
dc.relation.referencesensuperoxide dismutase and carbonic anhydrase in Medicago
dc.relation.referencesentruncatula wild type and raz mutant plants. Plant Science, 168(4), 1015–1022. doi: https://doi.org/10.1016/j.plantsci.2004.11.018
dc.relation.referencesenMaksymiec, W. (1998). Effect of copper on cellular processes
dc.relation.referencesenin higher plants. Photosynthetica, 34(3), 321–342. doi:
dc.relation.referencesenhttps://doi.org/10.1023/A:1006818815528
dc.relation.referencesenMalikula, R. S., Kaonga, C. C., Mapoma, H. W., Thulu, F. G.,
dc.relation.referencesen& Chiipa, P. (2022). Heavy Metals and Nutrients Loads in
dc.relation.referencesenWater, Soil, and CropsIrrigated with Effluent from WWTPs
dc.relation.referencesenin Blantyre City, Malawi. Water, 14(1), 121. doi:
dc.relation.referencesenhttps://doi.org/10.3390/w14010121
dc.relation.referencesenNas, F. S., & Ali, M. (2018). The effect of lead on plants in
dc.relation.referencesenterms of growing and biochemical parameters: a review.
dc.relation.referencesenMOJ Ecol. Environ. Sci, 3(4), 265–268. doi:
dc.relation.referencesenhttps://doi.org/10.15406/mojes.2018.03.00098
dc.relation.referencesenNatasha, N.,Shahid,M.,Bibi,I.,Iqbal,J.,Khalid,S.,Murtaza,B., ...&
dc.relation.referencesenArshad, M. (2022). Zinc in soil-plant-human system: A dataanalysis review. Science of The Total Environment, 808, 152024.
dc.relation.referencesendoi: https://doi.org/10.1016/j.scitotenv.2021.152024
dc.relation.referencesenNovikov, Y., Lastochkina, K., & Boldina, Z. (1990). Research
dc.relation.referencesenmethods of water quality of waterbasins. (in Russian).
dc.relation.referencesenMeditsyna, Moscow. Retrieved from https://www.eruditor.link/file/2025758/
dc.relation.referencesenParanyak, R. P., Vasyltseva, L. P., & Makukh, K. (2007).
dc.relation.referencesenPathways of heavy metals entrance to environment and their
dc.relation.referenceseneffects on living organisms. (in Ukrainian). The Animal
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dc.rights.holder© Національний університет “Львівська політехніка”, 2022
dc.rights.holder© Sukhodolska I., Krupko H., Portukhay O., Basaraba I., Kostiuk K., 2022
dc.subjectponds
dc.subjectcanals of drainage systems
dc.subjectpollutants
dc.subjectpermissible concentrations
dc.titleHeavy metals concentration in the water of human-made objects
dc.typeArticle

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Environmental Problems. – 2022. – Vol. 7, No. 4