PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Assessment of trace elements pollution in snow piles removed from residential areas in Perm, Russia

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Atmospheric deposition, vehicular transportation and de-icing agents are major sources polluted snow in urban. This study investigates the current trace elements concentrations of snow and de-icing using ICP-MS, and phytotoxicity using three vascular plants in snow. The study assesses the contamination, classification and phytotoxicity of snow quality removed from roads of residential areas and piled on children’s playgrounds in residential territories. The research found that according to Russian environmental quality standard for water has been identified the exceeding trace elements in snow by W, Se, Mn, Cu, V, Mo, Ni and Zn. The pollution indices (PLI, CF and Zc) were identified pollution level of snow piles from moderate contamination to very high contamination. Based on average germination index values for Sinapis alba L., Lepidium sativum L., and Triticum aestivum L., the degree of inhibition in snow piles varied from no inhibition to strong inhibition. The trace elements content in de-icing “Galit А” and salt sand mix are defined in the following descending order: Zn > Mn > Ba > V > Rb > Sr and Mn > Ba > Cr > V > Sr > Ni, respectively. High concentrations of trace elements in snow piles are a source of environmental pollution. To prevent snow storage and disposal in residential areas should be involved in future studies of environmental pollution and circular economy, so that environmental managers can reduce threats to the environment and public health, as well as initiate circular economy projects in urban areas.
Wydawca
Rocznik
Tom
Strony
109--117
Opis fizyczny
Bibliogr. 44 poz., fot., rys., tab., wykr.
Twórcy
  • Perm State University, Natural Science Institute, Genkel St 4, 614990 Perm, Russia
  • Perm State University, Natural Science Institute, Genkel St 4, 614990 Perm, Russia
  • Perm State University, Natural Science Institute, Genkel St 4, 614990 Perm, Russia
autor
  • Perm State University, Natural Science Institute, Genkel St 4, 614990 Perm, Russia
  • Perm State University, Natural Science Institute, Genkel St 4, 614990 Perm, Russia
  • Perm State University, Natural Science Institute, Genkel St 4, 614990 Perm, Russia
Bibliografia
  • ADAMAKIS I.D, PANTERIS E., ELEFTHERIOU E.P. 2012. Tungsten toxicity in plants. Plants (Basel). Vol. 1(2) p. 82–99. DOI 10.3390/plants1020082.
  • ADAMIEC E., WIESZAŁA R., STRZEBOŃSKA M., JAROSZ-KRZEMIŃSKA E. 2013. An attempt to identify traffic related elements in snow. Geology, Geophysics and Environment. Vol. 39(4), 317. DOI 10.7494/geol.2013.39.4.317.
  • ALM H., BANACH A., LARM T. 2010. Förekomst och rening av prioriterade ämnen, metaller samt vissa övriga ämnen i dagvatten [Occurreence and treatment of priority substances, metals and other substances in stormwater] [online]. Stockholm. SVU. Rapport Nr 2010-06 pp. 69. [Access 10.10.2021]. Available at: http://vav.griffel.net/filer/Rapport_2010-06.pdf
  • ANTONSON H., BUCKLAND P., BLOMQVIST G. 2021. Road salt damage to historical milestones indicates adaptation of winter roads to future climate change may damage Arctic cultural heritage. Climate. Vol. 9(149). DOI 10.3390/cli9100149.
  • ARIF N., YADAV V., SINGH S., SINGH S., AHMAD P., MISHRA R.K., SHARMA S., TRIPATHI D.K., DUBEY N.K., CHAUHAN D.K. 2016. Influence of high and low levels of plant-beneficial heavy metal ions on plant growth and development. Frontiers in Environmental Science. Vol. 4, 69. DOI 10.3389/fenvs.2016.00069.
  • BARAN A., TARNAWSKI M. 2013. Phytotoxkit/Phytotestkit and Microtox as tools for toxicity assessment of sediments. Ecotoxicololgy and Environmental Safety. Vol. 98 p. 19–27. DOI 10.1016/j.ecoenv.2013.10.010.
  • BÄCKSTRÖM M., KARLSSON S., BÄCKMAN L., FOLKESON L., LIND B. 2004. Mobilisation of heavy metals by deicing salts in a roadside environment. Water Resources. Vol. 38(3) p. 720–732. DOI 10.1016/j.watres.2003.11.006.
  • BOŻYM M., KRÓL A., MIZERNA K. 2021. Leachate and contact test with Lepidium sativum L. to assess the phytotoxicity of waste. International Journal of Environmental Science and Technology. Vol. 18 p. 1975–1990. DOI 10.1007/s13762-020-02980-x.
  • CIESIELCZUK T., ROSIK-DULEWSKA C.Z., POLUSZYŃSKA J., SŁAWIŃSKA I. 2017. Acute toxicity of experimental fertilizers made of blood meal, spent coffee ground and biomass ash. Journal of Water and Land Development. No. 34 p. 95–102. DOI 10.1515/jwld-2017-0042.
  • CZERNIAWSKA-KUSZA I., KUSZA G. 2011. The potential of the Phytotoxkit microbiotest for hazard evaluation of sediments in eutrophic freshwater ecosystems. Environmental Monitoring and Assessment. Vol. 179 p. 113–121. DOI 10.1007/s10661-010-1722-y.
  • DIXIT R., WASIULLAH , MALAVIYA D., PANDIYAN K., SINGH U.B., SAHU A., PAUL D. 2015. Bioremediation of heavy metals from soil and aquatic environment: An overview of principles and criteria of fundamental processes. Sustainability. Vol. 7(2) p. 2189–2212. DOI 10.3390/su7022189.
  • FEDOTKINA O., GORBASHKO E., VATOLKINA N. 2019. Circular economy in Russia: Drivers and barriers for waste management development. Sustainability. Vol. 11, 5837. DOI 10.3390/su11205837.
  • GERASIMOV A., CHUGUNOVA M. 2015. Vliyaniye zagryazneniya dernovo-podzolistoy pochvy protivogololednymi reagentami na vysshiye rasteniya i pochvennyye mikroorganizmy [Influence of pollution of the sod-podzol soil by Sleetproof reagents on higher plants and soil microorganisms]. Ekologiya i promyshlennost’ Rossii. T. 19 (4) p. 59–63. DOI 10.18412/1816-0395-2015-4-59-63.
  • GORDEEV V.V., LISITZIN A.P. 2014. Geokhimicheskoye vzaimodeystviye presnovodnoy i morskoy gidrosfer [Geochemical interaction between the freshwater and marine hydrospheres]. Geologiya i geofizika. Vol. 55(5–6) p. 562–581. DOI 10.1016/j.rgg.2014.05.004.
  • Government of Ontario 2011. Guidelines on Snow Disposal and Deicing Operations in Ontario [online]. [Access 10.10.2011]. Available at: http://www.ontario.ca/page/guidelines-snow-disposal-and-de-icing-operations-ontario#section-5
  • HAKANSON L. 1980. An ecological risk index for aquatic pollution control. A sedimentological approach. Water Research. Vol. 14 (8) р. 975–1001. DOI 10.1016/0043-1354(80)90143-8.
  • KHAYRULINA E.A., TIMOFEEV I.V., KOSHELEVA N.E. 2019. Potentsial’no toksichnyye elementy v pochvakh Industrial’nogo rayona g. Permi [Potentially toxic elements in soils of the Industrial district in the city of Perm]. Geograficheskiy vestnik. Vol. 2(49) p. 80–100.
  • LAI J.X., QIU J.L., CHEN J.X., FAN H., WANG K. 2015. New technology and experimental study on snow-melting heated pavement system in tunnel portal. Advances in Materials Science and Engineering. Vol. 2015, 706536 p. 1–11. DOI 10.1155/2015/706536.
  • LAMHAMDI M., BAKRIM A., AARAB A., LAFONT R., SAYAH F. 2011. Lead phytotoxicity on wheat (Triticum aestivum L.) seed germination and seedlings growth. Comptes rendus biologies. Vol. 334(2) p. 118–126. DOI 10.1016/j.crvi.2010.12.006.
  • MALYSHEVA A.G., SHELEPOVA O.V., VODYANOVA M.A., DONERIAN L.G., USHAKOVA O.V., YUDIN S.M. 2018. Ekologo-gigiyenicheskiye problemy primeneniya protivogololodnykh reagentov v usloviyakh krupnogo megapolisa (na primere territorii goroda Moskvy) [Ecological and hygienic problems of the application of anti-icing agents in a large metropolis (for example, the territory of Moscow)]. Hygiene and Sanitation. Vol. 97(11) p. 1032–1037. DOI 10.18821/0016-9900-2018-97-11-1032-37.
  • MAÑAS P., DE LAS HERAS J. 2018. Phytotoxicity test applied to sewage sludge using Lactuca sativa L. and Lepidium sativum L. seeds. International Journal of Environmental Science and Technology. Vol. 15 p. 273–280. DOI 10.1007/s13762-017-1386-z.
  • MELAND S. 2010. Ecotoxicological effects of highway and tunnel wash water runoff. PhD Thesis [online]. Ås. Norwegian University of Life Sciences pp. 86. [Access 10.10.2021]. Available at: https://nmbu.brage.unit.no/nmbu-xmlui/handle/11250/2431910
  • MENSHIKOVA E.A., ZHDAKAEV V.I. 2017. Ekologicheskoye sostoyaniye gruntov gorodskikh territoriy Permskogo kraya [Environmental condition of ground in urban territories of the Perm Region]. Vestnik Permskogo nacional’nogo issledovatel’skogo politekhnicheskogo universiteta. Prikladnaya ekologiya. Urbanistika. Vol. 4 (28) p. 124–132. DOI 10.15593/2409-5125 / 2017.04.10.
  • MIAOMIAO H., WENHONG L., XINQIANG L., DONGLEI W., GUANGMING T. 2009. Effect of composting process on phytotoxicity and speciation of copper, zinc and lead in sewage sludge and swine manure. Waste Management. Vol. 29 p. 590–597. DOI 10.1016/j.wasman.2008.07.005.
  • MÜLLER A., ÖSTERLUND H., MARSALEK J., VIKLANDER M. 2020. The pollution conveyed by urban runoff: A review of sources. Science of the Total Environment. Vol. 709, 136125. DOI 10.1016/j.scitotenv.2019.136125.
  • NELSON S., YONGE D., BARBER M. 2009. Effects of road salts on heavy metal mobility in two Eastern Washington soils. Journal of Environmental Engineering. Vol. 135(7) p. 505–510. DOI 10.1061/(ASCE)0733-9372(2009)135:7(505).
  • PAMPURO N., BISAGLIA C., ROMANO E., BRAMBILLA M., FOPPA PEDRETTI E., CAVALLO E. 2017. Phytotoxicity and chemical characterization of compost derived from pig slurry solid fraction for organic pellet production. Agriculture. Vol. 7(11), 94. DOI 10.3390/agriculture7110094.
  • PINHO I.A., LOPES D.V., MARTINS R.C., QUINA M.J. 2017. Phytotoxicity assessment of olive mill solid wastes and the influence of phenolic compounds. Chemosphere. Vol. 185 p. 258–267. DOI 10.1016/j.chemosphere.2017.07.002.
  • REINOSDOTTER K., VIKLANDER M. 2005. A comparison of snow quality in two Swedish municipalities – Lulea and Sundsvall. Water, Air and Soil Pollution. Vol. 167 p. 3–16. DOI 10.1007/s11270-005-8635-3.
  • RØDLAND E., OKOFFO E.D., RAUERT C., HEIER L.S., LIND O.C., REID M., THOMAS K.V., MELAND S. 2020. Road deicing salt: assessment of a potential new source and pathway of microplastics particles from roads. Science of the Total Environment. Vol. 738, 139352. DOI 10.1016/j.scitotenv.2020.139352.
  • Rossiyskaya Federatsiya. Federal’nyy zakon “Ob otkhodakh proizvodstva i potrebleniya” ot 24.06.1998 N 89-FZ (red. ot 07.04.2020) (s izm. i dop., vstup. v silu s 14.06.2020) [Russian Federation. Federal Law “On production and consumption waste” from 24.06.1998 N 89-FZ (ed.: 07.04.2020) (with changes and additions, came into force from 14.06.2020].
  • SAET YU.E., REVICH B.A., YANIN E.P., SMIRNOVA R.S., BASHARKEVICH I.L., ONISHCHENKO T.L., PAVLOVA L.N., TREFILOVA N.YA ., ACHKASOV A.I., SARKISYAN S.S H . 1990. Geokhimiya okruzhayushchey sredy [Environmental geochemistry]. Moscow. Nedra Publ. ISВN 5-247-01127-9 pp. 335.
  • SINGH S., PARIHAR P., SINGH R., SINGH V.P., PRASAD S.M. 2016. Heavy metal tolerance in plants: Role of transcriptomics, proteomics, metabolomics, and ionomics. Frontiers in Plant Science. Vol. 6, 1143. DOI 10.3389/fpls.2015.01143.
  • SHISHKIN M.A., LAPTEVA A.K. 2009. Ekologo-eokhimicheskiy analiz sovremennykh landshaftov Prikam’ya [Environmental and geochemical analysis of modern landscapes of the Kama region]. Ekaterinburg. UB RAS. ISBN 5-7691-1933-0 pp. 286.
  • SMOL M., ADAM C., PREISNER M. 2020. Circular economy model framework in the European water and wastewater sector. Journal of Material Cycles and Waste Management. Vol. 22 p. 682–697. DOI 10.1007/s10163-019-00960-z.
  • TOMLINSON D.L., WILSON J.G., HARRIS C.R., JEFFREY D.W. 1980. Problems in the assessment of heavy-metal levels in estuaries and the formation of a pollution index. Helgolander Meeresunters. Vol. 33 p. 566–575. DOI 10.1007/BF02414780.
  • USHAKOVA E.S., KARAVAEVA T.I., PUZIK A.Y U., VOLKOVA M.A., BELKIN P. A. 2022. Otsenka zagryaznonnosti pochv detskikh ploshchadok na territorii zhilykh rayonov [Assessment of soil contamination at playgrounds in residential areas]. Gigiena i Sanitariya. Vol. 101 (1) p. 14–20. DOI 10.47470/0016-9900-2022-101-1-14-20.
  • VIJAYAN A., ÖSTERLUND H., MARSALEK J., VIKLANDER M. 2019. Laboratory melting of late-winter urban snow samples: The magnitude and dynamics of releases of heavy metals and PAHs. Water, Air, & Soil Pollution. Vol. 230, 182. DOI 10.1007/s11270-019-4201-2.
  • VIJAYAN A., ÖSTERLUND H., MARSALEK J., VIKLANDER M. 2021. Estimating pollution loads in snow removed from a port facility: Snow pile sampling strategies. Water Air, & Soil Pollution. Vol. 232, 75. DOI 10.1007/s11270-021-05002-9.
  • VORONCHIKHINA E.A., SHCHUKIN A.V., SHCHUKINA N.I. 2014. K otsenke geokhimicheskogo sostoyaniya urboekosistemy Permi v svyazi s ispol’zovaniyem protivogololednykh reagentov [Assessing the geochemical status of the urban ecosystem of Perm due to deicing agents use]. Geograficheskiy vestnik. Vol. 2 p. 78–94.
  • Weather Atlas undated. Climate and monthly weather forecast Perm, Russia [online]. [Access 10.10.2021]. Available at: https://www.weather-atlas.com/en/russia/perm-climate#climate_text_10
  • XU S., ZHOU Z., FENG L., CUI N., XIE N. 2021. Durability of pavement materials with exposure to various anti-icing strategies. Processes. Vol. 9(2), 291. DOI 10.3390/pr9020291.
  • YADAV S.K. 2010. Heavy metals toxicity in plants: An overview on the role of glutathione and phytochelatins in heavy metal stress tolerance of plants. South African Journal of Botany. Vol. 76 p. 167–179. DOI 10.1016/j.sajb.2009.10.007.
  • ZGŁOBICKI W., TELECKA M., SKUPIŃSKI S. 2020. Heavy metals in playgrounds in Lublin (E Poland): Sources, pollution levels and health risk. Environmental Science and Pollution Research. Vol. 28 p. 18328–18341. DOI 10.1007/s11356-020-09375-y.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4b13adc8-ba8d-4ee9-8a3b-e30ae7bea2da
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.