Assessment of the Composition of Rain Deposition in Coniferous Forests at the Northern Tree Line Subject to Air Pollution

This study is devoted to assessing the interbiogeocenotic and intrabiogeocenotic variation and long-term dynamics of the composition of rain deposition in coniferous forests that are exposed to contamination from the Severonikel Copper-Nickel Smelter Complex (Murmansk oblast), the largest source of...

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Published in	Russian journal of ecology Vol. 51; no. 4; pp. 319 - 328
Main Authors	Ershov, V. V., Lukina, N. V., Danilova, M. A., Isaeva, L. G., Sukhareva, T. A., Smirnov, V. E.
Format	Journal Article
Language	English
Published	Moscow Pleiades Publishing 01.07.2020 Springer Nature B.V
Subjects	Air pollution Biomedical and Life Sciences Chemical composition Chemical elements Coniferous forests Contamination Coordination compounds Deposition Ecology Emissions Environment Fallout Forests Leaching Lichens Life Sciences Loads (forces) Nickel Northern European region Pine Pollutants Rain Russia Shrubs Smelters snow sorption treeline trees Northern European region rain atmospheric pollution critical levels long-term dynamics intra- and interbiogeocenotic variation atmospheric fallout
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ISSN	1067-4136 1608-3334
DOI	10.1134/S1067413620040050

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Abstract	This study is devoted to assessing the interbiogeocenotic and intrabiogeocenotic variation and long-term dynamics of the composition of rain deposition in coniferous forests that are exposed to contamination from the Severonikel Copper-Nickel Smelter Complex (Murmansk oblast), the largest source of pollutant emissions into the atmosphere in Northern Europe. Spruce forests with dwarf shrubs and green mosses and pine forests with dwarf shrubs and lichens, which are common in the boreal zone, are studied at different stages of pollution-induced degradation. The chemical composition of rainwaters is characterized by a significant intra- and intrabiogeocenotic variation. Long-term data confirm that the content of elements is significantly higher below the crowns than between them, with the concentrations and deposition of elements being significantly higher in spruce forests than in pine ones. This difference is determined by different sorption capacities of tree crowns and different levels of leaching of elements from them. The fallout of the main pollutants with rainwaters exceeded the critical levels even in the background areas and was significantly higher in defoliating forests and pollution-induced sparse forests. It is shown that the excess of the critical levels is much more pronounced in rainwaters than in snow ones. The determination of the intra- and interbiogeocenotic differences in the composition of atmospheric fallout allows an earlier and more accurate diagnosis for the excess of critical loads at all degradation stages. The long-term dynamics of the fallout of chemical elements with rainwaters in pine and spruce forests is characterized by a high variability both below and between tree crowns. An increase in nickel concentrations in the background areas from 2013 to 2017 is revealed, which is explained by the growth in the content of pollutants in aerosols spreading over considerable distances.
AbstractList	This study is devoted to assessing the interbiogeocenotic and intrabiogeocenotic variation and long-term dynamics of the composition of rain deposition in coniferous forests that are exposed to contamination from the Severonikel Copper-Nickel Smelter Complex (Murmansk oblast), the largest source of pollutant emissions into the atmosphere in Northern Europe. Spruce forests with dwarf shrubs and green mosses and pine forests with dwarf shrubs and lichens, which are common in the boreal zone, are studied at different stages of pollution-induced degradation. The chemical composition of rainwaters is characterized by a significant intra- and intrabiogeocenotic variation. Long-term data confirm that the content of elements is significantly higher below the crowns than between them, with the concentrations and deposition of elements being significantly higher in spruce forests than in pine ones. This difference is determined by different sorption capacities of tree crowns and different levels of leaching of elements from them. The fallout of the main pollutants with rainwaters exceeded the critical levels even in the background areas and was significantly higher in defoliating forests and pollution-induced sparse forests. It is shown that the excess of the critical levels is much more pronounced in rainwaters than in snow ones. The determination of the intra- and interbiogeocenotic differences in the composition of atmospheric fallout allows an earlier and more accurate diagnosis for the excess of critical loads at all degradation stages. The long-term dynamics of the fallout of chemical elements with rainwaters in pine and spruce forests is characterized by a high variability both below and between tree crowns. An increase in nickel concentrations in the background areas from 2013 to 2017 is revealed, which is explained by the growth in the content of pollutants in aerosols spreading over considerable distances.
Author	Smirnov, V. E. Danilova, M. A. Isaeva, L. G. Lukina, N. V. Ershov, V. V. Sukhareva, T. A.
Author_xml	– sequence: 1 givenname: V. V. surname: Ershov fullname: Ershov, V. V. email: Slavo91@gmail.com organization: Institute of Industrial Ecology Problems of the North, Kola Scientific Center, Russian Academy of Sciences – sequence: 2 givenname: N. V. surname: Lukina fullname: Lukina, N. V. organization: Center for Forest Ecology and Productivity, Russian Academy of Sciences – sequence: 3 givenname: M. A. surname: Danilova fullname: Danilova, M. A. organization: Center for Forest Ecology and Productivity, Russian Academy of Sciences – sequence: 4 givenname: L. G. surname: Isaeva fullname: Isaeva, L. G. organization: Institute of Industrial Ecology Problems of the North, Kola Scientific Center, Russian Academy of Sciences – sequence: 5 givenname: T. A. surname: Sukhareva fullname: Sukhareva, T. A. organization: Institute of Industrial Ecology Problems of the North, Kola Scientific Center, Russian Academy of Sciences – sequence: 6 givenname: V. E. surname: Smirnov fullname: Smirnov, V. E. organization: Center for Forest Ecology and Productivity, Russian Academy of Sciences
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ErshovV.V.LukinaN.V.OrlovaM.A.Assessment of soil-water composition dynamics in the north taiga forests upon the reduction of industrial air pollution by emissions of a copper–nickel smelterContemp. Probl. Ecol.2019129710210.1134/S1995425519010050 KowalskaA.AstelA.BoczońA.PolkowskaZ.Atmospheric deposition in coniferous and deciduous tree stands in PolandAtmos. Environ.20161331451551:CAS:528:DC%2BC28XkslKmu7k%3D10.1016/j.atmosenv.2016.03.033 De VriesW.DobbertinM.H.SolbergS.Impacts of acid deposition, ozone exposure and weather conditions on forest ecosystems in Europe: An overviewPlant Soil20143801451:CAS:528:DC%2BC2cXjvFWgu7g%3D10.1007/s11104-014-2056-2 Lukina, N.V. and Nikonov, V.V., Degradational succession of forest ecosystems in the surroundings of Cu-Ni smelter in the Kola Peninsula, Proc. 28th Annual Meeting, Sudbury, Ontario, May,2003, p. 28. NikonovV.V.LukinaN.V.Bezel’V.S.Rasseyannye elementy v boreal’nykh lesakh (Trace Elements in Boreal Forests)2004MoscowNauka KorholaA.WeckstromJ.NymanM.Predicting the long-term acidification trends in small subarctic lakes using diatomsJ. Appl. Ecol.1999361021103410.1046/j.1365-2664.1999.00461.x Shil’tsova, G.V., Role of pine biogeocenoses of the Kivach Nature Reserve in the acidity and composition of natural waters, Tr. Karel. Nauch. Tsentra Ross. Akad. Nauk, no. 10, Petrozavodsk, 2006, pp. 173–179. KashulinaG.CaritatP.ReimannC.Snow and rain chemistry around the “Severonikel” industrial complex, NW Russia: Current status and retrospective analysisAtmos. Environ.2014896726821:CAS:528:DC%2BC2cXlvVWiur4%3D10.1016/j.atmosenv.2014.03.008 HussonF.LeS.PagesJ.Exploratory Multivariate Analysis by Example Using R201710.1201/b21874 Lukina. N.V. and Nikonov, V.V., Biogeokhimicheskie tsikly v lesakh Severa v usloviyakh aerotekhnogennogo zagryazneniya (Biogeochemical Cycles in Northern Forests under Conditions of Airborne Industrial Pollution), Apatity: Kol’sk. Nauch. Tsentr Ross. Akad. Nauk, 1996. FischerR.MuesV.UlrichE.Monitoring of atmospheric deposition in European forests and an overview on its implication on forest conditionAppl. Geochem.200722112911391:CAS:528:DC%2BD2sXmt1yisbY%3D10.1016/j.apgeochem.2007.03.004 PascaudA.SauvageS.CoddevilleP.Contrasted spatial and long-term trends in precipitation chemistry and deposition fluxes at rural stations in FranceAtmos. 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Fischer (8078_CR10) 2007; 22 8078_CR20 V.V. Ershov (8078_CR25) 2019; 12 8078_CR8 8078_CR9 V.V. Nikonov (8078_CR1) 2004 A. Pascaud (8078_CR11) 2016; 146 A. Kowalska (8078_CR7) 2016; 133 A. Korhola (8078_CR23) 1999; 36 G.J. Reinds (8078_CR24) 2006 P. Gundersen (8078_CR22) 2009; 258 V.V. Ershov (8078_CR26) 2016; 47 8078_CR12 8078_CR15 8078_CR14 F. Husson (8078_CR19) 2017 8078_CR17 8078_CR18 (8078_CR16) 1999 M. Herrmann (8078_CR6) 2006; 184 W. De Vries (8078_CR5) 2014; 380 8078_CR2 G. Kashulina (8078_CR13) 2014; 89 8078_CR4 H.S. Helmisaari (8078_CR21) 1989; 4 L. Gandois (8078_CR3) 2010; 44
References_xml	– reference: ErshovV.V.LukinaN.V.OrlovaM.A.Assessment of soil-water composition dynamics in the north taiga forests upon the reduction of industrial air pollution by emissions of a copper–nickel smelterContemp. Probl. Ecol.2019129710210.1134/S1995425519010050 – reference: FischerR.MuesV.UlrichE.Monitoring of atmospheric deposition in European forests and an overview on its implication on forest conditionAppl. Geochem.200722112911391:CAS:528:DC%2BD2sXmt1yisbY%3D10.1016/j.apgeochem.2007.03.004 – reference: Martynyuk, A.A., Doronicheva, E.V., and Rykova, T.V., Changes in the chemical composition of throughfall beneath pine stand canopy in a technogenically polluted environment, Lisovii Zh., 2011, no. 1, pp. 8–11. – reference: ErshovV.V.LukinaN.V.OrlovaM.A.ZukertN.V.Dynamics of snowmelt water composition in conifer forests exposed to airborne industrial pollutionRuss. J. Ecol.20164746521:CAS:528:DC%2BC28XhslOit7Y%3D10.1134/S1067413616010045 – reference: Shil’tsova, G.V., Role of pine biogeocenoses of the Kivach Nature Reserve in the acidity and composition of natural waters, Tr. Karel. Nauch. Tsentra Ross. Akad. Nauk, no. 10, Petrozavodsk, 2006, pp. 173–179. – reference: ReindsG.J.GroenenbergJ.E.VriesetW.Critical Loads of Copper, Nickel, Zinc, Arsenic, Chromium and Selenium For Terrestrial Ecosystems at a European Scale2006WageningenAlterra – reference: Tsvetkov, V.F. and Tsvetkov, I.V., Promyshlennoe zagryaznenie okruzhayushchei sredy i les (Industrial Pollution of the Environment and Forest), Arkhangelsk: IPTs SAFU, 2012. – reference: HussonF.LeS.PagesJ.Exploratory Multivariate Analysis by Example Using R201710.1201/b21874 – reference: GundersenP.SevelL.ChristiansenJ.R.Do indicators of nitrogen retention and leaching differ between coniferous and broadleaved forests in Denmark?Forest Ecol. Manag.20092581137114610.1016/j.foreco.2009.06.007 – reference: GandoisL.TippingE.DumatC.ProbstA.Canopy influence on trace metal atmospheric inputs on forest ecosystems: Speciation in throughfallAtmos. Environ.2010448248331:CAS:528:DC%2BC3cXht1yiu7s%3D10.1016/j.atmosenv.2009.11.028 – reference: KowalskaA.AstelA.BoczońA.PolkowskaZ.Atmospheric deposition in coniferous and deciduous tree stands in PolandAtmos. Environ.20161331451551:CAS:528:DC%2BC28XkslKmu7k%3D10.1016/j.atmosenv.2016.03.033 – reference: Lukina, N.V. and Nikonov, V.V., Degradational succession of forest ecosystems in the surroundings of Cu-Ni smelter in the Kola Peninsula, Proc. 28th Annual Meeting, Sudbury, Ontario, May,2003, p. 28. – reference: PascaudA.SauvageS.CoddevilleP.Contrasted spatial and long-term trends in precipitation chemistry and deposition fluxes at rural stations in FranceAtmos. Environ.201614628431:CAS:528:DC%2BC28Xos12qs7k%3D10.1016/j.atmosenv.2016.05.019 – reference: HelmisaariH.S.MälkönenE.Acidity and nutrient content of throughfall and soil leachate in three Pinus sylvestris standsScand. J. Forest Res.19894132810.1080/02827588909382542 – reference: De VriesW.DobbertinM.H.SolbergS.Impacts of acid deposition, ozone exposure and weather conditions on forest ecosystems in Europe: An overviewPlant Soil20143801451:CAS:528:DC%2BC2cXjvFWgu7g%3D10.1007/s11104-014-2056-2 – reference: KashulinaG.CaritatP.ReimannC.Snow and rain chemistry around the “Severonikel” industrial complex, NW Russia: Current status and retrospective analysisAtmos. Environ.2014896726821:CAS:528:DC%2BC2cXlvVWiur4%3D10.1016/j.atmosenv.2014.03.008 – reference: Lukina, N.V. and Nikonov V.V., Pitatel’nyi rezhim lesov severnoi taigi (The Nutrient Regime of Northern Taiga Forests), Apatity: Kol’sk. Nauch. Tsentr Ross. Akad. 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Nauk, 1996. – reference: Archegova, I.B. and Kuznetsova, E.G., Effect of woody plants on the chemical composition of precipitation in the course of recovery of mid-taiga forests, Lesovedenie, 2011, no. 3, pp. 34–43. – reference: Lukina, N.V., Polyanskaya, L.M., and Orlova, M.A., Pitatel’nyi rezhim pochv severotaezhnykh lesov (The Nutrient Regime of Soils in Northern Taiga Forests), Moscow: Nauka, 2008. – reference: Dauvalter V.A., Dauvalter M.V., Saltan N.V., and Semenova, E.N., Impact o emissions from mining and smelting works on the chemical composition of atmospheric precipitation (the Monchegorsk site), Geoekologiya, Ser.: Inzh. Geol. Gidrogeol. Geokriol., 2009, no. 3, pp. 228–240. – reference: KorholaA.WeckstromJ.NymanM.Predicting the long-term acidification trends in small subarctic lakes using diatomsJ. Appl. Ecol.1999361021103410.1046/j.1365-2664.1999.00461.x – volume: 89 start-page: 672 year: 2014 ident: 8078_CR13 publication-title: Atmos. 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Snippet	This study is devoted to assessing the interbiogeocenotic and intrabiogeocenotic variation and long-term dynamics of the composition of rain deposition in...
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SubjectTerms	Air pollution Biomedical and Life Sciences Chemical composition Chemical elements Coniferous forests Contamination Coordination compounds Deposition Ecology Emissions Environment Fallout Forests Leaching Lichens Life Sciences Loads (forces) Nickel Northern European region Pine Pollutants Rain Russia Shrubs Smelters snow sorption treeline trees
Title	Assessment of the Composition of Rain Deposition in Coniferous Forests at the Northern Tree Line Subject to Air Pollution
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