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Contents of nutrients and arsenic in litterfall and surface humus in mature nudal beech stands subjected to different emission-immission loads


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Zákon č. 220/2004 o ochrane a využívaní poľnohospodárskej pôdy. Príloha 2 - Limitné hodnoty rizikových látok v poľnohospodárskej pôde [Act No. 220/2004 on protection and use of agricultural soil. Appendix 2 - Limit values of risk elements in agricultural soil].Search in Google Scholar

Adriano, D.C., 2002. Trace elements in the terrestrial environment. New York: Springer. 867 p.10.1007/978-0-387-21510-5Search in Google Scholar

Augusto, A., Dupouey, J.L., Ranger, J., 2003. Effect of tree species on understory vegetation and environmental conditions in temperate forests. Annals of Forest Science, 60: 823-831.10.1051/forest:2003077Search in Google Scholar

Augusto, L., Ranger, J., Binkley, D. Rothe, A., 2002. Impact of several common tree species of European temperate forests on soil fertility. Annals of Forest Science, 59: 233-253.10.1051/forest:2002020Search in Google Scholar

Bech, J., Poschenrieder, C., Llugany, M., Barceló, J., Tume, P., Tobias, F.J., Barranzuela, J.L., Vásquez, E.R., 1997. Arsenic and heavy metal contamination of soil and vegetation around a copper mine in Northern Peru. Science of the Total Environment, 203: 83-91.10.1016/S0048-9697(97)00136-8Search in Google Scholar

Berger, T. W., Untersteiner, H., Toplitzer, M., Neubauer, Ch., 2009. Nutrient fluxes in pure and mixed stands of spruce (Picea abies) and beech (Fagus sylvatica). Plant and Soil, 322: 317-342.10.1007/s11104-009-9918-zSearch in Google Scholar

Bieńkowski, P., Titlyanova, A.A., Shibareva, S.V., 2006. Chemical properties of litter of forest and grassland ecosystems: transect studies in Siberia (Russia). Polish Journal of Ecology, 54: 91-104.Search in Google Scholar

Bublinec, E., 1994. Koncentrácia, akumulácia a kolobeh prvkov v bukovom a smrekovom ekosystéme [Concentration, accumulation and cycling of elements in beech and spruce ecosystems]. Acta Dendrobiologica. Bratislava: Veda. 132 p.Search in Google Scholar

Carnol, M., Bazgir, M., 2013. Nutrient return to the forest floor through litter and througufall under 7 forest species after conversion from Norway spruce. Forest Ecology and Management, 309: 66 - 75.10.1016/j.foreco.2013.04.008Search in Google Scholar

Ditmarová, Ľ., KmeŤ, J., 2002. Physiological and biochemical aspects of stress impact on beech saplings growing under varying site conditions. Biologia, Bratislava, 57: 533-540.Search in Google Scholar

Dubová, M., Bublinec E., 2006. Evaluation of sulphur and nitrate-nitrogen deposition to forest ecosystems. Ekológia (Bratislava), 25: 366-376.Search in Google Scholar

Geisler, R., Hogberg, M., Hogberg, P., 1998. Soil chemistry and plants in Fennoscandian boreal forest as exemplified by a local gradient. Ecology, 79: 119-137.10.1890/0012-9658(1998)079[0119:SCAPIF]2.0.CO;2Search in Google Scholar

González-Arias, A., Amezaga, I., Echeandia, A., Domingo, M., Onaindia, M., 1998. Effects of pollution on the nutrient return vialitterfall for Pinus radiata plantations in the Basque Country. Plant Ecology, 139: 247-258.10.1023/A:1009771903599Search in Google Scholar

IUSS Working Group WRB. World reference base for soil resources 2014, update 2015. International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports, No. 106. Rome: FAO. 193 p.Search in Google Scholar

Izakovičová, Z., Miklós, L., Pauditšová, E., 1998. Ecological problems resulting from the conflict of interest in Žiarska kotlina region. Životné Prostredie, 32 (6): 318-324.Search in Google Scholar

Jamnická, G., Bučinová, K., Havranová, I., Urban, A., 2007. Current state of mineral nutrition and risk elements in a beech ecosystem situated near the aluminium smelter in Žiar nad Hronom, Central Slovakia. Forest Ecology and Management, 248 (1-2): 26-35.10.1016/j.foreco.2007.02.033Search in Google Scholar

Kavvadias, V.A., Alifragis, D., Tsiontsis, A., Brosfas, G., Stamatelos, G., 2001. Litterfall, litter accumulation and litter decomposition rates in four forest ecosystems in northern Greece. Forest Ecology and Management, 144 (1): 113-127.10.1016/S0378-1127(00)00365-0Search in Google Scholar

Kobza, J., Gašová, K., 2014. Soil monitoring system as a basic tool for protection of soils and sustainable land use in Slovakia. Journal of Agricultural Science and Technology, 4: 504-513.Search in Google Scholar

Kuklová, M., Hniličková, H., Kukla, J., Hnilička, F., 2015. Environmental impact of the Al smelter on physiology and macronutrient contents in plants and Cambisols. Plant, Soil and Environment, 61: 72 - 78.10.17221/881/2014-PSESearch in Google Scholar

Langenbruch, Ch., Helfrich, M., Flessa, H., 2012. Effects of beech (Fagus sylvatica), ash (Fraxinus excelsior) and lime (Tilia spec.) on soil chemical properties in a mixed deciduous forest. Plant and Soil, 352 (1): 389 - 403.10.1007/s11104-011-1004-7Search in Google Scholar

Liao, J.H., Wang, H.H., Tsai, Ch.Ch., Hseu, Z.Y., 2006. Litter production, decomposition and nutrient return of uplifted coral reef tropical forest. Forest Ecology and Management, 235 (1-3): 174-185.10.1016/j.foreco.2006.08.010Search in Google Scholar

Markert, B., 1995. Instrumental multielement analysis in plant materials. A modern method in environmental chemistry and tropical system research. Série Tecnologia Ambiental, 8. Rio de Janeiro: CETEM. 33 p.Search in Google Scholar

Miklós, L. et al. (eds.), 2002. Atlas krajiny Slovenskej republiky [Landscape atlas of the Slovak Republic]. Bratislava: Ministerstvo životného prostredia SR. 343 p.Search in Google Scholar

Neirynck, J., Mirtcheva, S., Sioen, G., Lust, N., 2000. Impact of Tilia platyphyllos Scop., Fraxinus excelsior L., Acer pseudoplatanus L., Quercus robur L., and Fagus sylvatica L. on earthworm biomass and physico-chemical properties of loamy topsoil. Forest Ecology and Management, 133 (3): 275-286.10.1016/S0378-1127(99)00240-6Search in Google Scholar

Novák, J., Dušek, D., Slodičák, M., 2014. Quantity and quality of litterfall in young oak stands. Journal of Forest Science, 60: 219-225.10.17221/2/2014-JFSSearch in Google Scholar

Novák, M., Emmanuel, S., Vile, M.A., Erel, Y., Veron, A., Paces, T., Wieder, R.K., Vanecek, M., Stepanova, M., Brizova, E., Hovorka, J., 2003. Origin of lead in eight Central European peat bogs determined from isotope ratios, strengths, and operation times of regional pollution sources. Environmental Science and Technology, 37: 437-445.10.1021/es0200387Search in Google Scholar

Pelíšek, J., 1964. Lesnické půdoznalectví [Pedology basics]. Praha: SZN. 568 p.Search in Google Scholar

Porter, E.K., Peterson, P.J., 1975. Arsenic accumulation by plants on mine waste (United Kingdom). Science of the Total Environment, 4 (4): 365-371.10.1016/0048-9697(75)90028-5Search in Google Scholar

Shotyk, W., Weiss, D., Appleby, P.G., Cheburkin, A.K., Frei, R., Gloor, M., Kramers, J.D., Reese, S., Van Der Knaap, W.O., 1998. History of atmospheric lead deposition since 12,370 14C yr BP from a Peat Bog, Jura Mountains. Switzerland. Science, 281: 1635-1640.10.1126/science.281.5383.16359733502Search in Google Scholar

Slovalco, 2014. Statistics, the quantities of pollutants in emissions in 1997-2014 [cit. 2016-06-13]. https://www.slovalco.sk/web/homepage_ns.nsf/mainFrameset?OpenFrameseSearch in Google Scholar

Societas pedologica slovaca, 2014. Morfogenetický klasifikačný systém pôd Slovenska. Bazálna referenčná taxonómia [Morphogenetic soil classification system of Slovakia. Basal reference taxonomy]. Bratislava: NPPC - VÚPOP. 96 p.Search in Google Scholar

Staelens, J., Nachtergale, L., Schrijver, A., Vanhellemont, M., Wuyts, K., Veheyen, K., 2011. Spatio-temporal litterfall dynamics in a 60-year-old mixed deciduous forest. Annals of Forest Science, 68: 89-98.10.1007/s13595-011-0010-5Search in Google Scholar

Swank, W., 1986. Biological control of solute losses from forest ecosystems. In Trudgill, S. T. (ed.). Solute processes. London: John Wiley and Sons, p. 85-139.Search in Google Scholar

Šimková, I., 2014. Vplyv porastotvornej dreviny na vlastnosti lesných pôd a diverzitu fytocenóz [Influence of edificator tree species on the properties of forest soils and diversity of phytocoenoses]. PhD thesis. Zvolen: Technical University in Zvolen, Faculty of Ecology and Environmental Sciences. 121 p.Search in Google Scholar

Šimková, I., Kuklová, M., Kukla, J., 2014. Accumulation of Ct and Nt in humus and mineral soil layers: the effect of change of tree species composition in nudal beech forests. Folia Oecologica, 41: 82-91.Search in Google Scholar

Tang, R., Wang, H., Luo, J., Gong, Y., She, J., Chen, Y., Dandan, Y., Zhan, J., 2015. Spatial distribution and temporal trends of mercury and arsenic in remote timberline coniferous forests, eastern of the Tibet Platau, China. Environmental Science and Pollution Research International, 22: 11658-11668.10.1007/s11356-015-4441-725850747Search in Google Scholar

Temple, P.J., Linzon, S.N., Chai, B.L., 1977. Contamination of vegetation and soil by arsenic emissions from secondary lead smelters. Environmental Pollution, 12 (4): 311-320.10.1016/0013-9327(77)90025-8Search in Google Scholar

Vitousek, P. M., Sanford, R. L., 1986. Nutrient cycling in moist tropical forest. Annual Review of Ecology and Systematics, 17: 137-167.10.1146/annurev.es.17.110186.001033Search in Google Scholar

Wannaz, E.D., Rodriguez, J.H., Wolfsberger, T., Carreras, H.A., Pignata, M.L., Fangmeier, A., Franzaring, J., 2012. Accumulation of aluminium and physiological status of tree foliage in the vicinity of large aluminium smelter. The Scientific World Journal, vol. 112, Article ID 865927: 7 pages.10.1100/2012/865927335466722654642Search in Google Scholar

Wulf, M., Naaf, T., 2009. Herb layer response to broadleaf tree species with different leaf litter quality and canopy structure in temperate forests. Journal of Vegetation Science, 20: 517-526.10.1111/j.1654-1103.2009.05713.xSearch in Google Scholar

Xiaogai, G., Lixiong, Z., Wenfa, X., Zhilin, H., Xiansheng, G., Benwang, T., 2013. Effect of litter substrate quality and soil nutrients on forest litter decomposition: a review. Acta Ecologica Sinica, 33: 102-108.10.1016/j.chnaes.2013.01.006Search in Google Scholar

Zlatník, A., 1976. The survey of groups of types of geobiocoenoses primarily forest and shrubby in the C.S.S.R. News of Geographic Institute Brno, 13: 55-64.Search in Google Scholar

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