[Alewell, C., Manderscheid, B., Meesenburg, H., Bittersohl, J., 2000. Environmental chemistry: is acidification still an ecological threat? Nature, 407: 856–857.10.1038/3503815811057655]Search in Google Scholar
[Barna, M., 2004. Adaptation of European beech (Fagus sylvatica L.) to different ecological conditions: leaf size variation. Polish Journal of Ecology, 52: 35–45.]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
[Fecenko, J., Ložek, O., 2000. Výživa a hnojenie poľných plodín [Nutrition and fertilization of field crops]. Nitra: Slovenská poľnohospodárska univerzita. 452 p.]Search in Google Scholar
[Fecenko, J., Ložek, O., Kulich, S., 2010. Importance of application of sulphur fertilizers in Slovak Republic. [cit. 2017-01-07]. http:/www.agris.cz:6]Search in Google Scholar
[Hančinský, L., 1972. Lesné typy Slovenska [The forest types of Slovakia]. Bratislava: Príroda. 307 p.]Search in Google Scholar
[Hrkal, Z., Prchalová, H., Fottová, D., 2006. Trends in impact of acidification on groundwater bodies in the Czech Republic; an estimation of atmospheric deposition at the horizon 2015. Journal of Atmospheric Chemistry, 53: 1–12.]Search in Google Scholar
[Hruška, J., Cienciala, E., Moravčík, P., Navrátil, T., Hofmeister, J., 2001. Acidifikace a nutriční degradace lesních půd [The long-term acidification and nutric degradation of forest soils]. Lesnická Práce, 80: 24–32.]Search in Google Scholar
[Hruška, J., Majer, V., Fottová, D., 2006. The influence of acid rain on surface waters in the Giant Mountains. Opera Corcontica, 43: 95–110.]Search in Google Scholar
[Janík, R., Bublinec, E., Dubová, M., 2012a. Sulphate concentration and SO42− flux in soil solutions in the West Carpathians Mountains on an example of submontane beech forest stand. Journal of Forest Science, 58: 35–44.10.17221/122/2010-JFS]Open DOISearch in Google Scholar
[Janík, R., Bublinec, E., Dubová, M., 2012b. The concentration of SO42− and amount of S-SO42− in soil water and throughfall in beech forest of Štiavnické vrchy Mts, Slovakia. Folia Oecologica, 39: 28–35.]Search in Google Scholar
[Kaiser, K., Guggenberger, G., 2005. Dissolved organic sulphur in soil water under Pinus sylvestris L. and Fagus sylvatica L. stands in northeastern Bavaria, Germany variations with seasons and soil depth. Biogeochemistry, 72: 337–364.10.1007/s10533-004-0155-5]Open DOISearch in Google Scholar
[Kantor, P., Lochman J., 1985. Působení smrkových a bukových porostů v Orlických horách na chemismus vody při odtoku do vodních zdrojů [Effects of Norway spruce and beech forests in the Orlické hory Mts on chemistry of water disposable to runoff into water resources]. Zprávy Lesnického Výzkumu, 30: 5–9.]Search in Google Scholar
[Katutis, K., Repsiene, R., Baltramaityte, D., 2008. The effects of different soil genesis on the concentration of biogenic elements in lysimetric water. Agronomijas Věstis. Latvian Journal of Agronomy, 10: 37–41.]Search in Google Scholar
[Kaňa, J., Kopáček, J., 2005. Sulphate sorption characteristics of the Bohemian Forest soils. Silva Gabreta, 11: 3–12.]Search in Google Scholar
[Kellerová, D., 2005. The air pollution in the surroundings of an aluminium plant. Ekológia (Bratislava), 24 (1): 122–128.]Search in Google Scholar
[Kopáček, J., Vrba, J., 2006. Integrated ecological research of catchment-lake ecosystems in the Bohemian Forest (Central Europe): A preface. Biologia, 61, Suppl. 20: 363–370.10.2478/s11756-007-0078-4]Search in Google Scholar
[Kukla, J., 1988. Chemizmus lyzimetrických roztokov a migrácia živín v pôdach vybraných lesných ekosystémov [Chemistry of lysimetric solutions and migration of nutrients in the soil of selected forest ecosystems]. Final report VI-4-2/04. Zvolen: ÚEL CBEV SAV. 54 p.]Search in Google Scholar
[Kukla, J., 1990. Dynamika geochemických procesov v pôdach vybraných lesných ekosystémov [Dynamics of geochemical processes in soils of selected forest ecosystems]. Final report. Zvolen: Ústav ekológie lesa SAV. 102 p.]Search in Google Scholar
[Kukla, J., 2002. Variability of solutions percolated through cambisol in a beech ecosystem. Ekológia (Bratislava), 21, Suppl. 2: 13–25.]Search in Google Scholar
[Kukla, J., Kontriš, J., Kontrišová, O., Gregor, J., Mihálik, A., 1998. Causes of floristical differentiation of Dentario bulbiferae – Fagetum (Zlatník 1935) Hartmann 1953 and Carici pilosae – Fagetum Oberd. 1957 associations. Ekológia (Bratislava), 17 (2): 177–186.]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 (2): 72–78.10.17221/881/2014-PSE]Search in Google Scholar
[Lindroos, A.J., Derome, J., Derome, K., Lindgren, M., 2006. Trends in sulphate deposition on the forest and forest floor and defoliation degree in 16 intensively studies forest stands in Finland during 1996–2003. Boreal Environment Research, 11: 451–460.]Search in Google Scholar
[Lošák, T., Čermák, P., Hlušek, J., 2012. Changes in fertilisation and liming of soils of the Czech Republic for the last 20 years. Archives of Agronomy and Soil Science, 58, Suppl. 1: 238–242.10.1080/03650340.2012.698732]Search in Google Scholar
[Lošák, T., Hlušek, J., Martinec, J., Vollmann, J., Peterka, J., Filipčík, R., Varga, L., Ducsay, L., Martensson, A., 2011. Effect of combined nitrogen and sulphur fertilization on yield and qualitative parameters of Camelina sativa [L.] Crtz. (false flax). Acta Agriculturae Scandinavica. Section B, Soil and Plant Science, 61 (4): 313–321.10.1080/09064710.2010.490234]Search in Google Scholar
[Lošák, T., Vollmann, J., Hlušek, J., Peterka, J., Filipčík, R., Prášková, L., 2010. Influence of combined nitrogen and sulphur fertilization on False flax (Camelina sativa [L.] Crtz.) yield and quality. Acta Alimentaria, 39 (4): 431–444.10.1556/AAlim.39.2010.4.5]Open DOISearch in Google Scholar
[Minďáš, J., Škvarenina, J., Závodský, J., Kremler, M., Molnárová, H., Pavlenda, P., Kunca, V., 2001. Doterajšie výsledky hodnotenia kritických úrovní a záťaží na Slovensku [Present results of critical levels/loads estimation in Slovakia]. In Bioklimatológia a životné prostredie. XIII. bioklimatologická konferencia SBkS a ČBkS. [Bratislava]: Slovenská bioklimatologická spoločnosť SAV. 11 p. 1 electronic optical disc (CD-ROM).]Search in Google Scholar
[Ministry of Environment of the Slovak Republic, 2010. State of the environment report Slovak Republic. Bratislava: Ministry of the Environment of the Slovak Republic. 177 p.]Search in Google Scholar
[Novák, M., Mitchel, M. J., Jačková, I., Buzek, F., Schweistillová J., Erbanová, L., Přikryl, R., Fottová, D., 2007. Processes affecting oxygen isotope ratios of atmospheric and ecosystem sulphate in two contrasting forest catchments in Central Europe. Environmental Science and Technology, 41 (3): 703–709.10.1021/es061002817328173]Open DOISearch in Google Scholar
[Novotný, R., Lachmanová, Z., Šrámek, V., Vortelová, L., 2008. Air pollution load and stand nutrition in the Forest District Jablunkov, part Nýdek. Journal of Forest Science, 54: 49–54.10.17221/797-JFS]Open DOISearch in Google Scholar
[Pavlenda, P., Pajtík, J., Priwitzer, T., Capuliak, J., Konôpka, J., Pavlendová, H., Sitková, Z., Tóthová, S., 2012. Monitoring lesov Slovenska. Projekt Futmon, ČMS Lesy 2011 [Forests monitoring in the Slovak Republic. Futmon project, Partial monitoring system Forests 2011]. Zvolen: Národné lesnícke centrum – Lesnícky výskumný ústav. 113 p.]Search in Google Scholar
[Pichler, V., Bublinec, E., Gregor, J., 2006. Acidification of forest soil in Slovakia – causes and consequences. Journal of Forest Science, 52: 23–27.10.17221/10156-JFS]Open DOISearch in Google Scholar
[Quilchano, C., Haneklaus, S., Gallardo, J.C., Schnug, E., Moreno, G., 2002. Sulphur balance in a broadleaf, non-polluted, forest ecosystem (central western Spain). Forest Ecology and Management, 161: 205–214.10.1016/S0378-1127(01)00483-2]Search in Google Scholar
[Schieber, B., 2006. Phenology of leafing and yellowing of leaves in selected forest trees in Slovakia. Journal of Forest Science, 4: 29–36.]Search in Google Scholar
[Tarrason, L., Fagerli, H., Klein, H., Simpson, D., Benedictow, A.C., Vestreng, V., Rigler, E., Emberson, L., Posch, M., Spranger, T., 2006. Transboundary acidification, eutrophication and ground level ozone in Europe from 1990 to 2004 in support for the review of the Gothenburg Protocol. EMEP status report, 1/2006. Oslo: Norwegian Meteorological Institute. [cit. 2017-09-09]. http://emep.int/publ/reports/2006/status_report_1_2006_ch.pd]Search in Google Scholar
[Tejnecký, V., Bradová, M., Borůvka, L., Němeček, K., Šebek, O., Nikodém, A., Zenáhlíková, J., Rejzek, J., Drábek, O., 2013. Profile distribution and temporal changes of sulphate and nitrate contents and related soil properties under beech and spruce forests. Science of the Total Environment, 442: 165–171.10.1016/j.scitotenv.2012.10.05323178776]Search in Google Scholar
[Tesař, M., Šír, M., Fottová, D., 2004. Usazené zrážky na Šumavě: Deposited precipitation in the Bohemian Forest. Aktuality Šumavského Výzkumu, 2: 79–83.]Search in Google Scholar
[Tuček, A., Škvarenina, J., Vorčák, J., 2004. Application GIS in study of emission load in the mountain ecosystems of Oravske Beskydy – Babia Hora Mts. In Šiška, B., Igáz, D. (eds). Climate change – weather extrems – organisms and ecosystems. International bioclimatological conference. Vinicky, 23–26. 8. 2004 [electronic resource]. Nitra: SPU, p. 16.]Search in Google Scholar
[Urminská, J., Khun, M., Jurkovič, Ľ., 2000. Risk of influence of certain non-desired elements in the environment of the Žiarska kotlina Basin and their relation to the health state of the local population. In Monitorovanie a hodnotenie stavu životného prostredia III. Zborník referátov. Zvolen: Technická univerzita vo Zvolene, p. 165–173.]Search in Google Scholar
[Zlatník, A., 1959. Přehled slovenských lesů podle skupin lesních typů [The overview of Slovak forests by groups of forest types]. Spisy Vĕdecké laboratoře biogeocenologie a typologie lesa Lesnické fakulty Vysoké školy zemĕdĕlské v Brnĕ, číslo 3. Brno: Lesnická fakulta Vysoké školy zemĕdĕlské v Brnĕ. 195 p.]Search in Google Scholar
[Zlatník, A., 1976. Lesnická fytocenologie [Forest phytocenology]. Praha: SZN. 495 p.]Search in Google Scholar
[Žaltauskaitė, J., Juknys, R., 2009. Throughfall chemistry and canopy interactions in urban and suburban coniferous stand. Environmental Research Engineering and Management, 4: 6–12.]Search in Google Scholar