References
- Ahi, S.M. & Powers W.L. (1938). Salt tolerance of plants at various temperatures. Plant Physiol., 13(4), 767−789. DOI: 10.1104/pp.13.4.767.10.1104/pp.13.4.76743943616653525
- Baize, D. & Girard M. (Eds.) (1992). Soil classification, principal soils of Europe (in France). Paris : INRA .
- Belyazid, S., Westling, O. & Sverdrup H. (2006). Modelling changes in forest soil chemistry at 16 Swedish coniferous forest sites following deposition reduction. Environ. Pollut., 144, 596−609. DO I: 10.1016/j.envpol.2006.01.018.
- Billet, M., Parker-Jervis, E., Fitzpatric, E.A. & Cresser M.S. (1990). Forest soil chemical changes between 1949/50 and 1987. Eur. J. Soil Sci., 41(1), 133−145. DO I: 10.1111/j.1365-2389.1990.tb00051.x.
- Bouyoucos, G.J. (1926). Rapid determination of the Moisture Content of Soils. Science, 64, 651−652. DO I: 10.1126/ science.64.1670.65.
- Brady, N.C. & Weil R.R. (2002). The nature and properties of soil. New Jersey : Prentice Hall.
- Brown, H.J., Vaz, J.E., Benzo, Z. & Mejias C. (1999). A comparison of extraction and suspension methods for determining exchangeable potassium in soils. Applied Clay Science, 14, 245−255. DO I: 10.1016/S0169-1317(99)00002-2.
- Brugess, P.S. & Breazeale J.F. (1926). Methods for the determination of replaceable bases in soils. Science, 64, 69−70. DOI: 10.1126/science.64.1646.69.10.1126/science.64.1646.6917774472
- Chapman, H.D. & Kelley W.P. (1930). The Determination of the Replaceable Bases and the Base-Exchange Capacity of Soils. Soil Sci., 30, 391−406.10.1097/00010694-193011000-00004
- Cooper, H.P. (1930). Ash constituents of pasture grasses, their standard electrode potentials and ecological significance. Plant Physiol., 5(2), 193−214. doi: 10.1104/pp.5.2.193.10.1104/pp.5.2.19344020916652649
- Ernest, W.S. & Berg E.F.M. (1954). Effect of sewage irrigation upon soils. Sewage and Industrial Wastes, 26(11), 1325−1339.
- Gedroiz, K.K. (1923). On the absorptive power of soils. From a series of papers published in Zhur. Opytn. Agron. 1919−1923. (English translation from the Russian by S.A.Waksman).
- Gedroiz, K.K. (1926). Chemische bodenanalyse. Berlin: Verlag von Gebrüder Bornträger.
- Gedroiz, K.K. (1929). The soil sorption complex and adsorbed soil cations as a basis for soil classification (in Germany). Dresden-Leipzig.
- Gedroiz, K.K. (1931). Exchangeable cations of the soil and the plant. Soil Sci., 32, 51−64.10.1097/00010694-193107000-00005
- Gillman, G.P. & Sumpter E.A. (1986). Modification to the compulsive exchange method for measuring exchange characteristics of soils. Aust. J. Soil Res., 24, 61−66. doi: 10.1071/SR 9860061.
- Hallbacken, L. & Tamm C.O. (1986). Changes in soil acidi ty from 1927 to 1982−1984 in a forest area of south-west Sweden. Scand. J. For. Res., 1(1−4), 219−232. DO I: 10.1080/02827588609382413.
- Haswell, S.J. (Ed.) (1991). Atomic absorption spectrometry, theory, design and applications. Amsterdam: Elsevier.
- Hoenig, M. (1996). Sample preparation steps for analysis by atomic spectroscopy methods: present status. Spectrochim. Acta Part B, 51, 1297−1307. DO I: 10.1016/0584-8547(96)01507-8.
- Houška, J. (2007). Dynamics of soil properties evolutionin natural and close to nature forest ecosystems: Comparison analysis of selected soil properties (in Czech). Dr. Sci Thesis. Brno: MZLU .
- Hrubý, Z. (2001). Dynamics of natural forest geobiocenoses evolution in Western Carpathinans (in Czech). Dr. Sci. thesis. Brno: MZLU .
- IUSS Working Group WRB, World Reference Base for Soil Resources 2006, first update 2007. World Soil Resources Reports No. 103, FAO , Rome.
- Jabiol, B., Brethes, A., Ponge, J.F., Toutain, F. & Brun J.J. (1994). The humus in all its forms (in France). Nancy: ENGREF.
- Klinka, K., Feller, M.C., Lavkulich, L.M. & Kozak A. (1980). Evaluation of methods of extracting soil cations for forest productivity studies in southwestern British Columbia. Can. J. Soil Sci., 60, 697−705. DO I: 10.4141/cjss80-079.
- Maláč, B. (1933). Contribution to the question of sorption complex of principal Moravian soil types (in Czech). Praha: Ministerstvo zemědělství republiky Československé.
- Małek, S., Martinson, L. & Sverdrup H. (2005). Modelling future soil chemistry at a highly polluted forest site at Istebna in Southern Poland using the „SAFE“ model. Environ. Pollut., 137, 568−573. DO I: 10.1016/j.envpol. 2005.01.041.
- Novák, V. & Klika J. (Eds.) (1934). Methods guide of plant sociology and ecology (in Czech). Praha: Sborník výzkumných ústavů zemědělských.
- Oulehle, F., Hleb, R., Houska, J., Samonil, P., Hofmeister, J. & Hruska J. (2010). Anthropogenic acidification effects in primeval forests in the Transcarpathian Mts., western Ukraine. Sci. Total Environ., 408, 856−864. DO I: 10.1016/j.scitotenv.2009.10.059.
- Oulehle, F., Cosby, B.J., Wright, R.F., Hruška, J., Kopáček, J., Krám, P., Evans, C.D. & Moldan F. (2012). Modelling soil nitrogen: The MAG IC model with nitrogen retention lindek to carbon turnover using decomposer dynamics. Environ. Pollut., 165, 158−166. DO I: 10.1016/j.envpol.2012.02.021.
- Perkins, A.T., Barhan, H.N. & King H.H. (1932). Exchangeable bases by soxhlet extraction. Trans. Kans. Acad. Sci., 35, 144−145.10.2307/3624439
- Reynolds, R.J., Aldous, K. & Thompson K.C. (1970). Atomic absorption spectroscopy: A practical guide. New York: Barnes & Noble.
- Selman, A.W. (1925). What is humus? Proc. Natl. Acad. Sci. USA, 11(8), 463−468.
- Silva, B.L.T. (1934). The distribution of „calcicole“ and „calcifuge“ species in relation the the content of the soil in calcium carbonate and exchangeable calcium, and to soil reaction. J. Ecol., 22(2), 532−553. http://www.jstor. org/stable/225618810.2307/2256188
- Smethurst, P.J. (2000). Soil solution and other soil analyses as indicator of nutrient supply: A review. For. Ecol. Manag, 138, 397−411. DO I: 10.1016/S0378-1127(00)00426-6.
- Sumner, M.E. & Miller W.P. (1996). Cation exchange capacity, and exchange coefficients. In D.L. Sparks (Ed.), Methods of soil analysis. Part 2: Chemical properties. Madison: ASA , SSSA, CSSA.
- Šebesta, J., Šamonil, P., Lacina, J., Oulehle, F., Houška, J. & Buček A. (2011). Acidification of primeval forests in the Ukraine Carpathians: Vegetation and soil changes over six decades. For. Ecol. Manag., 262, 1265−1279. DO I: 10.1016/j.foreco.2011.06.024.
- Tamm, C.O. & Hallbäcken L. (1988). Changes in soil acidity in two forest areas with different acid deposition: 1920s to 1980s. Ambio, 17, 56−61.
- Vieira, M.A., Grinberg, P., Bobeda, C.R.R., Reyes, M.N.M. & Campos R.C. (2009). Non-chromatographic atomic spectrometric method in speciation analysis: A review. Spectrochim. Acta Part B, 64, 459−476. DO I: 10.1016/j. sab.2009.04.010.
- Vranová, V. (2005). Influence of species composition on soil sorption properties in imission influenced areas (in Czech). Dr. Sci. Thesis. Brno: MZLU .
- Vrška, T., Adam, D., Hort, L., Kolář, T. & Janík D. (2009). European beech (Fagus sylvatica L.) and silver fir (Abies alba Mill.) rotation in the Carpathians-A developmental cycle or a linear trend induced by man? For. Ecol. Manag., 258, 347−356. DO I: 10.1016/j.foreco.2009.03.007.
- White, R.E. (2006). Principles and practice of soil science: the soil as a natural resource. Oxford: Blackwell.
- Wilde, S.A. (1954). Facts and fallacies. Ecology, 35(1), 89−92. DO I: http://dx.doi.org/10.2307/1931409.10.2307/1931409
- Zbíral, J. (2002). Soil analysis I. Methods operations (in Czech). Brno: ÚKZÚZ.
- Zlatník, A., Korsuň, F., Kočetov, F. & Kseneman M. (1938). Natural forests investigatin in Carpathina Ruthenia (In Czech). Part I. Sborník výzkumných ústavů zemědělských věd ČSR , Sv.152). Brno: Ministerstvo zemědělství republiky Československé.