[BECK T.H. 1984. Methods and application of soil microbiological analysis at the Landensanstalt fur Bodnekultur und Pflanzenbau (LBB) for determination of some aspects of soil fertility. in: Proceeding of the Fifth Symposium of Soil Biology, Eds. M.P. Nemes, S. KISS, P. PAPACOSTEA, C. STEFANIC, M. RUSAN. Wyd. Romanian National Society of Soil Science, Bucharest: 13-20.]Search in Google Scholar
[
BIELIŃSKA E.J. 2005. Ocena stanu środowiska glebowego ogrodów działkowych z terenów o różnym oddziaływaniu antropopresji poprzez badanie aktywności fosfataz. Zesz. Probl. Post. Nauk Rol. 505: 51-58.]Search in Google Scholar
[
BIELIŃSKA E.J. 2009. Wpływ ryzosfery na zawartość kadmu i ołowiu w glebach i roślinach warzywnych z terenów o zróżnicowanym wpływie antropopresji. J. Res. Appl. Agric. Engin. 54(3): 16-21.]Search in Google Scholar
[
BRZEZIŃSKA M. 2002. Significance of soil enzymes in nutrient transformation. Acta Agrophysica 65: 5-23.]Search in Google Scholar
[
DE LA PAZ JIMENEZ M., DE LA HORLA A.M., PRUZZO L., PALMA R.M. 2002. Soil quality: a new index based on microbiological and biochemical parameters. Biol. Fertil. Soils 35: 302-306.10.1007/s00374-002-0450-z]Search in Google Scholar
[
EL-SHINNAWI M.M., EL-SHIMI S.A. 1981. Enzymatic activities in salt affected soils. Zentralbl. Mikrobiol. 136 (2): 106-116.]Search in Google Scholar
[
GUWY A.J., MARTIN S.R., HAWKES F.R., HAWKES D.L. 1999. Catalase activity measurements in suspended aerobic biomass and soil samples. Enzym. Microbiol. Technol. 25: 669-676.10.1016/S0141-0229(99)00115-5]Search in Google Scholar
[
HAGEN B., HOWARD K. 2011. The determination of boron, iron, magnesium and zinc in fertilizers using ICP-AES. Concor. Coll. J. Anal. Chem. 2: 51-57.]Search in Google Scholar
[
JOHNSON J.L., TEMPLE K.I. 1964. Some variables affecting measurement of catalase activity in soil. Soil Sci. Soc. Am. Proc. 28: 207-209.10.2136/sssaj1964.03615995002800020024x]Search in Google Scholar
[
Klasyfikacja uziarnienia gleb i utworów mineralnych - PTG 2008. 2009. Rocz. Glebozn. 60, 2: 5-16.]Search in Google Scholar
[
LADD J.M., BUTLER J.H.A. 1972. Short-term assays of soil proteolytic enzyme activity using proteins and dipeptide derivates as substrates. Soil Biol. Biochem. 4: 19-30.10.1016/0038-0717(72)90038-7]Search in Google Scholar
[
LEVI-MINZI R., SAVIOZZI A., CARDELLI R., RIFFALDI R. 2002. Relationships between biological and physico-chemical soil characteristics in a Mediterranean agricultural area. Arch. Acher. Pfl. Boden. 48: 279-288.10.1080/03650340213843]Search in Google Scholar
[
MARGESIN R. 1996. Acid and alkaline phosphomonoesterase with the substrate p-nitrophenyl phosphate. in: Methods in soil biology, Eds. F. Schinner, E. Öhlinger, E. Kandeler, R. Margesin. Springer, Berlin: 213-217.]Search in Google Scholar
[
NEMES, M.P., KISS S., PAPACOSTEA P., STEFANIC C., RUSAN M. Romanian National Society of Soil Science, Bucharest: 35-45.]Search in Google Scholar
[
PACHLOY S.K., Rice E.L. 1973. Soil enzymes in relation to old field succession: amylase, cellulose, invertase, dehydrogenases, and urease. Soil Sci. Soc. Am. J. 37: 47-50.]Search in Google Scholar
[
PIOTROWSKA A., KOPER J. 2010. Soil β-glucosidase activity under winter wheat cultivated in crop rotation systems depleting and enriching the soil in organic matter. J. Elementol. 15(3): 593-600.]Search in Google Scholar
[
SCHLOTER M., SILLY O., MUNCH J.C. 2003. Indicators for evaluating soil quality. Agric. Ecosyst. Environ. 98: 255-262.10.1016/S0167-8809(03)00085-9]Search in Google Scholar
[
SIDDIKEE M.A., TIPAYNO S.C., KIM K., CHUNG J., SA T. 2011. Influence of varying of salinity-sodicity stress on enzyme activities and bacterial population of Coastal soils of Yellow Sea, South Korea. J. Microbiol. Biotechnol. 21 (4): 341–346.10.4014/jmb.1012.12015]Search in Google Scholar
[
STEFANIC F., ELLADE G., CHIRNAGEANU J. 1984. Researches concerning a biological index of soil fertility. in: Proceeding of the Fifth Symposium of Soil Biology, Eds. M.P.]Search in Google Scholar
[
TABATABAI M.A., BREMNER J.M. 1969. Use of p-nitrophenyl phosphate for assay soil phosphatase activity. Soil Biol. Biochem. 1: 307-310.10.1016/0038-0717(69)90012-1]Search in Google Scholar
[
TELESIŃSKI A. 2012. Wpływ zasolenia na wybrane biochemiczne wskaźniki żyzności gleby. Woda Środ. Obsz. Wiej. 12 (1): 209-217.]Search in Google Scholar
[
TELESIŃSKI A., ŚNIOSZEK M., BUŁA K., SMOLIK B., ZAKRZEWSKA H. 2010. Some biochemical parameters and phytotoxicity of soil from a reclaimed pesticide tomb in Banie community. in: Physical, chemical and biological processes in soils, Eds. L.W. Szajdak, A.K. Karabanov, Prodruk, Poznań: 411-420.]Search in Google Scholar
[
THALMANN A. 1968. Zur Methodik der Bestimmund der Dehydrogenasesaktivität im Boden mittels Triphenyltetrazoliumchlorid (TTC). Landwritsch. Forsch. 21: 249-258.]Search in Google Scholar
[
WOJCIESZCZUK M., WOJCIESZCZUK T. 2009. Wpływ wprowadzonych anionów do gleby w postaci soli wapnia na niektóre właściwości chemiczne. Zesz. Probl. Post. Nauk Rol. 538: 347-355.]Search in Google Scholar
[
WOJCIESZCZUK T. 1996. The soil column for laboratory examinations of irrigated soil. PO nr 54427. WUP, 8. Wydawnictwo Urzędu Patentowego RP. Warszawa.]Search in Google Scholar
[
WONGPOKHOM N., KHEORUENROMNE I., SUDDHIPRAKARN A., SMIRK M., GILKES R.J. 2008: Geochemistry of salt-affected aqualfs in Northeast Thailand. Soil Sci. 173: 143-16710.1097/SS.0b013e31815ce72b]Search in Google Scholar