The usefulness of Mehlich 3 and 1 M HCl extractant to assess copper deficiency in soil for environmental monitoring purpose / Przydatność ekstrahentów Mehlich 3 i 1 M HCl do oceny niedoborów miedzi w glebie pod kątem monitoringu środowiska

ARAỦJO DO NASCIMENTO, CW, FONTES, RLF, MELICIO, ACFD 2003, ‘Copper availability as related to soil copper fractions in oxisols under liming’, Scientia Agricola 60, vol. 1, pp. 167-173.10.1590/S0103-90162003000100025Search in Google Scholar

BORECZEK, B, SUMOREK-GOŁĄBEK, A, JANDA, B 2012, ‘Wielopierwiastkowa analiza gleb metodą Mehlicha III’, Główne Laboratorium Analiz Chemicznych (IUNG-PIB), pp. 1-17. Materiały niepublikowane.Search in Google Scholar

BRENNAN, D, BOLLAND, DA 2006, ‘Comparing soil and tissue testing of copper for early growth of wheat’, Communications inSoil Science and Plant Analysis 39, vol. 9-10, pp. 1451-1470.10.1080/00103620600629027Search in Google Scholar

BRENNAN, D, COULTER, B, MULLEN, G, COURTNEY, R 2008, ‘Evaluation of Mehlich 3 for extraction of copper and zinc from Irish grassland soils and for prediction of herbage content’, Communications in Soil Science and Plant Analysis, vol. 39, pp. 1943-1962.10.1080/00103620802134743Search in Google Scholar

BRUN, LA, MAILLET, J, HINSINGER, P, PẺPIN, M 2001, ‘Evaluation of copper availability to plants in copper-contaminated vineyard soils’, Environmental Pollution, vol. 111, pp. 293-302.10.1016/S0269-7491(00)00067-1Search in Google Scholar

CHILIMBA, ADC, MUGHOGHO, SK, WENDT, J 1999, ‘Mehlich 3 or modified Olsen for soil testing in Malawi’, Communicationsin Soil Science and Plant Analysis 30, vol. 7-8, pp. 1231-1250.10.1080/00103629909370280Search in Google Scholar

DROZD, J, LICZNAR, M, LICZNAR, SE, WEBER, J 2002, Gleboznawstwo z elementami mineralogii i petrografii. Wrocław, pp. 133-171.Search in Google Scholar

FONSECA, AF, CAIRES, EF, BARTH, G 2010, ‘Extraction methods and availability of micronutrients for wheat under a no-till system with a surface application of lime’, Scientia Agricola 67, vol. 1, pp. 60-70.10.1590/S0103-90162010000100009Search in Google Scholar

FOTYMA, M, MERCIK, S, FABER, A 1987, Chemiczne podstawy żyzności gleb i nawożenia. Państwowe Wydawnictwo Rolnicze i Leśne. Warszawa, pp. 199-216.Search in Google Scholar

GARCIA, A, DE IORIO, AF, BARROS, M, BARGIELA, M, RENDINA, A 1997, ‘Comparison of soil tests to determine micronutrients status in Argentina soils’, Communications in Soil Scienceand Plant Analysis 28, vol. 19-20, pp. 1777-1792.10.1080/00103629709369915Search in Google Scholar

GEMBARZEWSKI, H, KORZENIOWSKA, J 1990, ‘Simultaneous extraction of B, Cu, Fe, Mn, Mo and Zn from mineral soils, and an estimation of the results’, Agrobiological Research, vol. 43, pp. 115-127.Search in Google Scholar

GEMBARZEWSKI, H, KORZENIOWSKA, J 1996, ‘Wybór metody ekstrakcji mikroelementów z gleby i opracowanie liczb granicznych przy użyciu regresji wielokrotnej’, Zeszyty ProblemowePostępów Nauk Rolniczych, vol. 434, pp. 353-364.Search in Google Scholar

KARCZEWSKA, A 2002, Metale ciężkie w glebach zanieczyszczonych emisjami hut miedzi - formy i rozpuszczalność. Rozprawa habilitacyjna. Zeszyty Naukowe AR we Wrocławiu. Wydział Rolniczy. Wrocław, 432.Search in Google Scholar

KORZENIOWSKA, J 2008a, Potrzeby nawożenia pszenicy cynkiem, miedzią i borem w warunkach glebowo - klimatycznych Polski. Monografie i Rozprawy Naukowe. IUNG-PIB, 20.Search in Google Scholar

KORZENIOWSKA, J 2008b, ‘Znaczenie niedoboru miedzi w uprawie pszenicy’, Postępy Nauk Rolniczych, vol. 4-5, pp. 15-31.Search in Google Scholar

KHAN, MAR, BOLAN, NS, MACKAY, AD 2005, ‘Soil test to predict the copper availability in pasture soils’, Communications in SoilScience and Plant Analysis 36, vol. 17-18, pp. 2601-2624.10.1080/00103620500257341Search in Google Scholar

LIU, J, LIAO, Z, HU, C, SUN, WQX, TAN, Q 2011, ‘Relationship between Mehlich-3, ASI and routine methods of soil available nutrients analysis for paddy soils in China’, Journal of Food,Agriculture and Environment 9, vol. 1, pp. 516-520.Search in Google Scholar

LOIDE, V, NỎGES, M, REBANE, J 2005, ‘Assessment of the agrochemical properties of the soil using the extraction solution Mehlich 3 in Estonia’, Agronomy Research 3, vol. 1, pp. 73-80.Search in Google Scholar

MCLAUGHLIN, MJ, ZARCINAS, BA, STEVENS, DP, COOK, N 2000, ‘Soil testing for heavy metals’, Communications in SoilScience and Plant Analysis 31, vol. 11-14, pp. 1661-1700.10.1080/00103620009370531Search in Google Scholar

MEHLICH, A 1984, ‘Mehlich 3 soil test extractant: A modification of Mehlich 2 extractant’, Communications in Soil Science andPlant Analysis 15, vol. 12, pp. 1409-1416.10.1080/00103628409367568Search in Google Scholar

MENZIES, NW, DONN, MJ, KOPITTKE, PM 2007, ‘Evaluation of extractants for estimation of the phytoavailable trace metals in soils’, Environmental Pollution, vol. 145, pp. 121-130.10.1016/j.envpol.2006.03.02116777287Search in Google Scholar

RAO, CRM, SAHUQUILLO, A, LOPEZ SANCHEZ, JF 2008, ‘A review of the different methods applied in environmental geochemistry for single and sequential extraction of trace elements in soils and related materials’, Water, Air, & Soil Pollution, vol. 189, pp. 291-333.10.1007/s11270-007-9564-0Search in Google Scholar

RODRIGUEZ, B, RAMIREZ, R 2005, ‘A soil test for determining available copper in acidic soils of Venezuela’, Intercjencia 30, vol. 6, pp. 361-364.Search in Google Scholar

SARTO, MVM, STEINER, F, LANA, MC 2011, ‘Assessment of micronutrient extractants from soils of Paranả, Brazil’, RevistaBrasileira de Ciência do Solo, vol. 35, pp. 2093-2103.10.1590/S0100-06832011000600024Search in Google Scholar

SILVA, MAG, MUNIZ, AS, MATA, JDV, CEGANA, ACV 2003, ‘Extratores para a quantificação do zinco e do cobre em solos cultivados com soja’, Acta Scientarum Agronomy, vol. 26, pp. 361-366.10.4025/actasciagron.v26i3.1832Search in Google Scholar

STANISŁAWSKA - GLUBIAK, E, KORZENIOWSKA, J 2010, ‘Usefulness of 1 mol HCl • dcm−3 extractant to assess copper, zinc and nickel contamination in sandy soil’, Fresenius EnvironmentalBulletin, vol. 19, pp. 589-593.Search in Google Scholar

URE, AM 1991, ‘Trace element speciation in soils, soil extracts and solutions’, Microchimica Acta [Wien], vol. 2, pp. 49-57.10.1007/BF01245495Search in Google Scholar

WALWORTH, JL, GAVLAK, RG, PANCIERA, MT 1992, ‘Mehlich 3 extractant for determination of available B, Cu, Fe, Mn and Zn in cryic Alaskan soils’, Canadian Journal of Soil Science, vol. 72, 517-526.10.4141/cjss92-043Search in Google Scholar

ZBIRAL, J, NEMEC, P 2000, ‘Integrating of Mehlich 3 extractant into the Czech soil. Testing scheme’, Communications in SoilScience and Plant Analysis, vol. 31, 2171-2182.10.1080/00103620009370574Search in Google Scholar