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Tom
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6--10
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Bibliogr. 34 poz.
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autor
- Politechnika Warszawska, Wydział Instalacji Budowlanych, Hydrotechniki i Inżynierii Środowiska, 00-653 Warszawa, Nowowiejska 20
Bibliografia
- [1] Alloway B.J., Morgan H.: The behavior and availability of Cd, Ni and Pb in polluted soils. Contaminated Soils. Dordrecht, the Netherlands,101-113, 1986.
- [2] Arain M.B., Kazi T.G., Jamali M.K., Jalbani N., Afridi H.I., Baig J.A.: Speciation of heavy metals in sediment by conventional, ultrasound and microwave assisted single extraction methods: A comparison with modified sequential extraction procedure. Journal of Hazardous Materials, 154: 998-1006, 2008.
- [3] Benitez L.N., Dubois J.P.: Evaluation of the selectivity of sequential extraction procedures applied to the speciation of cadmium in soils. Nt. J.Environ. Anal. Chem., 74: 289-303, 1999.
- [4] Chandra Sekhar K., Rajni Supriya K., Kamala C.T., Chary N.S., Nageswara Rao T., Anjaneyulu Y.: Speciation, accumulation of heavy metals in vegetation grown on sludge amended soils and their transfer to human food chain - a case study. Toxicological and Environmental Chemistry, 88: 33-43, 2001.
- [5] Chen M., Ma L.Q.,: Comparison of three aqua-regiadigestion metods for twenty Florida soils. Soil Sci. Soc. Am., 65:491-499, 2001.
- [6] Chojnacka K., Chojnacki A., Goórecka H., Goórecki H.: Bioavailability of heavy metals from polluted soils to plants. Science of the Total Environment, 337: 175-182, 2005.
- [7] Clark S.B., Johnson W.M., Malek M.A., Serkiz S.M., Hinton T.G.: A comparison of sequential extraction techniques to estimate geochemical controls on the mobility of fission product, actinide, and heavy metal contamination in soils. Radiochim. Acta, 74: 131-179, 1996.
- [8] Cornelis A.M. van Gestel: Physico-chemical and biological parameters determine metal bioavailability in soils. Science of the Total Environment, 406: 385-395, 2008 .
- [9] Davis B. E.: Inter-ralationship between soil properties and the uptake of cadmium, copper, lead and zinc from contaminated soil by radish (Raphanus sativus L.). Water, air and Soil Pollution, 63, 331- 342, 1992.
- [10] Desmet G.M.,Van Loon L.R., Howard B.J.: Chemical speciation and bioavailability of elements in the environment and their relevance to radioecology. The Science of the Total of Environment,100: 10-124,1991.
- [11] Gembarzewski H., Korzeniowska J.: Wybór metody ekstrakcji mikroelementów z gleby i opracowanie liczb granicznych przy użyciu regresji wielokrotnej. Zesz. Prob. Post. Nauk Rol., 434: 353-364, 1996.
- [12] Hamelink, J.L., Landrum P.F., Bergman H.L., Benson W.H.: Bioavailability. Physical, Chemical and Biological Interactions, CRC Press, Boca Raton, FL 1994.
- [13] Han FX, A Banin, WL Kingery, GB Triplett, LX Zhou, SJ Zheng, WX Ding: New approach to studies of heavy metal redistribution in soil. Advances in Environmental Research 8 (1): 113-120, 2003.
- [14] Han FX, A Banin: Long-term transformation and redistribution of potentially toxic heavy metals in arid-zone soils: II. Incubation at the field capacity moisture content. Water, air, and soil pollution 114 (3-4): 221-250, 1999.
- [15] Han, F.X., Banin A.: Long-term transformations and redistribution of potentially toxic heavy metals in arid-zone soils. I: Incubation under saturated conditions, Water Air Soil Poll., 95, 399, 1997.
- [16] Hani H.: Soil analysis as a tool to predict effect on the environment. Commun. Sol Sci. Plant Anal., 27:289-306, 1996.
- [17] Houba V.J.G., Lexmond Th.M., Novozamsky J.J., Van Der Lee J.: State of the art and futures developments in soil analysis for bioavailability assessment. Sc. Total Environ., 178: 21-28, 1996.
- [18] Islam Eu., Yang X.E., He Z.L., Mahmood Q.: Assessing potential dietary toxicity of heavy metals in selected vegetables and food crops, J Zhejiang Univ Sci B. Jan;8(1):1-13, 2007.
- [19] Karakaseva E., Boev B., Zajkova V.: Total and extractable forms of Cu, Zn, Ni, Cr, and Fe in vineyard soil (Valandovo valley, Macedonia) determined by a sequential extraction procedure. Macedonian Journal of Chemistry and Chemical Engineering, 31(2): 271- 283, 2012.
- [20] Lamb D.T., Ming H., Megharaj M., Naidu R..: Heavy metal (Cu, Zn, Cd and Pb) partitioning and bioaccessibility in uncontaminated and long-term contaminated soils. J Hazard Mater, 171(1-3):1150- 8, 2009.
- [21] Li J, Xie ZM, Zhu YG, Naidu R.: Risk assessment of heavy metal contaminated soil in the vicinity of a lead/zinc mine. J Environ Sci (China), 17(6):881-5, 2005.
- [22] Lo I. M. C, Yang X. Y.: EDTA extractions of heavy metals from different soil fractions and synthetic soils. Water, air and Soil Pollution, 109 (1-4): 219-236, 1999.
- [23] Massas I., Kalivas D., Ehaliotis C., Gasparatos G.: Total and available heavy metal concentrations in soils of the Thriassio plain (Greece) and assessment of soil pollution indexes Agricultural University of Athens, Athens, Greece, Environmental Monitoring and Assessment, 2013; DOI:10.1007/s10661-013- 3062-1.
- [24] McGrath D.: Application of single and sequential extraction procedures to polluted and unpolluted soils, Sc. Total Environ., 178: 37-44, 1996.
- [25] McLaughlin M.J., Hamon R.E., McLaren R.G., Speir T.W, Rogers S.L.: Bioavailability-based rationale for controlling metal and metalloid contamination of agricultural land in Australia and New Zealand, Aust. J. Soil Res., 38.
- [26] Niesiobędzka K.: Mobilność i biodostępność wybranych metali w ekosystemach trawiastych. Prace Naukowe, Inżynieria Środowiska, z. 77, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2018 (ISBN 978-83-7814-756-5).
- [27] Niesiobędzka K.: Specjacja metali ciężkich w aspekcie właściwości gleb, Obieg pierwiastków w przyrodzie, Monografia T.1, IOŚ, Warszawa 2001.
- [28] Peijnenburg W.J.G., Zablotskaja M., Vijver M.G.: Monitoring metals in terrestrial environments within a bioavailability and focus on soil extraction. Ecotox Environ Safe, 67:163-179, 2007.
- [29] Peijnenburg, W., Posthuma L., Eijsackers H., Allen H.: A conceptual framework for implementation of bioavailability of metals for environmental management purposes, Ecotoxicol. Environ. Saf., 37: 163- 172, 1997.
- [30] Quevauviller P., Rauret G., Lopez-Sanchez J. F., Rubio R., Ure A., Muntau H.: Certification of trace metal extractable contents in a sediment reference material (CRM 601) following a three-step sequential extraction procedure, Science of the Total Environment, 205: 223-234, 1997.
- [31] Rauret G., Lopez-Sanchez J.F., Sahuquillo A., Rubio R., Davidson C., Ure A., Quevauviller P.: Improvement of the BCR three step sequential extraction procedure prior to the certification of new sediment and soil reference materials. J Environ Monit, 1:57-61, 1999.
- [32] Rieuwerts J.S., Ashmore M.R., Farago M.E, Thornton I.: The influence of soil characteristics on the extractability of Cd, Pb and Zn in upland and moorland soils. Sci Total Environ, 366 (2-3):864-75, 2006.
- [33] Siepak J.: Kierunki i tendencje rozwoju współczesnej analityki próbek środowiskowych. VI Ogólnopolska Konferencja Naukowa. Ustronie Morskie, 56-78, 2003.
- [34] Tessier A., Campbell P.G.C., Bisson M.: Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry, 51(.7): 344-351, 1979.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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