References
- Abad-Valle P, Álvarez-Ayuso E, Murciego A, Muñoz-Centeno LM, Alonso-Rojo P, Villar-Alonso P. 2018. Arsenic distribution in a pasture area impacted by past mining activities. Ecotoxicol Environ Saf. 147:228–237.
- Alexandratos VG, Elzinga EJ, Reeder RJ. 2007. Arsenate uptake by calcite: macroscopic and spectroscopic characterization of adsorption and incorporation mechanisms. Geochim Cosmochim Acta. 71:4172–4187.
- Alloway BJ. 2013. Heavy metals in soils. Trace metals and metalloids in soils and their bioavailability. Environ pollut. 22:241-282.
- Alvarez R, Ordóñez A, Loredo J. 2006. Geochemical assessment of an arsenic mine adjacent to a water reservoir (León, Spain). Environ Geol. 50:873–884.
- Beeston MP, Van Elteren JT, Šlejkovec Z, Glass HJ. 2008. Migration of arsenic from old tailings ponds - A case study on the King Edward Mine, Cornwall, UK. Environ Res. 108:28–34.
- Bouyoucos GH. 1951. A recalibration of the hydrometer method for making mechanical analysis of soils. Agron J. 43:434–438.
- Buschmann J, Kappeler A, Lindauer U, Kistler D, Berg M, Sigg L. 2006. Arsenite and arsenate binding to dissolved humic acids: influence of pH type of humic acid, and aluminum. Environ Sci Technol. 40:6015–6020.
- Caille N, Swanwick S, Zhao FJ, McGrath SP. 2004. Arsenic hyperaccumulation by Pteris vittata from arsenic contaminated soils and the effect of liming and phosphate fertilization. Environ Pollut. 132:113–120.
- Chang SC, Jackson ML. 1957. Fractionation of soil phosphorus. Soil Sci. 84:133–144.
- Demetriades A. 1999. Geochemical atlas of the Lavrion urban area for environmental protection and planning. Vol. 2. Institute of Geology and Mineral Exploration, Athens, Greece, Open File Report.
- Drahota P, Grösslová Z, Kindlová H. 2014. Selectivity assessment of an arsenic sequential extraction procedure for evaluating mobility in mine wastes. Anal Chim Acta. 839:34–43.
- Dybowska A, Farago M, Valsami-Jones E, Thornton I. 2005. Operationally defined associations of arsenic and copper from soil and mine waste in south-west England. Chem Spec Bioavailab. 17(4):147–160.
- European Commission. 2002. Commission decision 2002/657/EC of 12 August 2002 implementing council directive 96/23/EC, Brussels.
- Gamaletsos P, Godelitsas A, Dotsika E, Tzamos E, Göttlicher J, Filippidis A. 2013. Geological sources of as in the environment of greece: a review. threats to the quality of groundwater resources: prevention and control, Hdb. Env Chem. 40:77–114.
- Gasparatos D. 2012. Fe-Mn concretions and nodules to sequester heavy metals in soils. In: Lichtfouse E, Schwarzbauer J, Robert D. eds. Environmental chemistry for a sustainable world, Vol 2: remediation of air and water pollution. Springer Science + Business Media B.V; Netherlands, p. 443–474.
- Gasparatos D, Haidouti C. 2001. A comparison of wet oxidation methods for determination of total phosphorus in soils. J Plant Nutr Soil Sci. 164:435–439.
- Gasparatos D, Mavromati G, Kotsovilis P, Massas I. 2015. Fractionation of heavy metals and evaluation of the environmental risk for the alkaline soils of the Thriassio plain: a residential, agricultural and industrial area in Greece. Environ Earth Sci. 74(2):1099–1108.
- Gault AG, Cooke DR, Townsend AT, Charnock JM, Poly DA. 2003. Mechanisms of arsenic attenuation in acid mine drainage from Mount Bischoff, western Tasmania. Sci Total Environ. 345:219–228.
- Gedik K, Kongchum M, Boran M, Delaune RD. 2016. Adsorption and desorption of arsenate in Louisiana rice soils. Arch Agron Soil Sci. 62(6):856–864.
- Gupta DK, Srivastava S, Huang H, Romero-Puertas MC, Sandalio LM. 2011. Arsenic tolerance and detoxification mechanisms in plants. In: Sherameti I, Varma A, Eds. Detoxification of heavy metals (Book series: soil biology). Heidelberg: Springer; p. 169–180.
- Kabala C, Singh BR. 2001. Fractionation and mobility of copper, lead, and zinc in soil profiles in the vicinity of a copper smelter. J Environ Qual. 30:485–492.
- Kim EJ, Yoo JC, Baek K. 2014. Arsenic speciation and bioaccessibility in arsenic-contaminated soils: sequential extraction and mineralogical investigation. Environ Pollut. 186:29–35.
- Kim JY, Davis AP. 2003. Stabilization of available arsenic in highly contaminated mine tailings using Iron. Environ Sci Technol. 37(1):189–195.
- Larios R, Fernández-Martínez R, Rucandio I. 2012. Comparison of three sequential extraction procedures for fractionation of arsenic from highly polluted mining sediments. Anal Bioanal Chem. 402:2909–2921.
- Larios R, Fernández-Martínez R, Rucandio I. 2013. Assessment of a sequential extraction procedure for arsenic partitioning and application to samples from different pollution sources. Anal Methods. 5:4096–4104.
- Liu G, Cai Y. 2007. Arsenic speciation in soil: an analytical challenge for understanding arsenic biogeochemistry. In: Sarkar D, Hannigan R, Datta R, eds. Developments in environmental sciences, Vol. 5: concepts and applications in environmental geochemistry. Elsevier; Netherlands, p. 687–711.
- Loeppert RH, Suarez DL. 1996. Carbonate and gypsum. In: Bigham JM, Bartels JM, ed. Methods of soil analysis, part 3, chemical methods. Madison (Wisconsin, Etats-Unis): SSSA, ASA; p. 437–474.
- Lombi E, Sletten RS, Wenzel WW. 2000. Sequentially extracted arsenic from different size fractions of contaminated soil. Water Air Soil Pollut. 124:319–332.
- Massas I, Gasparatos D, Ioannou D, Kalivas D. 2017. Signs for secondary buildup of heavy metals in soils at the periphery of athens international airport, greece. Environ Sci Pollut Res. doi:10.1007/s11356-017-0455-7
- Matera V, Hecho IL, Laboudigue A, Thomas P, Tellier S, Astruc M. 2003. A methodological approach for the identification of arsenic bearing phases in polluted soils. Environ Pollut. 126:51–64.
- Mehra OP, Jackson ML. 1960. Iron oxide removal from soils and clay by a dithionite-citrate system buffered with sodium bicarbonate. Clays and Clay Min. 7:317.
- Misopolinos N, Silleos N, Kosmas K, Bilas G, Karapetsas N, Dionisiou N. 2015. Development of an integrated system for soil geographic data and delineation of agricultural zones in Greece. Funded by Payment and Control Agency for Guidance and Guarantee Community Aid (OPEKEPE) of the Greek Ministry of Agricultural Development and Food, Athens, Greece.
- Müller K, Daus B, Morgenstern P, Wennrich R. 2007. Mobilization of antimony and Arsenic in soil and sediment samples – evaluation of different leaching procedures. Water Air Soil Pollut. 183(1–4):427–436.
- Nelson DW, Sommers LE. 1982. Total carbon, organic carbon and organic matter. In: Page AL, Miller RH, Keeney DR, eds. Methods of soil analysis. Part 2: chemical and microbiological properties. Madison (WI, USA): ASA, SSSA.
- NF ISO 10693. 1995. Détermination de la teneur en carbonate – méthode volumétrique. Qualité des sols AFNOR; p. 177–186.
- Olsen SR, Cole CV, Watanabe FS, Dean LA. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Vol. 939. Washington (DC): US Dept Agric Circ.
- Quevauviller P. 2002. Methodologies in soil and sediment fractionation studies. Single and sequential extraction procedures. Royal Soc Chem. 1-2:1–27.
- Rauret G, López-Sánchez JF, Sahuquillo A, Rubio R, Davidson C, Ure A, Quevauviller P. 1999. 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.
- Redman A, Macalady D, Ahmann D. 2002. Natural organic matter affects arsenic speciation and sorption onto hematite. Environ Sci Technol. 36(13):2889–2896.
- Rhoades JD. 1982. Cation exchange capacity. In: Page AL, Miller RH, Kenney DR, eds. Methods of soil analysis, part 2, chemical and microbiological properties. 2nd ed. Madison (WI): Agron. Monogr. 9. ASA and SSSA; p. 149–157.
- Rodriguez RR, Basta NT, Casteel SW, Armstrong FP, Ward DC. 2003. Chemical extraction methods to assess bioavailable arsenic in soil and solid media. J Environ Qual. 32:876–884.
- Schwertmann U, Taylor RM. 1989. Iron oxides. In: Dixon JB, Weed SB, Eds. Minerals in soil environments. second ed. Madison (WI): SSA; p. 380–438.
- Shuman LM. 1982. Separating soil iron - and manganese - oxide fractions for microelement analysis. Soil Sci Soc Am J. 46:1099–1102.
- Thanabalasingam P, Pickering W. 1986. Arsenic sorption by humic acids. Environ Pollut. 12(3):233–246.
- Van Herreweghe S, Swennen R, Vandecasteele C, Cappuyns V. 2003. Solid phase speciation of arsenic by sequential extraction in standard reference materials and industrially contaminated soil samples. Environ Pollut. 122:323–342.
- Wenzel W, Brandstetter A, Brauner E, Jockwer F, Lombi E, Mushtaq A, Kirchbaumer N, Schnepf A, Tulipan M, Unterfrauner H, et al. 1998. Arsenic in soils of Austria (Forschungsbericht). Forschungsprojekt der Bund/Bundeslander-Kooperation, im Auftrag des Landes Salzburg, Abteilung Land - und Forstwirtschaft, Salzburg, Osterreich.
- Wenzel W, Kirchbaumer N, Prohaska T, Stingeder G, Lombi E, Adriano D. 2001. Arsenic fractionation in soils using an improved sequential extraction procedure. Anal Chim Acta. 436(2):309–323.
- Wenzel WW, Brandstetter A, Wutte H, Lombi E, Prohaska T, Stingeder G, Adriano DC. 2002. Arsenic in field-collected soil solutions and extracts of contaminated soils and its implication to soil standards. J Plant Nutr Soil Sci. 165:221–228.
- Xenidis A, Papassiopi N, Komnitsas K. 2003. Carbonate-rich mining tailings in Lavrion: risk assessment and proposed rehabilitation schemes. Adv Environ Res. 7:479–494.
- Yolcubal I, Akyol NH. 2008. Adsorption and transport of arsenate in carbonate-rich soils: coupled effects of nonlinear and rate-limited sorption. Chemosphere. 73:1300–1307.
- Zeien H, Brümmer G. 1991. Ermittlung der Mobilität und Bindungsformen von Schwermetallen in Böden mittels Sequentieller Extraktionen [Determination of the mobility and the binding forms of heavy metals in soils using sequential extractions]. Mitt Dtsch Bodenk Ges. 66(I):439–442. German.