Environmental Engineering Reference
In-Depth Information
and soil particles containing oxides will remain. Arsenic(V) then reacts with
the iron oxides and precipitates, while As(III) does not because it is not as easily
adsorbed to metal oxides.
References
1. Bhattacharya P, Mukherjee AB, Jacks G, Nordquist S (2002) Metal contamination at a wood
preservation site: characterisation and experimental studies on remediation Sci. Tot. Environ.
290:165-180
2. Swedish EPA (2006a) Åtgärdslösningar - erfarenheter och tillgängliga metoder, Rapport 5637
ISSN 0282-7298, Stockholm (In Swedish)
3. Lidelöw S, Ragnvaldsson D, Leffler P, Solomon T, Mauric C (2007) Field trials to assess the
use of iron-bearing industrial by-products for stabilisation of chromated copper arsenate-
contaminated soil Sci. Total Environ. 387:68-78
4. Cullen WR, Reimer K (1989) Arsenic speciation in the environment Chem. Rev. 89:713-764
5. Vink BW (1996) Stability relations of antimony and arsenic compounds in the light of revised
and extended Eh-pH diagrams Chem. Geol. 130:21-30
6. Sracek O, Bhattacharya P, Jacks G, Gustafsson J-P, Brömssen M (2004) Behaviour of arsenic
and geochemical modelling of arsenic enrichment in aqueous environments Appl. Geochem.
19:169-180
7. Petänen T, Lyytikäinen M, Lappalainen J, Romantschuk M, Kukkonen JVK (2003) Assessing
sediment toxicity and arsenite concentration with bacterial and traditional methods Environ.
Pollut. 122:407-415
8. Leermarkers M, Baeyens W, De Gieter M, Smedts B, Meert C, De Bisschop, Morabito R.
Quevauviller PH (2006) Toxic arsenic compounds in environmental samples: Speciation and
validation Trends Anal. Chem. 25:1-10
9. Sadiq M (1997) Arsenic chemistry in soils: an overview of thermodynamic predictions and
field observations Water Air Soil Pollut. 93:117-136
10. Sherman DM, Randall SR (2003) Surface Complexation of arsenic(V) to iron(III) (hydr)
oxides: Structural mechanism from ab initio molecular geometries and EXAFS spectroscopy
Geochim. Cosmochim. Acta 67:4223-4230
11. Swedish EPA (2007) Modeller för spridning av metaller från mark till vatten, Naturvårdsverkets
rapport 5741, ISBN 91-620-5741-3, Stockholm (In Swedish)
12. Smedley PL, Kinniburgh DG (2002) A review of source, behaviour and distribution of arsenic
in natural waters Appl. Geochem. 17:517-568
13. Krause E, Ettel VA (1989) Solubilities and stabilities of iron arsenate compounds Hydrometal.
22:311-337
14. Johansson E (2005) Partitioning of trace metals between the dissolved and particulate phase
at the outlet of River Höjeå, Sweden: importance of salinity and organic matter nature conser-
vation: Water Management. University of Lund
15. Swedish EPA (1997) Development of generic guideline values. Model and data used for
generic guideline values for contaminated soils in Sweden. Rapport 4639, Naturvårdsverket,
Stockholm
16. Swedish EPA (2006b) Laktester för riskbedömning av förorenade områden (Huvudrapport
och underlagsrapport 1a), Naturvårdsverkets rapport 5535, ISBN 91-620-5535-6, Stockholm
(In Swedish)
17. Swedish EPA (2002) Methods for inventories of contaminated sites: environmental quality
criteria guidance for data collection, Naturvårdsverkets rapport 5053, ISBN 91-620-5053-2,
Stockholm
