Page 203 - Plant-Based Remediation Processes
P. 203
10 Phytostabilization as Soil Remediation Strategy 195
Becquer T, Quantin C, Sicot M, Boudot JP (2003) Chromium availability in ultramafic soils from
New Caledonia. Sci Total Environ 301:251–261
Branzini A, Zubillaga MS (2010) Assessing phytotoxicity of heavy metals in remediated soil. Int J
Phytoremediation 12:335–342
Branzini A, Santos Gonza ´lez RS, Zubillaga MS (2012) Absorption and translocation of cooper,
zinc and chromium by Sesbania virgata. J Environ Manage 102:50–54
Brown S, Sprenger M, Maxemchuk A, Compton H (2005) Ecosystem functions in alluvial tailings
after biosolids and lime addition. J Environ Qual 34:139–148
Brown A, Martı ´nez Ortiz U, Acerbi M, Corcuera J (2006) La situacio ´n ambiental argentina 2005,
1st edn. Fundacio ´n Vida Silvestre Argentina, Buenos Aires
Carpena RO, Bernal MP (2007) Claves de la fitorremediacio ´n: fitotecnologı ´as para la recuperacio ´n
de suelos. Ecosistemas 16:1–3
Cerqueira B, Covelo EF, Andrade ML, Vega FA (2011) The influence of soil properties on the
individual and competitive sorption and desorption of Cu and Cd. Geoderma 162:20–26
Chan GYS, Ye ZH, Wong MG (2003) Comparison of four Sesbania species to remediate Pb/Zn
and Cu mine tailings. Environ Manage 32:246–251
Enserink EL, Mass-Diepeven JL, Van-Leeuwen CJ (1991) Combined effects of metals; an
ecotoxicological evaluation. Water Res 25:579–687
Finz ˇgar N, Kos B, Les ˇtan D (2006) Bioavailability and mobility of Pb after soil treatment with
different remediation methods. Plant Soil Environ 52:25–34
Flogeac K, Guillon E, Aplincourt M (2007) Competitive sorption of metal ions onto a north-
eastern France soil. Isotherms and XAFS studies. Geoderma 139:180–189
Geebelen W, Adriano DC, Van der Lelie D, Mench M, Carleer R, Clijsters H, Vangronsveld J
(2003) Selected bioavailability assays to test the efficacy of amendment-induced immobiliza-
tion of lead in soils. Plant Soil 249:217–228
Ghosh M, Singh SP (2005) A review on phytoremediation of heavy metals and utilization of its
byproducts. Appl Ecol Environ Res 3:1–18
Giuffre ´ L, Ratto S, Marban L, Shonwald J, Romaniuk R (2005) Riesgo por metals pesados en
horticultura urbana. Ci Suelo 23:101–106
Gleyzes C, Tellier S, Astruc M (2001) Chemical characterization of lead in industrially-
contaminated soils. In: Proceedings of 6th international conference biogeochemistry trace
elements, Guelph
Greany KM (2005) An assessment of heavy metal contamination in the marine sediments of
Las Perlas Archipelago, Gulf of Panama. M.S. Thesis, School of Life Sciences Heriot-Watt
University, Edinburgh, Scotland
Gruiz K (2005) Soil testing triad and interactive ecotoxicity tests for contaminated soil. In: Fava F,
Canepa P (eds) Soil remediation series, vol 6. INCA, Venice, Italy
Gustafsson JP, Tiberg C, Edkymish A, Berggren Kleja D (2012) Modelling lead(II) sorption to
ferrihydrite and soil organic matter. Environ Chem 8:485–492
Hashimoto Y, Matsufuru H, Takaoka M, Tanida H, Sato T (2009) Impacts of chemical amendment
and plant growth on lead speciation and enzyme activities in a shooting range soil: an X-ray
absorption fine structure investigation. J Environ Qual 38:1420–1428
Helmisaari HS, Salemaa M, Derome J, Kiikkila ¨ O, Uhlig C, Nieminen TM (2007) Remediation of
heavy metal contaminated forest soil using recycled organic matter and native woody plants.
J Environ Qual 36:1145–1153
Jadia CD, Fulekar MH (2008) Phytotoxicity and remediation of heavy metals by fibrous root grass
(sorghum). J Appl Biosci 10:491–499
Jadia CD, Fulekar MH (2009) Phytoremediation of heavy metals: recent techniques. Afr J Biotechnol
8:921–928
Jalali M, Khanlari ZV (2008) Effect of aging process on the fractionation of heavy metals in some
calcareous soils of Iran. Geoderma 143:26–40
Kaasalainen M, Yli-Halla M (2003) Use of sequential extraction to assess metal partitioning in
soils. Environ Pollut 126:225–233
