Influence of Pb(II) in the sorption of As(V) by a Capolygalacturonate network, a root mucilage model
Academic Article
Publication Date:
2019
Short description:
Influence of Pb(II) in the sorption of As(V) by a Capolygalacturonate network, a root mucilage model / Garau, Giovanni; Diquattro, Stefania; Lauro, Gian Paolo; Deiana, Salvatore; Castaldi, Paola. - In: SOIL SCIENCE AND PLANT NUTRITION. - ISSN 0038-0768. - 65:3(2019), pp. 305-315. [10.1080/00380768.2019.1590786]
abstract:
In this study, the role of lead [Pb(II)] in the sorption of arsenate [As(V)] by a Ca-polygalacturonate
network (CaPGA), i.e. a model of root mucilage, was determined in acidic conditions (pH 4.5) commonly
occurring at the soil–root interface. Sorption isotherms and kinetics showed that CaPGA was able to
sorb As(V) (~0.89 mmol g−1 CaPGA) only in the presence of Pb(II). The concurrent sorption of Pb(II) by
CaPGA (~2.30 mmol g−1
), and the FT-IR spectra, suggested the formation of binuclear complexes
involving one As(V) anion and two Pb(II) cations, which were in turn involved in bridging complexes
with two carboxylate groups of CaPGA. The As(V) sorption by the Pb(II)-PGA system followed a pseudosecond-order kinetic model, while the sorption isotherms data fitted the Langmuir model better than
the Freundlich one. The release of As(V) and Pb(II) from the As(V)-Pb(II)-PGA system, following treatment
with environmentally relevant organic acids, i.e. citric and malic acids (0.0–24 mM concentration range),
showed that As(V) was strongly retained and that both organic acids were able to mobilize similar As(V)
and Pb(II) pools. Plant growth experiments showed that CaPGA was effective at reducing the As(V)
phytotoxicity toward triticale plants (×Triticosecale Wittm.) in the presence of Pb(II), highlighting the
environmental relevance of the interactions reported in this study.
network (CaPGA), i.e. a model of root mucilage, was determined in acidic conditions (pH 4.5) commonly
occurring at the soil–root interface. Sorption isotherms and kinetics showed that CaPGA was able to
sorb As(V) (~0.89 mmol g−1 CaPGA) only in the presence of Pb(II). The concurrent sorption of Pb(II) by
CaPGA (~2.30 mmol g−1
), and the FT-IR spectra, suggested the formation of binuclear complexes
involving one As(V) anion and two Pb(II) cations, which were in turn involved in bridging complexes
with two carboxylate groups of CaPGA. The As(V) sorption by the Pb(II)-PGA system followed a pseudosecond-order kinetic model, while the sorption isotherms data fitted the Langmuir model better than
the Freundlich one. The release of As(V) and Pb(II) from the As(V)-Pb(II)-PGA system, following treatment
with environmentally relevant organic acids, i.e. citric and malic acids (0.0–24 mM concentration range),
showed that As(V) was strongly retained and that both organic acids were able to mobilize similar As(V)
and Pb(II) pools. Plant growth experiments showed that CaPGA was effective at reducing the As(V)
phytotoxicity toward triticale plants (×Triticosecale Wittm.) in the presence of Pb(II), highlighting the
environmental relevance of the interactions reported in this study.
Iris type:
1.1 Articolo in rivista
Keywords:
Arsenate; lead, plant phytotoxicity, root mucilages, sorption isotherms
List of contributors:
Garau, Giovanni; Diquattro, Stefania; Lauro, Gian Paolo; Deiana, Salvatore; Castaldi, Paola
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