beta-O-4 type dilignol compounds and their iron complexes for modeling of iron binding to humic acids: synthesis, characterization, electrochemical studies and algal growth experiments

Author(s)

Ewelina Orlowska, Eva A. Enyedy, Marc Pignitter, Franz Jirsa, Regina Krachler, Wolfgang Kandioller, Bernhard K. Keppler

Abstract

A series of β-O-4 type dilignols and their iron(iii) complexes, designed as model compounds for humic acids, were prepared and characterized by

¹H-NMR and

¹³C-NMR spectroscopy, elemental analysis, EPR, IR and UV-Vis spectroscopies and electrospray ionization mass spectrometry (ESI-MS). Properties regarding iron binding, stability, lipophilicity and bioavailability for microorganisms have been evaluated with cyclic voltammetry, stability studies in water and seawater by means of UV-Vis spectrophotometry and the algae growth assays with seawater algal species Chlorella salina and Prymnesium parvum. Both established ligands and their iron complexes undergo deprotonation processes in seawater whereas no changes in UV-Vis spectra were observed in distilled water. The iron(iii) complex formation constants, pK

_a values and lipophilicity of the dilignols were in the same range as for the analogous catechol coordination compound. Synthesized dilignols were prone to redox reactions under biological conditions similar to natural aquatic humic acids. Moreover, an increased iron bioavailability was observed for the presented complexes compared to corresponding catechol complexes and comparable to the bioavailability of iron bound to humic acid complexes recovered from Craggie Burn river. Those results confirm that β-O-4 type dilignol compounds are excellent model ligands for aquatic humic acids.

Organisation(s)

Department of Inorganic Chemistry, Department of Physiological Chemistry

External organisation(s)

University of Szeged, University of Johannesburg (UJ)

Journal

New Journal of Chemistry

Volume

41

Pages

11546-11555

No. of pages

10

ISSN

1144-0546

DOI

https://doi.org/10.1039/c7nj02328f

Publication date

10-2017

Peer reviewed

Yes

Austrian Fields of Science 2012

104003 Inorganic chemistry, 104023 Environmental chemistry

Keywords

ASJC Scopus subject areas

Materials Chemistry, Chemistry(all), Catalysis

Portal url

https://ucrisportal.univie.ac.at/en/publications/betao4-type-dilignol-compounds-and-their-iron-complexes-for-modeling-of-iron-binding-to-humic-acids-synthesis-characterization-electrochemical-studies-and-algal-growth-experiments(7e400dc1-a9af-4d25-86e3-d3564bd07d10).html