Role of Biochar and Fungi on PAH Sorption to Soil Rich in Organic Matter
Author(s) -
Festus Anasonye,
Priit Tammeorg,
Jevgeni Parshintsev,
MarjaLiisa Riekkola,
Marja Tuomela
Publication year - 2018
Publication title -
water air and soil pollution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.557
H-Index - 111
eISSN - 1573-2932
pISSN - 0049-6979
DOI - 10.1007/s11270-018-3708-2
Subject(s) - sorption , humus , loam , biochar , environmental chemistry , organic matter , pyrene , chemistry , soil water , adsorption , organic chemistry , biology , ecology , pyrolysis
The use of biochar (BC) has been suggested for remediation of contaminated soils. This study aims to investigate the role of microorganisms in sorption of PAH to BC-amended soils. Fungi, especially the wood and litter-degrading fungi, have shown the ability for humification and to degrade recalcitrant molecules, and are thus suitable model organisms. Haplic Arenosol with high organic matter content was chosen to highlight the importance of soil organic matter (SOM) in PAH sorption, possibly to form non-extractable residue. Basidiomycetous fungi and grown on pine bark were inoculated in organic matter (OM)-rich Haplic Arenosol and OM-poor sandy loam with either BC or chemically activated BC (ABC) and C-labelled pyrene for 60 days. Fungi did not mineralize pyrene, but increased sorption up to 47–56% in BC-amended Haplic Arenosol in comparison with controls (13–25%) without a fungus irrespective of the presence of an adsorbent. In OM-poor sandy loam, only 9–12% of pyrene was sorbed to amended soil in the presence of fungus and adsorbent. The results suggest that BC and fungal amendment increased sorption of pyrene, especially to Haplic Arenosol more than by either BC or fungi alone.
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