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Fenton-Mediated Biodegradation of Chlorendic Acid - A Highly Chlorinated Organic Pollutant - By Fungi Isolated From a Polluted Site.

Identifieur interne : 000964 ( Main/Exploration ); précédent : 000963; suivant : 000965

Fenton-Mediated Biodegradation of Chlorendic Acid - A Highly Chlorinated Organic Pollutant - By Fungi Isolated From a Polluted Site.

Auteurs : Inge Jambon [Belgique] ; Sofie Thijs [Belgique] ; Giselle Torres-Farradá [Cuba] ; François Rineau [Belgique] ; Nele Weyens [Belgique] ; Robert Carleer [Belgique] ; Pieter Samyn [Belgique] ; Jaco Vangronsveld [Belgique, Pologne]

Source :

RBID : pubmed:31474967

Abstract

Chlorendic acid is a recalcitrant, highly chlorinated organic pollutant for which no microbial degrader has yet been identified. To address this knowledge gap, fungi were isolated from bulk soil, rhizosphere, and roots of the common bent (Agrostis capillaris) and the hybrid poplar [Populus deltoides × (Populus trichocarpa × P. deltoides) cv. Grimminge], both of which grow on a chlorendic acid polluted site in Belgium. Isolates were taxonomically identified and phenotypically screened for chlorendic acid degradation. Several fungal isolates could degrade chlorendic acid in liquid media up to 45%. The chlorendic acid degrading fungal isolates produced higher levels of hydroxyl radicals when exposed to the pollutant when compared to non-exposed controls, suggesting that the oxidative degradation of chlorendic acid occurs through production of Fenton-mediated hydroxyl radicals. In addition, the isolated Ascomycete Penicillium sp. 1D-2a degraded 58% of the original chlorendic acid concentration in the soil after 28 days. This study demonstrates that the presence of fungi in a chlorendic acid polluted soil can degrade this highly chlorinated organic pollutant. These results indicate that recalcitrant, seemingly non-biologically degradable organic pollutants, such as chlorendic acid, can be remediated by using bioremediation, which opens new perspectives for in situ bioremediation.

DOI: 10.3389/fmicb.2019.01892
PubMed: 31474967
PubMed Central: PMC6702520


Affiliations:

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<div type="abstract" xml:lang="en">Chlorendic acid is a recalcitrant, highly chlorinated organic pollutant for which no microbial degrader has yet been identified. To address this knowledge gap, fungi were isolated from bulk soil, rhizosphere, and roots of the common bent (
<i>Agrostis capillaris</i>
) and the hybrid poplar [
<i>Populus deltoides</i>
× (
<i>Populus trichocarpa</i>
×
<i>P. deltoides</i>
) cv. Grimminge], both of which grow on a chlorendic acid polluted site in Belgium. Isolates were taxonomically identified and phenotypically screened for chlorendic acid degradation. Several fungal isolates could degrade chlorendic acid in liquid media up to 45%. The chlorendic acid degrading fungal isolates produced higher levels of hydroxyl radicals when exposed to the pollutant when compared to non-exposed controls, suggesting that the oxidative degradation of chlorendic acid occurs through production of Fenton-mediated hydroxyl radicals. In addition, the isolated Ascomycete
<i>Penicillium</i>
sp. 1D-2a degraded 58% of the original chlorendic acid concentration in the soil after 28 days. This study demonstrates that the presence of fungi in a chlorendic acid polluted soil can degrade this highly chlorinated organic pollutant. These results indicate that recalcitrant, seemingly non-biologically degradable organic pollutants, such as chlorendic acid, can be remediated by using bioremediation, which opens new perspectives for
<i>in situ</i>
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<i>Agrostis capillaris</i>
) and the hybrid poplar [
<i>Populus deltoides</i>
× (
<i>Populus trichocarpa</i>
×
<i>P. deltoides</i>
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<i>Penicillium</i>
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