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Effects of nicosulfuron on the abundance and diversity of arbuscular mycorrhizal fungi used as indicators of pesticide soil microbial toxicity (CROSBI ID 202129)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Karpouzas, Dimitrios ; Papadopoulou, Evangelia ; Ipsilantis, Ioannis ; Friedel, Irene ; Petrić, Ines ; Udiković-Kolić, Nikolina ; Djurić, Simonida ; Kandeler, Ellen ; Menkissoglu-Spiroudi, Urania ; Martin-Laurent, Fabrice Effects of nicosulfuron on the abundance and diversity of arbuscular mycorrhizal fungi used as indicators of pesticide soil microbial toxicity // Ecological indicators, 39 (2014), 44-53. doi: 10.1016/j.ecolind.2013.12.004

Podaci o odgovornosti

Karpouzas, Dimitrios ; Papadopoulou, Evangelia ; Ipsilantis, Ioannis ; Friedel, Irene ; Petrić, Ines ; Udiković-Kolić, Nikolina ; Djurić, Simonida ; Kandeler, Ellen ; Menkissoglu-Spiroudi, Urania ; Martin-Laurent, Fabrice

engleski

Effects of nicosulfuron on the abundance and diversity of arbuscular mycorrhizal fungi used as indicators of pesticide soil microbial toxicity

The key role of arbuscular mycorrhizal (AM) fungi in maintaining soil fertility and ecosystem functioning and their general sensitivity to pesticides make them good candidate bioindicators in pesticide soil microbial toxicity assessment. We investigated the impact of the herbicide nicosulfuron on mycorrhizal colonization and community structure of AM fungi viaapot-to-field experimental approach. This allowed the assessment of nicosulfuron toxicity (i) at extreme exposure schemes (pot experiment, Tier I) invoked by the repeated application of a range of dose rates (x0, x10, x100, x1000 the recommended dose) and (ii)under realistic exposure scenarios (x0, x1, x2, x5 the recommended dose) in the field (Tier II). In the pot experiment, the x100 and x1000 dose rates significantly reduced plant biomass, mycorrhizal colonization and AM fungal richness as determined by DGGE. This coincided with the progressive accumulation of herbicide concentrations in soil. In contrast, no effects on AM fungi were observed at the nicosulfuron dose rates tested in the field. Clone libraries showed that the majority of AM fungi belonged to the Glomus group and were sensitive to the high levels of nicosulfuron accumulated in soil at the latter culture cycles. In contrast, a Paraglomeraceae and a Glomus etunicatum ribotype were present in maize roots in all cycles and dose rates implying a tolerance to nicosulfuron-induced stress. Overall, the deleterious effects of nicosulfuron on AM fungi induced by the highest dose rates in the pot experiment could be attributed either to fungal-driven toxicity or to plant-driven effects which have subsequent implications for mycorrhizal symbiosis. We suggest that the tiered pot-to-field experimental approach followed in our study combined with classic and standardized molecular tools could provide a realistic assessment of the toxicity of pesticides onto AM fungi as potential bioindicators.

arbuscular mycorrhizal fungi; pesticides; soil microbial ecotoxicity; DGGE; colonization

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Podaci o izdanju

39

2014.

44-53

objavljeno

1470-160X

10.1016/j.ecolind.2013.12.004

Povezanost rada

Biotehnologija, Biologija

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