Arbuscular mycorrhizal fungi as a tool to ameliorate the phytoremediation potential of poplar: biochemical and molecular aspects

Cicatelli, Angela; Torrigiani, Patrizia; Todeschini, Valeria; Biondi, Stefania; Castiglione, Stefano; Lingua, Graziano

doi:10.3832/ifor1045-007

Cited by 34 publications

(18 citation statements)

References 87 publications

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“…Levels of PTEs in soil may also affect the role of arbuscular mycorrhizal symbiosis (Audet and Charest, 2007), which can lead to an increase of plant metal uptake at low soil PTE concentrations as well as a reduction of PTE bioavailability via fungal metal-binding processes at high soil PTE levels. The mechanisms underlying metal accumulation may involve metallothioneins, small proteins that bind metals in plant detoxification process, as demonstrated in a greenhouse experiment (Cicatelli et al, 2014). Garg and Aggarwal (2011) also reported that AMF induced the production of chelating agents (phytochelatins) and antioxidants (glutathione) to reduce PTE toxicity and translocation in plant shoots.…”

Section: Effects Of Mycorrhizal Inoculationmentioning

confidence: 96%

“…Mycorrhizal fungi can trigger root exudation of organic acids, and solubilize PTEs (Churchland and Grayston, 2014). Conversely, it is likely that the inoculation also decreased PTE mobility in other plots (P11, P23, F9 and F12), via metal-binding processes (Cicatelli et al, 2014). Moreover, the extractable PTE concentrations in soils was not correlated with the effect of inoculation on PTE accumulation by poplars (Fig.…”

Section: Effects Of Mycorrhizal Inoculationmentioning

confidence: 96%

“…In fact, specific root exudates released by trees trigger the expression of mycorrhization genes, resulting in symbiotic relationships between plants and mycorrhizal fungi (Churchland and Grayston, 2014 (Baum et al, 2002;Cicatelli et al, 2014;Mrnka et al, 2012) but rarely in field conditions. On a slightly contaminated site, Bissonnette et al (2010) reported that arbuscular mycorrhizal fungi inoculation had no significant effect on Cd accumulation in poplars shoots used for phytoextraction,.…”

Section: Lessons From the Field And Recommendationsmentioning

confidence: 99%

“…Indeed, when associated with endomycorrhizal fungi, poplars exhibit enhanced tolerance to biotic and abiotic stress, with better growth and higher biomass production (Cicatelli et al, 2014). When plants are introduced for site restoration, the in-situ success of these plants will likely be depending on the recruitment of appropriate rhizosphere microorganisms from their new environment (Bell et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Effect of mycorrhizal inoculation on metal accumulation by poplar leaves at phytomanaged sites

Phanthavongsa

Chalot

Papin

et al. 2017

Environmental and Experimental Botany

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This study aimed at evaluating the mid-term effect of ecto-and endomycorrhizal inoculation on the reduction of PTE mobility in soils and foliar accumulation by two poplar clones, Skado (Populus trichocarpa x P. maximowiczii) and I-214 (P. deltoides x P. nigra), dedicated to bioenergy purposes. The effects of inoculation were investigated in two large scale trials of 1 ha each. Poplars grown on highly contaminated soils accumulated excessive Cd and Zn in leaves compared with those planted on less contaminated soils, and the I-214 clone generally accumulated less PTEs than the Skado clone. Interestingly, the filtering capacity of mycorrhizal fungi was significant for Zn, Cu, Pb and Cr in Skado leaves only at the most contaminated areas after two growing seasons. These foliar concentrations were not correlated with Ca(NO3)2-extractable concentrations in soils, suggesting that mycorrhizal fungi limited PTE translocation from roots to leaves without impacting PTE mobility in soils. Therefore, the reduction of PTE accumulation in poplar leaves may be optimized by selecting appropriate combinations of cultivars and inocula at specific PTE levels and soil conditions.Because Cd and Zn may pose a risk after leaf abscission and wood harvest, further research is needed to efficiently reduce Cd and Zn concentrations in poplar tissues. Otherwise, the phytomanagement of metal contaminated sites with poplars should include options to safely manage both leaves and wood.

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Section: Effects Of Mycorrhizal Inoculationmentioning

confidence: 96%

Section: Effects Of Mycorrhizal Inoculationmentioning

confidence: 96%

Section: Lessons From the Field And Recommendationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Effect of mycorrhizal inoculation on metal accumulation by poplar leaves at phytomanaged sites

Phanthavongsa

Chalot

Papin

et al. 2017

Environmental and Experimental Botany

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“…There is recent evidence that the relationship with AMF can cause changes in DNA methylation of plants [15]. What is not known is whether AMF can in fact impact DNA methylation trangenerationally.…”

Section: Introductionmentioning

confidence: 99%

Paternal arbuscular mycorrhizal fungal status affects DNA methylation in seeds

Varga¹,

Soulsbury²

2017

Biol. Lett.

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Most land plants grow in association with arbuscular mycorrhizal fungi (AMF) in their roots and these fungi can cause transgenerational effect on plants' offspring. These may be caused by changes in DNA methylation of the offspring. In this study, we compared the amount of global DNA methylation in seeds of the gynodioecious plant Geranium sylvaticum in relation to the gender and the AMF status of the parents producing the seeds. The amount of DNA methylated was positively related to seed mass. Seeds produced by females had a similar proportion of methylated DNA regardless of the AMF status of the father siring the seed. In contrast, seeds from hermaphrodites had higher DNA methylation when sired by AMF fathers. We show for the first time that AMF status of fathers can affect DNA methylation in seeds and that these changes are further dependent on the gender of the mother producing the seeds.

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Arbuscular Mycorrhizal Fungi and Remediation Potential of Soils Contaminated by Potentially Toxic Elements

Vilela

Oliveira

2021

Fungal Biology

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Arbuscular mycorrhizal fungi as a tool to ameliorate the phytoremediation potential of poplar: biochemical and molecular aspects

Cited by 34 publications

References 87 publications

Effect of mycorrhizal inoculation on metal accumulation by poplar leaves at phytomanaged sites

Effect of mycorrhizal inoculation on metal accumulation by poplar leaves at phytomanaged sites

Paternal arbuscular mycorrhizal fungal status affects DNA methylation in seeds

Arbuscular Mycorrhizal Fungi and Remediation Potential of Soils Contaminated by Potentially Toxic Elements

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