Trifolium repens-Associated Bacteria as a Potential Tool to Facilitate Phytostabilization of Zinc and Lead Polluted Waste Heaps

Oleńska, Ewa; Imperato, Valeria; Małek, Wanda; Włostowski, Tadeusz; Wójcik, Małgorzata; Święcicka, Izabela; Vangronsveld, Jaco; Thijs, Sofie

doi:10.3390/plants9081002

Cited by 17 publications

(13 citation statements)

References 85 publications

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“…The tolerance of C. juncea to PTE might be linked to its root symbiosis with nitrogen-fixing bacteria as previously reported for other leguminous 56 , 57 . Our data sustain this idea by the higher number of nodules in root parts of plants located in the contaminated area.…”

Section: Discussionsupporting

confidence: 64%

Coronilla juncea, a native candidate for phytostabilization of potentially toxic elements and restoration of Mediterranean soils

Heckenroth

Prudent

Folzer

et al. 2022

Sci Rep

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Soil contamination pattern due to industrial activities often leads to high concentrations of potentially toxic elements (PTE) decreasing with depth. This spatial heterogeneity of the soil contamination may have significant consequences on the soil properties and soil living communities. We evaluated the effects of both surface and solum soil contamination heterogeneity on Coronilla juncea L. (Fabaceae) functional traits in field conditions and the phytostabilization potential of this species. Plant and soil samples were collected on 3 sites along a PTE contamination gradient. The correlations between PTE concentration in plant and soil samples at 2 depths, physico-chemical properties of soil, plant biomass and soil microbial activity were tested. Field measurements highlight a decreasing PTE concentration with soil depth in addition to an important surface heterogeneity of As, Cu, Pb, Sb and Zn soil concentrations. Root PTE concentrations in C. juncea did not follow soil PTE concentrations. Concentrations of PTE in the root parts were higher than those of the aerial parts. Low PTE translocation and root symbioses with microorganisms suggest that this native plant species may play a role as engineer species with positive implications for the phytostabilization of Mediterranean PTE contaminated soils and their ecological restoration.

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Section: Discussionsupporting

confidence: 64%

Coronilla juncea, a native candidate for phytostabilization of potentially toxic elements and restoration of Mediterranean soils

Heckenroth

Prudent

Folzer

et al. 2022

Sci Rep

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“…There is no doubt that cultivation of T. fragiferum in heavily metal-contaminated soils will leed to accumulation of these heavy metals in above ground parts well above permissable levels. However, both heavy metal tolerance and accumulation potential in natural conditions can be significantly affected by symbiosis with arbuscular mycorrhiza and associated rhizobacteria, as in the case of T. repens (Oleńska et al 2020;Xiao et al 2020;Xiao et al 2021) and T. pratense (Vivas et al 2003).…”

Section: Discussionmentioning

confidence: 99%

Heavy Metal Tolerance and Accumulation Potential of Coastal Accessions of Trifolium Fragiferum, a Promising Forage Species

Ievinsh

Karlsons

Jēkabsone

et al. 2022

Rural Development 2019

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The aim of the present study was to examine heavy metal tolerance of different wild accessions of strawberry clover, T. fragiferum, a promising forage species, in comparison to a commercial cultivar, and to find out if there is a tendency to accumulate heavy metals in above ground parts of strawberry clover plants. Seeds from four geographically isolated wild populations of T. fragiferum in Latvia as well as cv. 'Palestine' were used to establish experiment in controlled conditions using substrate gradient of Cd and Pb. Similar to closely related species T. repens, T. fragiferum showed high tolerance to heavy metals Cd and Pb and excluded heavy metals from above ground parts. Some physiological differences were evident in respect to morphological responses of different accessions to the two heavy metals as well as regarding heavy metal accumulation potential in different plant parts. It was concluded that when cultivated in unpolluted soils, shoots of T. fragiferum can be considered safe as forage for animal consumption.

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“…For instance, plant species belonging to the Leguminosae family, such as Medicago lupulina, Lotus corniculatus, and Trifolium repens, were reported to make major contribution to phytostabilization (Amer et al, 2013;Bert et al, 2000;Bidar et al, 2007), whereas only Medicago lupulina showed some Pb translocation ability to aerial parts (Amer et al, 2013). The tolerance of Trifolium repens to contaminated sites should also be noted, with the roots being the main organ of Pb accumulation (Bidar et al, 2007;Oleńska et al, 2020). In another study, Lotus corniculatus showed the bioaccumulation of PTEs not exceeding current legal limits for Cd, Cr, and Pb.…”

Section: Ptes In the Plant/soil Systemmentioning

confidence: 99%

Phytoremediation Potential of Native Herbaceous Plant Species Growing on a Paradigmatic Brownfield Site

Matanzas

Afif

Díaz

et al. 2021

Water Air Soil Pollut

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Phytomanagement techniques using native species allow the recovery of contaminated soils at low cost and circumvent the ecological risks associated with the use of non-native species. In this context, a paradigmatic brownfield megasite highly contaminated by As and Pb was sampled in order to analyze soil–plant interactions and identify plant species with phytoremediation potential. A survey was first carried out in a 20-ha area to obtain an inventory of species growing spontaneously throughout the site. We then performed another survey in the most polluted sub-area (1 ha) within the site. Pseudototal concentrations of contaminants in the soil, aerial parts of the plants, and roots were measured by ICP-MS. A detailed habitat classification was done, and a specific index of coverage was applied by means of a 1-year quadrat study in various sampling stations. Results converged in the selection of six herbaceous species (Dysphania botrys, Lotus corniculatus, Lotus hispidus, Plantago lanceolata, Trifolium repens, Medicago lupulina). All of these plants are fast-growing, thereby making them suitable for use in phytostabilization strategies. Furthermore, they are all easy to grow and propagate and are generally self-sustaining. All six plants showed accumulation factors below 1, thus revealing them as pseudomethallophytes and excluders. However, L. hispidus and M. lupulina showed translocation capacity and are considered worthy of further study.

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Trifolium repens-Associated Bacteria as a Potential Tool to Facilitate Phytostabilization of Zinc and Lead Polluted Waste Heaps

Cited by 17 publications

References 85 publications

Coronilla juncea, a native candidate for phytostabilization of potentially toxic elements and restoration of Mediterranean soils

Coronilla juncea, a native candidate for phytostabilization of potentially toxic elements and restoration of Mediterranean soils

Heavy Metal Tolerance and Accumulation Potential of Coastal Accessions of Trifolium Fragiferum, a Promising Forage Species

Phytoremediation Potential of Native Herbaceous Plant Species Growing on a Paradigmatic Brownfield Site

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