A combined compost and endophyte addition improves phytostabilization by a native perennial grass in metal contaminated mine tailings

Abstract: Background and Aims: Re-vegetation of contaminated and disturbed landscapes can reduce the transport of toxic elements while improving soil fertility. This study evaluated whether the planting of a perennial grass with diazotrophic microbial endophytes and municipal waste compost—alone and in combination—improved phytostabilization of potentially toxic trace elements in dolomite-amended tailings from a historically mined polymetallic mineral deposit.Methods We grew Bouteloua curtipendula seedlings in tailings … Show more

“…For instance, compost amendment was shown to have a beneficial influence on revegetation of mine tailings by enhancing soil structure [ 77 ], bacterial root colonization [ 43 ], and plant biomass production [ 43 , 77 ]. Here, we establish that compost amendment significantly increased prokaryotic diversity, which also corresponded to higher content of organic carbon and total nitrogen in the mine tailings (Table 1 ) and higher plant biomass [ 50 ],under review). Similar results were also reported in a study by Maron et al [ 78 ], an increase of prokaryotic diversity that positively correlated with nutrient availability and organic matter transformation in soil.…”

“…Seeds had higher germination rate when planted with compost: about 50% of the seeds germinated when planted with compost, but only 30% of the seeds germinated without compost. In the absence of a compost layer, the seeds had similar germination regardless of whether they were coated with endophytes or not [ 50 ]). The pots were thinned upon seedling germination to obtain 1–2 seedlings per pot.…”

Compost, plants and endophytes versus metal contamination: choice of a restoration strategy steers the microbiome in polymetallic mine waste

“…For instance, compost amendment was shown to have a beneficial influence on revegetation of mine tailings by enhancing soil structure [ 77 ], bacterial root colonization [ 43 ], and plant biomass production [ 43 , 77 ]. Here, we establish that compost amendment significantly increased prokaryotic diversity, which also corresponded to higher content of organic carbon and total nitrogen in the mine tailings (Table 1 ) and higher plant biomass [ 50 ],under review). Similar results were also reported in a study by Maron et al [ 78 ], an increase of prokaryotic diversity that positively correlated with nutrient availability and organic matter transformation in soil.…”

“…Seeds had higher germination rate when planted with compost: about 50% of the seeds germinated when planted with compost, but only 30% of the seeds germinated without compost. In the absence of a compost layer, the seeds had similar germination regardless of whether they were coated with endophytes or not [ 50 ]). The pots were thinned upon seedling germination to obtain 1–2 seedlings per pot.…”

Compost, plants and endophytes versus metal contamination: choice of a restoration strategy steers the microbiome in polymetallic mine waste