Effect of fertilization, carbon‐based material, and redmud amendments on the bacterial activity and diversity of a metal(loid) contaminated mining soil

Abstract: Soil amendments can be used to improve phytoremediation of polluted soils. Little is known about the effects of single or combined amendment addition on the bacterial community. Two carbon-based amendments, a biochar and an activated carbon, and two redmuds were applied to a lead and arsenic contaminated mine spoil Technosol, alone or in combinations. The bacterial community was evaluated using enzyme activities, Biolog EcoPlates, and next-generation sequencing with reference to untreated soil and fertilized s… Show more

“…This finding improves our understanding of why the combination of intercropping and moderate fertilization maintains the productivity of E. urophylla × E. grandis , and a relationship between changes in the bacterial community structure and plant productivity or nutrient acquisition has been observed in other studies (Dang et al, 2020; Zak et al, 2003). Since N fertilization may inhibit enzyme activity and change the structural composition of bacterial communities (Lebrun et al, 2021), low‐nutrient depletion groups that are well adapted to nutrient limited conditions would explain the high productivity under N 2 application (Barton et al, 2014); additionally, the unstable N level in the soil may be associated with variations in the abundance of dominant bacteria (Stach & Bull, 2005; Wang et al, 2022) and is consistent with the SEM hypothesis in this study that fertilization indirectly and negatively affect dominant genera via pH and URE. Consequently, the increased eucalyptus productivity has been linked to the interaction between dominant taxa and soil biochemical properties.…”

Intercropping and nitrogen enhance eucalyptus productivity through the positive interaction between soil fertility factors and bacterial communities along with the maintenance of soil enzyme activities

“…This finding improves our understanding of why the combination of intercropping and moderate fertilization maintains the productivity of E. urophylla × E. grandis , and a relationship between changes in the bacterial community structure and plant productivity or nutrient acquisition has been observed in other studies (Dang et al, 2020; Zak et al, 2003). Since N fertilization may inhibit enzyme activity and change the structural composition of bacterial communities (Lebrun et al, 2021), low‐nutrient depletion groups that are well adapted to nutrient limited conditions would explain the high productivity under N 2 application (Barton et al, 2014); additionally, the unstable N level in the soil may be associated with variations in the abundance of dominant bacteria (Stach & Bull, 2005; Wang et al, 2022) and is consistent with the SEM hypothesis in this study that fertilization indirectly and negatively affect dominant genera via pH and URE. Consequently, the increased eucalyptus productivity has been linked to the interaction between dominant taxa and soil biochemical properties.…”

Intercropping and nitrogen enhance eucalyptus productivity through the positive interaction between soil fertility factors and bacterial communities along with the maintenance of soil enzyme activities

Applying Amendments for Metal(loid) Phytostabilization: Effects on Soil Biogeochemical and Microbiological Processes

Strategies for reducing toxic metal(loid)s in edible crop parts