Biostimulation of sulfate-reducing bacteria and metallic ions removal from coal mine-impacted water (MIW) using shrimp shell as treatment agent

Rodrigues, Caroline; Núñez-Gómez, Dámaris; Follmann, Hioná Valéria Dal Magro; Silveira, Djalma Dias da; Hassemer, Maria Eliza Nagel; Lapolli, Flávio Rubens; Lobo-Recio, María Ángeles

doi:10.1016/j.jhazmat.2020.122893

Cited by 32 publications

(11 citation statements)

References 70 publications

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“…In any case, although the composition in microbial species that we observed is representative of a specific moment of the biomineralization process (at the end of the period of Zn reduction), it cannot be excluded that these taxa were not very abundant in the beginning of the experiment. Indeed, many studies reiterate that low abundances of these SRB can sustain high rates of sulfate reduction, when fermentative bacteria such as Clostridium and highly effective syntrophic relationships are present ( Pester et al, 2010 ; Rodrigues et al, 2020 ). In both our samples, a high abundance of Clostridia class was observed and Clostridium sensu stricto species was the only taxa shared between the two inocula.…”

Section: Discussionmentioning

confidence: 99%

“…In both our samples, a high abundance of Clostridia class was observed and Clostridium sensu stricto species was the only taxa shared between the two inocula. Previous works suggested the Clostridium genus as a SRB because it is strictly linked to the production of H 2 S and to biotreatment processes ( Rodrigues et al, 2020 ). NGS analysis seems to provide new insights into the bacterial taxa involved in the sulfate reduction process as also suggested by results obtained in recent studies using molecular microbiological methods ( Rodrigues et al, 2019 ; Zhou et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

“…Abandoned metal(loid)-sulfide mines are a worldwide environmental concern spreading potentially toxic pollutants through soils, waters, and eventually the whole ecosystem. Mine drainages, in particular acid mine drainages, are commonly characterized by high concentrations of toxic metals and sulfate and represent a risk on involved freshwater ecosystem, causing contamination and chemistry changes of water courses ( De Giudici et al, 2014 , 2018 ; Hwang and Jho, 2018 ; Rodrigues et al, 2020 ). Such waters represent an extreme environment for life but also a unique ecological niche for metabolically active acidophilic bacteria that are well adapted to the multiple environmental stresses encountered.…”

Section: Introductionmentioning

confidence: 99%

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Microbial Diversity of Bacteria Involved in Biomineralization Processes in Mine-Impacted Freshwaters

et al. 2021

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In order to increase the knowledge about geo-bio interactions in extreme metal-polluted mine waters, we combined microbiological, mineralogical, and geochemical analyses to study the indigenous sulfate-reducing bacteria (SRB) involved in the heavy metal (HM) biomineralization processes occurring in Iglesiente and Arburese districts (SW Sardinia, Italy). Anaerobic cultures from sediments of two different mining-affected streams of this regional framework were enriched and analyzed by 16S rRNA next-generation sequencing (NGS) technique, showing sequences closely related to SRB classified in taxa typical of environments with high concentrations of metals (Desulfovibrionaceae, Desulfosporosinus). Nevertheless, the most abundant genera found in our samples did not belong to the traditional SRB groups (i.e., Rahnella, Acinetobacter). The bio-precipitation process mediated by these selected cultures was assessed by anaerobic batch tests performed with polluted river water showing a dramatic (more than 97%) Zn decrease. Scanning electron microscopy (SEM) analysis revealed the occurrence of Zn sulfide with tubular morphology, suggesting a bacteria-mediated bio-precipitation. The inocula represent two distinct communities of microorganisms, each adapted to peculiar environmental conditions. However, both the communities were able to use pollutants in their metabolism and tolerating HMs by detoxification mechanisms. The Zn precipitation mediated by the different enriched cultures suggests that SRB inocula selected in this study have great potentialities for the development of biotechnological techniques to reduce contaminant dispersion and for metal recovery.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Microbial Diversity of Bacteria Involved in Biomineralization Processes in Mine-Impacted Freshwaters

et al. 2021

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“…The biological treatment experiments were built up as performed by Rodrigues et al (2020b) to biostimulate the SRB: microcosms glass flasks (500 mL of capacity) containing 260 mL of MIW together with 2.6 g of shrimp shell (10 g•L −1 ) as a carbon source. In preparation, the shrimp shell waste was washed, dried, and pulverized, as described by Núñez-Gómez et al (2017).…”

Section: Srb Biostimulation Setup and Sulfide Removalmentioning

confidence: 99%

“…The sulfate concentrations in coal MIW may range from hundreds to thousands of mg•L -1 (Nariyan et al 2017), and previous studies (Rodrigues et al 2019(Rodrigues et al , 2020b treated it successfully, yielding high removals of sulfate and metallic ions, as well as pH alkalization, by biostimulating sulfate-reducing bacteria (SRB), using shrimp shell waste as substrate. Electrocoagulation (elC) has also been tested, achieving sulfate removal efficiencies of up to 70.95%, as well as pH neutralization (Rodrigues et al 2020a).…”

Section: Introductionmentioning

confidence: 99%

Toxicological Evaluation of Biological and Electrochemical Treatments of Coal Mine-impacted Water (MIW) on Duckweed Landoltia Punctata

Rodrigues

Lalau

Núñez-Gómez

et al. 2022

Preprint

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Two different coal mine-impacted water (MIW) treatments (biological via biostimulation of sulfate-reducing bacteria (SRB), and electrocoagulation (elC)) were proposed, reaching efficiencies of up to 99.79% in relation to SO42-, Fe, Mn, and Al ions, as well as acidity removals. Thus, toxicological assays with duckweed Landoltia punctata were performed, in order to verify the safeness and usability of the two treated waters. Therefore, duckweeds were exposed to different dilutions (0, 25, 50, 75, and 100% of samples) of the two treated waters, and the growth (r) and inhibition of growth (G) rates were calculated, based on 50% effect concentration (EC50). The water from the biological treatment (microcosm assay) presented the highest toxicity (EC50 = 33.42%), even higher when compared to the raw MIW (EC50 = 42.78%), probably due to the hydrogen sulfide, that even after a purge removal, remained in solution. The results showed that this water, despite being within the standards in physicochemical terms, demonstrated risks in terms of toxicity. The water from electrocoagulation (elC) treatment, in the opposite way, showed much less toxicity, even lower than the control, and therefore not reaching EC50, also suggesting a possible nutrient function of the treated water. Consequently, the treated water by elC could, for example, have a non-potable use. The study made it possible to prove the efficiency of elC treatment, the importance of post-treatment toxicological assessments, and the potential of the duckweeds as an option for a test organism in these types of evaluations.

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Bioremediation: Current Research Trends and Applications

Mohanty

Rath

2020

Waste to Energy: Prospects and Applications

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Biostimulation of sulfate-reducing bacteria and metallic ions removal from coal mine-impacted water (MIW) using shrimp shell as treatment agent

Cited by 32 publications

References 70 publications

Microbial Diversity of Bacteria Involved in Biomineralization Processes in Mine-Impacted Freshwaters

Microbial Diversity of Bacteria Involved in Biomineralization Processes in Mine-Impacted Freshwaters

Toxicological Evaluation of Biological and Electrochemical Treatments of Coal Mine-impacted Water (MIW) on Duckweed Landoltia Punctata

Bioremediation: Current Research Trends and Applications

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