Protonated or Ca-form Sargassum seaweed biomass
bound up to 40 mg/g of Cr(III) by ion exchange at pH 4.
An ion-exchange model assuming that the only species
taken up by the biomass was Cr(OH)2+ successfully fitted the
experimental biosorption data for Cr(III). The maximum
uptake of Cr(VI) by protonated Sargassum biomass at pH
2 was explained by simultaneous anion exchange and Cr(VI)
to Cr(III) reduction. At pH <2.0, the reduction of Cr(VI)
to Cr(III) dominated the equilibrium behavior of the batch
systems, which was explained by the dependence of the
reduction potential of HCrO4
- ions on the pH. At pH
>2.0, the removal of Cr(VI) was linked to the depletion of
protons in equilibrium batch systems via an anion-exchange reaction. The optimum pH for Cr(VI) removal
by sorption lies in the region where the two mechanisms
overlap, which for Sargassum biomass is in the vicinity
of pH 2. The existence of the optimum pH for the removal
of Cr(VI) may be explained by taking into account (a) the
desorption of Cr(III) from biomass at low pH and (b) the effect
of pH on the reduction potential of Cr(VI) in aqueous
solutions. Seventy percent of Cr(VI) bound to the seaweed
at pH 2 can be desorbed with 0.2 M H2SO4 via reduction
to Cr(III).
Aims:The aim was to investigate the biosorption of chromium, nickel and iron from metallurgical ef¯uents, produced by a steel foundry, using a strain of Aspergillus terreus immobilized in polyurethane foam. Methods and Results: A. terreus UFMG-F01 was immobilized in polyurethane foam and subjected to biosorption tests with metallurgical ef¯uents. Maximal metal uptake values of 164á5 mg g)1 iron, 96á5 mg g )1 chromium and 19á6 mg g )1 nickel were attained in a culture medium containing 100% of ef¯uent stream supplemented with 1% of glucose, after 6 d of incubation. Conclusions: Microbial populations in metal-polluted environments include fungi that have adapted to otherwise toxic concentrations of heavy metals and have become metal resistant. In this work, a strain of A. terreus was successfully used as a metal biosorbent for the treatment of metallurgical ef¯uents. Signi®cance and Impact of the Study: A. terreus UFMG-F01 was shown to have good biosorption properties with respect to heavy metals. The low cost and simplicity of this technique make its use ideal for the treatment of ef¯uents from steel foundries.
Trehalose accumulation, invertase activity and physiological characteristics of 86 yeast isolates from short fermentative cycles during the production of cachaça in three artisanal distilleries of the State of Minas Gerais were studied. Among these isolates, 70% were able to grow at temperatures between 40 and 42ºC. Only Saccharomyces cerevisiae isolates were able to grow over 40ºC. Lower temperatures (<40ºC) favoured the growth of yeasts such as Candida parapsilosis-like, C. maltosa-like, Kloeckera japonica, S. exiguus and C. bombicola-like. The isolates from all three distilleries were ethanol tolerant, produced invertase, and accumulate trehalose in the presence of glucose. The strains isolated from distillery A presented more resistance to ethanol (around 84.2% of the strains were able to grow in the presence of 12% ethanol) when compared to the ones from distilleries C and B (9.5% and no strain, respectively). The strains of S. cerevisiae isolated from the three distilleries presented a higher capacity to produce invertase and accumulate trehalose in the presence of glucose. Based on the results of thermal and ethanol stress experiments, it was possible to identify strong relationship between intracellular trehalose accumulation and cell viability. The increase in cell viability was even more pronounced when the strains were subjected to a pre-treatment at sublethal temperatures.
In this work the process of desorption of hexavalent chromium, a toxic metal ion, from the marine algae Sargassum sp, following biosorption experiments 2³ factorial design was studied. A technique was applied to three eluents: HCl, H2SO4 and EDTA. Three factors of importance were evaluated: concentration of eluent, the ratio between mass of biosorbent and volume of eluent (S/L) and process time. A statistical analysis of the experimental results showed that the three variables evaluated are significant for all three eluents. The models for chromium desorption were validated, as the results agreed well with the observed values. Through use of the response surface methodology, a factorial design based optimization technique; it was possible to identify the most suitable eluent and the interval of values for the process variables that resulted in the most significant desorption of chromium, which is relevant information for work aiming at process optimization
Five strains of Rhodotorula mucilaginosa were tested for the ability to accumulate free and complexed silver ions by metabolism-dependent and -independent processes. The ability to take up Ag + was observed in both live and dead biomass, whereas silver dicyanide [Ag (CN)2-] uptake was strictly glucose dependent. In contrast to Ag (CN)2-, glucose addition inhibited by 16 to 25% the Ag + uptake rate of living UFMG -Y02, Y27, and Y35 cells, while strains CBS 316 and UFMG-Y01 showed an improved uptake rate of about 115% and 13%, respectively. The Langmuir sorption model was used to evaluate the silver sorption capability of the R. mucilaginosa strains. The calculated qmax value suggested that R. mucilaginosa strains UFMG-Y27 had the highest loading capacity. The type strain CBS 316 had the lowest qmax but showed the highest affinity for silver ions. The results provided by the Fourier Transform Infra Red analysis (FTIR) suggest that C=O groups represent the main reactive site for silver uptake by the strain UFMG-Y27.
A mixed culture and a pure bacterial strain (BMV8) were isolated from a bioreactor for thiocyanate treatment. Both cultures removed 5 mM of thiocyanate from the medium in 36 hours. The mixed culture was able to tolerate concentrations up to 60 mM. The efficiency of thiocyanate degradation decreased when the cells were immobilized.
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