Add to ORKGIn the present article the effects of Zn(II) on Botryococcus braunii in terms of growth and the photosynthesisrespiration metabolism and the ability of this microalgae to remove zinc present in wastewaters is described. The photosynthetic and respiration rates are affected by increasing metal concentration in solution, and therefore B. braunii growth rate decreases to a half, nevertheless the maximum value of biomass reached (770 ± 40 mg l−1) is the same and the biomass remains viable throughout the range of concentrations studied (0–80 mg l−1). B. braunii exposed the ability to reverse the acidic conditions of the medium, showing a pH increase from 5.2 till values above 8.0 favoring the precipitation of different zinc compounds. Zn(II) spe...
Although Zn2+ and Cd2+ ions in waters are pollutant with a large amount due to mining and industrial...
Treating biosolids from industrial, urban, and agricultural plants produces high amounts of water. A...
The removal of Zn(II) ions from dilute aqueous solution using maize (Zea mays) leaf as the adsorbent...
In the present article the effects of Zn(II) on Botryococcus braunii in terms of growth and the phot...
The goal of the present article is to evaluate the potential of copper(II) removal from acidic waste...
Different kinds of heavy metals exist in the solution with different forms, so their treatment metho...
Aquatic environments are often exposed to toxic heavy metals, which gain access to the food chain vi...
The production of heavy metals has increased quickly since the industrial revolution. Heavy metals f...
Cultivation of microalgae has been suggested as a green approach for a sustainable wastewater treatm...
Microalgae have been proven efficient biological vectors for heavy metal uptake. In order to further...
This investigation suggests the applicability of Delftia tsuruhatensis biomass for the removal of Zn...
Zinc ions are present in different types of industrial effluents, being responsible for environmenta...
In this paper, the removal potential on Zn ion by macrophyte Egeria densa has been studied. The infl...
Effects of zinc on growth, cell morphology,oxidative stress responses and zinc removal activity of t...
Studies were conducted to assess the capability of a moss, Calymperes delessertii Besch, to remove z...
Although Zn2+ and Cd2+ ions in waters are pollutant with a large amount due to mining and industrial...
Treating biosolids from industrial, urban, and agricultural plants produces high amounts of water. A...
The removal of Zn(II) ions from dilute aqueous solution using maize (Zea mays) leaf as the adsorbent...
In the present article the effects of Zn(II) on Botryococcus braunii in terms of growth and the phot...
The goal of the present article is to evaluate the potential of copper(II) removal from acidic waste...
Different kinds of heavy metals exist in the solution with different forms, so their treatment metho...
Aquatic environments are often exposed to toxic heavy metals, which gain access to the food chain vi...
The production of heavy metals has increased quickly since the industrial revolution. Heavy metals f...
Cultivation of microalgae has been suggested as a green approach for a sustainable wastewater treatm...
Microalgae have been proven efficient biological vectors for heavy metal uptake. In order to further...
This investigation suggests the applicability of Delftia tsuruhatensis biomass for the removal of Zn...
Zinc ions are present in different types of industrial effluents, being responsible for environmenta...
In this paper, the removal potential on Zn ion by macrophyte Egeria densa has been studied. The infl...
Effects of zinc on growth, cell morphology,oxidative stress responses and zinc removal activity of t...
Studies were conducted to assess the capability of a moss, Calymperes delessertii Besch, to remove z...
Although Zn2+ and Cd2+ ions in waters are pollutant with a large amount due to mining and industrial...
Treating biosolids from industrial, urban, and agricultural plants produces high amounts of water. A...
The removal of Zn(II) ions from dilute aqueous solution using maize (Zea mays) leaf as the adsorbent...