Heavy Metal Toxicity (heavy + metal_toxicity)

Distribution by Scientific Domains


Selected Abstracts


Acute toxicity of heavy metals to acetate-utilizing mixed cultures of sulfate-reducing bacteria: EC100 and EC50

ENVIRONMENTAL TOXICOLOGY & CHEMISTRY, Issue 12 2001
Vivek P. Utgikar
Abstract Acid mine drainage from abandoned mines and acid mine pit lakes is an important environmental concern and usually contains appreciable concentrations of heavy metals. Because sulfate-reducing bacteria (SRB) are involved in the treatment of acid mine drainage, knowledge of acute metal toxicity levels for SRB is essential for the proper functioning of the treatment system for acid mine drainage. Quantification of heavy metal toxicity to mixed cultures of SRB is complicated by the confounding effects of metal hydroxide and sulfide precipitation, biosorption, and complexation with the constituents of the reaction matrix. The objective of this paper was to demonstrate that measurements of dissolved metal concentrations could be used to determine the toxicity parameters for mixed cultures of sulfate-reducing bacteria. The effective concentration, 100% (EC100), the lowest initial dissolved metal concentrations at which no sulfate reduction is observed, and the effective concentration, 50% (EC50), the initial dissolved metal concentrations resulting in a 50% decrease in sulfate reduction, for copper and zinc were determined in the present study by means of nondestructive, rapid physical and chemical analytical techniques. The reaction medium used in the experiments was designed specifically (in terms of pH and chemical composition) to provide the nutrients necessary for the sulfidogenic activity of the SRB and to preclude chemical precipitation of the metals under investigation. The toxicity-mitigating effects of biosorption of dissolved metals were also quantified. Anaerobic Hungate tubes were set up (at least in triplicate) and monitored for sulfate-reduction activity. The onset of SRB activity was detected by the blackening of the reaction mixture because of formation of insoluble ferrous sulfide. The EC100 values were found to be 12 mg/L for copper and 20 mg/L for zinc. The dissolved metal concentration measurements were effective as the indicators of the effect of the heavy metals at concentrations below EC100. The 7-d EC50 values obtained from the difference between the dissolved metal concentrations for the control tubes (tubes not containing copper or zinc) and tubes containing metals were found to be 10.5 mg/L for copper and 16.5 mg/L for zinc. Measurements of the turbidity and pH, bacterial population estimations by means of a most-probable number technique, and metal recovery in the sulfide precipitate were found to have only a limited applicability in these determinations. [source]


Calcium supplementation of breeding birds: directions for future research

IBIS, Issue 4 2004
S. James Reynolds
Calcium is an essential nutrient for avian reproduction. Calcium-rich foods are consumed by breeding birds for production of eggshells and for provisioning chicks that are mineralizing skeletal tissues. A number of studies have documented calcium-limited reproduction, and calcium supplementation has been employed over the last decade to demonstrate degrees, causes and consequences of calcium limitation. However, supplementation studies have produced equivocal findings resulting from an absence of calcium limitation in the study species, a poorly designed supplementation procedure or both. Prior to effective calcium supplementation, many factors need to be considered. Calcium-limited breeding in birds can only be detected by monitoring breeding attempts for more than one year and by ensuring that the measured breeding parameters are sensitive to calcium availability. Natural calcium availability needs to be estimated, and daily calcium budgets for the appropriate reproductive stages determined for the study species. Most crucially, if calcium limitation of breeding is caused by secondary calcium limitation (e.g. through heavy metal toxicity), calcium supplementation will probably be ineffective. Effective calcium supplementation will then be achieved through careful planning , a study over several years using appropriate supplements (i.e. naturally occurring ones used by breeding birds), applied at the appropriate time of year (i.e. prelaying and/or chick-rearing phases) and using a response variable that is highly sensitive to calcium availability. If properly planned and performed, calcium supplementation is a cost-effective and potent tool for the study of bird breeding biology. [source]


Assessment of potential ecological disruption based on heavy metal toxicity, accumulation and distribution in media of the Lagos Lagoon

AFRICAN JOURNAL OF ECOLOGY, Issue 4 2007
Otitoloju A. Adebayo
Abstract Toxicity evaluations of heavy metals against three benthic animals, Tympanotonus fuscatus, Clibanarius africanus and Sesarma huzardi of the Lagos Lagoon were carried out under laboratory conditions. On the basis of the 96hLC50 values, Cd was found to be the most toxic metal tested followed by Cu, Zn and Pb, in a descending order of toxicity against T. fuscatus and S. huzardi; however, against C. africanus, Cu was the most toxic followed by Cd, Zn and Pb (least toxic). The determination of the metal concentrations in the water column and sediment of the Lagos Lagoon revealed that these media of the lagoon contained measurable concentrations of heavy metals but the levels were still several folds lower than the concentrations that will cause 50% mortality of exposed animals under laboratory conditions. The significance of the observed differences between the 96hLC50 values of the test metals, the concentration of heavy metals detected in tissues of field animals and ambient levels of the metals in the Lagos lagoon were discussed in relation to the protection of aquatic lives and potential public health risks. The need to verify the possibilities of synergistic interactions between the constituent metals when acting jointly against the exposed animals was recommended. Resume On a procédé en laboratoire à des évaluations de la toxicité des métaux lourds chez trois animaux benthiques, Tympanotonus fuscatus, Clibanarius africanus et Sesarma huzardi, du lagon de Lagos. Sur la base des valeurs de 96hLC50, on a trouvé que le Cd était le métal testé le plus toxique suivi par le Cu, le Zn et le Pb, en ordre de toxicité décroissant pour T. fuscatus et S. huzardi; cependant, pour C. africanus, le Cu était le plus toxique, suivi par Zn et Pb (le moins toxique). La détermination des concentrations de métaux dans l'eau et les sédiments du lagon de Lagos a révélé que ces milieux contenaient des concentrations mesurables de métaux lourds, mais que les niveaux étaient encore plusieurs fois plus bas que les concentrations qui causaient 50% de mortalité chez les animaux qui y étaient exposés en laboratoire. La signification des différences constatées entre les valeurs de 96hLC50 des métaux testés, la concentration des métaux lourds détectés dans les tissus des animaux du lagon et les niveaux observés dans le lagon ont été discutés en relation avec la protection de la vie aquatique et des risques potentiels pour la santé des personnes. On a recommandé de vérifier s'il est possible qu'il existe des interactions synergiques entre les métaux constituants lorsqu'ils agissent conjointement sur les animaux qui y sont exposés. [source]


Acinetobacter bioreporter assessing heavy metals toxicity

JOURNAL OF BASIC MICROBIOLOGY, Issue 5 2006
Desouky Abd-El-Haleem Dr.
This work was conducted to employ a whole cell-based biosensor to monitor toxicity of heavy metals in water and wastewater. An isolate of industrial wastewater bacterium, Acinetobacter sp. DF4, was genetically modified with lux reporter gene to create a novel bioluminescent bacterial strain, designated as DF4/PUTK2. This bioreporter can investigate the toxicity through light inhibition due to cell death or metabolic burden and the specific stress effects of the tested soluble materials simultaneously. The use of Acinetobacter DF4/PUTK2 as a bioluminescent reporter for heavy metal toxicity testing and for the application of wastewater treatment influent toxicity screening is presented in this study. Among eight heavy metals tested, the bioluminescence of DF4/PUTK2 was most sensitive to Zn, Cd, Fe, Co, Cr followed by Cu in order of decreasing sensitivity. The same pattern of sensitivity was observed when several contaminated water and wastewater effluents were assayed. This work suggested that luxCDABE -marked Acinetobacter bacterium DF4/PUTK2 can be used to bioassay the ecotoxicity of wastewater and effluent samples contaminated with heavy metals. Using this assay, it is possible to pre-select the more toxic samples for further chemical analysis and to discard wastewater samples with low or no inhibition because they are not toxic to the environment. (© 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source]