Toxic effects of zinc and iron on the routine oxygen consumption of Tilapia sparrmanii (Cichlidae)

1. The routine oxygen consumption of Tilapia sparrmanii without the addition of any toxicants over a 72 hr period showed a decrease for the first 48 hr, but stabilised thereafter.2. Addition of zinc (98 mg l⁻¹) resulted in a drastic decrease of oxygen consumption for 3 hr. The routine oxygen consumption showed a significant decrease for the first 24 hr, while the second and third 24 hr revealed significant differences with great individual variance.3. The decrease in oxygen consumption observed after exposure to zinc, could be caused by gill damage as well as the internal action of zinc.4. An increase in oxygen consumption was noted for almost 3 hr after addition of iron (88mg l⁻¹). During the first-, second- and third 24 hr the oxygen consumption increased significantly, compared to the control values.5. The increase in routine oxygen consumption of T. sparrmanii when compared to control values after exposure to iron, could be attributed to stress and possible gill changes.6. The study revealed that after acute (72 hr) exposure to sublethal concentrations of zinc and iron, the routine oxygen consumption of T. sparrmanii was altered.     

Silver Nanoparticle Exposure Induced Mitochondrial Stress,Caspase-3 Activation and Cell Death: Amelioration by Sodium Selenite

Silver nanoparticles (AgNP), one of the most commonly used engineered nanomaterial for biomedical and industrial applications, has shown a toxic potential to our ecosystems and humans. In this study, murine hippocampal neuronal HT22 cells were used to delineate subcellular responses and mechanisms to AgNP by assessing the response levels of caspase-3, mitochondrial oxygen consumption, reactive oxygen species (ROS), and mitochondrial membrane potential in addition to cell viability testing. Selenium, an essential trace element that has been known to carry protecting property from heavy metals, was tested for its ameliorating potential in the cells exposed to AgNP. Results showed that AgNP reduced cell viability. The toxicity was associated with mitochondrial membrane depolarization, increased accumulation of ROS, elevated mitochondrial oxygen consumption, and caspase-3 activation. Treatment with sodium selenite reduced cell death, stabilized mitochondrial membrane potential and oxygen consumption rate, and prevented accumulation of ROS and activation of caspase-3. It is concluded that AgNP induces mitochondrial stress and treatment with selenite is capable of preventing the adverse effects of AgNP on the mitochondria.     

Elevation of C-reactive protein in serum of Channa punctatus as an indicator of water pollution.

Effect of some pollutants like heavy metals, non-metals and pesticides on the circulating level of C-reactive protein (CRP) which is an acute phase plasma protein was studied in a freshwater murrel C. punctatus. Fish was exposed to nonlethal doses of these xenobiotics which were apparently safe. But the level of CRP detected by sensitive single radial immunodiffusion (SRID) technique showed that within 12 hr of exposure the nonlethal doses of xenobiotics could initiate the acute phase response in terms of elevated CRP titre. Heavy metals caused the acute phase within 24 hr, nonmetals and Metacid-50 within 48 hr exposure. The carbamate compound, carbaryl demonstrated a biphasic response to CRP level which may be correlated with the reversible type of anticholinesterase property of this compound while Metacid-50 is an irreversible type of anticholinesterase agent. The assessment of the CRP level in the serum of fish may be utilized as a primary bioindicator of a contaminated environment toxic enough to mount an acute phase response.     

Environmental Pollution and Relationship Between Total Antioxidant Capacity and Heavy Metals (Pb,Cd, Zn,Mn, and Fe) in Solanum tuberosum L. and Allium cepa L.

In the natural environment, plants are exposed to different stress factors that are responsible for overproduction of reactive oxygen species. Exposure to heavy metals is one of these factors. The present article highlights the correlation between the effects of bioaccumulation of heavy metals in a highly polluted region as the industrial zone of the Thermo Power Plants “Kosova” in Kosovo on the antioxidant capacity of two selected target species: Solanum tuberosum L. and Allium cepa L. The results show that environmental pollution in the industrial zone of the Thermo Power Plants “Kosova” generates a significant bioaccumulation of heavy metals such as Pb, Cd, Zn, Mn, and Fe. The high concentration of heavy metals leads to an increased production of reactive radical species. The extracts of target plants cultivated in this region display a lower antioxidant capacity than the same plants grown in a control rural area. The Fe bioaccumulation markedly influences the antioxidant capacity of plant samples analyzed.     

The impacts of heavy metals on oxidative stress and growth of spring barley

Oxidative stress is accepted to play a significant role in stress symptoms, caused by different stressors in a variety of organisms. In this study seedlings of spring barley (Hordeum vulgare L.) were exposed to a wide range of copper, zinc, chromium, nickel, lead and cadmium concentrations in order to determine the relationships between heavy metals-induced oxidative stress and plant growth inhibition. All investigated heavy metals induced an essential increase in lipid peroxidation and a reduction of dry biomass along with an increase in metal concentration in the nutrient solution. A very close and statistically significant exponential relationship between lipid peroxidation and growth inhibition was detected in this study. According to the results of analysis of variance (ANOVA), the intensity of nonspecific oxidative stress is identified as the main factor of barley growth inhibition, explaining 75% of total variance. Almost 10% of growth inhibition is attributed to the specific impact of heavy metals. The most pronounced increase of malondialdehyde content and growth inhibition was observed in Cu and Cd treatments, whereas the lowest changes in observed indicators were detected after exposure to Zn and Pb.     

Expression of heat shock protein 70 in freshwater prawn Macrobrachium malcolmsonii (H. Milne Edwards) following exposure to Hg and Cu

Juveniles of freshwater prawn M. malcolmsonii were exposed to 1/6th concentration of LC50 of Hg and Cu for 48 hr. Sampling was done at 1 8, 12, 16, 24, 30, 36, 42 and 48 hr of exposure. Gill and hepatopancreas were dissected and subjected to one-dimensional electrophoresis. Western blotting was employed to determine the relative concentration of heat shock protein, hsp 70 (stress-70) in each sample. In the gill tissue of the prawn that had been exposed to Hg (0.024 mgHg 1(-1)), stress-70 was detected from the 1st hr till the 16th hr of exposure. But in the gills of Cu exposed prawn, synthesis of stress-70 appeared from the 1st hr till the 24th hr. Synthesis of hsp70 was not recorded after the 24th hr in the gills of exposed prawns. Synthesis of stress-70 was also found to be tissue-specific for both metals in this prawn. When the antibody probe raised against stress-70 was used, synthesis of stress-70 was not observed in hepatopancreas of prawns exposed to Hg or Cu, during the entire period of exposure of 48 hr. The expression of stress-70 in M. malcolmsonii following exposure to Hg and Cu is apparently only transient, and also a differential expression of stress-70 between gill and hepatopancreas was observed for both the metals.     

Metal accumulation and response of antioxidant enzymes in seedlings and adult sunflower mutants with improved metal removal traits on a metal-contaminated soil

Sunflower mutant lines with an enhanced tolerance and metal accumulation capacity obtained by mutation breeding have been proposed for Zn, Cd and Cu removal from metal-contaminated soils in previous studies. However, soils contaminated with trace elements induce various biochemical alterations in plants leading to oxidative stress. There is a lack of knowledge concerning the metal accumulation and antioxidant responses during the growth and development of sunflowers. This study, therefore, aimed to characterise metal accumulation and possible metal detoxification mechanisms in young seedlings and adult sunflowers. Beside the inbred line, two mutant lines with an improved growth and enhanced metal uptake capacity on a metal contaminated soil were investigated in more detail.Sunflowers cultivated on a metal-contaminated soil in the greenhouse showed a decrease in shoot biomass and chlorophyll concentration in two different developmental stages. Adult sunflowers showed a lower sensitivity to metal toxicity than young seedlings, whereas mutant lines were more tolerant to metal stress than the control. Mutant lines also produced a higher amount of carotenoids on a metal-contaminated soil than on the control soil, indicating a possible protective mechanism of sunflower mutants against oxidative stress caused by Cd and excess Zn.Heavy metals primarily increased the activity of antioxidant enzymes involved in the ascorbate–glutathione cycle in sunflower leaves. Activity of dehydroascorbate reductase (DHAR), monodehydroascorbate reductase (MDHAR) and glutathione reductase (GR) was strongly increased in young seedlings exposed to heavy metals. The enzyme activities were even more pronounced in mutant lines. A significantly increased ascorbate peroxidase (APOX) activity in adult sunflowers exposed to heavy metals indicated an elevated use of ascorbate after a longer exposure to metal stress.An increased antioxidant level corresponded to a high Cd and Zn accumulation in young and adult sunflowers. Metal distribution, zinc translocation in particular, from the root into the shoot tissue obviously increased during sunflower growth and ripening. Altogether, these results suggest that sunflower plants, primarily the mutant lines, possess an efficient defence mechanism against oxidative stress caused by metal toxicity. A good tolerance of sunflowers toward heavy metals coupled with an increased metal accumulation capacity might contribute to an efficient removal of heavy metals from a polluted area.     

Respiratory Activity of the Mycelium of Eremothecium ashbyii

The respiratory activity of the mycelium of Eremothecium ashbyii from submerged cultures was manometrically determined at different stages of its development and the results were statistically analyzed. The experiments were performed in a manner designed to diminish the endogenous respiration without affecting the response to the addition of an exogenous substrate. Lactose was the carbohydrate tested that produced the lowest oxygen consumption. The oxidation of maltose, which was high at 24 hr, decreased by more than 50% at 48 and 55 hr. Glucose and sucrose were actively oxidized by mycelium of three ages. From the intermediates of carbohydrate metabolism, 24-hr mycelium did not produce oxygen consumption with malate, lactate, citrate, fumarate, and α-ketoglutarate. At 48 hr, mycelium did not oxidize either lactate or citrate; 55-hr mycelium showed oxygen consumption with all intermediates tested. Acetate and pyruvate always produced high oxygen consumption. Ethyl alcohol produced high oxygen consumption with mycelium of all tested ages.     

Effect of sublethal doses of copper sulphate and bayluscide on survival and oxygen consumption of the snail biomphalaria alexandrina

The survival rate and oxygen consumption of Biomphalaria alexandrina snails exposed to sublethal concentrations of copper sulphate and Bayluscide were investigated. Prolonged exposure periods to the sublethal concentrations increased the percentage mortality among the exposed snails. Although the snails exposed to lower concentrations of the sublethal doses, were apparently normal, their oxygen consumption was markedly lower than the control ones. The rate of reduction of oxygen consumption by the experimental snails increased significantly at higher concentrations. The reduction of oxygen consumption was also presistent at prolonged exposure periods.     

Sulphate uptake and metabolism in the chrysomonad, monochrysis lutheri.

The intracellular concentration of inorganic 35SO4 in Monochrysis lutheri cells exposed to 0.513 mM Na235SO4 for up to 6-hr remained constant at about 0.038 mM. The exchange rate of this 35SO4 with the external unlabelled sulphate was negligible compared to the rate of influx across the plasmalemma (0.032 mu moles/g cells/hr). The flux of free 35SO4 to organic 35S was 0.029 mu moles/g cells/hr. Assuming an internal electrical potential in the cells of -70 mV, this intracellular concentration of inorganic 35SO4 was well in excess of that obtainable by passive diffusion as calculated from the Nernst equation. These results indicate that sulphate is accumulated by an active mechanism rather than by facilitated diffusion. Sulphate uptake appears to occur via a carrier-mediated membrane transport system which conforms to Michaelis-Menten type saturation kinetics with a Km of 3.2 X 10(-5) M and Vmax of 7.9 X 10(-5) mu moles sulphate/hr/10(5) cells. Uptake was dependent on a source of energy since the metabolic inhibitor CCCP almost completely inhibited uptake under both light and dark conditions and DCMU caused a 50% decrease in uptake under light conditions. Under dark conditions, uptake remained at about 80% of that observed under light conditions and was little affected by DCMU, indicating that the energy for uptake could be supplied by either photosynthesis or respiration. A charge and size recognition site in the cell is implied by the finding that sulphate uptake was inhibited by chromate and selenate but not by tungstate, molybdate, nitrate or phosphate. Chromate did not inhibit photosynthesis. Cysteine and methionine added to the culture medium were apparently capable of exerting inhibition of sulphate uptake in both unstarved and sulphate-starved cells. Cycloheximide slightly inhibited sulphate uptake over an 8-hr period indicating, either a slow rate of entry of the inhibitor into the cells or a slow turnover of the protein(s) associated with sulphate transport.     

Dietary exposure of Finnish children to heavy metal mixture – a cumulative assessment

A preliminary assessment of the cumulative exposure to heavy metals among Finnish preschool children is reported. Cadmium, lead, arsenic,and mercury affect many of the same organs in the human body. The effects are mostly caused by oxidative stress or disruption of enzyme function. The cumulative effects of the heavy metals on the central nervous system and on the kidneys are determined based on national concentration and consumption data, and comparison of the relative toxicity of the heavy metals is based on dose–response values found in the literature. The cumulative effects were assumed to be additive. The main contributors to kidney toxicity among the studied population groups were cadmium and lead, while lead was the main contributor to neurotoxic effects.     

Ribonuclease activity of Glycine max and Glycine soja sprouts as a marker adaptation to copper sulphate and zinc sulphate toxicity

Environmental pollution caused by anthropogenic activities has increased agricultural land contamination with heavy metals which is harmful to plant and human health. Increased metal accumulation in the soils may trigger competition between toxic metals and essential nutrients for absorption by plants and consequently leads to the development of oxidative stress. Soybean plants have a delicate system of defense mechanisms. We assume that the influence of heavy metals on plant growth as a whole can be traced through a change in the activity of enzymes. We studied the stress-reducing reaction against the toxic effects of copper sulphate and zinc sulphate, identified different endurance classes, and observed differences in the biochemical adaptation i.e. ribonuclease (RNase) activity in the wild and cultivated soybean sprouts. Sulphates of both zinc and copper at maximum permissible concentration and double maximum permissible concentration affected the multiple forms of RNase and its specific activity in the wild and cultivated soybean sprouts (grown for 1, 3, 5, and 7 days). Wild soybean sprouts had higher RNase activity as compared to cultivated soybean sprouts. It is shown that the limits of endurance for wild soybean during intoxication are observed on days 1, 3 and 5, while for cultivated soybean they vary depending on the type of toxicant and its concentration. Sulphates of copper and zinc affect the wild and cultivated soybean sprouts in a time and dose-dependent manner.     

The effect of controlled atmospheres on carbohydrate metabolism in the tissue of Ephestia cautella (walker) pupae

Ephestia cautella pupae, 0–24 hr old, were exposed for 24 hr to a controlled atmosphere, either high in carbon dioxide or low in oxygen at 26°C. Tissue levels of glycogen, trehalose, glucose, α-glycerophosphate, glycerol, lactate, alanine, ATP, ADP, AMP, citrate and malate were determined in exposed pupae. Hypercarbia tended to increase the consumption of glycogen but had no clear effect on trehalose consumption. Glucose levels were similar to insect exposed to normal and to hypercarbic atmospheres but significantly higher in insects exposed to hypoxia. α-Glycerphosphate, glycerol, lactate and alanine levels were high in 0–24 hr old pupae but fell after 24 hr exposure to normal of hypoxic atmospheres. The levels of these metabolites fell less when nitrogen was replaced by carbon dioxide. Hypercarbia reduced the total amount of adenine nucleotides and the energy charge. However, 1% oxygen in nitrogen markedly affected the ATP level. Citrate was reduced in hypercarbia and in hypoxia, whereas malate was reduced by hypercarbia but increased in hypoxia.     

Involvement of salicylic acid and nitric oxide in protective reactions of wheat under the influence of heavy metals

This article studies the effect of salicylic acid (SA) and nitric oxide (NO) on Triticum aestivum L. wheat plants exposed to the influence of high concentrations of copper and zinc compounds. It is shown that heavy metals (HMs) caused a decrease in the growth parameters in the overground and underground plant parts and contributed to a sharp deterioration in the energy balance and the situation regarding oxidative stress. SA and NO exerted a protective effect, which was expressed in the increased ability to accumulate shoot and root mass, stabilize the energy balance, and reduced lipid peroxidation. Resemblance of protective reactions of wheat plants affected by SA and NO appeared as the alteration of energy (Rtot/Pnet and alternative respiration) and antioxidant (MDA) balance of studied plants was identified. The resemblance possibly evidences of common signaling pathway for SA and NO caused by effect of toxic concentrations of heavy metals.     

Interactions of temperature and sublethal environmental copper exposure on the energy metabolism of bluegill, Lepomis macrochirus Rafinesque

Copper (0.21 mgl⁻¹) caused a decrease in whole body oxygen consumption in bluegills exposed for 32 days, but no changes occurred during days 3, 4 or 9 of copper exposure. In vitro oxygen consumption of gill and brain, were not significantly altered, whereas liver Q O₂, was slightly elevated which suggests that copper is acting to decrease oxygen consumption of the whole animal at a higher level of integration than these individual tissues. In fish subjected to an increase in temperature as well as sublethal copper exposure, whole body oxygen consumption was higher than controls 5 days after the temperature was increased, indicating a delay in temperature acclimation in the copper exposed fish. This difference was reflected in higher in vitro oxygen consumption in the liver and gill of these fish suggesting the metal was delaying the process of temperature acclimation by at least in part acting directly on the tissues.     

Health risk assessment of heavy metals in shellfish collected from Fujian,China

Abstract

With industrialization and human activities, shellfish may be contaminated by various pollutants such as heavy metals. This study aims at the concentrations of As, Cr, Mn, Ni, Cu, Zn, Cd, Sn, Sb and Pb in shellfish collected from Fujian of China, and the risk of heavy metals in shellfish on human health based on target hazard quotients (THQ). Results showed that the THQ values of the elements were far below 1, except for As with an average value of 1.148 in razor clam. No detrimental health effects of heavy metals on humans health was observed by daily consumption of mussel and oyster, but the exposed population to short-necked clam, scallop and razor clam might experience noncarcinogenic health risks because each of the total THQ values was above 1 for the three shellfish.     

Heavy metals in the water and sediments of Oued Es-Souk,Algeria, a river receiving acid effluents from an abandoned mine

The Sidi Kamber Mine, abandoned since 1976, is still a source of acidic drainage entering the Oued Es-Souk River. An investigation of the rate of pollution of the Oued Es-Souk and the variation of its water quality showed that the mining waters are very acidic, with high concentrations of sulphate ions and dissolved heavy metals. Only lead reaches a significant level in the suspended matter. During mixing of the acid stream waters with uncontaminated river water, an amorphous orange precipitate forms and contributes to the removal of sulphate and certain heavy metals by adsorption and co-precipitation. Downstream, zinc and lead are concentrated in the sediments, while cadmium is mainly transported in the dissolved phase.     

Effects of acute heat exposure on respiratory metabolism and blood glucose in freshwater fishes, Prochilodus scrofa (curimbatá) and Cyprinus carpio (carp) acclimatized to tropical winter

Routine oxygen consumption and blood glucose were determined from freshwater fishes, Prochilodus scrofa and Cyprinus carpio, exposed at high temperatures for 1 hr. Prochilodus scrofa had a significantly higher rate of oxygen consumption at 30 degrees C than at 25 degrees C, and carp higher at 25 degrees C than at 30 degrees C. Blood glucose was significantly higher for Cyprinus carpio than for Prochilodus scrofa at 25 and 30 degrees C; however, after exposure to these temperatures for 1 hr blood glucose did not change significantly for both species. The results suggest that these interspecific variations may be linked to the differences between native and foreign fishes and their way of life.