Effect of oil-pollution of water on delayed fluorescence of the algae <Emphasis Type="Italic">Chlorella vulgaris</Emphasis> Beijer and survival rate of the cladoceran <Emphasis Type="Italic">Daphnia magna</Emphasis> Str.

The paper gives the results of the laboratory experiments on the influence of different concentrations of oil in water environment over the chlorella and daphnia. It is shown that as the oil content in water increases, the intensity of delayed fluorescence of test-culture of chlorella and the survival rate of the daphnia decrease. However, for the chlorella the decrease in fluorescence as the indicator of its photosynthetic activity is observed only at very high concentrations of oil (1000–2000 MPC), whereas the survival rate of the cladocerans begins to drop at 4 MPC. A similar dependence is observed when sunflower-seed oil is introduced into the environment as an imitator of the oil pollution. We suppose that the negative influence of oil over the microalgae and cladocerans is conditioned more by the physical factors than by chemical ones.     

Peculiarities of the influence of chemical and physical factors on cytogenetic indices of root meristem in Pisum sativum L

The results of comparative analysis of cytogenetic effects of various chemical and physical factors on meristemic cells of field pea (Pisum sativum L.) are presented. Cytogenetic effects of aluminum, cadmium and selenium compounds as well as X-ray irradiation were studied. Cytogenetic indices were investigated for different doses of the above factors and peculiarities of their influence on the ratio of mitotic phases were analyzed. The increasing in the proportion of cells at the specific mitotic stage was revealed. There were anaphase stage for aluminum chloride, prophase stage for cadmium chloride, meta- and anaphase stages for sodium selenate, and telophase stage for X-rays. Investigated chemical elements may be ranged according to their ability to induce the aberrant anaphase frequency in the row: Se (from 3.75 x 10(-6) M) > A1 (from 3.86 x 10(-5) M) > Cd (from 8.44 x 10(-5) M). Maximal experimental dose of X-ray irradiation (9.03 x 10(-3) C/kg) induces the frequency of chromosome aberration similar to those induced by maximal experimental doses of aluminum and selenium (3.86 x 10(-4) M and 8.34 x 10(-6) M).     

Long time combined action of cadmium and ultraviolet radiation on barley plants

In a greenhouse experiment the development of biomass and grain yield was studied under a long-time combined action of medium-wave UV-radiation and cadmium (exposure levels of the agents were, respectively, 0.65-1.30 W/m2, 5 and 50 mg/kg of soil). The influence of the metal on the UV-radiation induced inhibition of the vegetative mass development was found to be dependent on the duration of stress: with increase in the exposure time the cadmium ability for cushioning negative effects of irradiation decreases. Simultaneously the contribution of the metal and its interaction with UV-radiation to the variability in the observed indicator (biomass) becomes much less significant than that of irradiation. Considerable independent of cadmium concentration reduction in the grain yield becomes evident at a rate of medium-wave UV-radiation intensity of 0.65 W/m2, whereas at UV-radiation exposure levels of 1.30 W/m2 and the heavy metal concentration of 50 mg/kg in soil practically total inhibition of grain productivity occurred. As for grain formation, relative effects of irradiation were somewhat higher than these of cadmium and its interaction with UV-radiation.     

DNA damage in thymocytes of mice under combined acute whole body exposure to cadmium ions and gamma-radiation

The effect of the combined acute whole body exposure to cadmium chloride (0.5 mg Cd2+ per kg body weight of animals) and gamma-radiation (1 Gy) on the DNA damage induction in thymocytes and thymic cellularity of mice was studied. It has been shown that CdCl2 solution injection 0.5 h before irradiation reduces the quantity of single-strand DNA breaks and alkali-labile sites in thymocytes 48 h after injection compared to gamma-radiation action only. The observed effect is accompanied by a sharp decrease of the thymic cellularity compared with the separate effects of both cadmium ions and irradiation, which masks the overall genotoxic effect of combined exposure and gives an illusion of cadmiumL ions radioprotective action. Cadmium chloride injection 24 h before irradiation leads to a significant additive increase in the single-strand DNA breaks and alkali-labile sites number as compared to the separate effects of cadmium ions and irradiation alone. At the same time the decrease in the percentage of DNA tightly bound to proteins (DNA-protein cross-links) was noted in comparison with the action of gamma-radiation only. Statistically significant changes in thymic cellularity compared with separate effects of cadmium ions and irradiation were not found. Thus, our research has shown that under a combined action of cadmium ions and gamma-radiation on thymocytes in mice at the applied doses and exposure schemes the additive effects, rather than antagonism or radioprotective effects are observed.     

Influence of salinity and cadmium on the survival and osmoregulation of Callianassa kraussi and Chiromantes eulimene (Crustacea: Decapoda)

This study investigated the influence of salinity and cadmium on the survival and osmoregulatory capability of two decapod crustaceans, Callianassa kraussi and Chiromantes eulimene. Callianassa kraussi was able to survive in salinities of 5–55 over 96 h, whilst C. eulimene survived in 0–55 over the same time period. The 96-hour cadmium LC₅₀ for both species decreased progressively at salinities above and below their respective isosmotic conditions, with the decrease being slightly more pronounced below compared to above isosmotic salinity. A hypo-iso-osmoregulatory strategy was followed by C. kraussi as it hyper-osmoregulated at salinities between 5 and 25 and osmoconformed at salinities greater than 25. Chiromantes eulimene followed a hyper-hypo-osmoregulatory strategy; it hyper-regulated in salinities from 0 up to isosmotic conditions at about 28 (c. 780 mOsm kg^?1), followed by hypo-regulation up to 55. The effect of cadmium exposure on the osmoregulatory capacity of C. kraussi was more pronounced at hyper-regulating salinities (5–25) whilst on C. eulimene the influence was more pronounced at salinities above the isosmotic point (28). The influence of salinity and cadmium on both survival and osmoregulation of the two crustaceans are discussed by outlining the chemical and physiological mechanisms involved.     

DNA damage in thymocytes of mice after exposure of the whole body to combined action of cadmium ions and γ radiation

The effect of combined action of cadmium chloride at a dose of 0.5 mg/kg of body weight and γ-radiation of 1 Gy on induction of DNA damage in thymocytes and the total number of cells in the thymus of mice was studied. We found that injection of CdCl₂ 0.5 h prior to irradiation decreased the number of single-strand DNA breaks and the number of alkali-labile sites in thymocytes 48 h after irradiation as compared to the γ-radiation effect only. This effect was associated with a strong decrease in the total number of thymocytes in this organ as compared to the action of cadmium ions and γ radiation separately. This masked the general genotoxic effect of combined treatment and created an illusion of a radioprotective effect of cadmium ions. Injection of cadmium chloride into mice 24 h prior to irradiation was followed by an additive increase in the number of the single-strand DNA breaks and the number of alkali-labile sites in thymocytes as compared to the respective controls such as the separate effects of cadmium ions and irradiation. We revealed a simultaneous decrease in the part of DNA tightly bound to proteins, i.e., DNA-protein cross-links as compared to the effect of γ-radiation only. We did not observe any statistically significant changes in the total number of thymocytes as compared to the separate effects of cadmium ions and irradiation. Thus, our data show that exposure of murine thymocytes to combined action of cadmium ions and γ-radiation at the doses and with the methods of treatment used induced additive effects but not antagonistic effects or protection against radiation.     

Toxicity of cadmium and zinc to Diplostomum spathaceum (Trematoda: Diplostomidae) cercarial survival

The toxicity of cadmium and zinc at concentrations ranging from 0.1 to 10000 microg/l was investigated with cercariae of Diplostomum spathaceum at three temperatures (12, 20, 25 degrees C) and three levels of water hardness (distilled water, soft water, hard water). Under most environmental conditions survival of cercariae was reduced by increasing metal concentration. Increasing water hardness and decreasing water temperature caused an increase in the survival of both control and metal exposed cercariae. However, with decreasing temperature increased survival of metal-exposed cercariae above the control occurred at a number of low metal concentrations. Differences in the relative toxicity of cadmium and zinc to cercariae was dependent on the environmental conditions of exposure. The two heavy metals demonstrated little toxicity to cercariae during the period of maximum cercarial infectivity (0-5 h).The mechanisms of metal toxicity and their effects on cercarial survival are discussed.     

Sublethal maternal pre-exposure of fish to cadmium. Effect on the survival of the newly hatched alevins

The aim of this study was to determine the effects of the exposure of pregnant females of a viviparous teleost Cnesterodon decemmaculatus to sublethal Cd solutions on the survival of their offspring. Ovigerous females were acclimated and accomodated in aquaria containing the following solutions: artificial freshwater medium (AFW) and AFW with 25, 50 and 100 microg Cd(2+) /L (as chloride). Part of the offspring born from control females was transferred to media contain-ing 25, 50 and 100 microg/L of cadmium; the rest of the fry stayed in AFW solutions without cadmium. The offspring born from the females maintained in solutions of cadmium were transferred to aquaria with AFW, and to solutions containing metal at the same concentration as their mother. In all cases mortality was recorded daily for 168 h. The results demonstrated that the survival of newborn offspring was always related to the concentration of Cd(2+) to which they were exposed at birth, regardless of the concentration of the metal to which the mother was exposed during its pregnancy. When exposed to Cd(2+), alevins from non-exposed females showed a constant linear death rate while in those from Cd-exposed it resulted exponential.     

Effect of Pseudomonas contamination or antibiotic decontamination of the GI tract on acute radiation lethality after neutron or gamma irradiation

The influence of antibiotic decontamination of Pseudomonas contamination of the GI tract prior to whole-body neutron or gamma irradiation was studied. It was observed that for fission neutron doses greater than 5.5 Gy, cyclotron-produced neutron doses greater than 6.7 Gy, and 137Cs gamma-ray doses greater than 14.4 Gy, the median survival time of untreated rats was relatively constant at 4.2 to 4.5 days, indicating death was due to intestinal injury. Within the dose range of 3.5 to 5.5 Gy of fission neutrons, 4.9 to 6.7 Gy of cyclotron-produced neutrons, and 9.6 to 14.4 Gy of gamma rays, median survival time of these animals was inversely related to dose and varied from 12 to 4.6 days. This change in survival time with dose reflects a transition in the mechanisms of acute radiation death from pure hematopoietic, to a combination of intestinal and hematopoietic, to pure intestinal death. Decontamination of the GI tract with antibiotics prior to irradiation increased median survival time 1 to 5 days in this transitional dose range. Contamination of the intestinal flora with Pseudomonas aeruginosa prior to irradiation reduced median survival time 1 to 5 days in the same radiation dose range. Pseudomonas-contaminated animals irradiated within this transitional dose range had maximum concentrations of total bacteria and Pseudomonas in their livers at the time of death. However, liver bacteria concentration was usually higher in gamma-irradiated animals, due to a smaller contribution of hematopoietic injury in neutron-irradiated animals. The effects of both decontamination of the GI tract and Pseudomonas contamination of the GI tract were negligible in the range of doses in which median survival time was dose independent, i.e., in the pure "intestinal death" dose range. Finally, despite the marked changes in survival time produced by decontamination or Pseudomonas contamination in the "transitional dose range," these treatments had little effect on ultimate survival after irradiation as measured by the LD50/5 day and the LD50/30 day end points. The implications of these results with respect to treatment of acute radiation injury after whole-body irradiation are discussed.     

Understanding the development of roots exposed to contaminants and the potential of plant-associated bacteria for optimization of growth

Background and Scope

Plant responses to the toxic effects of soil contaminants, such as excess metals or organic substances, have been studied mainly at physiological, biochemical and molecular levels, but the influence on root system architecture has received little attention. Nevertheless, the precise position, morphology and extent of roots can influence contaminant uptake. Here, data are discussed that aim to increase the molecular and ecological understanding of the influence of contaminants on root system architecture. Furthermore, the potential of plant-associated bacteria to influence root growth by their growth-promoting and stress-relieving capacities is explored.

Methods

Root growth parameters of Arabidopsis thaliana seedlings grown in vertical agar plates are quantified. Mutants are used in a reverse genetics approach to identify molecular components underlying quantitative changes in root architecture after exposure to excess cadmium, copper or zinc. Plant-associated bacteria are isolated from contaminated environments, genotypically and phenotypically characterized, and used to test plant root growth improvement in the presence of contaminants.

Key Results

The molecular determinants of primary root growth inhibition and effects on lateral root density by cadmium were identified. A vertical split-root system revealed local effects of cadmium and copper on root development. However, systemic effects of zinc exposure on root growth reduced both the avoidance of contaminated areas and colonization of non-contaminated areas. The potential for growth promotion and contaminant degradation of plant-associated bacteria was demonstrated by improved root growth of inoculated plants exposed to 2,4-di-nitro-toluene (DNT) or cadmium.

Conclusions

Knowledge concerning the specific influence of different contaminants on root system architecture and the molecular mechanisms by which this is achieved can be combined with the exploitation of plant-associated bacteria to influence root development and increase plant stress tolerance, which should lead to more optimal root systems for application in phytoremediation or safer biomass production.     

电子束辐照对嗜虫书虱存活与繁殖力的影响

采用电子加速器产生电子束辐照处理嗜虫书虱Liposcelis entomophila(Enderlein),分别以0、50、100、200、300、400、500、1000Gy的剂量处理成虫和若虫,观察受辐照后的存活情况和成虫的繁殖情况;以0、25、50、100、200、300、400、500Gy的剂量辐照卵,观察受辐照后卵的孵化情况。结果表明:经50Gy及以上剂量辐照后嗜虫书虱的卵不能孵化,也不能存活;在300Gy及其以上剂量经过不到8周的时间后成虫和若虫都不能存活,且在300、400、500、1000Gy的剂量范围内,嗜虫书虱成虫和若虫受辐照后的剂量越大,存活率降低幅度越大。嗜虫书虱各虫态对电子束辐照的敏感性由高至低依次为卵、若虫、成虫;经300Gy辐照后的成虫和若虫分别在8周和6周内完全死亡,300Gy的剂量可作为电子束有效防治嗜虫书虱的参考剂量。所有50Gy以上剂量下都可明显降低此种害虫的繁殖力,300Gy以上剂量的处理可导致试虫零产卵。     

Effect of cadmium on the roots of beetroot (Beta vulgaris L.)

Abstract

The article dwells upon identifying the effect of cadmium on the roots of beetroot. The exposure effects of various concentrations of cadmium were studied at different levels of the plant organization (tissue pieces, organelles, membrane vesicles). The effect was noted only at a concentration of 100?μm. The negative effect of cadmium on the roots tissues of beetroot appeared with an increase in permeability and a decrease in the stability of cell membranes due to a change in the composition of fatty acids of membrane lipids and an increase in oxidation processes. The effect of cadmium in model experiments on the activity of the proton pumps of the vacuolar membrane has been evaluated. The pumps provide for the transport of heavy metals into the vacuole, which is one of the effective mechanisms for phytoremediation. The influence of cadmium in model experiments on the activity of the proton pump of a vacuolar membrane was evaluated. Under the influence of cadmium, a decrease in the activity of V-ATPase was observed, while the activity of V-PPase did not change. The results obtained complement our understanding of the damaging effects that occur in plant cells under cadmium stress.     

Cadmium and lead toxicity effects on zinc, copper, nickel and iron distribution in the developing chick embryo

The teratologic effects on chicken embryos induced by the load of 100 micrograms of cadmium or lead nitrate salts injected into the yolk on day 5 of incubation as well as their effects upon zinc, copper, nickel and iron distribution were studied. Despite a significant teratologic influence of lead, cadmium administration did not induce significant effects. A week after injections, embryo lead content, but not cadmium concentration, increased; this differential action suggested an active uptake of lead by the embryo, not observed for cadmium. Both cadmium and lead affected significantly the iron, copper and zinc homeostasis in the egg. Cadmium induced these changes probably through alterations in the metallic ion transport processes towards the embryo.     

Effect of chronic exposure to cadmium and copper on Asellus aquaticus (L.) (Crustacea,Isopoda)

The effects of chronic exposure to 5 g·1^–1 cadmium or copper on the crustacean Isopod Asellus aquaticus (L.) were studied by analyzing survival and body growth in the first stages of the life-cycle and by determining fecundity and survival of embryo-bearing females. Juveniles survival is differently affected by the two metals in that embryonic development is more sensitive to cadmium while juvenile development is more sensitive to copper. Juvenile body growth is stimulated by cadmium and depressed by copper. Embryo-bearing female survival and fecundity are significantly reduced by cadmium but are not affected by copper. The consequence of environmental contamination by a sublethal cadmium or copper concentration is discussed.     

Survival after total-body irradiation. I. Effects of partial small bowel shielding

The small intestine of the rat was shielded during total-body irradiation (TBI) to evaluate the effects of radiation dose and length of intestine shielded on survival. Sprague-Dawley rats were anesthetized in groups of 10. Using aseptic surgical procedures 80, 40, 20, or 10 cm, or none of the proximal or distal small intestine were temporarily exteriorized and shielded during irradiation with photons from an 18 MeV linear accelerator. Less than 17% of the dose was delivered to the shielded intestines. In unshielded animals deaths occurred from Days 4 to 6 with 13, 15, or 17 Gy and from Days 8 to 30 with 9, 11, and 12 Gy. However, in all animals exposed to 15 Gy with all or part of the small intestine shielded, survival was increased to between 5 and 9 days. Shielding of the distal small intestine was more effective in prolonging survival than shielding of the proximal small intestine. The previously identified target of radiation damage in the small intestine is the crypt stem cell. In this study, the analysis of histological specimens of shielded and irradiated small intestine suggested that humoral factors also influence intestinal histology and survival after irradiation. These humoral factors are thought to originate from the irradiated body tissues, the shielded proximal intestine, and the shielded distal intestine. Further studies are required to identify these factors and to determine their mode of action and their therapeutic potential after radiation damage to the small intestine.     

Maternal response to environmental unpredictability

Mothers are expected to use environmental cues to modify maternal investment to optimize their fitness. However, when the environment varies unpredictably, cues may not be an accurate proxy of future conditions. Under such circumstances, selection favors a diversifying maternal investment strategy. While there is evidence that the environment is becoming more uncertain, the extent to which mothers are able to respond to this unpredictability is generally unknown. In this study, we test the hypothesis that Daphnia magna increase the variance in maternal investment in response to unpredictable variation in temperature consistent with global change predictions. We detected significant variability across temperature treatments in brood size, neonate size at birth, and time between broods. The estimated variability within‐brood size was higher (albeit not statistically significant) in mothers reared in unpredictable temperature conditions. We also detected a cross‐generational effect with the temperature history of mothers modulating the phenotypic response of F1's. Notably, our results diverged from the prediction that increased variability poses a greater risk to organisms than changes in mean temperature. Increased unpredictability in temperature had negligible effects on fitness‐correlated traits. Mothers in the unpredictable treatment, survived as long, and produced as many F1's during lifetime as those produced in the most fecund treatment. Further, increased unpredictability in temperature did not affect the probability of survival of F1's. Collectively, we provide evidence that daphnia respond effectively to thermal unpredictability. But rather than increasing the variance in maternal investment, daphnia respond to uncertainty by being a jack of all temperatures, master of none. Importantly, our study highlights the essential need to examine changes in variances rather than merely on means, when investigating maternal responses.     

In vivo synergistic effect of the immunomodulator AS101 and the PKC inducer bryostatin.

The immunomodulator AS101 has recently been found to have radioprotective properties when injected prior to sublethal and lethal doses of irradiation. In addition, this compound was found to protect mice from hemopoietic damage caused by sublethal doses of cyclophosphamide (CYP) and to increase the rate of survival of mice treated with lethal doses of CYP. AS101 was previously shown to exert a synergistic effect with the PKC-inducer bryostatin in cytokine secretion in vitro. The present studies were designed to evaluate the effects of in vivo combined treatment with AS101 and bryostatin on bone marrow and spleen cellularity and on the number of committed progenitors in the bone marrow at various points of time after their treatment with a sublethal dose of CYP or irradiation. In addition, the combined effect was tested on the survival of mice irradiated with a lethal dose of irradiation. Our data show the presence of synergism which greatly enhances the number of bone marrow and spleen cells 48 hr and 9 days after CYP treatment or irradiation. The combined effect was also demonstrated when bone marrow colony-forming units granulocyte-macrophage (CFU-GM) progenitor cells were evaluated. Moreover, AS101 and bryostatin synergized in their protective effects against lethal damages of irradiation. These results strongly suggest that bryostatin, which lacks tumor-promoting activity, is a particularly good candidate in combination with AS101 for treatment in vivo in counteracting chemotherapy- or radiation-induced hematopoietic suppression or in generally improving the restoration of immune response under conditions involving immune or hemopoietic damage.     

Human glomerular mesangial IP15 cell line as a suitable model for in vitro cadmium cytotoxicity studies

Cadmium represents a major environmental pollutant that may induce severe damage, especially in the kidney where cadmium accumulates. While cadmium is known to severely impair renal tubular functions, glomerular structures are also potential targets. Owing to their contractile properties, glomerular mesangial cells play a major role in the control of glomerular hemodynamics and influence the ultrafiltration coefficient. Cell cultures provide alternative and fruitful models for study of in vitro toxicology. However, the use of primary human mesangial cell cultures is hampered by their limited survival span and their rapid dedifferentiation during passages. This study presents a human stable immortalized mesangial cell line, designated IP15. Cell characteristics were investigated by the detection of known mesangial markers, as well as their ability to contract in response to angiotensin II. IP15 cells were used to investigate cadmium uptake and morphological changes such as cell contraction and cytoskeleton protein expression. The IC₅₀ cytotoxicity index was obtained with 3.55 μmol/L using neutral red assay for 24 h. After cadmium exposure (1 μmol/L, determined as nonlethal concentration), 0.38 μg Cd/mg protein was internalized by the cells as evaluated by inductively coupled plasma optical emission spectrometry (ICP/OES). Cadmium induced a significant cell surface reduction that correlated with smooth-muscle α-actin disorganization. Thus, the IP15 cell line is a suitable model for study of in vitro cadmium cytotoxicity in mesangial cells and allows sufficient material to be obtained for future studies of the intracellular effects of cadmium exposure.     

Differences in the gastrointestinal microbiota of specific pathogen free mice: an often unknown variable in biomedical research

Large differences were found in the numbers of facultatively anaerobic Gram-negative bacteria in the gastrointestinal tract of mice from 3 major specific pathogen free (SPF) units in Australia. The species isolated also differed between mouse colonies. In one unit the presence of Enterobacter cloacae was found to dramatically influence the survival of mice following total body irradiation. This finding conforms with previous studies which have shown the influence of variation in gastrointestinal microbiota on the immune system and on susceptibility to infection. Given that the presence or absence of Enterobacteriaceae in the intestines of mice under investigation may influence experimental results, researchers using SPF rodents are encouraged to determine the baseline loading of these bacteria in their animals. Where results of immunological or irradiation studies from different colonies are likely to be compared, the enterobacterial status of the colony being used should be reported.     

The differential effects of cadmium exposure on the growth and survival of primary and established cells from fish and mammals

The differential cytotoxic effects of cadmium on fish and mammalian epithelial cells in established and primary culture were assessed by looking at the reduction of the colony-forming ability and reduction in the extent of growth. The influence of medium composition on the toxicity of cadmium was also studied using serum-free and serum-containing media. The experiments using immortalized cell lines showed that mammalian cells were more sensitive than fish cells to cadmium. Both cell types were grown at the same serum concentration. However, using the normal primary system, human epithelial tissue explants showed less sensitivity to cadmium than did similar cultures from rainbow trout. It is likely that cellular mechanisms of cadmium resistance in the different cell types are responsible for these effects. As expected, cadmium proved to be more toxic when tested in serum-free medium. With fish skin primary cultures, reduction of cell numbers was observed at concentrations as low as 5 mol/L in serum-free medium compared to 100 mol/L in serum-containing medium. This was found to be due to the reduction in the activity of free cadmium ions, caused by the presence of serum in the medium. It is concluded that serum-free formulations are probably preferable when testing pollutants in vitro. The results highlight the importance of establishing species-specific pollution tests and standardizing variables.In summary, the results show species and culture media differences in cadmium toxicity and suggest that caution is required when extrapolating results for pollutant effects from one in vitro system to another.Abbreviations CE colony-forming efficiency - EPC epithelioma papulosum cyprini - KGM Clonetics Keratinocyte Growth Medium