Cytotoxicity of Synthetic Fuel Products on Tetrahymena pyriformis. II. Shale Oil Retort Water*†‡

SYNOPSIS. Shale oil retort water is obtained by centrifuging the oil/water emulsion produced by oil shale retorting. The ciliate Tetrahymena pyriformis was exposed to retort water; 2, 1, and 0.5% initially increased motility; longer exposures decreased motility. Three, 4, and 5% all decreased motility. Cell lysis was directly related to concentration; after 24 h, population densities were 0, 10, and 25% of controls for 2, 1, and 0.5% retort water, respectively. Oxygen consumption paralleled the motility pattern: at lower concentrations it increased initially but decreased with extended exposures while at higher concentrations it decreased rapidly. The most striking cytologic alteration of cells exposed to the toxicant occurred in the membranes; alterations of mucocysts and glycogen content were also observed, but mitochondrial changes were not. Population growth was affected at much lower concentrations than the other test indices. The growth of test populations reached a plateau at values inversely related to concentration: concentrations <0.4% had no effect on growth rate.     

Effects of sodium chloride on biodegradation of crude oils by two species ofAeromonas

Summary The biodegradation of five weathered crude oils by two species ofAeromonas, (B59-4 and E. BOB) was investigated in varying concentrations of sodium chloride. A minimal salts medium whose NaCl concentration increased serially by 0.5% w/v up to 1.5% w/v was used to investigate the growth of these strains in glucose, and their biodegradation of the crude oils. The latter was also investigated in fresh and aged sea water. Strain B59-4 was more potent than E. BOB in the degradation of all five crude oils and at all four levels of salt concentration tested. The amount of oil degraded by each strain increased initially to a maximum level at 0.5% w/v NaCl, but thereafter decreased with increasing salt concentration, and the patterns were similar to those of aged and fresh sea water, respectively. The Forties and Nigerian crude oils with lower specific gravity, were more readily degraded than the Libyan and Venezuelan with higher specific gravity. The growth of the two strains ofAeromonas in glucose and their biodegradation of crude oils was optimal at 0.5% w/v NaCl, and thereafter decreased with increasing salt concentration of the basal medium.     

Growth and bioaccumulation characteristics of watercress (Nasturtium officinale R. BR.) exposed to cadmium,cobalt and chromium

Abstract

The aim of this study is to determine the effects of Cd, Co and Cr on the growth of watercress (Nasturtium officinale) and to determine the bioaccumulation properties of these heavy metals by the plant. N. officinale individuals were exposed to different concentrations of Cd, Co and Cr for 72 h. Relative growth rates (RGR) and bioconcentration factor (BCF) ratios were calculated for each metal concentration. RGR values of plants exposed to Co slightly increased in lower concentrations, but then decreased again. In contrast, RGR values of plants exposed to Cd and Cr decreased linearly. Significant positive relationships were observed among the concentrations of Cd, Co and Cr in N. officinale and in the culture solution. BCF ratios were highest for plants exposed to Co, and lowest for plants exposed to Cr. The most efficient uptake of Cd, Co and Cr occurred at the external solution concentrations at 0.5, 0.5 and 10 mM, respectively.     

Corticosteroid and thyroid responses of larval and juvenile turbot exposed to the water-soluble fraction of crude oil

Turbot larvae (24–590 degree C days; 2–32 days post-hatch) and juveniles (1345 degree C days; 98 days post-hatch), were exposed for 6 h to 25, 33 and 50% water-soluble fraction (WSF) of crude oil in either static or flow-through test systems. Larvae showed generalized primary endocrine responses, identified by elevated whole body cortisol content from as early as 2 days post-hatch. In older larvae and juveniles, the response was related to the WSF concentration. This dose-response relationship was not apparent in younger and yolk-sac larvae. Whole body thyroxine content of turbot larvae exposed to the WSF of crude oil was increased, but triiodothyronine content remained stable. Aromatic hydrocarbon concentrations [benzene, toluene, ethylbenzene and xylene (BTEX) and naphthalenes] remained constant during flow-through tests, but 65% of the initial level of BTEX hydrocarbons and 40% of the naphthalenes were lost during static exposures. Larval mortalities increased with exposure to an increasing concentration of crude oil WSF. Larval activity was significantly reduced even at the lowest WSF concentration.     

Moulting frequency and behavioural responses to salinity and diesel oil in Austromegabalanus psittacus (Molina) (Cirripedia: Balanidae)

Moulting frequency and behavioural responses to salinity and diesel oil concentration were studied in specimens of the giant barnacle Austromegabalanus psittacus (Molina). Moulting frequency and frequency and type of cirral beat, in addition to opercular valve closure time, were measured under controlled conditions. A binary factorial experimental design was carried out at salinities of 20 and 30‰ and diesel oil concentrations of 0.1 and 0.5% v/v. Moulting frequency was greater at 30‰ than at 20‰ salinity and at 0.1% oil concentration than at both 0.5% oil concentration and in controls; it is unlikely that this signified variations in growth. Diesel oil provoked lethal effects at 0.5%, with an average lethal time of 8 days; at 0.1%, only sublethal effects were generated. Cirral beat frequency was greater at 0.1 and 0.5% diesel oil concentration than in controls. This was probably associated with an increase in metabolism, since the most frequent cirral beats are associated with respiration and the active capture of plankton. The effects of the contaminant varied with time, as observed at 15 and 60 min. The opercular valve closure time was longer in controls and decreased as diesel oil concentration increased. Results suggest that this species is highly resistant to pollution, although contaminants could provoke changes in the feeding and growth of specimens. Local variations in salinity have only minor effects on barnacle behaviour.     

A Model System for Testing the Microbiological Stability of Foods Processed in Laminated Flexible Pouches

A suitable time temperature process for packaging small potatoes in flexible pouches is described. Spores of Bacillus stearothermophilus were inoculated onto the surface of peeled potatoes in flexible pouches. These were evacuated, heat sealed and heated in a steam retort modified to allow a water cooking process with an air overpressure of ca. 68·95 kPa (10 lbf/in²). The D and z values determined in the retort were confirmed by parallel heat-resistance tests with spores in glass ampoules held in an oil bath. Heat treatment at 121·1 °C for 20 min in the retort satisfactorily killed test inocula of spores without overcooking the potatoes. Uninoculated peeled potatoes with a natural level of contamination ( ca. 4 x 10³ spores/sealed pouch) were treated in the retort for different times at 121·1 °C and then incubated at 30 °C for 6 months. No pouches heated for 17–25 min showed microbial growth. This procedure may be applied to any type of food if the numbers of naturally occurring heat-resistant contaminants can be related to the number and heat resistance of a suitable test micro-organism.     

The effects of egg yolk,the low density lipoprotein fraction of egg yolk,and three monosaccharides on the survival of cat (Felis catus) spermatozoa stored at 5°C

The survival of cat spermatozoa at 5°C was studied in the presence of egg yolk, the low density fraction (LDF) of egg yolk, glucose, fructose and galactose each made up to the desired concentration in 325 mOsm Tes-Tris buffer at pH 7.5.Increasing the egg yolk concentration (v/v) from 2 to 20% significantly decreased both the percentage of motile cells and the quality of motility score, but did not significantly increase the number of cells staining with a supravital stain. In contrast, increasing concentrations of LDF neither significantly decreased the percentage of motile cells nor increased the number of cells staining with a supravital stain, and significantly increased the motility score. However, the protection provided by the higher concentration of LDF (20%) was no more effective than that provided by the lower concentration of egg yolk (2%). It is contended that the currently high levels of egg yolk (20%) used in the preservation of cat spermatozoa may have contributed to the very poor fertility reported for preserved semen.The effect of glucose, fructose and galactose was examined at concentrations of 0.5 and 1.5 mg/ml. All three sugars significantly decreased the percentage of motile spermatozoa when used at the higher concentration, although for glucose alone the quality of motility was not significantly poorer than that in either the lower concentration or the control.In all experiments, motility declined significantly, and, where it was studied, the number of cells staining with a vital stain increased significantly, as a result of cooling and storage for up to 1 week. There was also significant differences between ejaculates in all experiments.     

Ovipositional and ovicidal effects of the microbial agent Bacillus thuringiensis israelensis on Culex quinquefasciatus say (Diptera: Culicidae).

The magnitude of oviposition as well as the size, shape and the number of eggs per of egg rafts egg raft were determined after gravid Culex quinquefasciatus Say oviposited on water treated with water dispersible granules (WDG) of Bacillus thuringiensis ssp. israelensis (Bti) and on untreated water. The mean number of eggs/raft was lower in the treated than in the untreated water. Bti concentrations from 0.5 to 2.0mg/L affected the shape of egg rafts and number of eggs in each raft. As the concentration of Bti increased from 0.5 to 2.0 mg/L the shape of egg rafts became more irregular with fewer eggs in each raft. Exposure to Bti at 2- and 26-h reduced the hatching rates, and fewer eggs hatched at 26-h of exposure to Bti. As the concentration of Bti WDG increased from 0.5 to 2.0 mg/L, the hatching rate decreased. Eggs exposed for 2-h to 2.0mg/ L Bti had a hatch of 30% after 24 h, the rate increasing to 57% after 72 h. In contrast, in 26-h exposed eggs to 2.0 mg/L Bti, the hatching rate after 24 h was only 12% and this rate increased to 39% after 72 h. In larvae from eggs exposed for 2 h, the survival rate was 40% at 2.0 mg/L Bti and 87% in untreated controls. In contrast, the survival rates of larvae from 26-h exposed eggs was 91% in controls while it was 30% at 2.0 mg/L Bti. As the concentration of Bti increased from 0.5 to 2.0 mg/ 1 the survival rates of larvae decreased. The combined effects of reductions of egg rafts, low number of eggs per egg raft, and reduced hatching and survival rates could have significant cumulative effects on the yield of adult mosquitoes, and this could result in a greater control potential of this microbial agent.     

Antioxidative response of Lemna minor plants exposed to thallium(I)-acetate

The physiological effects of thallium(I)-acetate on the duckweed Lemna minor after 1-, 4-, 7- and 14-d exposure were analyzed. High bioaccumulation of Tl (221 mg kg⁻¹ dry wt at 2.0 μM Tl-acetate) caused an inhibition of plant growth. After 14-d exposure, 0.2, 0.5, 1.0 and 2.0 μM Tl-acetate reduced the frond-number growth rate by 21.1%, 39.4%, 66% and 83.1%, respectively. Tl-acetate also induced a modulation of the antioxidative response by depleting the ascorbate content and affecting the antioxidative enzymes activities. Superoxide dismutase showed a continuous increase of activity (31–67%) after Tl-acetate exposure. Other antioxidative enzymes displayed a biphasic response to both the concentration and the exposure period. Exposure up to 7 d decreased the catalase activity (up to 40%) in plants treated with higher Tl-acetate concentrations. In contrast, 14-d exposure increased the activity of the enzyme (≥90%). Short-term exposure increased ascorbate peroxidase activity (13–41%), except in plants exposed to the highest Tl-acetate concentration. However, 14-d exposure decreased the enzyme activity at all concentrations tested (38–60%). Although pyrogallol peroxidase activity increased (up to 26%) during 4-d exposure, longer exposures to the highest two concentrations decreased the activity of the enzyme (25–48%). In general, short-term exposure to Tl-acetate activated the antioxidant capacity, which resulted in recovery of the frond-number growth rates in Tl-treated plants. In spite of the activation of the antioxidative response during short-term exposure, higher Tl-acetate concentrations increased the hydrogen peroxide level (up to 45%) and induced marked oxidative damage to lipids, proteins and DNA. Longer exposure induced a decline of the antioxidative response, and plants showed the symptoms of oxidative damage even at lower Tl-acetate concentrations. The genotoxic effect was evaluated by an alkaline version of the cellular and acellular Comet assay, which revealed an indirect genotoxic effect of Tl-acetate, suggesting oxidatively induced damage to DNA.     

普通小球藻对嗪草酮、骠马和甲草胺的敏感性研究

通过96h的毒性实验,研究了普通小球藻对3种不同作用机制农田常用除草剂嗪草酮、骠马和甲草胺的敏感性．结果表明。在实验条件下,嗪草酮、甲草胺对普通小球藻的毒性随时间的推移有加重趋势。并呈现很好的剂量效应关系;最高抑制生长浓度(嗪草酮0．24mg·L^-1,甲草胺12．8mg·L^-1)处理组的最大比增长率分别为对照组的12．38％和31．58％;骠马低浓度对普通小球藻的抑制作用不明显,并呈一定的生长促进效应,0．08mg·L^-1浓度组普通小球藻最大比增长率为对照组的111．44％,而高浓度则具有明显的生长抑制作用,并随时间推移,毒性逐渐减弱．嗪草酮、骠马和甲草胺的96hEC50分别为0．021、0．937和5．54mg·L^-1．普通小球藻对嗪草酮最敏感。其次为骠马和甲草胺．3种除草剂在实验条件下对普通小球藻叶绿素a含量的影响和对普通小球藻生长的影响相似。表现出较好的剂量．效应关系．     

Effect of sublethal concentrations of copper on the growth performance of Oreochromis niloticus

The study evaluated the effect of different sublethal concentrations of copper in water (0, 0.15, 0.3 and 0.5 p.p.m.) on the behavioural response, growth performance, and whole body and liver composition of Oreochromis niloticus. Hyperactivity and reduced exploratory behaviour were observed when fishes were subjected to different levels of copper in water as compared with the control. Fish refused to accept the feed immediately after exposure and only began taking it up after about 4–5 h as compared with the control. Weight gain, specific growth rate and condition factor (k) decreased significantly (P < 0.05) as compared with the control; this decrease was linearly correlated with the increase of copper concentration in water. Exposure of the fish to different copper concentrations in water significantly (P < 0.05) reduced their feed consumption as compared with the control. Values for the feed conversion ratio increased (P < 0.05) whereas the protein efficiency ratio and net protein retention values decreased (P < 0.05) with the copper level increase in water. The hepatosomatic index increased with the copper concentration increase in water. Body moisture and ash contents were the highest (P < 0.05) whereas the fat and gross energy contents were the lowest (P < 0.05) in fish reared in water containing 0.5 p.p.m. of copper as compared with others. No significant (P < 0.05) differences were observed in the whole body crude protein content of fish exposed to different concentrations of copper as compared with the control. Liver moisture and ash contents increased (P < 0.05) whereas the crude protein, fat, nitrogen free extract and gross energy contents decreased (P < 0.05) when the fish were exposed to different concentrations of copper as compared with the control. The liver glycogen level decreased whereas the copper level in the whole body and liver increased significantly (P < 0.05) with the copper concentration increase in water.     

Phytoremediation of petroleum hydrocarbons by using a freshwater fern species Azolla filiculoides Lam

In this study, the phytoremediation capacity of Azolla filiculoides Lam. for the water resources contaminated with petroleum hydrocarbons was investigated. The plants were grown in nitrogen-free Hoagland nutrient solution containing 0.005%, 0.01%, 0.05%, 0.1%, 0.2%, 0.3%, 0.4%, and 0.5% crude oil under greenhouse conditions for 15 days. Although the growth rate of the plants were not negatively influenced by the presence of crude oil in the media for the concentration of 0.005% and 0.01% v/v, a gradual impeding effect of crude oil in the growth media has been observed at concentrations 0.05–0.1%. More than 0.1% crude oil in the growth medium ostensibly retarded the growth. For example, 0.2% oil in the media reduced growth approximately 50% relative to the control, and the presence of crude oil at concentrations 0.3% or more were lethal. The data about the percentage of plant growth, fresh weight increase and root growth clearly indicated that the tolerance level of A. filiculoides plants to crude oil ranges between 0.1% and 0.2%. In comparison to control samples, the biodegradation rate of total aliphatic and aromatic (phenathrene) hydrocarbons at 0.05–0.2% oil concentrations, was 94–73% and 81–77%, respectively. On the other hand, in case of further increases in oil concentration in media, i.e.; 0.3–0.5%, the biodegradation rate was still higher in the experimental samples, respectively 71–63% and 75–71%. The high biodegradation rates of petroleum hydrocarbons in the experimental samples suggested that A. filiculoides plants could be a promising candidate to be used for the phytoremediation of low crude oil contaminated precious freshwater resources.     

Using microalgae for remediation of crude petroleum oil–water emulsions

Crude petroleum oil spills are among the most important organic contaminations. While the separated oils accumulated on the surface water are relatively easily removed, the emulsified portions are more difficult to remove and pose significant threats to the environment. Bioremediation using bacteria has proven to be an effective method, but the biomass produced in this case does not have any significant remunerative value. In this work, microalgae were proposed to combine emulsified oil remediation process with the potential of microalgae as a biofuel feedstock, thus enhancing the economic and environmental benefits of the process. A freshwater strain of Chlorella vulgaris was grown in water containing different concentrations of emulsified crude oil at different temperatures. The specific growth rate (μ_max) of the microalgae for each initial oil concentration was determined and was found to increase with the increase in initial oil concentration. For example, at 30°C, the specific growth rate, μ increased from 0.477 to 0.784 per day as the oil concentration increased from 57 to 222 mg/L. At 30°C, the effect of substrate concentration agreed with that of the microalgae growth, whereas at 40°C, the drop in oil concentration decreased with the increase in concentration. The results were fitted to a modified Monod kinetics model that used specific interfacial area as the influential substrate instead of the actual concentration. The results of this study clearly show the potential of using microalgae for emulsified oil remediation at relatively high concentrations.     

Effect of Water Stress Induced by Polyethylene Glycol on Growth,Proline Accumulation in <i>Agave americana</i> L.

The effect of water deficit was determined on both in vitro and soil seedling as well as in cells in suspension of Agave americana L. In order to do the establishment of cells, the formation of callus was induced; for it two auxins were evaluated: 2,4-dichlorophenoxyacetic acid (2,4-D) and 4-mino-3,5,6-trichloropicolinic acid (picloram) at three concentrations (0.25, 0.5 and 0.75 mg L⁻¹) in three explants (leaf, root and meristems) cultured in MS semisolid medium. The callogenesis response was related to the type and section of the explant, as well as the regulator used, and a cell suspension was established using 0.5 mg L⁻¹ naphthaleneacetic acid (NAA) + 0.5 mg L⁻¹ Benzylaminopurine (BAP). Seedlings were exposed to polyethyleneglycol (15% and 30% w/v) with a water potential of −0.87 and −2.67 MPa, respectively, under soil conditions. Water stress was applied through restricted irrigation. Fresh weight, root system growth, and chlorophyll concentration were some of the parameters that were affected by the effect of water deficit on A. americana L. Chlorophyll concentration values were significantly decreased by 15 at 30% PEG (19.6 SPAD units) compared to the control treatment. In in vitro plants, the highest concentration of proline was found in the roots, being the treatment with 30% polyethylene glycol where the highest concentration of this osmoregulator was obtained (62.5 mg g⁻¹ DW). Under restricted irrigation conditions, an increase in proline concentration was observed both in the aerial part (2.2 µg 100 g⁻¹ DW) and in the root system (1.8 µg 100 g⁻¹ DW). However, the concentrations found were approximately ten times greater, less than those found under in vitro conditions. Therefore, the accumulation of proline can be considered an indicator of stress in Agave Americana L. growth in vitro.     

The effects of cryoprotectants on sperm motility of the Chinese pearl oyster,Pinctada fucata martensii

Cryopreservation has been widely employed to preserve genetic material of aquatic animals. Although of common use in bivalves, resulting effects due to the toxicity of the cryoprotectants dimethyl sulfoxide (DMSO), propanediol (PG), methanol (MET) and ethylene glycol (EG), upon sperm motility in the Chinese pearl oyster, Pinctada fucata martensii, has remained undocumented. This study endeavors to identify the least toxic among the effective cryoprotectant agents by observing and comparing their toxic effects on sperm motility under varying concentrations and duration of exposure. Sperm samples were exposed during controlled experiments, for 1, 3, 6, 9, 12 and 15 min durations, to each of the listed cryoprotectants at 5, 10, 15, and 20% (volume:volume) concentrations. Sperm motility was observed to diminish when exposed to all cryoprotectant solutions, and observations demonstrated that toxicity increased relative to both concentration and equilibration time. After 6 min of exposure to the cryoprotectants, sperm motility was seen to have diminished significantly in DMSO at just 5% concentration, and in MET, PG and EG at 10% concentrations, respectively (the values of the lowest observed effect concentrations). The relationship between the quantity of immotile sperm and the cryoprotectant concentration was described using the logarithmic regression equation. MET exhibited the lowest effective concentration required to inhibit sperm motility by 50% (EC₅₀), followed by EG, PG and DMSO, in order. Therefore, MET proved most toxic under the test conditions for sperm of P. fucata martensii, whereas DMSO, PG and EG were observed as comparatively safer, suggesting that DMSO, PG and EG warrant further study in the application of cryopreservation of Chinese P. fucata martensii sperm.     

Growth and shoot formation in protoplast-derived calli of Brassica oleracea ssp. acephala and ssp. capitata

The effect of media components and environmental factors on growth and organogenesis of protoplast-derived calli of curly kale and cabbage were tested. Optimal growth (fresh weight increase of calli, shoots and roots) was found at 60 mM sucrose. Lower sucrose concentrations (3–30 mM) were favourable for shoot formation. Nitrate concentrations from 23 to 100 mM in combination with 8 or 21 mM ammonium were optimal for shoot formation. However, growth was reduced by high (100 mM) nitrate concentration. The effects of various organic nitrogen compounds at 0.5 and 2 mM were tested. Glutamine did not influence shoot formation and barely growth. Proline at 0.5 mM stimulated growth of cabbage calli but decreased growth of curly kale calli, and at 2 mM, proline also inhibited shoot production. Adenine sulphate decreased growth of cabbage calli at 0.5 mM, and at 2 mM shoot production was also reduced. Spermidine and spermine inhibited both growth and differentiation. Putrescine resulted in about 50% higher fresh weights, and also increased the number of calli producing shoots by about 35%. More calli produced shoots in white light than in blue or red light or in darkness. The length of the photoperiod or intensity of light was not critical for shoot production.     

Effects of Related Anionic Detergents on Flagellation, Motility, Swarming, and Growth of Proteus

The effects of a series of sodium alkyl sulfates (C(4) to C(16)) on flagellation, motility, swarming, and growth of Proteus were examined. The concentrations of the various sodium alkyl sulfates completely inhibiting the swarming phenomenon (on solid medium) and motility (in liquid medium) were in the same order of magnitude. The inhibiting effect of the detergents examined increased from sodium hexyl sulfate (inhibitory concentration, 20 to 30 mmoles per liter) to sodium tetradecyl sulfate (inhibitory concentration, 0.1 to 0.5 mmoles per liter). Flagella were produced neither in liquid nor on solid medium at these concentrations as could be observed by electron microscopy. At concentrations where motility was not impaired, intact flagellation could be observed. At a concentration of 0.1 mmole per liter, sodium tetradecyl sulfate completely inhibited the motility of Proteus in the liquid medium employed without impairing growth.     

Motility of Bacillus subtilis during growth and sporulation.

The change of motility and the presence of flagella were followed throughout growth and sporulation in a standard sporulating strain and in 19 cacogenic sporulation mutants of Bacillus subtilis. For the standard strain, the fraction of motile cells decreased during the developmental period to less than 10% at T4. Motility was lost well before the cells lose their flagella. Conditions reducing the decrease of motility also reduced sporulation: motile cells never contained spores. The decrease of motility was not coupled with a decrease in the cellular concentration of adenosine 5'-triphosphate or a decline in oxygen consumption, but an uncoupling agent immediately destroyed motility at any time. Apparently, motility decreased during development because it became increasingly uncoupled from the energy generating systems of the cell. The motility of sporulation mutants decreased after the end of growth at the same time as or earlier than the motility of the standard strain; the early decrease of motility in an aconitase mutant, but not that in an alpha-ketoglurate dehydrogenase mutant, could be avoided by addition of L-glutamate. Sporulation or related events such as extracellular antibiotic or protease production were not needed for the motility decline.