132 research outputs found
Effects of vermicompost produced from cow manure on the growth, yield and nutrition contents of cucumber (Cucumis sativus)
An experiment was conducted to determine the effects of vermicompost on the growth, yield and nutrient contents of cucumber grown under the glasshouse conditions. This experiment was performed in completely randomized design with five replications. The base medium (control) was selected to be a mixture of 75% farm soil with 25% sand that had been substituted with 0, 10, 20, 30, 40, 50 and 60% by volume of cow manure vermicompost. The highest leaf area, stem numbers, stem and root dry weight, fruit yield, and chlorophyll content were resulted from substitution of base medium with10 and 20% vermicompost that were significantly different from control (P≤0.05). Further, increase in the vermicompost content of the base medium, reduced the stem height, leaf area, stem dry weight, root dry weight, and chlorophyll content. Plant yield was the lowest in the 50% and 60% vermicompost medium. Shoot macro and micro-nutrient content such as nitrogen, phosphorus, potassium, calcium, iron, zinc, manganese, and copper increased significantly in response to the increase in vermicompost ratio from 0 to 60%, therefore, the lowest and the highest of these nutrient contents were observed in the control and 60% vermicompost, respectively, and even in some cases, nutrients content reached the toxic levels
Correlation between serum lipoproteins and abdominal fat pad in broiler chickens
In this experiment, four hundred day-old broiler chicks were assigned randomly to 16 floor pens with 25 chicks each. Three diets containing 0% fish oil + 7% soybean oil, 3.5% fish oil + 3.5% soybean oil and 7% fish oil + 0% soybean oil and a free oil control diet were formulated. The birds fed fish oil diet showed a lower body weight than control group (P < 0.05). Abdominal fat percent in birds fed soybean oil and fish oil diets, were lower than control group (P < 0.05). The high density lipoprotein (HDL) concentration in birds fed fish oil diet was higher than other treatments, but the serum low density lipoprotein (LDL) decreased in birds fed fish oil diet (P < 0.05). The live weight of birds was positively correlated with glucose and LDL and negatively correlated with HDL concentrations (P < 0.01). The abdominal fat pad percent was positively correlated with triglyceride, glucose, LDL and very low density lipoprotein (VLDL) and a negative correlation was observed with HDL concentrations (P < 0.01). Triglyceride, cholesterol and VLDL concentrations were positively correlated with each other and a negative correlation was observed between high-density lipoprotein and low-density lipoprotein (P < 0.01). The results of the present study showed that higher fish oil inclusion in broiler diets can result in some unfavorable reduction in live weight and a beneficial influence on abdominal fat reduction.Keywords: Broiler chickens, fish oil, high-density lipoprotein, low-density lipoproteinbr>African Journal of Biotechnology Vol. 9(35), pp. 5779-5783, 30 August, 201
High field conduction in mineral oil based zno nanofluids prior to negative streamer inception
The electric conduction under intense electric fields (up to ∼ 10 V/m) in nanofluids using surface-modified ZnO–C nanoparticles dispersed in mineral oil as host, is investigated with both experiments and numerical simulations. The measurements are used to estimate unknown parameters necessary to represent the generation and loss of electrons in an electrohydrodynamic model for mineral oil with and without ZnO–C nanoparticles in a needle-plane configuration. The model suggests that ZnO–C nanoparticles induce an enhanced field emission from negative needles, explaining the significantly larger conduction currents measured in the nanofluid compared with those in the host liquid. It is also found that the scavenging of electrons by ZnO–C nanoparticles is a process which is negligible compared with the loss of electrons due to attachment in mineral oil. It is shown that ZnO–C nanoparticles hinder the streamer initiation process by reducing the effective electric field at the tip of the needle. This electric field reduction is caused by the combined effect of enhanced electron injection through ZnO–C nanoparticles and strong electron attachment in mineral oil. Thus, the electric field on the needle tip reaches the same threshold value when the streamer is incepted in the nanofluid as in mineral oil, although at a larger voltage. Solid evidence indicating that the additional electron scavenging and the reduced electron mobility introduced by nanoparticles has no effect in the conduction currents and in the negative streamer inception in the tested ZnO–C nanofluids is shown
An evidence for lack of pseudoneglect in patients with schizophrenia:An ERP study
Studies have reported an altered expression of pseudoneglect in patients with schizophrenia, but no
study has examined pseudoneglect in schizophrenia at the neural level. We investigated pseudoneglect
using the visual P3 event-related potential and the mental number bisection (MNB) task in 21 patients
and 25 controls. Using an oddball task, participants were asked to discriminate an infrequent (‘one’ or
‘nine’) from a frequent written number (‘five’). The P3 ERP components were delayed to the targets on
the right of the MNL (‘nine’) compared to the targets on the left (‘one’) in controls. The effect of number
magnitude on the P3 latency was not observed in the patients. In MNB task, the patients did not show
the normal leftward bias observed in healthy individuals. Our findings indicate a lack of pseudoneglect
and the presence of an anomalous brain asymmetry in schizophreni
Numerical distance effect in patients with schizophrenia
There is growing evidence showing that mental representation of numbers is impaired in patients with
schizophrenia. Yet, no study has examined the distance effect in the patients.
We assessed the distance effect using two number size comparison tasks, with different number references (5 and 7) in 23 patients and 28 healthy individuals. Response times and error rates significantly
increased when the distances between the centered references and the targets decreased in both groups.
However, patients responded significantly slower and had more error rates compared to controls. Our
finding indicates distance effect in patients is similar to the controls, indicating an automatic numerical
processing is preserved in patients with schizophrenia
Associations Between Components of Metabolic Syndrome and Cognition in Patients With Schizophrenia
The metabolic syndrome and cognitive dysfunctions are common in patients with schizophrenia, yet there is no general consensus concerning the effects of the components of the
metabolic syndrome on various cognitive
domains. The goal of this study was to investigate the relationship between components of
the metabolic syndrome and cognition in
patients with schizophrenia. Components of the
metabolic syndrome and neurocognitive functioning were assessed in 68 patients with schizophrenia. The Brief Assessment of Cognition in
Schizophrenia (BACS) was used to assess neurocognition. Hyperglycemia and hypertension
were the only components of the metabolic
syndrome found to be associated with cognitive
functioning. Patients with schizophrenia who
were hypertensive showed cognitive impairments in 2 domains, with a negative association
found between hypertension and verbal memory (P=0.047) and verbal fluency (P=0.007).
Hyperglycemia was associated with higher
scores on verbal memory (P=0.01) and verbal
fluency (P<0.001). It appears that medical
treatment of certain components of the metabolic syndrome could affect cognitive performance in patients with schizophrenia
High-temperature creep resistant ternary blends based on polyethylene and polypropylene for thermoplastic power cable insulation
The impact of a small amount of polystyrene-b-poly(ethylene-co-butylene)-b-polystyrene (SEBS) on the thermomechanical and electrical properties of blends comprising low-density polyethylene (LDPE) and isotactic polypropylene (PP) is investigated. SEBS is found to assemble at the PP:LDPE interface as well as within isolated PP domains. The addition of 10\ua0wt% SEBS significantly increases the storage modulus between the melting temperatures of the two polyolefins, 110 and 160\ub0C, and results in improved resistance to creep during both tensile deformation as well as compression. Furthermore, the ternary blends display a very low direct-current (DC) conductivity as low as 3.4
7 10 \ua0S m at 70\ub0C and 30 kV mm , which is considerably lower than values measured for neat LDPE. The here presented type of ternary blend shows potential as an insulation material for high-voltage direct current power cables
Invariant electrical conductivity upon thermal ageing of a crosslinked copolymer blend for high voltage insulation
Click chemistry type reactions between polyethylene-based copolymers are a promising and by-product free alternative to peroxide crosslinking of low-density polyethylene, which is widely used as an insulation material for high-voltage power cables. Here, the impact of thermal ageing on the long-term stability of the thermo-mechanical and dielectric properties of a copolymer blend is evaluated that can be cured through a by-product free reaction between the epoxy and carboxylic acid functional groups attached to the polyethylene backbone. It is observed that ageing at 90 degrees C in air for up to 2500 h does not affect the direct current (DC) electrical conductivity of about 3 x 10(-14) S m(-1), provided that a suitable antioxidant is added that prevents the thermo-oxidative degradation of the polyethylene backbone. Furthermore, the material maintains its thermo-mechanical properties upon ageing such as a high ductility at room temperature and a stiffness of about 1 MPa above the melting temperature of polyethylene. Evidently, the use of click chemistry type reactions is a promising strategy for the design of new high-voltage insulation materials that can be cured without the formation of by-products
Electrical Characterization of a New Crosslinked Copolymer Blend for DC Cable Insulation
To design reliable high voltage cables, clean materials with superior insulating properties capable of operating at high electric field levels at elevated temperatures are required. This study aims at the electrical characterization of a byproduct-free crosslinked copolymer blend, which is seen as a promising alternative to conventional peroxide crosslinked polyethylene currently used for high voltage direct current cable insulation. The characterization entails direct current (DC) conductivity, dielectric response and surface potential decay measurements at different temperatures and electric field levels. In order to quantify the insulating performance of the new material, the electrical properties of the copolymer blend are compared with those of two reference materials; i.e., low-density polyethylene (LDPE) and peroxide crosslinked polyethylene (XLPE). It is found that, for electric fields of 10–50 kV/mm and temperatures varying from 30 \ub0C to 70 \ub0C, the DC conductivity of the copolymer blend is in the range of 10−17–10−13 S/m, which is close to the conductivity of crosslinked polyethylene. Furthermore, the loss tangent of the copolymer blend is about three to four times lower than that of crosslinked polyethylene and its magnitude is on the level of 0.01 at 50 \ub0C and 0.12 at 70 \ub0C (measured at 0.1 mHz and 6.66 kV/mm). The apparent conductivity and trap density distributions deduced from surface potential decay measurements also confirmed that the new material has electrical properties at least as good as currently used insulation materials based on XLPE (not byproduct-free). Thus, the proposed byproduct-free crosslinked copolymer blend has a high potential as a prospective insulation medium for extruded high voltage DC cables
- …