Significant Changes In Content Research Articles

Enhancing fuel qualities of cassava crop residues by washing

Cassava (Manihot esculenta Crantz) stems, being waste residues after harvesting starchy roots, are a potential biofuel resource. However high concentrations of ash and elements Cl, K, etc. in the stems may cause severe deposition, corrosion and particle emissions, in addition to slagging during combustion. This study tests washing by water as a pretreatment to reduce the problems. A 3-level full factorial designed experiment was conducted with washing time (<1800s) and temperature (20–40°C) as factors and fuel characteristics as responses. The effect of milling particle size was also examined in a supplementary experiment.After washing, the net calorific value of the biomass tended to be higher, though not significant. Both washing time and temperature increased C but decreased H, while N and S content decreased with time only. A short washing of 50s decreased the ash content by approximately 50% and Cl around 75%, followed by K and P that decreased to 50% after 5min. Smaller milling size resulted in a larger amount of starch washed away, but no significant change in content of total ash and individual elements, except for Cl which was significantly higher in the smaller particles. The effect of washing on the ash composition is visualized in a ternary diagram, showing that the risk for slagging and fine particle emissions is reduced. A reduction in the risk of corrosion is also predicted as indicated by a relatively higher ratio of S/Cl and lower Cl/(K+Na). Thus, in addition to extraction of starch, the washing can also improve fuel quality of the residual biomass.

The changes in the volatile aldehydes formed during the deep-fat frying process.

Volatile aldehydes (VAs) formed during soybean oil (SBO) heating, wheat dough (WD) frying, and chicken breast meat (CBM) frying processes were comparatively investigated by solid-phase micro-extraction-gas chromatography-mass spectrometry (SPME-GC-MS). The results showed that relative amounts (RAs) of the most detected VAs were firstly increased to maximum values in oil samples collected at the second hour of the seventh day and the values were then decreased with the increase in the time of oil heating process (control). However, for food frying processes, the time needed for reaching maximum RAs of VAs was shorter and the values were decreased with the increase in frying time. Significant change in contents of the VAs was observed for oil samples fried with CBM due to the high contents of water, protein, and lipid content compared to oil samples fried with WD. Based on the obtained results, free radical reaction, particularly positional isomerization and cis-trans isomerization, was deduced to occur when WD or CBM was fried in SBO. The relatively high RAs of VAs formed during the deep-fat frying process presented certain invaluable measures for evaluating of frying oil and fried food quality and safety.

Amelioration of oxidative damage in Solanum melongena seedlings by 24-epibrassinolide during chilling stress and recovery

The effects of foliar application of 24-epibrassinolide (EBR) on chlorophyll content, oxidative damage, and antioxidant capacity in eggplant (Solanum melongena L.) seedlings during a short-term chilling stress and subsequent recovery were investigated. The eggplant seedlings pretreated with 0.1 μM EBR were exposed to 5 °C for 12 h in the dark and then recovered under a normal temperature for another 12 h. The results show that EBR alleviated a chilling-induced oxidative stress reflected by a decrease in malondialdehyde and H2O2 content, O2 ·− production rate, and an increase in chlorophyll content and activities of superoxide dismutase, guaicol peroxidase, and catalase. The EBR pretreatment also promoted activities of ascorbate peroxidase, glutathione reductase, dehydroascorbate reductase, as well as the accumulation of ascorbic acid (AsA) and glutathione (GSH) involved in the AsA-GSH cycle. Moreover, after the12 h recovery, EBR plus chilling treated leaves showed no significant changes in content of MDA and chlorophyll a, lower reactive oxygen species (ROS) content, and greater activities of AsA-GSH cycle enzymes than in seedlings only chilled. The results suggest that EBR alleviated an oxidative damage caused by the dark chilling stress and accelerated a recovery rate mainly through increasing the ROS scavenging system including the AsA-GSH cycle.

Improving Photo Composition Elegantly: Considering Image Similarity During Composition Optimization

AbstractOptimization of images with bad compositions has attracted increasing attention in recent years. Previous methods however seldomly consider image similarity when improving composition aesthetics. This may lead to significant content changes or bring large distortions, resulting in an unpleasant user experience. In this paper, we present a new algorithm for improving image composition aesthetics, while retaining faithful, as much as possible, to the original image content. Our method computes an improved image using a unified model of composition aesthetics and image similarity. The term of composition aesthetics obeys the rule of thirds and aims to enhance image composition. The similarity term in contrast penalizes image difference and distortion caused by composition adjustment. We use an edge‐based measure of structure similarity which nearly coincides with human visual perception to compare the optimized image with the original one. We describe an effective scheme to generate the optimized image with the objective model. Our algorithm is able to produce the recomposed images with minimal visual distortions in an elegant and user controllable manner. We show the superiority of our algorithm by comparing our results with those by previous methods.

An Analysis of Guidance for Proper Usage Documents for Oncology Drugs in Japan

Pharmaceutical companies in Japan often provide a unique document called the Guidance for Proper Usage (GPU) to medical oncologists, in order to promote the proper use of an approved drug. The aim of the study was to examine the content of and current trends in the efficacy and safety data provided in GPU documents, in order to understand what pharmaceutical companies regard as important information for an oncologist to ensure proper usage of oncology drugs in Japan. Furthermore, this study analysed the influence of route of administration (oral or injection), drug class (cytotoxic or other), type of malignancy (haematological or solid malignancy) and the period of GPU publication (before and after April 2004) on the content of the GPU document. For the 103 oncology drugs approved for use in Japan, 59 GPU documents, covering 50 drugs, were distributed to medical oncologists and were compared by multivariate analysis over two consecutive time periods, from October 1994 to March 2004 and April 2004 to December 2010. For each document, we determined the total number of pages and the proportion of pages that provided drug and toxicity information and the results of registration trials, including postmarketing surveillance. The median number of pages in the GPUs was 48 (range, 11–98). The proportion of pages providing toxicity information, drug information (e.g. warnings, contraindications, instructions, and directions for indications and usage, dosage and administration) and the results of registration trials were 30%, 26% and 11%, respectively. After April 2004, the publication of GPU documents doubled, and the proportion of pages discussing the results of registration trials significantly increased (p = 0.002). The proportions of pages discussing toxicity information and the results of registration trials in molecular-targeted drugs were significantly greater than those for other types of drugs (p < 0.001 and p = 0.008, respectively), while the proportion of pages discussing drug information was significantly lower (p = 0.001). The number and length of GPU publications distributed by pharmaceutical companies in Japan has increased since 2004. Significant changes in content have included a reduction in the amount of information about drug administration and an increase in information on the results of pharmaceutical company-sponsored registrational trials. A further study is warranted to evaluate how often oncologists actually access GPU documents and what type of information could be most useful in medical practice in Japan.

Analysis of tolerance to copper and zinc in Aechmea blanchetiana grown in vitro

The aim of this study was to evaluate the growth and development of Aechmea blanchetiana Baker L.B. Sm. in vitro on medium with 0.0, 0.145, 1.45 and 14.5 μM Cu and 0.0, 2.75, 27.5 and 275 μM Zn. Significant accumulation of Cu and Zn occurred at 14.5 μM Cu and 27.5 and 275 μM Zn, respectively, and there were no significant changes in contents of the other macro- and micronutrients. Superoxide dismutase (SOD) activity significantly changed in the presence of both metals. Spermine content increased as Zn concentration increased and decreased with increasing concentrations of Cu. There was an accumulation of H2O2 in the leaf tissue of plants grown in 1.45 and 14.5 μM Cu and 27.5 and 275 μM Zn. A. blanchetiana was found tolerant to the Cu and Zn in concentrations used in this study and displays the capacity to accumulate these metals.

Analysis of tolerance to copper and zinc in Aechmea blanchetiana grown in vitro

The aim of this study was to evaluate the growth and development of Aechmea blanchetiana Baker L.B. Sm. in vitro on medium with 0.0, 0.145, 1.45 and 14.5 &mu;M Cu and 0.0, 2.75, 27.5 and 275 &mu;M Zn. Significant accumulation of Cu and Zn occurred at 14.5 &mu;M Cu and 27.5 and 275 &mu;M Zn, respectively, and there were no significant changes in contents of the other macro- and micronutrients. Superoxide dismutase (SOD) activity significantly changed in the presence of both metals. Spermine content increased as Zn concentration increased and decreased with increasing concentrations of Cu. There was an accumulation of H2O2 in the leaf tissue of plants grown in 1.45 and 14.5 &mu;M Cu and 27.5 and 275 &mu;M Zn. A. blanchetiana was found tolerant to the Cu and Zn in concentrations used in this study and displays the capacity to accumulate these metals.

Impurities evaporation from metallurgical-grade silicon in electron beam melting process

The purification of metallurgical-grade silicon (MG-Si) has been investigated during electron beam melting (EBM) process. The results show that the phosphorus, calcium and aluminum contents decrease significantly after melting, and magnesium is partially removed. However, no significant change in content for boron and iron has been found. Langmuir’s equation and Henry law were used to derive the removal efficiency for each impurity element. The free surface temperature was estimated by the Hertz-Knudsen-Langmuir equation and silicon’s vapor pressure equation. Good agreement was found between measured and calculated impurities’ removal efficiency for phosphorus, calcium and aluminum, magnesium, boron and iron. The deviation between the two results was also analyzed in depth.

Engine Wear Monitoring with OLVF

In this article, an on-line visual ferrograph (OLVF) was used to monitor the wear condition of a vehicle engine during a bench test. A quantitative index of particle coverage area (IPCA) and wear debris ferro-image were obtained via OLVF to characterize wear degrees. On-line ferrograph analysis indicated some problems with the engine from about the 17th hour. A linear threshold value method to identify running condition of engines with the OLVF data was proposed. The OLVF data were in a fault zone after running for 25 h, when a base bolt broke and the engine stopped working during the test. The engine was disassembled and inspected after the test. Several wear scars were found on the cylinder walls as well as on the bearing surfaces. The oil was added at the 26th and 55th hours, which was also reflected by the variation of IPCA. Moreover, several off-line analyses were carried out in parallel. Off-line ferrograph data did not give any information about the abnormality and only showed stable wear debris content. Spectrometric oil analysis showed that there was no significant change in contents of metal elements.

The Effect of Foliar Nutrition with Nitrogen, Molybdenum, Sucrose and Benzyladenine on the Nitrogen Metabolism in Carrot Plants

The Effect of Foliar Nutrition with Nitrogen, Molybdenum, Sucrose and Benzyladenine on the Nitrogen Metabolism in Carrot Plants The Kazan F1 carrot was cultivated in years 2004-2005 in open-work containers sized 60×40×20 cm filled in with silt loam and located on the open field under shade providing fabric. The following combinations of experiments were arranged: (1) control - without foliar nutrition, and foliar nutrition with: (2) urea, (3) solution of urea+Mo, (4) urea+Mo+BA (benzyladenine - BA), (5) urea+Mo+BA+sucrose, (6) BA in the concentration of 5 mg·dm-3 and (7) BA in the concentration of 10 mg·dm-3. In combinations 2-5 the following concentrations of components in solution were applied: urea and sucrose each in 20 g·dm-3, molybdenum 1 mg·dm-3, benzyladenine 5 mg·dm-3. Foliar nutrition was applied three times. In leaves sprayed with urea and with solution of urea+Mo as well as urea+Mo+BA, an increased concentration of NO3 - was observed when compared to other sites. Foliar nutrition did not result in any significant changes in content of N-total and dry weight in leaves. Foliar application of urea, as well as the solution of urea+Mo+BA, caused an increase in the activity of nitrate reductase (NR) in leaves when compared to the control. Whereas, after spraying the plants with BA only, a noticeable decline in NR activity was revealed in comparison with the control; interestingly, a higher concentration of BA (10 mg·dm-3) was more effective. Foliar nutrition with urea+Mo+BA+sucrose and spraying with benzyladenine only (independently from the concentration) resulted in a significant decrease of the content of NO3 - in storage roots when compared to other combinations. The highest level of nitrogen uptake by single storage root and leaves of one carrot plant was found after urea+Mo+BA+sucrose nutrition. In case of N uptake by yield of leaves and biological yield of whole carrot plants (roots+leaves) the highest values were observed in combination no. 6.

Comparative studies on physiological and biochemical adaptation of Taxodium distichum and Taxodium ascendens seedlings to different soil water regimes

Responses of baldcypress (Taxodium distichum) and pondcypress (Taxodium ascendens) seedlings in leaf gas exchange and root metabolism to a wide range of hydrological regimes were studied. Four water treatments included control (C), mild drought (MD), wet soil (WS) and flooding (FL). Both species showed no significant change in net photosynthetic rate (Pn) in response to flooding in contrast to significant reduction in Pn under mild drought conditions. In baldcypress, Pn was also maintained at control level compared to significant increase of Pn in pondcypress when subjected to the wet soil treatment. In flooding, both species showed significant increase in contents of malate and shikimate in their lateral roots and further in total roots, as compared to control. However, different adaptation to flooding was demonstrated in their taproots in contents of malate and shikimate. Furthermore, baldcypress seedlings showed significant reductions in lateral and total root biomass, in contrast with no significant change in that of pondcypress seedlings in response to flooding. In wet soil, no significant effects were revealed in contents of malate and shikimate in roots (including different root portions) of baldcypress seedlings in contrast to significant increase of their contents in lateral roots of pondcypress seedlings. No significant effects on root biomass were detected in either baldcypress or pondcypress seedlings in response to wet soil. When subjected to mild drought, baldcypress seedlings displayed no significant change in contents of malate and shikimate in roots, whereas pondcypress seedlings exhibited significant reduction in content of shikimate in lateral roots and total roots. In addition, root biomass of baldcypress seedlings showed no significant change, while lateral and total root biomass of pondcypress seedlings demonstrated significant increase when mild drought was imposed. These findings indicate that baldcypress and pondcypress appear to be promising candidates for reforestation in the Three Gorges Reservoir region due to their characteristics of water-tolerance and mild drought endurance. However, pondcypress is more resilient than baldcypress to the continuum of water availability conditions expected in the Three Gorges Reservoir region.

Institutional Logics, ICT and Stability of Management Accounting

The purpose of this paper is to study the institutional logics of how and why two case units in the Finnish Defence Forces have reacted differently to external pressures originating from the State Audit Office to change their management accounting systems. The situation is made complex due to the fact that in military organisations, accountants’ tasks have traditionally consisted of bookkeeping and financial reporting, while management accounting tasks especially (e.g. planning and control) have been performed predominantly by military personnel, who can be called hybrid accountants. The data for this study consists of project memos and interviews with people involved in designing and implementing enterprise-resource-planning (ERP)-linked cost accounting and reporting systems. In the case unit where management accounting and control had become institutionalised as a part of the uniformed officer's professional sphere, various resistance strategies (i.e. compromise strategy/pacifying tactics, avoidance strategy/buffering tactics and defiance strategy/dismissing tactics) were adopted. However, where this was not the case, the response was acquiescence. Despite the differences in responses to institutional pressure, the outcome for management accounting was the same. In the first case, demands for change were resisted, and in the second case, the old management accounting system was transferred into new information and communication technology (ICT) infrastructure without any significant change in content.

Characterization of photosystem II in salt-stressed cyanobacterial Spirulina platensis cells

PSII activity was inhibited after Spirulina platensis cells were incubated with different salt concentrations (0–0.8 M NaCl) for 12 h. Flash-induced fluorescence kinetics showed that in the absence of DCMU, the half time of the fast and slow components decreased while that of the middle component increased considerably with increasing salt concentration. In the presence of DCMU, fluorescence relaxation was dominated by a 0.6s component in control cells. After salt stress, this was partially replaced by a faster new component with half time of 20–50 ms. Thermoluminescence measurements revealed that S 2Q A − and S 2Q B − recombinations were shifted to higher temperatures in parallel and the intensities of the thermoluminescence emissions were significantly reduced in salt-stressed cells. The period-four oscillation of the thermoluminescence B band was highly damped. There were no significant changes in contents of CP47, CP43, cytochrome c550, and D1 proteins. However, content of the PsbO protein in thylakoid fraction decreased but increased significantly in soluble fraction. The results suggest that salt stress leads to a modification of the Q B niche at the acceptor side and an increase in the stability of the S 2 state at the donor side, which is associated with a dissociation of the PsbO protein.

Temporal Sequence of Cell Wall Disassembly Events in Developing Fruits. 1. Analysis of Raspberry (Rubus idaeus)

Raspberry fruits were harvested at five developmental stages, from green to red ripe, and the changes in cell wall composition, pectin and hemicellulose solubilization, and depolymerization were analyzed. Fruit softening at intermediate stages of ripening was associated with increased pectin solubilization, which occurred without depolymerization. Arabinose was found to be the most abundant noncellulosic neutral sugar in the cell wall and showed dramatic solubilization late in ripening. No changes in pectin molecular size were observed even at the 100% red stage. Subsequently, as fruit became fully ripe a dramatic depolymerization occurred. In contrast, the hemicellulosic fractions showed no significant changes in content or polymer size during ripening. The paper discusses the sequence of events leading to cell wall disassembly in raspberry fruit.

Performance de crianças falantes do Português Brasileiro no Test of Early Language Development (TELD-3)

Many procedures are indicated to assess language development during childhood. Besides the diversity found, researchers of the area are unanimous in affirming the need to use formal and objective tests. In Brazil, there’s a lack of tests with this proposal. The main objective of this thesis was to verify the performance of typical Brazilian Portuguese-speaking children at the Test of Early Language Development-3 (TELD-3, Hresko, Reid and Hammill, 1999). Participated in this study 120 children, with ages between 2:0 and 7:11 years, distributed in age groups of 20 subjects each (10 male and 10 female). The thesis was divided in three studies. In Study I the Brazilian Portuguese translation of the TELD-3 was presented and the results obtained showed that the adopted procedures during the translation of the aforementioned test kept its equivalence with the original version, indicating no significant changes in content and format of the test, an important aspect for researches of this type. In Study II the performance of typical Brazilian Portuguesespeaking subjects on the test was analyzed. Results showed that the performance was compatible with the expected mean in all age groups, except for the fiveand six-year-old subjects on the expressive subtest of the Form B, that were classified as “below mean”. Besides, it was observed that the Forms A and B of the test were not equivalent among all age groups and there was an increase in the rough score values with the increase of chronological age. In Study III it was carried out a comparative analysis between the performances of English-speaking (USA) and Portuguese-speaking (Brazil) subjects in the aforementioned test. Results indicated that the groups had equivalent performances until the age of 4:11 years. Five-, sixand seven-year-old Portuguese-speaking subjects had higher scores on the receptive subtest of the Form A and on the expressive subtest of the Form B, and fiveand six-year-olds had lower general scores than English-speaking subjects. As a conclusion, the results of the presented studies, taken together, seem to indicate that the Brazilian Portuguese version of the TELD-3 is sensitive to characterize the language performance of the studied population. Further researches are necessary regarding the sensitivity and specificity of the test.

A stability indicating assay method for cefuroxime axetil and its application to analysis of tablets exposed to accelerated stability test conditions

Cefuroxime axetil is the esterified form of cefuroxime, injectable second generation cephalosporine antibiotic that can be given orally. Stereo and structural isomers of cefuroxime axetil (CA), anti-cefuroxime axetil (ACA) and Δ 3-cefuroxime axetil (DCA), can be present in cefuroxime dosage forms as the process related impurities as well as possible degradation product. Sensitive and precise reversed-phase high-performance liquid chromatography (RP-HPLC) method was developed and validated for the determination of cefuroxime axetil in the presence of its degradation products in solid dosage forms. The RSD values for cefuroxime axetil, anti-cefuroxime axetil and Δ 3-cefuroxime axetil of 1.80, 1.99 and 2.48%, respectively, indicated a good precision of the RP-HPLC method. Developed RP-HPLC method was sensitive with LOD = 0.08 μg mL −1 and LOQ = 0.60 μg mL −1 for anti-cefuroxime axetil and LOD = 0.06 μg mL −1 and LOQ = 0.45 μg mL −1 for Δ 3-cefuroxime axetil. Holding studies were carried out on Ceroxim ® tablets, according to ICH regulation at 30 °C/60% relative humidity (RH) and 40 °C/75% RH for 1, 2, 3 and 6 months. The review data from the stability studies conducted, show the significant content change of Δ 3-cefuroxime axetil.

Marketing Medical Education: An Examination of Recruitment Web Sites for Traditional and Combined-Degree M.D. Programs

ABSTRACT The Internet has the potential to reshape college recruiting; however, little research has been done to see the impact of the Internet on marketing graduate programs, including medical schools. This paper explores the Web sites of 20 different medical schools, including traditional four-year and bachelor's-M.D. degree programs, to ascertain whether universities are attempting to meet the informational needs of their core audiences. Research showed a significant change in content between 2001 and 2003 but no significant difference in the online marketing strategy for these two student groups.

Simulation of small-strain deformations of semi-crystalline polymer: Coupling of structural transformations with stress-strain response

The small strain (below yielding) tensile loading-unloading tests were carried out on the low-density polyethylene (LDPE) and polypropylene (PP) at low strain rate and room temperature. The experiments unambiguously indicate to a remarkable decrease in residual strains in comparison with those predicted by conventional viscoelastic models. These deviations cannot be explained without taking into account structural transformations of semi-crystalline polymers. As long as small deformations cannot result in significant change in content and texture of crystalline and amorphous components, it was assumed that such transformations should include disintegration of connectivity in crystallite clusters. This structural rearrangement is supposed to be caused by the strain-induced decrystallization of narrow (and thus highly stressed) “bridges” connecting domains of conjugated crystallites or inside crystallites. A simple 1D modelling of the deformation processes supports this expectation. The disconnection in polymer morphology is simulated by small portions of amorphous ligaments appearing between neighbouring crystallites in the course of deformation. In spite of simplicity of the model a precise fitting of the stress-strain diagram is obtained along with small variations in structural and material characteristics (crystallinity degree, effective rigidity and plastic ability) of the concerned polymers.

Seasonal Changes of Nitrogen Storage Compounds in a Rhizomatous Grass Calamagrostis epigeios

The seasonal dynamics in content and distribution of N-rich compounds between overwintering organs of Calamagrostis epigeios were examined. Samples were taken both from plants grown in natural conditions and in containers with controlled nutrient supply. There were significant changes in content of nitrate, free amino acids and soluble protein in all investigated plant parts during the course of a year. Amino acids showed both the highest maximum and seasonal fluctuation among the all N compounds observed and, therefore, appear to have a central role in N storage. Their content rises in the autumn, remains stable during winter and declines quickly at the beginning of spring. The most abundant amino acids in the end of winter storage period - asparagine, arginine and glutamine - constituted about 90 % of N in fraction of free amino acids. The portion of N stored in soluble proteins, however, was considerably smaller compare to both amino acids and nitrate. The amount of N stored in rhizomes of C. epigeios was smaller than in roots and stubble base before the onset of spring re-growth. This indicates that roots and stubble base are particularly important for winter N storage in this species.

Evolution of the chemical composition of Ginkgo biloba external and internal leaf lipids through senescence and litter formation

External and internal lipids were analysed in fresh, senescent and litter leaves of Ginkgo biloba to derive qualitative and quantitative information on the changes that occur during the very early stages of diagenesis, and to identify potential biomarkers of the only living Ginkgoale. Analysis of fresh leaves led to the identification of additional compounds, including several series of phenolic constituents, and showed differences between the external and internal lipids (absence/presence of some components, relative abundances and distributions of some series). Pronounced differences concerned with the evolution of content (as wt.% of whole leaves) were observed between the internal lipids (regular decrease from fresh to senescent and to litter leaves) and the external lipids (no significant changes in content). Molecular studies showed variations in the relative abundances and distributions of most constituents of G. biloba leaf lipids which reflect different degrees of stability during the first stages of diagenesis. It also appeared that (i) the phenolic components and the co-occurrence of α-tocopherol and nonacosan-10-ol could be useful biomarkers of G. biloba, and (ii) most of the internal lipids continue to be exported to the leaf surface where they are further degraded during senescence and litter formation.