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Effects of Starvation and Time at Stocking on Survival of Stocked Rainbow Trout, Salmo gairdneriBricker, Marlin John 01 May 1970 (has links)
Investigations of effects of starvation and time at stocking on the survival of catchable rainbow trout in two areas of Mammoth Creek in Dixie National Forest, Utah, were conducted from May 24 to December 6, 1969. Fish were starved for 6 days and 1 day and stocked in the morning (5:40-7:00 a.m.) and in the afternoon (1:45-5:30 p.m.). Out of 7,000 tagged fish stocked, 4,751 tags were returned by fishermen. The 6-day starved fish, stocked in the morning returned to the creel in highest numbers (1,240); followed by 1-day starved, afternoon-stocked fish (1,194); 6-day starved, afternoon-stocked fish (1,163); and 1-day starved, morning-stocked fish (1,154). For the entire stream, the main effects of starvation and time at stocking were not significant at the 10 percent level, but their interaction was significant at the 1 percent level.
In the upper area, however, both 6-day starved lots returned to the creel in greater numbers (692) than the 1-day starved lots (643), and the main effect of starvation was significant at the 1 percent level in addition to the interaction being significant at the 5 percent level.
About 81 percent of the tags returned were from fish caught in the sections stocked. One percent of the tags were from fish that moved upstream and 18 percent from fish that moved approximately 3 miles or less downstream. No consistent downstream movement patterns were related to either starvation or time at stocking.
One week after the fishing season, 68 percent of all (19) tagged fish captured by electrofishing were 6-day starved fish, but this difference was not significant at the 10 percent level.
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Influence of Carbohydrate Starvation on the Culturability and Amino Acid Utilization of Lactococcus lactisStuart, Mark R. 01 May 1999 (has links)
Lactococci are widely used in the cheese industry as a starter culture. Starter cultures face carbohydrate starvation due to the absence of a fermentable carbohydrate in the cheese curd after pressing. Starvation leads to a decreased ability to synthesize ATP, generate a proton motive force, and accumulate nutrients necessary to maintain viability. The aim of this work was to investigate the culturability of lactococci grown with and without lactose in a chemically defined medium, and to define the metabolic changes that occur during carbohydrate starvation.
Lactose metabolism provided energy for logarithmic phase growth and greater cell density in L. lactis ssp. lactis ML3 and L. lactis ssp. cremoris S2. However, the rate of lactose metabolism was strain dependent in that L. lactis ssp. lactis 11454 did not metabolize lactose as rapidly as did ML3 and S2. In the absence of lactose the cells became nonculturable on agar.
In addition to becoming nonculturable, the aminopeptidase and lipase/ esterase activity became nonmeasurable after 21 d, and cellular metabolism was altered because of carbohydrate starvation. Nevertheless, the cells remained viable for up to 42 d in spent media as measured by fluorescent viability stains and intracellular ATP content. Fluorescent viability staining demonstrated that the cells maintained an intact cell membrane to contain their DNA, as well as to contain enzymes and ATP necessary to maintain viability and metabolic activity.
With the addition of arginine to the basal medium, the survival time, cell number, and ATP concentration increased. Amino acids, including arginine, provided energy after carbohydrate exhaustion. At the onset of lactose exhaustion, the extracellular concentrations of arginine, glycine/valine, glutamate, and glutamine decreased in the media when energy was present for their transport. There was a significant increase in serine and methionine concentrations in the spent media over the same time period.
These data indicated lactococci remained viable and metabolically active, but were nonculturable in response to carbohydrate starvation. Additionally, amino acids are in a dynamic state during carbohydrate starvation, and utilization of amino acids, such as arginine and serine, could facilitate lactococcal cells in maintaining viability in harsh environments such as ripening cheese.
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Acetate Modulation of Fatty Acid and Triacylglycerol Synthesis-related Gene Expression in Chlamydomonas reinhardtii for Nitrogen Starvation Induced Lipid AccumulationWu, Pei-shan 01 September 2010 (has links)
Diacylglycerol acyltransferase (DGAT) is a key for the synthesis of triacylglycerol (TAG) from diacylglycerol in the unicellular green alga Chlamydomonas reinhardtii.Acetyl-CoA carboxylase (ACCase) and fatty acid synthase (FAS) are responsible for the synthesis of fatty acids. We found the TAG and fatty acid synthesis related genes in C. reinhardtii, including five DGAT (DGAT1 (JGI 184281), DGAT2 (JGI 400751), DGAT3 (JGI 285889), DGAT4 (JGI 141301), and DGAT5 (JGI 190539)), three £] ketoacyl-ACP reductase isoforms ( (JGI 153976), (JGI 153976), and (JGI 194728)) and two £] ketoacyl-ACP synthase isofroms ( (JGI 139619) and (JGI 205887)) for FAS, and ACC £\ (NCBI XP_001696945.1), ACC £] (NCBI XP_001703187.1) and ACC biotin carboxylase ( NCBI XP_001702319.1)) for ACCase in C. reinhardtii. This investigation designed the primers of the above genes to determine whether acetate influences their mRNA expression levels in cell-wall less strain CC400 in the nitrogen starvation condition. The results showed that the absence of nitrogen in the medium triggered the lipid accumulation for the strains of CC400 in the condition of 50 £gE light. DGAT3 mRNA levels were increased by nitrogen starvation. For the FAS genes, in the strain of CC400 showed no increased mRNA levels upon exposure to nitrogen starvation. The mRNA levels of ACC£\, ACC £] and ACC biotin carboxylase were more or less decreased by nitrogen starvation in CC400 strains. Thus, the responses of DGAT gene expression to acetate supplement were checked. The absence of acetate from the medium partly inhibited the nitrogen starvation induced increases in lipid and DGAT3 mRNA levels, and the mRNA levels of DGAT1 and DGAT2 in the nitrogen starvation condition. However, DGAT4 mRNA levels were significantly induced by the absence of acetate from the medium. In conclusion, the present study demonstrate that acetate is required for the nitrogen starvation induced DGAT3 gene expression (mRNA levels) and lipid accumulation in C. reinhardtii.
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Studies on the Nitrogen Starvation Induced Lipid Accumulation in Chlamydomonas reinhardtii I. Effects of Temperature, Salinity, Light and Aceate.Chu, Yu-ying 01 September 2010 (has links)
This study was to determine the effects of several selected environmental factors (temperature, salinity, light intensity, and acetate) on the nitrogen starvation induced lipid accumulation in Chlamydomonas reinhardtii CC 400 by the Nile Red staining of lipid in the cells. Nitrogen starvation induced lipid accumulation, the extent of lipid accumulation increased as nitrogen concentrations in the medium decreased. For the 9.4 mM NH4Cl of HS medium as 100% N, the absence of NH4Cl from the medium will show the maximum induction in the lipid accumulation. This was also observed in the treatment of algal cells in mid-log phase by the absence of NH4Cl in the medium. A decrease in temperature down to 15oC depressed the nitrogen starvation induction in lipid accumulation for the algal cells from the mid-log phase, while the elevation in the light intensity up to 300 £gmol photons • m-2 • s-1 also showed an inhibitory effect. However, the transfer to darkness for the nitrogen starvation also inhibited the lipid increase. The addition of 100 mM NaCl enhanced the nitrogen starvation induced lipid accumulation but the NaCl level up to 200 mM inhibited the increment. The nitrogen starvation induction of lipid increase was partly inhibited due to the absence of acetate, whereas the increase in acetate concentrations in the medium did not have effect on lipid accumulation as compared to normal acetate addition in the medium. Overall, the results of the present study show that light and acetate are essential factors for the maximum lipid accumulation in C. reinhardtii by nitrogen starvation.
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The effects of stress on crystalline style morphology of three bivalves in TaiwanFang, Yi-ting 19 September 2012 (has links)
The present study was undertaken to evaluate the effects of stress on crystalline style characteristics in bivalves of Crassostrea angulata, Meretrix lusoria, and Perna viridis. Firstly, the crystalline style morphological characteristics in normal submerged condition was examined. The presence percentage of crystalline styles in C. angulata collected from different months ranged from 0 to 73%. While, it was 100% in M. lusoria and P. viridis. Secondly, the crystalline style morphological characteristics were investigated under stresses of starvation, hypoxia and desiccation. In C. angulata, the crystalline styles were absent after treated with each of the unfavorable conditions for 1 hour. In M. lusoria, under starvation and hypoxia conditions for 72 hours, the presence percentage of crystalline styles was significantly decreased. Even more, the presence percentages of crystalline styles in M. lusoria reduced to 22% when treated with desiccation for 2 hours. In P. viridis, the presence percentage of crystalline styles was 100% under starvation and hypoxia for 72 hours. In contrast, the mussels were totally dead under desiccation for 72 hours. By comparison, desiccation had greater influence on the three bivalves than starvation and hypoxia based on the standardized crystalline style wet weight (crystalline style wet weight/ shell length). Additionally, the presence percentage of crystalline styles in C. angulata was also influence by fed. In all, among the three examined species, oyster C. angulata is the most sensitive one to unfavorable conditions.
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Fluid balance and metabolic response in athletic horses fed forage diets /Connysson, Malin, January 2009 (has links) (PDF)
Licenciatavhandling Uppsala : Sveriges lantbruksuniversitet, 2009. / Härtill 2 uppsatser.
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A measurement-based admission control mechanism for wireless local area networksBabu, Srinivas Bandi Ramesh 01 June 2005 (has links)
As users become more comfortable using IEEE 802.11 Wireless Local Area Networks, the need for quality of service is becoming more important because of the lack of support in current standards and the increase of multimedia traffic over the Internet. The IEEE 802.11 working group has recognized this fact proposing the Enhanced Distributed Channel Access (EDCA), a priority-based distributed scheme meant to provide service differentiation. EDCA relies on either different Arbitrary Interframe Space (AIFS), or Contention Window (CW) parameters, or both to provide service differentiation. In this thesis, a performance evaluation of the EDCA using five different combinations of the above mentioned parameters is included and compared to the current DCF (Distributed Coordination Function) standard, which is used as the base case. Simulation results show that simpler schemes based on one parameter alone can provide good average service differentiation. However, only multiparameter schemes provide the average and instantaneous high throughput and low delay values needed to support streaming applications. Starvation is a problem spanning all these schemes. It is especially more pronounced in schemes using combinations of parameters. In this thesis, a measurement-based admission control mechanism is proposed to overcome the above stated problems. The admission control mechanism uses an algorithm that admits a flow depending on the jitter values for high priority traffic and the throughput of the low priority traffic. It also allows the administrator to set the bandwidth sharing policy between the high priority traffic and low priority traffic. Results show that the admission control mechanism not only protects existing high priority flows from jitter and low priority flows from starvation, but also improves upon the network utilization.
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Molecular Mechanisms of AMPK- and Akt-Dependent Survival of Glucose-Starved Cardiac MyocytesChopra, Ines 16 February 2012 (has links)
Muscle may experience hypoglycemia during ischemia or insulin infusion. During severe hypoglycemia energy production is blocked and an increase in AMP:ATP activates the energy sensor and putative insulin-sensitizer AMP-dependent protein kinase (AMPK). AMPK promotes energy conservation and survival by shutting down anabolism and activating catabolic pathways. We investigated the molecular mechanism of a unique glucose stress defense pathway involving AMPK-dependent, insulin-independent activation of the insulin signaling pathway. Results from my work showed that the central insulin signaling pathway is rapidly activated when cardiac and skeletal myocytes are subjected to conditions of glucose starvation. The effect occurred independently of insulin receptor ligands (insulin and IGF-1). There was a >10-fold increase in the activity of Akt as determined by phosphorylation on both Thr308 and Ser473. Phosphorylation of glycogen synthase 3 beta (GSK3b) increased in parallel, but phosphorylation of ribosomal 70S subunit-S6 protein kinase (S6K) and the mammalian target of rapamycin complex 1 (mTORC1) decreased. We identified AMPK as an intermediate in this signaling network; AMPK was activated by glucose starvation and many of the effects were mimicked by the AMPK-selective activator aminoimidazole carboxamide ribonucleotide (AICAR) and blocked by AMPK inhibitors. Glucose starvation increased the phosphorylation on IRS-1 on Ser789, but phosphomimetics revealed that this conferred negative regulation. Glucose starvation enhanced tyrosine phosphorylation of IRS-1 and the insulin receptor, effects that were blocked by AMPK inhibition and mimicked by AICAR. In vitro kinase assays using purified proteins confirmed that the insulin receptor is a direct target of AMPK. Insulin receptor kinase activity was essential for cardiac myocytes to survive gluose starvation as inhibition of the IR led to increased cell death in glucose-starved myocytes. Selective activation of mTORC2 by glucose starvation to increase Akt-Ser473 phosphorylation was dependent on the presence of rictor. SIN1 also seemed to be instrumental in the activation of mTORC2 as its levels and binding to rictor increased under glucose starvation. AMPK-mediated activation of the insulin signaling pathway conferred significant protection against the stresses of glucose starvation. Glucose starvation promoted energy conservation, augmented glucose uptake and enhanced insulin sensitivity in an AMPK- and Akt-dependent manner. My results describe a novel ligand-independent and AMPK-dependent activation of the insulin signaling pathway via direct phosphorylation and activation of the IR followed by activation of PI3K and Akt. These results may be relevant in conditions of myocardial ischemia superimposed with type 2 diabetes where AMPK could directly modify the IR to promote cell survival and confer protection.
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Postconflict internally displaced persons in Ethiopia : mental distress and quality of life in relation to traumatic life events, coping strategy, social support, and living conditions /Araya, Mesfin, January 2007 (has links)
Diss. (sammanfattning) Umeå : Univ., 2007. / Härtill 4 uppsatser.
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Compréhension des mécanismes de dégradation des cœurs de pile à combustible PEM en application automobile / Study of MEA degradation of PEMFC for automotive applicationsDecoopman, Benjamin 03 November 2016 (has links)
Les piles à combustible à membrane échangeuses de protons (PEMFC) sont des générateurs électrochimiques permettant de produire de l’énergie propre à partir d’hydrogène. Leur fonctionnement à basses températures et leur réponse dynamique rapide en font de bons candidats pour des applications liées au transport, secteur représentant 41% des émissions de CO2 dans le monde. Malheureusement, leur développement reste aujourd’hui limité par d’importantes dégradations affectant leur durabilité.Ce doctorat s’intéresse aux mécanismes de dégradations impactant l’assemblage membrane-électrode (AME), survenant en application automobile. Trois axes de recherche sont développés, abordant réversibilité et irréversibilité, ainsi que l’interdépendance entre les choix système et la conception de l’AME.Tout d’abord, un nouveau mécanisme de dégradation du carbone, se produisant y compris à l’arrêt sous hydrogène ou sous gaz inertes humides, a été constaté. La perte de carbone représente une dégradation irréversible de la couche active, tandis que le monoxyde de carbone, produit de la corrosion, engendre une baisse de performances réversibles. De plus, il a été montré que la pénurie en air s’avère être un moyen efficace pour éliminer les dégradations réversibles dues à la contamination du catalyseur anodique et cathodique. Enfin, les moyens expérimentaux utilisés ont permis de comprendre les mécanismes survenant au cours de pénuries en air périodiques, ainsi que leurs effets sur la durabilité. Afin de pouvoir réguler la puissance par le débit d’air, une étude des effets d’un défaut en air prolongé a finalement été menée en mode galvanostatique et potentiostatique. L’ajout d’une pompe de recirculation dans le circuit cathodique permet d’homogénéiser le flux d’air et de maintenir la polarisation des cellules. / Proton-exchange membrane fuel cells (PEMFC) are electrochemical generators producing clean energy from hydrogen. Their low operating temperature and their fast dynamic response make them ideal for transport applications, a sector responsible of 41% of the CO2 emissions worldwide. Unfortunately, degradations, which reduce their durability, limit their future development.This research work focuses on membrane-electrode assembly (MEA) degradations in automotive applications. Three topics are studied, dealing with reversible and irreversible degradations, and the interdependence between system strategies and MEA preparation.A new carbon degradation mechanism has been observed, occurring even when the fuel cell is off under humidified hydrogen or inert gas. The loss of carbon induces an irreversible degradation of the catalyst layer whereas the carbon monoxide produced by the corrosion reaction affects reversibly the performances. It turns out that air starvation is a useful tool to get rid of reversible degradations due to the cathodic and anodic catalyst contamination. Experiments have been carried out to point out the mechanisms occurring during periodical air starvations as well as their impact on durability. In order to control the power of the fuel cell by air flow, the effects of permanent air starvation have finally been researched in potentiostatic and potentiodynamic modes. The introduction of a recirculation loop within the cathodic compartment enables the homogenization of the flow and the polarization of the cells.
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