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Showing 351 to 360 of 371 (0.048 seconds)Spelling suggestions: "subject:"heatstress"" "subject:"headmistress""
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Dissecting the genetic, physiological and metabolic mechanisms of grapevine resilience to heat stressPettenuzzo, Silvia 30 May 2024 (has links)
Grapevine (Vitis spp.) is one of the most widely cultivated perennial fruit crops in the world and its economic relevance is mainly related to wine production. In recent years, the increased frequency of extreme phenomena such as heat waves has been acknowledged as one of the most significant climate variables negatively affecting grape yield and berry composition, with consequences also on wine quality. Thus, studying the physiological, metabolic and genetic factors that are involved in grapevine response to high temperatures is essential to improve the knowledge of mechanisms underlying thermotolerance, aiming to support plant breeding innovation and the development of new management strategies in viticulture. In this work, a segregating population obtained from the crossing of ‘Rhine Riesling’ and ‘Cabernet Sauvignon’ was studied in the field with a multidisciplinary approach. The progeny (around 120 genotypes) was evaluated for phenological traits affected by changing temperatures, in particular bud burst, flowering and véraison, while physiological response to heat stress was assessed in various hot summer days by measuring chlorophyll fluorescence kinetics and stomatal conductance. Measures were collected in the early morning as control and in the afternoon during hot hours. Phenotypic data were then used in combination with a high-density linkage map (average distance between adjacent markers 0.78 cM), previously developed using genotypic information from 139 individuals, to perform QTL analysis. Based on physiological responses to high temperatures, selected individuals showing contrasting behaviour, together with parental lines, were further studied in controlled conditions. In the field, in fact, plants may be subjected to combined stresses and changes in environmental conditions may heavily influence plants response. With the experiment in controlled condition, on the other hand, plants were stressed at higher temperatures, compared to the ones registered in the field, by maintaining all the other sources of variability constant. In the growth chamber plants were studied for their physiological response to heat stress by using the same approach adopted in the field. To better understand mechanisms involved in grapevine adaptation to heat stress conditions, individuals with contrasting behaviour were studied also for their metabolome modifications, both in the field and in controlled conditions. Volatile organic compounds (VOCs) were investigated with an untargeted approach applying conventional methods of analysis. Accumulation of VOCs in grapevine leaves was analysed using gas chromatography coupled with mass spectrometry (GC-MS) after a pre-concentration with a solid-phase micro-extraction (SPME) approach. On the other hand, VOCs emission during stress was investigated in controlled conditions thanks to the use of the Closed-Loop Stripping Analysis (CLSA) which allows the collection of VOCs directly emitted by plants. Analysis was then performed with GC-MS. Metabolic alterations of non-volatile compounds were examined with an untargeted analysis using high-performance liquid chromatography coupled with a high-resolution mass spectrometer equipped with an electrospray soft ionization (HPLC-HR-ESI-MS). In this work a metabolomic workflow was developed, starting from sample collection and extraction to sample analysis and data interpretation. The analytical method developed allowed the preliminary evaluation of leaf metabolome alterations due to stress factors. In fact, the use of a weak cation-exchange mixed mode column, in combination with a data dependent acquisition mode, allowed a first wide screening of both primary and secondary metabolites resulting in a good compromise for metabolic fingerprinting.
QTL analysis on the segregating population allowed the identification of several QTLs, related to both phenological and physiological traits, with the discovery of interesting putative candidate genes for grapevine resilience to changing temperatures. This is the first time that a similar approach has been applied to a perennial fruit crop by analysing chlorophyll fluorescence and leaf transpiration traits related to heat stress. On the other hand, the multidisciplinary approach allowed the fine characterization of Rhine Riesling and Cabernet Sauvignon response to high temperatures, both in controlled and field conditions, a tentative classification of ‘tolerant’ and ‘susceptible’ progeny individuals and the identification of metabolic pathways altered during heat stress in the susceptible plants. Together with the implementation of a novel metabolomic workflow based on HPLC-HR-ESI-MS, this work represents a novelty in studies on grapevine response to changing temperatures, as it considered not only the berry metabolism but the resilience of the plants itself, paving the way for future studies on thermotolerance.
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GENOMIC STUDIES OF NOVEL BEHAVIOR TRAITS IN LACTATING SOWS AND THEIR RELATIONSHIP TO HEAT STRESS RESILIENCE AND MATERNAL PERFORMANCESharlene Olivette Hartman (18523692) 09 May 2024 (has links)
<p dir="ltr">Heat stress is one of the leading welfare concerns for modern swine production globally. Swine are especially susceptible as the species has inactive sudoriferous glands and, as a result, these animals thermoregulate mainly through behaviors such as wallowing and rooting up cooler patches of ground. In commercial settings, access to open ground or wallowing pits would present a threat to the animals’ health in the form of a vector for diseases and parasites. This puts aspects of swine welfare in direct conflict with one another, while public legislature and consumer pressures increasingly call for approaches to animal welfare that encompass all aspects of welfare to be considered. Efforts towards improved welfare are also crucial to the environmental and economical sustainability for producers and consumers. Previous genetic selection tactics used in swine herds focused intensely on a few traits and have led to modern animals being highly productive but also more environmentally sensitive. Intensely selected animals have energy margins that are narrower and more devoted to higher production leaving less accommodations for resilience in moments of stress. Since swine behaviorally thermoregulate, the use of behavior studies combined with those of genetics is one possible way to effectively identify heritable aspects of climatic resilience into future herds while still improving production traits. The primary objectives of this thesis were to develop an ethogram that can be used to base phenotypes of behavior; calculate the variance components of the behavior traits; correlate these components with those of maternal productivity and heat tolerance; and finally explore the genetic background of the behavior traits based on the identification of genomic markers significantly associated with them. Data was collected on 1,678 Landrace × Large White sows from a commercial swine herd in North Carolina. The data comprised information on climatic factors, litter performance, and behavior during a standardized human handling procedure in the summer of 2021. These animals were genotyped using the PorcineSNP50K Bead Chip (Illumina, San Diego, CA, USA). These studies describe the development of an ethogram for use on lactating sows in a commercial setting in order to create the novel behavior traits of Responsiveness Score (RS), Vocalization Score (VS), and Shave Time (ST). The genetic variance components were then estimated, and heritabilities found to be 0.17 ± 0.05 for RS, 0.15 ± 0.05 for VS, and 0.10 ± 0.05. These novel behavior traits had low genetic correlations with traits of maternal performance and heat stress resilience. Genome-wide association studies were then performed, and 19 genomic markers were significantly associated with the three behavior traits. However, only one region located on chromosome 3 harbors a candidate gene that may play a role in heat stress resilience. Although the novel behavior traits explored in this study are heritable, they were not found to be viable indicator traits for heat stress resilience due to their low genetic correlations with direct indicators of heat tolerance in lactating sows. It is important that additional phenotypic records of behaviors related to welfare are generated in the future to better map their polygenic nature. </p>
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<b>THE EFFECT OF COOLING PADS AND SUPPLEMENTING MORINGA OLEIFERA ON LACTATING SOWS UNDER HEAT STRESS AND ANALYZING SOW MILK LIPIDOME USING MULTIPLE REACTION MONITORING (MRM) PROFILING</b>McKeeley C Stansberry (19199299) 23 July 2024 (has links)
<p dir="ltr">Organizational newcomers strive to adjust when they start new jobs, yet little is known about how remote and hybrid work structures influence this process. Previous research has adopted variable-centered approaches to explore the frequency with which newcomers engage in dozens of proactive behaviors in traditional, face-to-face work environments. The current study builds upon this work to capture the socialization process in modern work environments. Adopting a person-centered approach, this study 1.) identifies profiles of newcomers’ perceptions of their work environments, 2.) identifies profiles of newcomer proactive behaviors, 3.) examines the effect of virtuality on these two sets of profiles, and 4.) explores which behavior profiles are associated with the most favorable changes in adjustment.</p>
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Stress response in the cyanobacterium Synechocystis sp. PCC 6803Miranda, Helder January 2011 (has links)
Adaptation to environmental changes is important for the survival of living organisms. Under extreme abiotic conditions, organic molecules (such as lipids, proteins and nucleic acids) are prone to damage. Under these conditions stress response mechanisms are activated, either to prevent the source of damage or to promote the rapid turnover of damaged molecules. Like all photoautotrophic organisms, cyanobacteria are sensitive to high light intensity and oxidative stress, which induces damage to the photosynthetic apparatus. My thesis is divided in two subjects related to particular stress responses in the cyanobacterium Synechocystis sp. PCC 6803: 1) the role of Deg/HtrA proteases and 2) investigations on the small CAB-like proteins. Deg/HtrA proteases are ATP-independent serine endopeptidases with a characteristic C-terminal PDZ domain. These proteases are largely dispersed among living organisms, with many different functions, mostly involved in protein quality control. The genome of Synechocystis sp. PCC 6803 contains three genes coding for Deg/HtrA proteases: HtrA, HhoA and HhoB. These proteases are essential for survival under high light and heat stress, and may overlap in their functions. During my Ph.D. studies I focused on the identification of the precise localization of the Deg/HtrA proteases in the cyanobacterial cell, analyzed the biochemical properties of recombinant Synechocystis Deg/HtrA proteases in vitro and adopted proteomic and metabolomic approaches to study the physiological importance of these proteases. My data show that Deg/HtrA proteases are not only important in stress response mechanisms under adverse conditions, but are also involved in the stabilization of important physiological processes, such as polysaccharides biosynthesis and peptidoglycan turnover. The small CAB-like proteins (SCPs) belong to the light harvesting-like family of stress induced proteins and are thought to be involved in the photoprotection of the photosynthetic apparatus. Five small CAB-like proteins where identified in Synechocystis sp. PCC 6803 (ScpA-E). In my studies I identified another relative to the SCPs, LilA, which I found to be co-transcribed with ScpD. I also focused on the subcellular localization and identification of potential interaction partners of the SCPs.
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Evaporative cooling of apple and pear orchardsVan den Dool, Kari 12 1900 (has links)
Thesis (MSc (Horticulture))--University of Stellenbosch, 2006. / A growing number of fruit producers in warm areas are adopting the use of overtree evaporative cooling (EC) as a technique to reduce sunburn and enhance colour development of red or blushed fruit. Because fruit do not have efficient mechanisms of utilising and/or dissipating solar radiation, fruit surface temperature may rise 10 – 15oC higher than the ambient air temperature, making them very susceptible to sunburn. Sunburn negatively affects the appearance of the fruit, and they cannot be sold for fresh market consumption, which receives the highest prices. Evaporative cooling uses a sprinkler system to cool the trees from above. Energy needed to evaporate the water is extracted from the fruit skin, cooling the fruit down. The air around the trees is cooled, and a more favorable microclimate is created in the orchard. Producers have also found that the use of EC just prior to sundown and sometimes around sunrise has improved colour development on red apples (especially early varieties) before harvest.
In this study, two apple (‘Cripps’ Pink’ and ‘Royal Gala’) and two pear (‘Rosemarie’ and ‘Forelle’) cultivars under EC were compared with control fruit in terms of maturity, colour, sunburn and concentrations of polyphenolics in the skin. Two EC treatments were given; early application starting from the second week in December, and late application starting two to four weeks before harvest. Photosynthetic responses were measured, as well as fruit and leaf temperatures. Underlying physiological responses of trees and fruit to EC were investigated, particularly the phenomenon of acclimation and the potential for colour development and heat stress. Fruit surface temperature of fruit under EC was found to be significantly lower than control fruit. In both apple cultivars a significant increase in fruit skin anthocyanin concentration and a decrease in phenolic content was found as the season progressed. In both pear cultivars there was a significant decrease in both anthocyanin and phenolic. No significant differences were found in anthocyanin content between treatments in either the apple or pear cultivars. In both apple cultivars a higher phenolic content was found in the peel of the EC treatments. A decrease of up to four percent in leaf and fruit surface temperature was found under EC. No significant difference in trunk circumference was found in any of the cultivars. The late EC treatment in ‘Cripps’ Pink’ had a significantly faster rate of budbreak than the control and early EC treatments. Significantly higher transpiration was observed in leaves under EC. ‘Royal Gala’ fruit under EC had less sunburn than control fruit. Unfortunately the system broke down on a hot day, causing more sunburn on ‘Cripps’ Pink’ fruit under EC.
Heat tolerance of apple fruit grown under EC was evaluated in ‘Cripps’ Pink’ and ‘Royal Gala’ by determining the maximum quantum yield of chlorophyll fluorescence (Fv/Fm). Measurements were also made 12 hours after the heat treatments to determine recovery. ‘Cripps’ Pink’ fruit from both EC treatments, but particularly the early EC treatment, were less resistant to heat stress than control (non-EC) fruit at the “threshold” air temperature of 45°C. Apples were able to recover from heat treatments in the range of 32-38oC fruit surface temperature, and generally also recovered fully after 43-45°C fruit surface temperature when exposure did not exceed four hours. This knowledge could be helpful in the management of sunburn, for example when determining the threshold temperature for the activation of evaporative cooling treatments.
Knowledge about the various effects evaporative cooling and the subsequent lowering of ambient temperatures has on fruit trees and fruit could contribute greatly to producers’ ability to grow high quality fruit. EC can be used successfully for controlling sunburn and increasing fruit colour, but the system needs to be controlled very carefully and care should be taken that it does not fail on a hot day, as it did during this study.
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Le stress chez l’abeille domestique (Apis mellifera) : analyse des modifications physiologiques et comportementales / Stress in honeybees (Apis mellifera) : physiological and behavioural modificationsBordier, Célia 19 May 2017 (has links)
L’abeille domestique (Apismellifera) a un rôle majeur dans les écosystèmes naturels et agronomiques mais est exposée à un nombre croissant de pressions environnementales (nouveaux parasites, xénobiotiques, variations climatiques et malnutrition). Dans ce contexte, la compréhension des phénomènes impliqués dans les réponses au stress ainsi que leurs coûts associés devient cruciale pour mieux appréhender l’impact de ces pressions sur les abeilles. L’émergence d’un stress perturbe généralement l’homéostasie de l’organisme qui doit mettre en place une cascade d’adaptations physiologiques et comportementales pour le surmonter. Cependant, du fait de son mode de vie social, il est raisonnable de penser que les réponses vont se faire dans l’intérêt du groupe et non plus seulement dans l’intérêt de l’individu. Afin de caractériser les réponses au stress et de déterminer leur spécificité en fonction de la nature du stimulus (xénobiotiques, immunitaire, thermique, social), j’ai adopté une approche multidisciplinaire en ciblant l’identification des modifications i) physiologiques associées à la division du travail, ii) du métabolisme énergétique, et iii) comportementales. J’ai démontré quequelque soit leur rôle social (nourrice, gardienne, butineuse), les abeilles répondent de la même manière à un stress donné, si celui-ci est écologiquement pertinent (hyperthermie et stress immunitaire mais pas xénobiotique). Une tendance à la diminution des ressources énergétiques a également été observée suite à un stress suggérant une modification des performances comportementales. Afin de vérifier cela, je me suis concentrée sur l’activité de butinage; le vol chez les insectes étant un des processus physiologiques les plus coûteux du règne animal. Une altération des performances de butinage a été mise en évidence chez les abeilles soumises à un stress immunitaire avec une réorientation des préférences de butinage au dépens du pollen, plus coûteux àc ollecter et moins riche en ressource énergétique que le nectar ; ceci probablement pour pallier au coût énergétique du stress. En revanche, en réponse àune hyperthermie, une augmentation de l’activité de butinage a été observée mais sans engendrer un coût supplémentaire au niveau des ressources collectées.Ces résultats sont discutés à la lumière du coût énergétique du stress et des conséquences potentielles sur les performances des abeilles, qui infine pourrait perturber l’homéostasie énergétique de la colonie. / Honeybees (Apis mellifera), which play an important role in natural and agronomic ecosystems, are exposed to a growing number of environmental pressures(new parasites, pesticides, climatechangeand poor nutrition). In this context, deciphering the mechanisms underlying stress responses and their costs becomes crucial to better understand theim pact of these pressures. Stress usually represents a challenge to the homeostasis of a norganism. In response, a cascade of physiological and behavioural adaptations enables the organism to cope with the stress. However, dueto their sociallife style, we could suggest that stress response in honeybees will occurin the interest of the colony and not only in the interest of the individual. To characterise the stress response and determine its specificity according to the stimulus (xenobiotic, immune, thermal, social), I developed a multidisciplinary approach to identify changes in i) task-related physiology, ii) energetic metabolism, and iii) behaviour. I demonstrated that, regardless of their social function (nurse, guard, forager), bees respond in the sameway to a given stress, if itis ecologically-relevant (heat and immune stress but not pesticides). Atendencytoward decreas ingenergetic resources was also observed following stress exposure, which suggests changes in behavioural performance.In order to test this hypothesis, I analysed changes in foraging activity in response to stress, as insect flight is one of the most costly physiological processes in the animal kingdom. I found that for aging performances were affected by animmune stress : bees changed their foraging preferences at the expense of pollen, probably to reduce the stress energetic cost, given that pollen is more costly to collect and provides alower energetic return than nectar. In contrast, in response to heat stress, an increase in colony for aging activity was observed, without an additional cost on resource collection. These results are discussed in the light of stress energetic cost and its potential consequences onhoneybee performances, which could disrupt the colony’s energetic homeostasis.
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Modeling of Indoor Environment and Ammonia Emission, Distribution, and Dispersion Within and From Manure-Belt Layer HousesTong, Xinjie 08 July 2019 (has links)
No description available.
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POTENTIAL EFFECTS OF PARENTAL HEAT STRESS EXPOSURE ON HYPOTHALAMIC-PITUITARY-ADRENAL AXIS SENSITIVITY THROUGH EPIGENETIC PROCESSES.Esther Mary Oluwagbenga (15354481) 29 April 2023 (has links)
<p> </p>
<p>Heat stress affects breeder ducks raised in North America and other parts of the world, but the effects of such stress on the progenies is not known. Therefore, the objectives of this study were to investigate: 1) The objectives of this thesis were to first investigate the effect of heat stress or exposure to exogenous glucocorticoid (GC) on fertility, production performance, egg biochemistry, egg quality, and welfare of breeder Pekin ducks. 2) the effects of maternal GC on phenotypic plasticity and behavior of the F1 generation. Three studies were carried out to investigate these objectives.</p>
<p>The first experiment was conducted to test the hypothesis that chronic treatment with low levels of either corticosterone or cortisol would alter heterophil to lymphocyte ratio (HLR) and immune organ morphometrics. Further, we wanted to determine if chronic treatment with either GC would elicit an increase in cortisol levels in egg albumen. To test our hypotheses, we implanted silastic capsules subcutaneously under the skin of the neck of adult ducks (n = 5/sex/dose) using propofol anesthesia. Capsules contained corticosterone, cortisol, or empty capsules as controls. Over the course of 2 weeks, blood serum, blood smears, body weights, and egg quality data were collected. After 2 weeks, ducks were euthanized using pentobarbital (FatalPlus, 396 mg/ml/kg) and body weight, weights of spleens, livers, and the number of active follicles were recorded. Blood smears were analyzed for HLR by a lab unaware of the treatment groups. Albumen GC levels were assessed using mass spectrometry. Data were analyzed using a 2- or 3-way ANOVA as appropriate and <em>post hoc </em>with Fishers protected least squares difference (PLSD). There were no treatment effects on egg quality measures or body weight. Corticosterone treatment did elicit an increase in serum corticosterone (p < 0.05), but not cortisol levels, compared to controls in both sexes. Both cortisol and corticosterone treatments increased (p < 0.05) serum levels of cortisol compared to controls. Relative spleen weights were higher (p < 0.05) in hens following corticosterone but not cortisol treatment. No other organs showed any differences among the treatment groups. Both GCs elicited an increase (p < 0.001) in HLR in hens at all time-points over the 2-week treatment period compared to controls. Cortisol, not corticosterone, elicited an increase in HLR for drakes (p < 0.05) compared to controls at day 1 after implants. Chronic treatment with cortisol, but not corticosterone, elicited an increase (p < 0.01) in egg albumen cortisol levels compared to other groups. Corticosterone was not detected in any albumen samples.</p>
<p>The goal of our second experiment was to test the hypothesis that heat stress (HS) would alter welfare, egg quality, and morphometrics of breeder ducks. Furthermore, we wanted to test if HS would increase cortisol levels in egg albumen due to recent exciting findings that cortisol, not corticosterone, is isolated in egg albumen. To test our hypothesis, adult Pekin ducks were randomly assigned to two different rooms at 85% lay with 60 hens and 20 drakes per room. Baseline data including body weight, body condition scores (BCS) (such as footpad quality, eyes, nostrils, feather cleanliness, and feather quality scores), and egg production/quality were collected the week preceding heat treatment. Ducks were subjected to cyclic HS of 350C for 10h/day and to 29.50C for the remaining 14h/day for 3 weeks while the control room was maintained at 220C. Eggs were collected daily, and body weights were taken on days 0 and 21 relative to the onset of heat treatment. BCS were collected weekly. Eggs were collected weekly for quality assessment and albumen glucocorticoid (GCs) levels assessment using mass spectrometry. One week before the exposure to HS, 10 hens and 5 drakes were euthanized and the same number again after 3 weeks of HS or control exposures using pentobarbital and birds necropsied. Body weight, weights of the liver, spleen, and the number of maturing follicles were recorded. Data analyses were done by 2- or 3-way ANOVA as appropriate with a Tukey-Kramer post hoc test. BCS were analyzed using a chi-squared test. A p value ≤ 0.05 was considered significant. Circulating levels of corticosterone were significantly (p < 0.01) elevated at week 1 only in the HS hens while there was no significant difference in the circulating levels of corticosterone in drakes compared to the controls. The circulating levels of cortisol increased significantly at week 1 (p < 0.05), week 2 (p < 0.05), and week 3 (p < 0.01) in the hens and at week 2 and 3 only (p < 0.05) in the drakes compared to the controls. Feather quality scores (p < 0.01), feather cleanliness scores (p < 0.001) and footpad quality scores (p < 0.05) increased significantly in the HS group compared to controls, higher BCS indicate a decline in welfare. HS elicited a significant (p < 0.001) decrease in egg production at weeks 1 and 3 and a descriptive decrease in the number of fertile eggs upon candling at 10 days of incubation, numeric decrease hatchability and increase in the number of dead embryos in the HS group after the incubation period. Hens in the HS group showed a significantly decreased BW (p < 0.001), and number of ovarian follicles (p < 0.05) compared to controls. Shell weight decreased significantly at week 1 (p < 0.05) compared to controls. Yolk weight decreased significantly at week 3 (p < 0.01) compared to controls. HS elicited a significant increase in albumen cortisol levels at week 1 (p < 0.05) and week 3 (p < 0.05).</p>
<p>The third experiment was conducted to determine if parental exposure to heat stress would impair performance, hypothalamic pituitary adrenal (HPA) axis response, welfare, or behavior of their offspring. To achieve these goals, we treated adult drakes and hens at peak lay to heat stress or control temperature for 3 weeks and incubated eggs collected from the last 3 days of the experiment. A total of 76 ducklings were placed into pens from each parental treatment group: control (CON-F1) and heat stress (HS-F1) and raised as grow-out ducks. Weekly data for body weights, body condition scores (BCS), and novel object test (NOT) were collected weekly. At 3 weeks of age, ducks (n = 6 per treatment group) were subjected to adrenocorticotropic hormone (ACTH) (ACTH/cosyntropin, 0.0625 mg/kg) challenge or vehicle as control. Blood samples were collected from the metatarsal vein into serum-separator tubes at 0, 1, 2, 3, and 4 hours relative to treatment for the determination of serum glucocorticoids. Blood smears were also produced from these same samples to determine heterophil to lymphocyte ratios (HLR). All injected birds were euthanized with pentobarbital on the second day relative to ACTH administration, spleen and bursa were removed and weighed immediately. Duck level analyses were completed using 1-, or 2 -way ANOVA as appropriate. BCS were analyzed using a chi-squared test. We observed that HS-F1 had a lower hatch weight (p < 0.05) compared to CON-F1. However, growth rates during the 5-week grow-out period were not significantly different between the two flocks. NOT (N = 4) analyses showed that the HS-F1 had a greater fear response (P< 0.001) compared to CON-F1. Similarly, an ACTH stimulation test showed that the HS-F1 ducks had significantly heightened corticosterone and HLR responses compared to CON-F1 ducks (p < 0.05). The HS-F1 showed altered baseline and ACTH-stimulated levels of cortisol compared to controls.</p>
<p>In conclusion, GC elicit differential effects and although corticosterone has been stated to be the predominant GC in avian species, cortisol may provide critical information to further understand and improve welfare. HS decreased performance, fertility, and productivity of breeder ducks. In addition, HS and exogenous GC elicited a selective deposition of cortisol, not corticosterone, in the egg albumen. The maternal cortisol deposited in eggs alter the hypothalamic-pituitary adrenal (HPA) axis and behavioral responses of the F1 generation. This suggests that maternal hormones can alter the phenotypic plasticity of the offspring and can be used to produce offspring that have better adaptation to the rising temperatures as a result of climate change. Finally, the measure of cortisol in egg albumen can be used as a non-invasive marker of stress.</p>
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Restructuring of Wetland Communities in Response to a Changing Climate at Multiple Spatial and Taxonomic ScalesGarris, Heath William January 2013 (has links)
No description available.
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Värmeböljor i urbana miljöer : Hur kan planeringsverktyg användas för att mildra konsekvenserna av ökande temperaturer? / Heatwaves in urban environments : How can planning solutions be used to mitigate the consequences of rising temperatures?Stål, Anna, Kokkalis, Natalie January 2024 (has links)
Denna rapport utforskar effekterna av värmeböljor i urbana miljöer och utforskar användningen av olika stadsplaneringsverktyg för att mildra dessa effekter. Värmestress och värmerelaterade sjukdomar är betydande risker som orsakas av stigande temperaturer i städer, därmed analyseras gröna, blå och gråa lösningar i syfte att minska uppkomsten av värmeböljor i stadsmiljöer och därmed även minska dessa risker. Studien bygger på en omfattande litteraturstudie samt en fallstudie av Hornsbergskvarteren i Stockholm där en intervju även genomfördes med viktiga nyckelpersoner. Resultaten från studien pekar på att en kombination av gröna, blåa och gråa lösningar kan samverka för att minska temperaturen i stadsmiljöer. Gröna lösningar som parker, trädplanteringar, gröna tak och väggar kan bidra till att sänka temperaturen men också förbättra luftkvaliteten i städer, vilket skapar hälsosammare levnadsmiljöer. Blåa lösningar inkluderar olika vattenfunktioner i städer där denna studie främst fokuserat på effekterna av sjöar, dammar, kanaler och bäckar. Blåa lösningar har visat sig ha varierande effekter för temperaturregleringen i urbana miljöer, vilket indikerar att ytterligare undersökning är nödvändig för att förstå dess fulla effekt. Två aspekter som inte togs i beaktning under litteraturstudien men som uppkom som potentiella blåa lösningar under fallstudien var fontäner samt potentiella lösningar för fördröjning av regnvatten. Effekterna av dessa kan vidare utforskas i framtida studier för att ge en helhetsbild av blåa lösningars effekter i urbana miljöer. Gråa lösningar, såsom användningen av reflekterande material har visat sig bidra till att skapa svalare städer. Sammantaget pekar resultaten på att en tillämpning av gröna, blåa och gråa lösningar är viktiga för att hantera värmeböljor och mildra dess effekter, främst risken för hälsorelaterade problem. Dessa planeringsverktyg är viktiga för att främja hållbar utveckling och skapa resilienta städer. / This report explores the effects of heatwaves in urban environments and examines the use of various urban planning tools to mitigate these effects. Heat stress and heat-related diseases are significant risks caused by rising temperatures in cities, therefore, green, blue, and gray solutions are analyzed to reduce these risks in urban areas. The study is based on a literature review and a case study of the Hornsberg area in Stockholm, on which an interview was also conducted. The results from the study suggest that a combination of green, blue, and gray solutions can work together to reduce temperatures in urban environments. Green solutions such as parks, trees, green roofs and walls can help to lower temperatures but also improve air quality in cities, creating healthier living environments. Blue solutions include various water features in cities, where this study primarily focused on the effects of lakes, ponds, canals and streams. Blue solutions have shown varying effects on temperature regulation in urban environments, which means that further investigation is necessary to understand their full impact. Two aspects not considered during the literature review but which emerged as potential solutions during the case study, were fountains and rainwater retention basins. For these solutions, further studies need to be reviewed. Gray solutions, such as the use of reflective materials, have proven to contribute to cooler cities. Overall, the results indicate that the integration of green, blue, and gray solutions is important for managing heatwaves and mitigating their effects, primarily the risk of health-related issues. These planning tools are important for sustainable development and creating resilient cities.
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