Global ETD Search

11	Aspects of the thermal ecology of six species of carcass beetles in South Africa Midgley, John Mark January 2008 (has links) The forensic application of entomology is well known, but it is generally a field which concentrates on Diptera. Many Coleoptera also have forensic application, but are generally neglected by forensic entomology researchers. Necrophilic Coleoptera are diverse and therefore have application in estimating Post-Mortem Interval (PMI) by community composition, but they are also valuable in estimating PMI by development. In addition, Coleoptera are more common in stored product cases. Six species of forensically important Coleoptera were studied, three from the family Dermestidae (Dermestes haemorrhoidalis, D. maculatus and D. peruvianus) and three from the family Silphidae (Silpha punctulata, Thanatophilus micans and T. mutilatus). The effect of killing method and storage time on larval length was investigated in T. micans. Coleopteran larvae were shown not to behave in the same way as dipteran larvae. In contrast to dipteran larvae, it is recommended that coleopteran larvae be killed using ethanol. A development model is presented for T. micans. This represents the first statistically robust development model for forensically important Coleoptera, and the first development model for forensically important Silphidae. The model offers a method of estimating PMI which can be used once Diptera are no longer present on a corpse. Upper lethal temperature limits for four species of carcass beetle were determined. A comparison between species shows distinct differentiation between families and species. This differentiation accounts for microhabitat differences which these species show on carcasses. Bioclimatic models for the six species showed contrasting distributions, with both widespread and localised species. These models allow forensic investigators to assess whether the absence of a species from a corpse is forensically significant, or a result of the species distributions. Moisture-related variables were shown to be more important in predicting species distributions than temperature at a regional scale. Forensic entomology standards can be adjusted based on the findings of this study. Length was again shown to be an inferior measurement of larval age. Coleopteran development has been shown to be useful, and should be given greater consideration in future work. T. micans has been shown to be capable of locating and ovipositing on carcasses promptly after death, making it a good forensic indicator. Further work is needed for the full potential of necrophilic Coleoptera to be realised. Forensic entomology Diptera -- South Africa Beetles -- South Africa Burying beetles Burying beetles -- South Africa Beetles -- Effect of temperature on
12	The Shadow of Change: Politics and Memory in New England's Historic Burying Grounds, 1630-1776 Hopkins, Caitlin Galante DeAngelis 06 June 2014 (has links) This dissertation recovers the political histories of New England's historic graveyards. From their early rejection of English burial practices to their modern incarnation as tourist attractions, New England's historic graveyards have been public forums for political posturing and debate. Far from the tranquil sanctuaries of later imagination, burying grounds of the colonial era were places where both the powerful and the relatively powerless could make shows of their strengths and air their grievances. American history Religious history Art history burying grounds gravestones graveyards historic preservation memory New England
13	Past, present and future status of the endangered American burying beetle (Nicrophorus americanus) in Texas Bauer, Kendra Kim 04 January 2011 (has links) Nicrophorus americanus is a federally endangered species whose range has decreased dramatically since the 1920s. It is a nocturnal species that is only active from May to September when temperatures reach at least 15.5°C for three nights in a row. It once ranged throughout North America, from Maine and the southern parts of Canada, west to South Dakota and south to Texas. The historic Texas population consists of four Texas specimens from the 1880s residing at the Philadelphia Academy of Science Invertebrate Collection. Since then, there were no confirmed specimens in Texas, until 2003 when a single individual was found in Lamar County, Texas. The population discovered in Lamar County has been on a steady decrease from 2005, 223 individuals captured, until 2008 only 8 individuals captured. Since 2008, no individuals have been captured in Texas, despite intense surveys. It is possible that the Texas population is a sink population with the Oklahoma population to its north, acting as the source. Genetic analysis of the Texas and Oklahoma populations would help to answer this question and analysis of the entire population may answer questions to why the species declined leaving only the peripheral populations. The specific habitat variables that caused the population to re-colonize and go extinct in Texas are unclear, but when determined could play a critical role in managing the population. / text Nicrophorus americanus American burying beetle Endangered species Surveys Texas Mark recapture Silphidae Carrion beetle
14	Novel Models and Mechanisms in the Neurobiology of Anxiety Yeung, Michelle Unknown Date No description available.
15	The Effect of Resource Quality on Partner Compensation in a Biparental Species Shane M Murphy (11206056) 30 July 2021 (has links) Sexual conflict arises in biparental species because of the fitness payoffs of shifting the costs of care onto their partner. The negotiation model asserts that parents actively monitor their partner’s level of investment and adjust their own in response generally resulting in partial compensation when a member of the pair reduces their level of investment. The willingness of one parent to compensate for the other’s change is found to be widely variable. Habitat or resource quality available to pairs may explain such variation. It is predicted that the level of compensation by one partner will increase with decreasing resource quality. I tested this prediction with the biparental burying beetle, <i>Nicrophorus orbicollis</i>. Under natural conditions, burying beetles apply costly social immune molecules to carcasses of small vertebrates to preserve nutritional value for young. The goals of this research were (1) to determine if males immunologically compensate when females are immunologically handicapped; and (2) determine the impact of resource quality on compensation. Changes in lysozyme-like-activity (LLA) and phenoloxidase (PO) production in oral and anal secretions were used to quantify social immune investment. Pairs were provided a mouse carcass of one of three qualities: freshly thawed, aged for 3 days, or aged for 7 days. As expected, female LLA decreased once injected with lipopolysaccharide (LPS) irrespective of carcass quality. Injections caused significant down regulation of oral PO in females. Male LLA increased as the quality of carcasses decreased when paired with handicapped females. Males showed no changes in PO across treatments or carcass types. My results demonstrate that males compensate for a change in maternal investment and the level of compensation increases as resource quality decreases. Behavioural Ecology Animal Behaviour Behavior Sexual Conflict Resource Quality Compensation burying beetles
16	Does environmental variability explain male parental care in a burying beetle? Noah S Feldman (9183593) 04 August 2020 (has links) Many animal species invest in extended parental care for their offspring. Parental care is costly, and natural selection favors investment strategies which maximize reproductive success. Biparental care is relatively rare, but when it does occur it has been found to increase success in terms of offspring survival and growth and in terms of future reproductive opportunities. In burying beetles (<i>Nicrophorus</i> spp.), both male and female participate in extended parental care. However, the fitness benefits of biparental care in burying beetles have been difficult to establish, with some studies reporting significantly smaller broods produced when both male and female are present. Variation in environmental conditions, such as temperature, is an important part of the context in which biparental care evolves. I hypothesize that biparental care acts as a buffer against environmental variation. This hypothesis predicts that biparental care will lead to greater reproductive success compared to uniparental care when temperature is increased during a reproductive attempt. I also tested the load-lightening hypothesis, which holds that biparental care benefits future reproduction by lowering the costs of reproduction. This predicts that the additional care by the other parent will allow females to rear higher quality second broods. I conducted a male removal experiment at two temperature treatments, using the species <i>Nicrophorus orbicollis</i>. I measured reproductive success during manipulated first brood and during second broods which females reared without a male, regardless of prior experience. I found that, contrary to my hypothesis, biparental care at the higher temperature resulted in reduced reproductive success compared to uniparental care. I found no effect of biparental care on the success of second broods. Instead, I found evidence of reproductive restraint associated with the higher temperature treatment in delayed egg-laying and increased feeding during second broods. burying beetles Biparental care environmental variability load-lightening hypothesis
17	Ecology and Ecophysiology of Burying Beetles in a Fragmented Eastern Deciduous Forest Brandon M Quinby (9187844) 30 July 2020 (has links) <div>Animal species that consume carrion provide an essential ecosystem service by recycling the resource’s nutrients intothe ecosystem. Carrion is an unpredictable and ephemeral resource that is variable across a landscape and is an important resource to many taxa. Furthermore, the colonization of small vertebrate carcasses by different species influences competition and coexistence dynamics, which in turn influence species dominance. The American burying beetle, <i>Nicrophorus americanus</i>(ABB) has recently experienced a dramatic decline in abundance and geographic range. An essential requirement of the ABBs life cycle is the availability of small vertebrate carcasses for reproduction. We know little about the preferred carrion base necessary to support a healthy ABB population. However, we know that reproduction is costly in buying beetles, and physiological trade-offs associated with resource use likely influences metabolic activity, fecundity, and survivorship. Furthermore, successful monitoring of wildlife populations requires reliable estimates of abundance, dispersal, and population demographics. This is often problematic within ABB populations because they are elusive, nocturnal, often occur at low population densities, and are a species of conservation concern. These factors constitute a management and conservation challenge in ecology and conservation biology. Therefore, identifying and evaluating the resources used for reproduction, along with life history trade-offs associated with resource use, in addition to species abundance within a habitat are key requirements for this species’ conservation and management. We used stable isotope analysis of carbon and nitrogen to determine the carrion base used by burying beetles in situ. Additionally, we evaluated resting metabolic rate and the energetics of prehatching parental care using flow through respirometry. Finally, we investigated the utility of using photographs with an individual identification machine learning software program paired with program MARK to estimate population abundances of burying beetles.<br></div><div><br></div><div>Between populations, ABBs are not specializing on either avian or mammalian carrion but are using both natural and provisioned carrion for reproduction. Furthermore, among co-occurring burying beetle species, we observed large niche overlap in both populations. Periods of sexual development and prehatching parental care were periods of elevated metabolic activity, which provides insight into life-history tradeoffs associated with resource quality. Carcass size did not significantly influence the metabolic rate of parents, however, the number of days needed to 13prepare a small carcass was significantly shorter compared to large carcass preservation. Furthermore, beetle pairs on larger carcasses accumulated significantly larger metabolic cost over the course of parental care. Additionally, using digital images of naturally occurring spot patterns on beetles’ elytra, we tested the feasibility and the application of photographic mark-recapture (PMR) using machine learning software. We demonstrated the utility of using PMR in estimating population abundance for Nicrophorusspp. based on elytral spot patterns. Future research is needed to fully quantify reproductive resource use over time, and how it influences ABB abundance in extant and reintroduced populations. For successful management and reintroduction of ABBs, managers must consider the resources used for reproduction, the composition and availability of appropriately sized potential reproductive carrion, they should limit intra-/interspecific competition for carrion resources and need accurate data on species abundance.<br></div><div><br></div><div><br></div> Ecology not elsewhere classified burying beetles stable isotopes ecology respirometry conservation
18	The evolution of behaviour : a genetic approach Parker, Darren J. January 2015 (has links) In this thesis I investigated the genetic basis of several behaviours to answer questions surrounding the evolution and mechanistic basis of behaviour. Firstly, I took a single-gene approach to investigate the influence of fruitless (fru) on the courtship behaviour of Drosophila. fru is an alternatively-spliced transcription factor that is necessary for the production of male sexual behaviours, and has also been implicated in producing species-specific differences in courtship song. I investigated the patterns of selection acting on fru at the sequence level and found that positive selection was restricted to the alternatively spliced exons of fru. From this I hypothesised that the positively selected changes in fru would contribute to species-specific differences in courtship song. To test this I examined how isoform-specific fru loss-of-function mutants influence courtship song, and generated “species-swapped” flies whereby regions of fru that showed evidence for positive selection were transferred from four species of Drosophila, into D. melanogaster. Contrary to prediction, I found flies that lacked isoforms containing positively selected regions did not show any differences in courtship song. Unfortunately “species-swapped” flies were not generated in time to examine phenotypes and neuroanatomy as intended. Next, I examined the genetic basis of cold acclimation in two species of Drosophila using a transcriptomic approach. I found that the genes differentially expressed in response to cold acclimation were largely different in each of the species; however, the biological processes they were involved in were broadly similar. Finally, I investigated the transcriptomic changes associated with parental care in the burying beetle Nicrophorus vespilloides to determine if males and females alter the genes they express when parenting alone versus with a partner. I found that males greatly reduced their transcriptional response when parenting with a partner, suggesting they reduce the care they provide when present with a female. 595.77
19	Changes in Life History within an Individual's Lifetime Billman, Eric J. 08 July 2011 (has links) (PDF) A central goal of life history theory is to understand the selective factors that generate the diversity of reproductive patterns observed in nature. Within lifetime changes in reproductive investment will determine an organism's fitness; however, this area of life history theory has received less attention than comparisons among population that characterize life history traits as a single population mean. Reproductive allocation can be affected by multiple cues; the integration of these cues across an organism's lifetime generates the diversity in life history strategies observed in nature. Life history studies should examine the interacting effects of multiple cues on life history strategies to generate better predictions and generalizations of age-related changes in reproductive investment. An individual's life history strategy is inherently multivariate consisting of a coordinated suite of life history traits that, when combined across the organism's lifetime, determines its fitness. Life history strategies can therefore be described as a trajectory through multivariate space defined by life history traits. Here I describe life history trajectory analysis, a multivariate analytical approach for quantifying and comparing phenotypic change in life history strategies; this methodology is adapted from an analytical framework originally described for studies of morphological evolution. Life history trajectories have attributes (magnitude, direction, and shape) that can be quantified and statistically compared among taxa to determine if life history patterns are predictable. Using the life history trajectory analysis, I demonstrate the effect of prior experience on reproductive allocation in the burying beetle Nicrophorus orbicollis. The effect of prior experience resulted in a terminal investment or accentuated response to age-based cues, or resulted in a conservative investment strategy or reproductive restraint. In the livebearing fish Gambusia affinis, females adjust the level of reproductive investment to current reproduction based on age- or environment-based cues. Age-0 females decreased the level of reproductive investment to current reproduction in late summer prior to the onset of fall and winter months. Old females, on the other hand, increased the level of reproductive investment as the summer progressed. The reproductive restraint and terminal investment patterns exhibited by age-0 and age-1 females, respectively, were consistent with the predictions from the cost of reproduction hypothesis. These studies demonstrate how the life history trajectory analysis provides an analytical tool to test predictions of life history theory. Additionally, I provide evidence that organisms use multiple cues to determine the level of reproductive investment and that the strength of the effect of each cue will depend on the age of an individual. life history evolution life history trajectory analysis cost of reproduction trade-offs terminal investment Poeciliidae burying beetle Biology
20	Sculpture et cinéma : emprunts et perméabilités dans le champ de l'art contemporain et du cinéma / Sculpture and cinema : borrowings and interrelationships in the field of contemporary art and cinema Honore, Thibault 16 January 2015 (has links) La rencontre entre le cinéma et les arts du volume relève d’un principe de perméabilité. Le travail des cinéastes, qui se sont essayés à l’installation, témoigne de phénomènes d’hybridations connexes. Si le cinéma gagne l’espace d’exposition, c’est pour y retrouver les données séculaires de sa monstration. Le septième art voit dans sa déterritorialisation vers l’objet d’art tridimensionnel, l’expression réaffectée de son histoire. Le déplacement du cinéma dans le champ des œuvres d’art en volume doit donc être interrogé selon un principe de survivance. En feignant d’amortaliser les êtres qu’il capture, le cinéma trouve dans la sculpture un moyen de présentifier la mort. Dans notre travail plastique, cette entreprise passe par un procédé formel reconnaissable : le renversement. De ce geste plastique, dont nous postulons qu’il est métonymique d’une forme d’enfouissement, naît l’idée que le cinéma et la sculpture s’inscrivent tous deux dans un régime funéraire de l’art. / The meeting of cinema and sculpture must be analyzed through a principle of interrelationships. The work of movie directors, who tried to realize sculptures and installations, proves similar phenomena of hybridization. When cinema leaves the theatre for an exhibition, it is also to find again, with the updating of new plastic forms, the secular data of its screening. With its transfer towards the sculpture the cinematographic art acquires the new expression of its personal history. Knowing this, the movement of cinema towards sculpture must also be questioned in the light of a principle of survival. By pretending to a-mortalize the beings that it shoots, the cinema find in sculpture a means to nurture its macabre labour. Besides, this display of death undergoes a very identifiable formal process : the inversion. We may then identify this plastic gesture with the metonymical figure of a burying. Thus, both cinema and sculpture seem to join in a funeral system of art. Cinéma Sculpture Installation Exposition Corps Mémoire Enfouissement Renversement Empreinte Mort Survivance Cinema Sculpture Installation Exhibition Body Memory Burying Inversion Footprint Death Survival 735.23 735.24 791.4

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