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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Reproductive decisions in monogamous birds

Jones, Katherine M. G. January 2001 (has links)
No description available.
12

The Panglossian Paradigm revisited : The role of non adaptive mechanisms in hominid brain and body size evolution

Spocter, Muhammad Aadil 21 January 2009 (has links)
The largely dominant adaptationist argument is currently used as the framework within which hominid brain evolution is explained; however these adaptationist explanations are inherently problematic and only suffice to ‘clutter’ our knowledge of the possible causes of hominid brain evolution. This study addresses the caveats observed in the fossil record and aims to assess the relative influence of structural laws of form, phylogenetic constraints, and adaptive factors during the course of primate and hominid brain evolution. A combination of methods such as variance partitioning, phylogenetic regression procedures and path analysis indicate that constraints have played a critical role in the scaling attributes of the primate and hominid brain. In particular, developmental constraints governing the scaling attributes of the skull and body are shown to explain up to 50 % of the variation in body mass whereas phylogenetic constraints are purported to have played a lesser role (i.e. 0.8 -3.6 %). In addition, the scaling attributes of neural and non-neural components of the cranial vault suggest a highly constrained suite of traits and suggest that as much as 96 % of the variation in both brain mass and residual endocranial space may be explained by correlated scaling with the cranial vault. Constraints are observed to be far more pliable than traditionally thought – a feature highlighted by intraspecific analyses of scaling attributes in humans. Low regression coefficients typical reported for intraspecific curves are shown to arise during development as greater variation in body parameters is allowed with advancing age. Grade shifts in the scaling of brain and body size for primates and other mammalian orders is also emphasised by this current study and it is argued that correlated changes between the brain and body size may not necessarily impact upon the ‘complexity’ of the neural system as the functional integrity may be maintained via higher output states initiated at certain levels of organisation such as at the level of the cortical area. Although constraints should rightfully be given greater coverage in explanations concerning hominid brain expansion, it is only through implementation of research protocols that take a pluralistic approach to an understanding of the role of both constraints and adaptation in the formation of the brain that our interpretation of the likely mechanism for hominid brain expansion may be understood.
13

The evolution of pneumaticity in Sauropodomorpha and its correlation to body size

Apostolaki, Naomi January 2018 (has links)
The superfamily Sauropodomorpha comprised some of the largest terrestrial herbivorous vertebrates that have ever walked on this planet. The study of these fascinating beings has been at the forefront of palaeontological research throughout the years. Especially in the last 20 years, due to the advent of modern techniques and technologies, significant steps have been made towards our understanding of their physiology. One of the sauropodomorphs’ central morphological characteristics is the expression of postcranial skeletal pneumaticity (PSP), a condition that is also expressed in the other superfamily of the order Saurischia, the Theropoda, as well as in their extant relatives, the Avians. This condition remodels the vertebrae and, occasionally the girdles and appendicular elements, producing perforations, depressions, excavations, cavities and internal chambers. This is a result of bone invasion and resorption from the development of the lung-air sac diverticula of the respiratory system. The various forms of this expression have been addressed across all subfamilies of sauropodomorphs mostly from an evolutionary aspect and, recently, from a developmental scope too. The resulting hypotheses state that PSP may have acted as a mechanism for weight reduction, allowing for sauropods to attain large sizes without having to suffer analogous gravitational constraints from equally attained masses. Any possible associations, though, between the expression of pneumaticity and body size have not been put under test. Through this study, a method of quantification and categorisation of PSP, and therefore, classification of the sauropodomorphs which express it, is created from the data retrieved from 61 taxa across all subfamilies, permitting us not only to trace any correlation between PSP and metric size data (body mass and body length) but also to visualise the evolution of PSP throughout Sauropodomorpha. This classification scheme from highest to lowest expression of PSP, ‘Alpha’, ‘Beta’, ‘Gamma’, ‘Delta’, and ‘Epsilon’ stems from the numerical estimate of pneumaticity in terms of a percentage, called the Pneumaticity Degree Index (PDI%). The revised scheme, Pneumaticity Degree Index (PDI%), takes account of the number of vertebral elements that are pneumatized in a single vertebra, the nature of pneumaticity traits, as well as the intensity of pneumatization in different body regions of interest (e.g. vertebral column), resulting in an integral and comprehensive measure of PSP. The proposed method ranks each pneumaticity trait with a value from 1 to 5 with 1 (100%) representing the most invasive unambiguous trait (e.g. camellae) and 5 (~ 10%) the least invasive and most ambiguous trait (i.e. fossa). By adding and dividing by their number all of the observed traits of every available vertebra of a region we retrieve a decimal numeric outcome and this outcome is translated to a percentage. The total average pneumatization of any taxon is calculated by retrieving the total average of the pneumaticity from all available body regions. In this study, only vertebral and pelvic elements were used for the retrieval of pneumaticity data since they are the most frequently exhibiting pneumatic traits in comparison to pectoral and appendicular elements. Results show that the total average PDI% range of basal Sauropodomorpha is 0%-59%, of the non-neosauropod Eusauropoda is 23%-90%, of Diplodocoidea is 45%-73%, of Macronaria is 45%-92% and of Somphospondyli is 46%-94%. The most pneumatized vertebral landmarks are the centrum, neural arch and neural spine. The vertebral regions most commonly pneumatized are the cervicals and dorsals. No genus or subfamily of sauropodomorphs ever reaches 100% pneumatization in all vertebral regions. Furthermore, PSP is not always positively correlated with mass, rather its expression is mostly correlated with length. Taxa with low or high masses may exhibit either low or high PDI’s. In addition, increasing progression of the extent and expression of PSP occurs mostly on a subfamilial level and less throughout the entire lineage. Finally, modelling calculations result in an Ornstein-Ulenbeck with an early burst progress of the expression of pneumatisation in sauropodomorphs. After that, the expression proceeds relatively steadily throughout the entire superfamily. The biotic causes of PSP are still unclear, as it could be an artefact of inheritance and genetic drift throughout speciation events. The pneumatization degree index (PDI%) is a means of quantifying and categorising pneumatization in any archosaurian taxon that is faster and cheaper, though less accurate, than CT scanning. It is more precise than the Pneumaticity Index since it integrates a wider selection of the qualities and osteological characteristics of pneumaticity we want to measure, provided that the bone under study is at least 50% free of matrix.
14

Evolution of body size and sexual size dimorphism in the order primates: Rensch's rule, quantitative genetics, and phylogenetic effects

Gordon, Adam Duffy 28 August 2008 (has links)
Not available / text
15

The female body in women's writing : from Sylvia Plath to Margaret Atwood

Brain, Tracy Eileen January 1992 (has links)
No description available.
16

Perceptions of the size, shape and attractiveness of female body scans relative to body mass index

Farinah, Shiara, Connell, Lenda Jo. Ulrich, Pamela V. January 2005 (has links) (PDF)
Thesis(M.S.)--Auburn University, 2005. / Abstract. Vita. Includes bibliographic references (p.81-90).
17

Evaluation of nurses' perceptions of patients' weight status in relation to their own Body Mass Index (BMI)

Klink, Tammy. January 2005 (has links) (PDF)
Thesis, PlanB (M.S.)--University of Wisconsin--Stout, 2005. / Includes bibliographical references.
18

Ghrelin reflects changes in body size, not energy availability /

Boyle, Kristen E. January 2005 (has links)
Thesis (M.S.)--Ohio University, June, 2005. / Includes bibliographical references (p. 88-96)
19

Body size awareness, stereotypes, friendship selection, and self-preferences of 3 to 5 year-old children

May-Fraser, Lena Jo. January 2009 (has links) (PDF)
Thesis (MS)--Montana State University--Bozeman, 2009. / Typescript. Chairperson, Graduate Committee: Wesley Lynch. Includes bibliographical references (leaves 48-53).
20

Ghrelin reflects changes in body size, not energy availability

Boyle, Kristen E. January 2005 (has links)
Thesis (M.S.)--Ohio University, June, 2005. / Title from PDF t.p. Includes bibliographical references (p. 88-96)

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