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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.
1

The genetics of sexually dimorphic traits implicated in sexual isolation in Drosophila: QTLs and candidate genes /

James, Robert Andrew. January 2008 (has links)
Thesis (Ph.D.) - University of St Andrews, August 2008.
2

Natural history and sexual dimorphism of the Eastern hellbender, Cryptobranchus A. Alleganiensis

Makowsky, Robert. January 2004 (has links)
Thesis (M.S.)--Marshall University, 2004. / Title from document title page. Document formatted into pages; contains viii, 72 p. including illustrations. Includes abstract. Includes bibliographical references (p. 33-37).
3

Sexual size dimorphism in great-tailed grackles; the costs of sons and daughters.

Teather, Kevin L., Carleton University. Dissertation. Biology. January 1988 (has links)
Thesis (Ph. D.)--Carleton University, 1988. / Also available in electronic format on the Internet.
4

The Landdroskop area in the Hottentots Holland Mountains as a refugium for melanistic lizard species : an analysis for conservation /

Costandius, Eloise. January 2005 (has links)
Thesis (MSc)--University of Stellenbosch, 2005. / Bibliography. Also available via the Internet.
5

Assessment of Sexual Dimorphism on the First and Second Ribs: Exploring Geometric Morphometrics

Unknown Date (has links)
Estimating the sex of unknown human skeletal remains is important to the fields of forensic anthropology, bioarchaeology, and other specialties. I studied sexual dimorphism on the first and second ribs to estimate sex from skeletal remains. I employed two approaches. I used geometric morphometrics to analyze landmark and semilandmark coordinate points to examine the overall shape of the ribs. I also examined the sternal end of the ribs for size using the superior-inferior height (SIH) and anteriorposterior breadth (APB) in a binary logistic regression (BLR) model. Differences in male and female first and second ribs are undetectable when landmark coordinate points are used to capture shape variability, but significant differences in the shape of the ribs, however, are detected through the use of semilandmark coordinate points. Using semilandmark points to estimate sex presented an accuracy rate of 80.7% from the first rib, and 72.9% from the second rib. The use of the sternal end presents consistent results in its ability to estimate sex with an accuracy rate of 84.2%. The BLR model reveals significant differences between males and females than the geometric morphometric approach; it is more applicable for discerning sexual dimorphism of unknown individuals. This study reveals that while geometric morphometrics provides a powerful approach to assessing morphological differences, it is not always better than simpler methods, in this case, simple measurements analyzed through BLR. / Includes bibliography. / Thesis (M.A.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection
6

Variation in female reproductive success in amphibians

Dyal, Leslie A. 08 April 2005 (has links)
My dissertation focuses on the factors that influence variation in female reproductive success in plethodontid salamanders and in toads. Variation in reproductive success fuels evolutionary change. Although, females often have been overlooked in studies of reproductive success due to perceived lower levels of variation when compared to variation in male reproductive success, understanding factors influencing variation in female reproductive success is critical for several reasons. First, female reproduction is usually the limiting factor on population growth. Second, the factors affecting female reproduction provide the impetus for current and evolving patterns of sexual dimorphism. Lastly, male reproductive success inevitably is determined by the reproductive success of the females with which they mate. Recent theoretical developments of sexual conflict have contributed significantly to a renewed emphasis on studies of female reproductive success. Sexual conflict theory elucidates important factors, from the perspective of females, affecting female behavior and reproductive success. Sexual conflict assumes that a female will benefit, in terms of reproductive success and offspring viability, when she is able to freely choose among males, unconstrained by social and environmental factors. Female choice would be constrained if a non-preferred male (i.e., one that would be rejected by a freely choosing female) coerced a female to mate in order to increase his own mating success. The dynamics between discriminating females and non-preferred males will lead to a coevolutionary "arms race", referred to as sexual conflict. From this perspective, secondary male traits may not reflect their intrinsic quality, but rather their ability to manipulate or coerce female mating decisions. The current debate lies in the importance and pervasiveness of sexual conflict. To address the current view of sexual conflict, I investigated whether sexual conflict plays a role in the mating systems of amphibians. In particular, my results support the main assumption that females benefit from freely expressed female mate choice in toads. In addition, I explored the potential influence of sexual conflict in plethodontid salamanders. During mating trials, I documented novel female courtship behaviors. I also examined the effects of male courtship pheromones on female reproductive success to assess the potential role of male pheromones in sexual conflict. My results suggest that sexual conflict also may be an important factor in plethodontid mating systems. My investigations of sexual conflict theory have provided new insights and novel predictions for understanding sexual selection and sexual dimorphism. / Graduation date: 2005
7

Energy utilization by adult females of a hover fly Eupeodes Corollae (Fab.) (Diptera: Syrphidae); the effect of female size and reproductive state.

Charron, Louise M. H. (Louise Marie Helene), Carleton University. Dissertation. Biology. January 1988 (has links)
Thesis (M. Sc.)--Carleton University, 1988. / Also available in electronic format on the Internet.
8

Sexual size dimorphism and selection in the waterstrider Aquarius remigis

Preziosi, Richard F. January 1997 (has links)
No description available.
9

Sexual dimorphism in prolactin secretory patterns and their regulation by estradiol in adult sheep

Paquette, Julie January 1993 (has links)
We investigated possible sex differences in PRL secretory patterns and regulation by E$ sb2$ in gonadectomized Dorset x Leicester x Suffolk sheep kept under natural photoperiod (latitude 45$ sp circ 31 sp prime$). Patterns were assessed over 14 months in groups of 10 rams and ewes, half of which received E$ sb2$ replacement (Silastic implants) at the time of gonadectomy to maintain blood E$ sb2$ at ram breeding-season values. Mean monthly PRL level (based on two 3-h periods of blood sampling) was consistently elevated by E$ sb2$ in the ram (mean 19%), and during all but a few months in the spring and summer in the ewes (mean 90%). Sex differences in the mean PRL were most apparent for the E$ sb2$-treated sheep in August (rams 280 $ pm$ 54 ng/ml vs ewes 128 $ pm$ 18 ng/ml) and for the control sheep in November (rams 19 $ pm$ 5 ng/ml vs ewes 10 $ pm$ 2 ng/ml). Episodic PRL secretion (with 5-min sampling for 4 h) was assessed in every season. In all four groups, pulse amplitude and frequency and basal level were higher in summer than winter. E$ sb2$ treatment was associated with larger PRL pulses in both sexes in every season but summer, and with decreased (from 8.2 to 4.6 per 4 h) and increased (from 2.2 to 6.6 per 4 h) frequencies of pulses in rams in the spring and summer, respectively. The PRL response to TRH (two iv injections 50 ng/kg BW given 80 min apart) was also assessed in every season. Mean 40-min increases after injection were highest in spring and summer. E$ sb2$ treatment produced in both sexes a 2-3 fold larger increment 1 in every season, and increment 2 in specific seasons. Preinjection and increment values were positively correlated within animals of each group across seasons (r = 0.89 and 0.65). The Incr 2/lncr 1 ratio (mean 0.76 $ pm$ 0.10) was not affected by seasons or E$ sb2$, and did not denote a self priming effect of TRH. Diurnal patterns indicated that PRL mean levels during light and dark phases were not different from each other within
10

Sexual size dimorphism and selection in the waterstrider Aquarius remigis

Preziosi, Richard F. January 1997 (has links)
Sexual size dimorphism (SSD), or the difference in body size between males and females, is common in almost all taxa of animals and is usually assumed to be adaptive. Darwin's two main mechanisms for the evolution of SSD, sexual selection for larger males and fecundity selection for larger females, have often been demonstrated. However, males and females frequently share both genes and environment and more recent papers have noted that males and females must experience differences in lifetime selection on body size for SSD to be maintained. Over two generations I examined lifetime selection acting on adult body size (total length) in a common insect where females are larger than males, the waterstrider Aquarius remigis. Both fecundity selection for larger females and sexual selection for larger males are occurring in this species and both selective forces appear to target specific components of body size rather than total length; sexual selection targeting male genital length and fecundity selection targeting female abdomen length. While body size did not appear to influence adult prereproductive survival, longevity during the reproductive season was negatively related to body size for both sexes. When the opposing selection of reproductive success and reproductive longevity are combined, both males and females have an intermediate optimum body size. A remarkable result of this stabilizing selection was that the optimum size of males was smaller than that of females. I also examined the repeatability of reproductive success in both sexes and the trade-off between egg size and egg number. Finally, estimates of the quantitative genetic basis of the traits examined indicate that both male and female body size, and components of body size, are heritable and can respond to the selection detected. Components of body size in A. remigis are variable in both the degree and direction of sexual dimorphism and the genetic analysis indicates partial isolation of dimorphic and

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