ASU Electronic Theses and Dissertations
This collection includes most of the ASU Theses and Dissertations from 2011 to present. ASU Theses and Dissertations are available in downloadable PDF format; however, a small percentage of items are under embargo. Information about the dissertations/theses includes degree information, committee members, an abstract, supporting data or media.
In addition to the electronic theses found in the ASU Digital Repository, ASU Theses and Dissertations can be found in the ASU Library Catalog.
Dissertations and Theses granted by Arizona State University are archived and made available through a joint effort of the ASU Graduate College and the ASU Libraries. For more information or questions about this collection contact or visit the Digital Repository ETD Library Guide or contact the ASU Graduate College at gradformat@asu.edu.
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- Creators: Chawla, Nikhilesh
- Creators: McGraw, Kevin J
Description
Weevils are among the most diverse and evolutionarily successful animal lineages on Earth. Their success is driven in part by a structure called the rostrum, which gives weevil heads a characteristic "snout-like" appearance. Nut weevils in the genus Curculio use the rostrum to drill holes into developing fruits and nuts, wherein they deposit their eggs. During oviposition this exceedingly slender structure is bent into a straightened configuration - in some species up to 90° - but does not suffer any damage during this process. The performance of the snout is explained in terms of cuticle biomechanics and rostral curvature, as presented in a series of four interconnected studies. First, a micromechanical constitutive model of the cuticle is defined to predict and reconstruct the mechanical behavior of each region in the exoskeleton. Second, the effect of increased endocuticle thickness on the stiffness and fracture strength of the rostrum is assessed using force-controlled tensile testing. In the third chapter, these studies are integrated into finite element models of the snout, demonstrating that the Curculio rostrum is only able to withstand repeated, extreme bending because of
modifications to the composite structure of the cuticle in the rostral apex. Finally, interspecific differences in the differential geometry of the snout are characterized to elucidate the role of biomechanical constraint in the evolution of rostral morphology for both males and females. Together these studies highlight the significance of cuticle biomechanics - heretofore unconsidered by others - as a source of constraint on the evolution of the rostrum and the mechanobiology of the genus Curculio.
modifications to the composite structure of the cuticle in the rostral apex. Finally, interspecific differences in the differential geometry of the snout are characterized to elucidate the role of biomechanical constraint in the evolution of rostral morphology for both males and females. Together these studies highlight the significance of cuticle biomechanics - heretofore unconsidered by others - as a source of constraint on the evolution of the rostrum and the mechanobiology of the genus Curculio.
ContributorsJansen, Michael Andrew (Author) / Franz, Nico M (Thesis advisor) / Chawla, Nikhilesh (Committee member) / Harrison, Jon (Committee member) / Martins, Emilia (Committee member) / Arizona State University (Publisher)
Created2009
Description
Organisms regularly face the challenge of having to accumulate and allocate limited resources toward life-history traits. However, direct quantification of how resources are accumulated and allocated is rare. Carotenoids are among the best systems for investigating resource allocation, because they are diet-derived and multi-functional. Birds have been studied extensively with regard to carotenoid allocation towards life-history traits, but direct quantification of variation in carotenoid distribution on a whole-organism scale has yet to be done. Additionally, while we know that scavenger receptor B1 (SCARB1) is important for carotenoid absorption in birds, little is known about the factors that predict how SCARB1 is expressed in wild populations. For my dissertation, I first reviewed challenges associated with statistically analyzing tissue distributions of nutrients (nutrient profiles) and tested how tissue carotenoid distributions (carotenoid profiles) varied by sex, season, health state, and coloration in two bird species, house finches (Haemorhous mexicanus) and zebra finches (Taeniopygia guttata). Then, I investigated the relationship between dietary carotenoid availability, relative expression of SCARB1, and extent of carotenoid-based coloration in a comparative study of wood-warblers (Parulidae). In my review of studies analyzing nutrient profiles, I found that multivariate analyses were the most common, but studies rarely reported intercorrelations among nutrient types. In house finches, all tissue carotenoid profiles varied by sex, season, and coloration. For example, males during autumn (molt) had higher concentrations of 3-hydroxyechinenone (the major red carotenoid in sexually attractive male feathers) in most but not all tissues compared to other season and sex combinations. However, the relationship between color and carotenoid profiles depended on the color metric. In zebra finches, only muscle and spleen carotenoid profiles varied between immune-challenged and control birds. In wood-warblers, I found that capacity to absorb carotenoids was positively correlated with the evolution of carotenoid-based coloration but negatively associated with liver carotenoid accumulation. Altogether, my dissertation illustrates (a) the context-dependence of tissue carotenoid profile variation, (b) that carotenoid-based integumentary coloration is a reflection of tissue carotenoid profiles, and (c) that digestive physiology (e.g., carotenoid absorption) is an important consideration in the study of diet and coloration in wild birds.
ContributorsWebb, Emily (Author) / McGraw, Kevin J (Thesis advisor) / Deviche, Pierre (Committee member) / Martins, Emilia (Committee member) / Sweazea, Karen (Committee member) / Arizona State University (Publisher)
Created2021