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Postcranial Morphology and the Locomotor Adaptations of Extant and Extinct Crocodylomorphs and LepidosaursRooney, Laura 01 May 2018 (has links)
I have collected a series of linear measurements of the postcranial skeletons of 43 extant crocodylian and lepidosaur taxa to determine if those engaging in similar locomotor behavior display similar morphology despite phylogenetic differences. Stepwise discriminant function analyses reveal reptile locomotor mode can be accurately predicted (over 80% correct) based on morphology. Semi-aquatic taxa are distinguished by a longer ischium relative to pubis length, a longer scapula relative to humerus length, and a broader acetabulum than terrestrial and arboreal taxa. Arboreal taxa display a more elongate, gracile humerus and a smaller acetabulum. This morphometric data can potentially be used to predict the locomotor behavior of a wide range of extinct reptile taxa. Within this study, Hyposaurus rogersii, Necrosuchus ionensis, Alligator sp. of the Gray Fossil Site, Crocodylus affinis, and Allognathosuchus mooki were examined and all were inferred to be semi-aquatic by the discriminant function analysis.
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Non-invasive assessment of adrenocortical function in captive Nile crocodiles (Crocodylus niloticus) and its relation to housing conditionsGanswindt, Stefanie Birgit 30 May 2013 (has links)
The Nile crocodile (Crocodylus niloticus) is one of 23 extant crocodilian species, and has been farmed in southern Africa since the 1960s. For the crocodile industry, chronic stress and its often negative consequences are a concern, since stressors can negatively affect animal production as well as the health of the crocodiles. When confronted with a stressor, an individual displays a stress response consisting of a suite of physiological and behavioral alterations to cope with the challenge. So far, however, no method for determining stress-related responses in Nile crocodiles has been established. In other crocodilians, the assessment of physiological responses to stress, like the related alterations in glucocorticoid concentrations, has already been done, but only by using an invasive approach, with the disadvantage of a possible handling-induced stress response. By establishing a non-invasive technique to monitor glucocorticoid levels in captive Nile crocodiles based on faecal hormone analysis, this study not only made an important contribution to a better understanding of stress and related hormonal changes in Nile crocodiles, but also provided a solid basis for developing similar non-invasive tools to collect information on the level of stress experienced by other crocodilians. Specifically the study aimed 1) to assess adrenocortical activity in Nile crocodiles by measuring faecal glucocorticoid metabolite (FGM) concentrations, and 2) to characterise changes in FGM levels in captive Nile crocodiles in relation to different housing conditions. An adrenocorticotropic hormone (ACTH) challenge was performed on 10 sub-adult crocodiles at Le Croc crocodile farm, South Africa, resulting in serum corticosterone levels of up to ~1200 %, 1 - 5 hours post-injection, above the pre-injection levels. An additional 8 individuals were exposed to electric immobilisation and handling only (control group), which resulted in a 20 – 2700 % elevation in serum corticosterone concentrations, indicating that handling was already a sufficient stressor. FGM levels in 3 singly housed animals (2 ACTH challenge; 1 handling only) reached peaks of 136 – 380 % above pre-injection levels at about 7 to 15 days following treatment, demonstrating that non-invasive hormone monitoring can be used for assessing adrenocortical function in captive Nile crocodiles based on FGM analysis. By assessing the impact of group size (n = 1, 2, or 4 individuals) on FGM levels, highest mean hormone values were found in the paired animals. A possible explanation for this finding could be that the necessary re-grouping for the study resulted in an unstable group composition, especially for the paired animals of similar size, which is reflected in comparable higher FGM concentrations. However, future research would be necessary to investigate this potential relationship in more detail. My study created opportunities to improve the management and welfare of farmed crocodiles in terms of more appropriate housing conditions and husbandry for these animals. Finally, the now established non-invasive method for monitoring adrenocortical function in Nile crocodiles provides a solid basis for further studies focusing on monitoring factors influencing adrenocortical function in populations of Nile crocodiles in the wild. / Dissertation (MSc)--University of Pretoria, 2012. / Paraclinical Sciences / unrestricted
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EVOLUTION AND FUNCTION OF THE JAW MUSCULATURE AND ADDUCTOR CHAMBER OF ARCHOSAURS (CROCODILIANS, DINOSAURS, AND BIRDS)Holliday, Casey M. 12 September 2006 (has links)
No description available.
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The Evolution of Cranial Pneumaticity in Archosauria: Patterns of Paratympanic Sinus DevelopmentDufeau, David L. 03 October 2011 (has links)
No description available.
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The functional anatomy of the crocodilian heartKarlsson, Jennifer January 2023 (has links)
Crocodiles are ectothermic, intermittent breathing reptiles with low metabolic rates. Additionally, they are diving animals that can stay submerged for long periods, which poses special demands on their cardiovascular system. The crocodilian heart is four-chambered with completely separated ventricles, making it unique among other reptiles. It has special anatomical structures that give it the capability to shunt blood away from the lungs, which results in mixing of deoxygenated and oxygenated blood. The purpose of this study was to morphologically describe the heart and review its functions and the significance of its circulatory patterns. Dissection of two crocodilian hearts was performed for morphological characterization of the heart, including the special features that contribute to the shunting: the left aorta, the foramen of Panizza and the cog-teeth-like valves. Obstruction of the pulmonary outflow tract by the cog-teeth-like valves decreases pulmonary blood flow and generates an increased right ventricular pressure, diverting venous blood into the ‘extra’ left aorta and the systemic circulation. Thus, during shunting conditions, venous blood from the left aorta and arterial blood from the right aorta is mixed. The functional significance of this shunting pattern has been extensively discussed and several hypotheses have been proposed. A recent study showed that the absence of the right-to-left shunt does not affect the diving physiology of crocodiles negatively, but it did result in cardiac hypertrophy, indicating that the shunt might have a significance for the circulation and physiology of extant crocodiles.
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