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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

Spectral Sensitivity Underlying Two Different Visual Behaviors in the Fiddler Crab, Uca Pugilator

Didion, Jeremiah E. 18 October 2019 (has links)
No description available.
2

Life-skills training for juvenile lake sturgeon (Acipenser fulvescens)

2015 January 1900 (has links)
Hatchery supplementation of declining fish populations is used for increasing year-class strength, particularly when fish are released with knowledge of local predators. The ability of young-of-the-year lake sturgeon (Acipenser fulvescens) to avoid predation, as well as their vulnerability to predation, remains undocumented. The objective of my thesis was to determine: 1) whether hatchery-reared, predator-naive juvenile sturgeon would respond to alarm cues from injured conspecific cues, a reliable indicator of predation risk in other fishes; and 2) if sturgeon would learn to identify unknown predators through a Pavlovian-like conditioning with conspecific alarm cues. Releaser-induced recognition learning is a variant of Pavlovian learning in which recognition of a previously neutral stimulus is acquired through the experience of pairing a behaviourally active releasing stimulus and a novel stimulus. Sturgeon were initially conditioned using a behaviourally active stimulus of sturgeon alarm cue, paired with a behaviourally neutral stimulus of novel northern pike (Esox lucius) odour, or were pseudo-conditioned with distilled water paired with pike odour. Following conditioning, sturgeon were tested for recognition of the predator odour 24 hours later. The first population of fish (Rainy River) showed a dramatic antipredator response to alarm cues from the skin of conspecifics, but failed to exhibit learning of a novel predator through conditioning with alarm cues obtained from the skin of conspecifics. However, when Rainy River fish were conditioned with alarm cues from the whole body of conspecifics, they showed strong learning of the predator. Conditioning Wolf River fish to recognize predators with whole body extract had no effect on response to predator odours. However, when the fish were conditioned multiple times there was evidence of predator learning. These results highlight potential opportunities and limitation to life-skill training of artificially reared sturgeon for future conservation initiatives.
3

Neural Orchestration of the C. elegans Escape Response: A Dissertation

Clark, Christopher M. 24 October 2014 (has links)
How does a nervous system orchestrate compound behaviors? Finding the neural basis of behavior requires knowing which neurons control the behavior and how they are connected. To accomplish this we measured and manipulated neural activity in a live, behaving animal with a completely defined connectome. The C. elegans escape response is a compound behavior consisting of a sequence of behavioral motifs. Gentle touch induces a reversal and suppression of head movements, followed by a deep turn allowing the animal to navigate away from the stimulus. The connectome provides a framework for the neural circuit that controls this behavior. We used optical physiology to determine the activity patterns of individual neurons during the behavior. Calcium imaging of locomotion interneurons and motor neurons reveal unique activity profiles during different motifs of the escape response. Furthermore, we used optogenetics and laser ablations to determine the contribution of individual neurons to each motif. We show these that the suppression of head movements and turning motifs are distinct motor programs and can be uncoupled from the reversal. The molecular mechanisms that regulate these motifs involve from signaling with the neurotransmitter tyramine. Tyramine signaling and gap junctions between locomotion interneurons and motor neurons regulate the temporal orchestration of the turning motif with the reversal. Additionally, tyramine signaling through a GPCR in GABAergic neurons facilitates the asymmetric turning during forward viii locomotion. The combination of optical tools and genetics allows us to dissect a how a neural circuit converts sensory information into a compound behavior.
4

Tyraminergic G Protein-Coupled Receptors Modulate Locomotion and Navigational Behavior In C. Elegans: A Dissertation

Donnelly, Jamie L. 04 August 2011 (has links)
An animal’s ability to navigate through its natural environment is critical to its survival. Navigation can be slow and methodical such as an annual migration, or purely reactive such as an escape response. How sensory input is translated into a fast behavioral output to execute goal oriented locomotion remains elusive. In this dissertation, I aimed to investigate escape response behavior in the nematode C. elegans. It has been shown that the biogenic amine tyramine is essential for the escape response. A tyramine-gated chloride channel, LGC-55, has been revealed to modulate suppression of head oscillations and reversal behavior in response to touch. Here, I discovered key modulators of the tyraminergic signaling pathway through forward and reverse genetic screens using exogenous tyramine drug plates. ser-2, a tyramine activated G protein-coupled receptor mutant, was partially resistant to the paralytic effects of exogenous tyramine on body movements, indicating a role in locomotion behavior. Further analysis revealed that ser-2 is asymmetrically expressed in the VD GABAergic motor neurons, and that SER-2 inhibits neurotransmitter release along the ventral nerve cord. Although overall locomotion was normal in ser-2 mutants, they failed to execute omega turns by fully contracting the ventral musculature. Omega turns allow the animal to reverse and completely change directions away from a predator during the escape response. Furthermore, my studies developed an assay to investigate instantaneous velocity changes during the escape response using machine based vision. We sought to determine how an animal accelerates in response to a mechanical stimulus, and subsequently decelerates to a basal locomotion rate. Mutant analysis using this assay revealed roles for both dopamine and tyramine signaling. During my doctoral work, I have further established the importance for tyramine in the nematode, as I have demonstrated two additional roles for tyramine in modulating escape response behavior in C. elegans.
5

Effets physiologiques de l’infection parasitaire chez le crapet-soleil (Lepomis gibbosus)

Guitard, Joëlle 12 1900 (has links)
Les facteurs de stress biotiques, tels que les parasites, peuvent affecter le fitness d’un animal en modifiant le comportement et la physiologie de l’hôte. Puisque les parasites sont omniprésents et ont des impacts importants sur les communautés écologiques, il importe de comprendre comment et dans quelle mesure ils modifient la vie de leurs hôtes. Ainsi, l’étude de la capacité de performance d’un hôte parasité par le biais de la physiologie et du comportement pourrait fournir une compréhension plus mécanistique des changements phénotypiques de l'hôte pendant l'infection. Nous avons utilisé des crapets-soleil (Lepomis gibbosus) infectés par des trématodes et cestodes comme système modèle pour étudier les effets des endoparasites sur les traits métaboliques et le comportement de fuite de l'hôte. Les traits de performance métaboliques aérobiques (taux métabolique standard et maximal, capacité aérobique) et de performance de fuite (réactivité et temps de réponse à une attaque aérienne simulée) ont été mesurés chez les poissons à travers un gradient d'infection visible (c.-à-d. la prévalence de points noirs sur les poissons) et d’infection non-visible (c.-à-d. causée par des endoparasites, cestodes et trématodes, non-apparents mais quantifiés post-mortem) à l'aide de respiromètres et d'arènes comportementales. Nous avons démontré que la charge parasitaire influence les performances physiologiques et comportementales des crapets-soleil. Nous avons observé une diminution significative des taux métaboliques standard et maximal le long d’un gradient d'infection par des endoparasites non-visibles, mais pas pour une infection visible de type point noir. L'intensité de l'infection par les endoparasites non-visibles était également liée à une diminution de la réponse à une attaque aérienne simulée. Nos résultats suggèrent que l'incorporation de l'infection parasitaire dans les études écologiques, physiologiques et comportementales s’avère essentielle pour identifier et comprendre les causes de la variation des caractères intraspécifiques au sein des populations sauvages. / Biotic stressors, such as parasites, can affect an animal’s fitness through changes to their host’s behaviour and physiology. Since parasites are ubiquitous and have significant impacts on ecological communities, it is important to understand how and to what extent they alter the lives of their hosts. Thus, studying how host performance capacity is affected by parasites through physiology and behaviour could provide a more mechanistic understanding of host phenotypic changes during infection. We used pumpkinseed sunfish, Lepomis gibbosus, infected with endoparasites, including trematodes (the causal agent of black spot disease), as a model system to study the effects of infection on host aerobic metabolic performance and escape behaviour. Aerobic metabolic performance traits (standard and maximum metabolic rate, aerobic scope) and escape response performance traits (responsiveness and response latency to a simulated aerial attack) were measured in fish from across a gradient of visible endoparasite infection (i.e. trematodes causing black spot disease) and non-visible infection (i.e. internal cestodes and trematodes quantified post-mortem) using custom-built respirometers and behavioural arenas. Here, we demonstrate that parasite load is related to the physiological and behavioral performances of wild caught pumpkinseed sunfish. We find a significant decrease in standard metabolic rate and maximal metabolic rate along the gradient of non-visible endoparasite infection but not for visible infection with black spot. Non-visible endoparasite infection intensity was also related to decreased responsiveness to a simulated aerial attack. Our results provide further confirmation that incorporating parasite infection in ecological, physiological and behavioural studies is critical for understanding the causes of intraspecific trait variation in wild animal populations.
6

Behavioural ecology of foraging and predator avoidance trade-offs in Lake Sturgeon (Acipenser fulvescens)

2014 April 1900 (has links)
I investigated Lake Sturgeon (Acipenser fulvescens) foraging and anti-predator behaviour. My goals were to understand: (1) The role of environmental change on foraging and anti-predator behaviour trade-offs. (2) The relative cost/benefit trade-off between escape behaviour and cover-seeking behaviour. (3) How development of several independent morphological traits affects anti-predator behaviours. I used simulated river mesocosms to study Lake Sturgeon behavioural ecology under controlled conditions. I found: (1) Foraging intensity was significantly higher during the night than the day as well as in turbid environments versus clear environments, indicating that decreased turbidity alone, may in part drive anti-predator behaviour and constrain foraging activity. (2) In high-risk clear-water environments, Lake Sturgeon responded to danger by evoking an escape response and seeking cover in rocky microhabitats. However, in low-risk turbid environments, Lake Sturgeon responded to danger by seeking cover in rocky microhabitats, but not fleeing to a significant degree. Cover-seeking behaviour may therefore be a relatively low-cost/high-benefit anti-predator strategy. (3) Strong evidence for trait co-dependence between escape responses and body size, where larger fish were able to elicit stronger escape responses. I also found that cover-seeking behaviour exhibited a complex multi-tiered relationship, representing a mixture of trait compensation and trait co-specialization that is dependent on specific combinations of morphological traits. These findings are important because they help us understand: (1) The degree to which anti-predator behaviour can be influenced by changing environmental conditions. (2) The relative cost/benefit trade-off between two common anti-predator behaviours. (3) How behaviour and morphology interact in species with a complex anti-predator phenotype.
7

Intégrité fonctionnelle chez le poisson zèbre, Danio rerio, exposé à des concentrations sublétales d’hydrocarbures aromatiques polycycliques / Functionnal integrity in zebrafish Danio rerio exposed to sub-lethales concentrations of polycyclic aromatic hydrocarbons (PAHs)

Lucas, Julie 19 December 2013 (has links)
L’anthropisation croissante des zones côtières induit le rejet dans les écosystèmes aquatiques d’Hydrocarbures Aromatiques Polycycliques (HAP). En plus de la concentration et de la voie de contamination considérées, leurs effets dépendent du stade de développement de l’organisme. Dans ce contexte, l’objectif de cette étude était d’évaluer les effets d’une contamination par voie trophique à des concentrations sublétales de HAP sur une espèce modèle, le poisson zèbre Danio rerio. Deux types de mélanges de HAP, pyrolytique et pétrogénique, représentatifs de ce qui est rencontré en milieu contaminé ont été testés via des expositions chroniques. Au niveau individuel, les réponses biologiques ont été évaluées au travers de performances physiologiques considérées comme des mesures indirectes de la fitness : la capacité métabolique aérobie, les performances de nage et la réponse de fuite. A l’échelle sub-individuelle, l’exposition aux HAP a été évaluée sur le cœur via la mesure du rythme cardiaque. Ces paramètres biologiques ont été mesurés (i) à différents temps d’exposition des poissons ainsi que (ii) sur leur descendance dans le but d’évaluer l’effet parental de la contamination. Les résultats mettent en évidence une diminution de la capacité métabolique aérobie chez la descendance de poissons contaminés aux HAP d’origine pyrolytique. Chez les poissons adultes directement exposés aux HAP de type pétrogénique, une réduction de la capacité métabolique a également été observée, associée à une réduction de la vitesse de nage critique. Cette étude contribuera à établir une vision globale des effets de l’exposition aux HAP et à mieux comprendre les mécanismes régulant des fonctions biologiques clés dans la survie d’un organisme tout au long de son cycle de vie. / The increase of anthropogenic activities on coastal areas induces discharges of polycyclic aromatic hydrocarbons in aquatic ecosystem. PAHs effects depend on their concentration and the way of contamination, but also on the different developmental stages of the organism. In this context, the aim of our study was to observe the effects of an exposure to two PAHs mixes, pyrolytic and petrogenic, on the model species zebrafish Danio rerio. These chronicle exposures at sub-lethal concentrations were representative of contaminated areas. Biological responses of fish were estimated at individual levels through the assessment of aerobic metabolic scope, swimming and escape performance, which are considered to be relevant indirect measures of the fitness. Furthermore, measurements of cardiac frequency allowed observing PAHs impairments at sub-individual levels. These physiological performances were estimated (i) a several times of exposure (i.e. from 2-months juveniles to 6-months adults) and (ii) on their progeny, in order to observe parental effect of the PAHs exposure. An increase of aerobic metabolic scope was observed on the progeny of fish contaminated by pyrolytic mix. Regarding petrogenic PAHs exposure, the increase of aerobic metabolic scope was associated to increase of critical swimming speed in adults. This study will contribute to establishing a global vision of PAHs exposure impairments and to a better understanding of the regulating mechanisms of the main biological functions on which organism survival depends.

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