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La perception gustative et la consommation des tannins chez le maki (Lemur catta)Peronny, Sylvie 01 December 2005 (has links) (PDF)
Le comportement alimentaire des primates varie en fonction de la disponibilité des ressources donc des saisons, et du choix de l'animal, facteur lié à des paramètres individuels. Les aliments consommés sont choisis en fonction de leur chimie (présence de nutriments, de composés toxiques...), et c'est le système gustatif qui permet de faire le lien entre un primate et les aliments qu'il consomme. Les tannins, toxiques à forte dose, sont les composés secondaires des plantes les plus répandus. Le Lemur catta, primate emblématique de Madagascar y est confronté dans son milieu naturel. <br />L'étude de lémurs catta captifs, confrontés à des plantes de climat tempéré riches en tannins (chênes, saules, ronces) montre qu'ils consomment spontanément des tannins dont le goût est perçu comme répulsif (dès 0,1 g/L pour l'acide tannique, seuil déterminé par le « two-bottle test »). Les quantités de tannins consommés et la concentration en tannins du régime varient en fonction des saisons alors que la perception du goût de l'acide tannique ne varie pas. Par contre, les différences individuelles de consommation de tannins sont expliquées par les différences de perception gustative : les animaux les plus sensibles aux tannins en sont les plus gros consommateurs.<br />La consommation de terre observée quasi-quotidiennement (principalement le matin, souvent à jeun) est corrélée avec celle de plantes à tannins, la géophagie serait alors un moyen de protection utilisé par les lémurs catta, les argiles ayant la capacité d'adsorber les tannins. Les tannins condensés consommés pourraient jouer un rôle dans la diminution avec le temps du parasitisme des individus. La semi-liberté associée à un accès à des plantes variées apporte de nombreux avantages aux lémuriens captifs car elle leur permet de diversifier leur alimentation et d'avoir accès à certaines activités pratiquées par les lémuriens sauvages.
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Patterns of affiliation and agonism in a ringtailed lemur, Lemur catta, society tests of the socioecological model and other hypotheses /Sbeglia, Gena. January 1900 (has links)
Title from title page of PDF (University of Missouri--St. Louis, viewed March 8, 2010). Includes bibliographical references.
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Ecological flexibility in a disturbed landscape: An assessment of the behavioural and health ecology of ring-tailed lemurs (Lemur catta) in relation to forest fragmentationGabriel, Denise Nicole 04 July 2013 (has links)
Habitat fragmentation potentiates biodiversity loss worldwide. Species preservation requires an integrated understanding of wildlife-habitat relationships; however, responses to habitat fragmentation may vary considerably as a function of the species ecological flexibility and the unique attributes of each fragment habitat. In this dissertation, I explore the behavioural and health ecology of an ecologically flexible primate, the ringtailed lemur (Lemur catta), occupying forest fragments in south-central Madagascar that differ in isolation, degree of anthropogenic pressure, and L. catta food resource structure. Anja Special Reserve is a 34 ha rocky-outcrop forest fragment that is highly isolated from other forests containing L. catta. L. catta in this reserve have access to abundant food and water resources year-round due to the introduction of non-native fruit trees and the construction of an artificial lake adjacent the reserve, which support a population density of L. catta (6.6 lemurs/ha) that is higher than at any other site in which the species has been studied. In comparison, the Tsaranoro Valley forest is a 53 ha rocky-outcrop forest fragment that is surrounded by a matrix of grassy savannah and a few anthropogenic crops. While land clearing is pronounced in the valley, a few fragments remain within range for L. catta dispersal. L. catta in this fragment have limited access to introduced or anthropogenic resources and the population density (1.13 lemurs/ha) is one-sixth that at Anja. During the late dry season of 2010 and mid- to late-wet season of 2011, I collected continuous time focal animal data to examine behavioural patterns related to habitat use (ranging, matrix use, terrestriality), activity budgets, and feeding ecology of L. catta in each fragment. In addition, I examined two health parameters, stress and endoparasitism, through the collection of fecal samples from focal individuals. I compared these variables between and within populations to examine the potential impacts of habitat fragmentation on an ecologically adaptable primate. L. catta at Anja depended on smaller home range areas and a focused diet consisting largely of introduced food resources, and correspondingly exhibited lower energy expenditure, while spending more time engaging in rest and social acitivities when compared with the Tsaranoro lemurs. In comparison, L. catta at Tsaranoro occupied large home ranges, traveled greater distances to forage in the matrix habitat surrounding the fragment, and exhibited a more broad-based dietary strategy that contained few introduced or anthropogenic resources. From a health perspective, L. catta at Anja exhibited higher stress levels throughout the study period, while L. catta at Tsaranoro exhibited a greater prevalence of endoparasites, which may be reflective of differences in the social pressures and ranging patterns of L. catta between the two fragments, respectively. These results illustrate differences in the quality of the habitats and the potential fitness consequences that the L. catta populations must cope with, with important implications regarding the long-term suitability of these fragments for sustaining these populations. Such information is integral when assessing the viability of wildlife populations in degraded landscapes and should be a primary consideration for wildlife managers in biodiversity conservation. / Graduate / 0327 / 0329 / denisegabrie@gmail.com
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Behavioral and Feeding Ecology of a Small-bodied Folivorous Primate (Lepilemur leucopus)Dröscher, Iris 12 December 2014 (has links)
Kleine blattfressende Primaten sind selten, da die Verarbeitung von Blättern oft umfangreiche Anpassungen des Verdauungsapparates und lange Retentionszeiten für die Fermentierung der Blattfasern erfordert. Dennoch basiert die Nahrung von Lepilemur leucopus (Weißfuß-Wieselmaki) auf Blättern trotz kleinem Körpergewichts (<1 kg). Um unser Verständnis darüber voranzutreiben wie kleine Blattfresser ihre Verhaltensstrategien anpassen um ihre Nahrungsbedürfnisse zu stillen, beabsichtigte ich zu untersuchen wie extrinsische (i.e. Nahrungsquantität und -qualität) und intrinsische Faktoren (i.e. Fortpflanzungsstatus) Strategien der Nahrungssuche, Nahrungswahl und soziale Interaktionen beeinflussen. Ich sammelte Daten bezüglich Aktivitätsmuster, Fressverhalten, sozialer Interaktionen und Streifverhalten in einer Population von L. leucopus in Berenty Reserve (Madagaskar) über einen kompletten Jahreszyklus. Ich erhob Daten zur Habitatstruktur und Phänologie des Dornenwaldes und sammelte Blattproben für die chemische Analyse des Nährstoffgehaltes. Es gab keine eindeutigen Anhaltspunkte, dass die saisonale Abnahme in der Nahrungsverfügbarkeit einen beträchtlichen Einfluss auf Fressverhalten oder soziale Interaktionen in L. leucopus hatte, vermutlich aufgrund der geringen Nahrungsselektivität und der Nutzung der am häufigsten im Wald vorkommenden Pflanzenarten, und Nahrungsstress stand wahrscheinlich eher mit Nahrungsqualität als -quantität in Verbindung. Nahrungsprotein scheint nur begrenzt zur Verfügung gestanden zu haben, da L. leucopus Protein- gegenüber nicht-Protein-Aufnahme über Jahreszeiten und Reproduktionsstadien hinweg priorisierte. Da Veränderungen hinsichtlich Aktivitätsmuster und sozialer Interaktionen nicht im Zusammenhang mit Nahrungsknappheit standen, scheinen Bottom-Up-Prozesse weniger wichtig als Top-Down-Prozesse für die Formgebung des sozialen Systems von L. leucopus zu sein. Die Ergebnisse unterstützen außerdem die Idee, dass quantitative Nahrungsknappheit während der Trockenzeit eine untergeordnet Rolle gegenüber Blattqualität als Selektionsdruck für blattfressende Primatenpopulationen spielt.
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Modeling the Origins of Primate Sociality: Kin Recognition in Mouse LemursJanuary 2014 (has links)
abstract: Arguments of human uniqueness emphasize our complex sociality, unusual cognitive capacities, and language skills, but the timing of the origin of these abilities and their evolutionary causes remain unsolved. Though not unique to primates, kin-biased sociality was key to the success of the primate order. In contrast to ancestral solitary mammals, the earliest primates are thought to have maintained dispersed (non-group living) social networks, communicating over distances via vocalizations and scent marks. If such ancestral primates recognized kin, those networks may have facilitated the evolution of kin-biased sociality in the primate order and created selection for increased cognitive and communicative abilities. I used the gray mouse lemur (Microcebus murinus) to model whether vocalizations could have facilitated matrilineal and patrilineal kin recognition in ancestral primates. Much like mouse lemurs today, ancestral primates are thought to have been small-bodied, nocturnal creatures that captured insects and foraged for fruit in the thin, terminal ends of tree branches. Thus, the mouse lemur is an excellent model species because its ecological niche is likely to be similar to that of ancestral primates 55-90 million years ago. I conducted playback experiments in Ankarafantsika National Park, Madagascar testing whether mouse lemur agonistic calls contain matrilineal kin signatures and whether the lemurs recognize matrilineal kin. In contrast to large-brained, socially complex monkeys with frequent coalitionary behavior, mouse lemurs did not react differently to the agonistic calls of matrilineal kin and nonkin, though moderate signatures were present in the calls. I tested for patrilineal signatures and patrilineal kin recognition via mating and alarm calls in a colony with known pedigree relationships. The results are the first to demonstrate that a nocturnal, solitary foraging mammal gives mating calls with patrilineal signatures and recognizes patrilineal kin. Interestingly, alarm calls did not have signatures and did not facilitate kin recognition, suggesting that selection for kin recognition is stronger in some call types than others. As this dissertation is the first investigation of vocal kin recognition in a dispersed-living, nocturnal strepsirrhine primate, it greatly advances our knowledge of the role of vocal communication in the evolution of primate social complexity. / Dissertation/Thesis / Ph.D. Anthropology 2014
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Social information gathering in lemursRuiz, April M. January 2010 (has links)
By investigating the cognitive capacities of non-human primates, we can begin to understand the cognitive capacities of the evolutionary ancestors we share with these species. While there is a great deal of research exploring the socio-cognitive abilities of simian primates, prosimians have not been sufficiently studied. Without data from these species, our knowledge about the evolution of the primate mind is limited to the common ancestor shared between simian primates only, precluding understanding of the phylogenetic origins of certain phenomena. I explored the socio-cognitive capacities of lemurs, a type of prosimian primate. I studied several areas of social cognition related to social referencing, defined as the ability to use and seek out social information when appraising objects or events. As social referencing is a popular subject in both human developmental and non-human primate literature, I aimed to determine how prosimians’ capacities compare. My research was conducted with captive lemurs of three species: Eulemur fulvus fulvus, Eulemur macaco macaco, and Eulemur fulvus rufus. I found that lemurs use social cues regarding food palatability to modify their own feeding behaviour and that they visually attend to conspecifics differently when presented with novel, as compared to familiar, foods. Lemurs also visually referred to a human experimenter’s face when presented with an anomalous interaction and went on to engage in gaze alternation. Lemurs failed to use information about the experimenter’s attentional state, however, when modifying their use of a trained gesture. Finally, I found that lemurs are able to visually co-orient with conspecifics, correctly prioritising information from the head over that from the body, and that they go on to use conspecific gaze to locate hidden resources. These results show that lemurs are more cognitively advanced than previously thought and the origins of some social referencing skills may be phylogenetically older than previously hypothesised.
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Vieillissement cérébral chez un primate non humain, le Microcèbe : approches fonctionnelles et anatomiques / Cerebral aging in Microcebus murinus a non-human primate : functional and anatomical approachesDorieux, Olène 04 July 2012 (has links)
De part le monde, nombre de personnes sont atteintes par pathologies cérébrales directement liées au vieillissement. Pour comprendre les mécanismes biologiques du vieillissement cérébral et développer de nouvelles thérapies, l’utilisation de modèles animaux pertinents est un atout décisif. Le primate Microcèbe, est un modèle de vieillissement cérébral normal et pathologique. Il présente avec l’âge des altérations cérébrales anatomiques accompagnées de déficits cognitifs, similaires à celles observées chez l’Homme. Chez certains individus, ces altérations sont plus sévères, avec une atrophie de l’hippocampe et la présence de plaques amyloïdes, suggérant l’existence d’un vieillissement cérébral pathologique. L’exploration fonctionnelle du vieillissement cérébral du Microcèbe a été réalisée grâce à l’imagerie par Tomographie par Émission de Positons (TEP). Celle-ci a été complétée par des études anatomiques et histologiques du cerveau et un suivi comportemental. Une thérapie par un agoniste de l’Insuline-like Growth Factor 1 (PEG-IGF-1) a été évaluée. Chez les animaux âgés, outre la présence d’une atrophie cérébrale, le métabolisme glucidique était réduit dans le cerveau et les sous structures d’intérêt (cortex frontal, hippocampe, noyaux caudés et cervelet). Ces altérations cérébrales n’ont pas pu être associées à des déffcits cognitifs et ne peuvent être expliquées par des altérations anatomo-histologiques. Le traitement par PEG-IGF-1 n’a pas modifié la consommation cérébrale de glucose. Néanmoins, il s’est accompagné de changements dans les paramètres de la torpeur journalière présente chez ce primate, suggérant une modulation de la gestion des ressources énergétiques. En conclusion, la mesure du métabolisme glucidique cérébral par imagerie TEP constitue un marqueur fonctionnel du vieillissement cérébral chez le Microcèbe. Ce marqueur peut être utilisé pour explorer de nouveaux aspects du vieillissement cérébral et/ou l’apparition de pathologies. Il pourrait également permettre d’évaluer l’effet de thérapies sur le fonctionnement cérébral / Worldwide populations affected by age-related brain pathology are becoming increasingly numerous. Using relevant animal models is a critical to understand biological mechanisms of brain aging and evluate therapy. The Mouse lemur primate is an animal model of normal and pathological brain aging. Indeed, it develops age-associated brain abnormalities linked with cognitive deficits remaining human age-associated brain alterations. Moreover, some older individuals display more severe alterations, as in particular atrophy of the hippocampus and cerebral amyloid plaques, suggesting a pathological brain aging. Positron Emission Tomography (PET) was used to quantify cerebral glucose metabolism quantification in mouse lemurs. This study was completed with anatomical, histological, and behavioral studies. Additionally, an insulin-like growth agonist (PEG- IGF-1) therapy was evaluated in aged mouse lemurs. In older animals, besides a cerebral atrophy, a glucose metabolism reduction appeared in the brain, and in particular in the frontal cortex, hippocampus, caudate nucleus, and cerebellum. These functional impairments were not associated with detectable cognitive deficits and could not be explained by anatomical or histological alterations. The PEG-IGF-1 treatment did not enhance cerebral glucose consumption. Nevertheless, it induced changes in the parameters of daily
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Characterization of Mouse Lemur Brain by Anatomical, Functional and Glutamate MRI / Caractérisation du cerveau des microcèbes murins par IRM anatomique, fonctionnelle et du glutamateGarin, Clément 02 July 2019 (has links)
Le microcèbe murin (Microcebus murinus) est un primate attirant l’attention de la recherche neuroscientifique. Son anatomie cérébrale est encore mal décrite et ses réseaux cérébraux n'ont jamais été étudiés. Le premier objectif de cette thèse était de développer de nouveaux outils menant à la création d’un atlas numérique 3D du cerveau du microcèbe. Cet atlas est un outil fondamental car pouvant être utilisé pour extraire automatiquement des biomarqueurs cérébraux de diverses neuropathologies. Par la suite, nous avons mis en place des protocoles IRM et informatiques pour analyser la connectivité neuronale du microcèbe murin. Nous avons évalué pour la première fois les réseaux cérébraux de cet animal et révélé que son cerveau est organisé en régions fonctionnelles intégrées dans des réseaux fonctionnels à plus grande échelle. Ces réseaux ont été classés et comparés à des réseaux similaires chez l'homme. Cette comparaison multi-espèces a mis en évidence des règles d'organisation communes mais aussi des divergences. L'imagerie du glutamate par transfert de saturation et par échange chimique (gluCEST) est une méthode permettant de créer des cartes 3D de la distribution du glutamate. Dans une troisième étude, nous avons comparé l’activité neuronale locale, la connectivité fonctionnelle et le contraste gluCEST dans diverses régions du cerveau. Nous avons ainsi mis en évidence différentes associations entre ces trois biomarqueurs. Enfin, l’impact du vieillissement sur la connectivité fonctionnelle, l’activité neuronale locale et le contraste gluCEST a été évalué en comparant deux cohortes de microcèbes murins. / The mouse lemur (Microcebus murinus) is a primate that has attracted attention within neuroscience research. Its cerebral anatomy is still poorly described and its cerebral networks have never been investigated. The first objective of this study was to develop new tools to create a 3D digital atlas of the brain of this model and to use this atlas to automatically follow-up brain characteristics in cohorts of animals. We then implemented protocols to analyze connectivity in mouse lemurs so we could evaluate for the first time the cerebral networks in this species. We revealed that the mouse lemur brain is organised in local functional regions integrated within large scale functional networks. These latter networks were classified and compared to large scale networks in humans. This multispecies comparison highlighted common organization rules but also discrepancies. Additionally, Chemical Exchange Saturation Transfer imaging of glutamate (gluCEST) is a method that allows the creation of 3D maps weighted by the glutamate distribution. In a third study, we compared local neuronal activity, functional connectivity and gluCEST contrast in various brain regions. We highlighted various associations between these three biomarkers. Lastly, the impact of aging on local neuronal activity, functional connectivity and gluCEST has been analyzed by comparing two cohorts of lemurs.
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Chronic stress and conservation: Applying allostatic load to lemurs in human care and native rangesSeeley, Kathryn E. January 2022 (has links)
No description available.
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Factors affecting golden-crowned sifaka (Propithecus tattersalli) densities and strategies for their conservationSemel, Brandon P. 24 March 2021 (has links)
Habitat degradation and hunting pose the most proximate threats to many primate species, while climate change is expected to exacerbate these threats (habitat and climate change combined henceforth as "global change") and present new challenges. Madagascar's lemurs are earth's most endangered primates, placing added urgency to their conservation in the face of global change. My dissertation focused on the critically endangered golden-crowned sifaka (Propithecus tattersalli; hereafter, "sifaka") which is endemic to fragmented forests across a gradient of dry, moderate, and wet forest types in northeastern Madagascar. I surveyed sifakas across their global range and investigated factors affecting their densities. I explored sifaka diets across different forest types and evaluated if nutritional factors influenced sifaka densities. Lastly, I investigated sifaka range-wide genetic diversity and conducted a connectivity analysis to prioritize corridor-restoration and other potential conservation efforts. Sifaka densities varied widely across forest fragments (6.8 (SE = 2.0-22.8) to 78.1 (SE = 53.1-114.8) sifakas/km²) and populations have declined by as much as 30-43% in 10 years, from ~18,000 to 10,222-12,631 individuals (95% CI: 8,230-15,966). Tree cutting, normalized difference vegetation index (NDVI) during the wet season, and Simpson's diversity index (1-D) predicted sifaka densities range-wide. Sifakas consumed over 101 plant species and spent 27.1% of their active time feeding on buds, flowers, fruits, seeds, and young and mature leaves. Feeding effort and plant part consumption varied by season, forest type, and sex. Minerals in sifaka food items (Mg (β = 0.62, SE = 0.19) and K (β = 0.58, SE = 0.20)) and wet season NDVI (β = 0.43, SE = 0.20) predicted sifaka densities. Genetic measures across forest fragments indicated that sifaka populations are becoming more isolated (moderate FIS values: mean = 0.27, range = 0.11-0.60; high M-ratios: mean = 0.59, range = 0.49-0.82; low overall effective population size: Ne = 139.8-144 sifakas). FST comparisons between fragments (mean = 0.12, range = 0.01-0.30) supported previous findings that sifakas still moved across the fragmented landscape. Further validation of these genetic results is needed. I identified critical corridors that conservation managers could protect and/or expand via active reforestation to ensure the continued existence of this critically-endangered lemur. / Doctor of Philosophy / Worldwide, many species of primates are threatened with extinction due to habitat degradation, hunting, and climate change (habitat and climate combined threats, henceforth, "global change"). These threats work at different time scales, with hunting being the most immediate and climate change likely to have its fullest impact experienced from the present to a longer time frame. Lemurs are a type of primate found only on Madagascar, an island experiencing rapid global change, which puts lemurs at a heightened risk of extinction. My dissertation research focused on the critically endangered golden-crowned sifaka (Propithecus tattersalli; hereafter, "sifaka"), a species of lemur found only in a few isolated forests across a dry to wet gradient in northeastern Madagascar. To better understand their extinction risk, I conducted surveys to estimate the number of sifakas remaining and investigated several factors that might determine how many sifakas can live in one place. I then explored how sifaka diets varied depending on the forest type that they inhabit and tested whether nutrients in their food might determine sifaka numbers. Lastly, I calculated sifaka genetic diversity to assess their ability to adapt to new environmental conditions and to determine whether sifakas can move across the landscape to find new mates and to potentially colonize new areas of habitat. Sifaka densities varied widely across their range (6.8-78.1 sifakas/km² ). Only 10,222-12,631 sifakas remain, which is 30-43% less than the range of estimates obtained 10 years ago (~18,000 sifakas). Tree cutting, normalized difference vegetation index (NDVI; a measure of plant health or "greenness" obtained from satellite data), and a tree species diversity index were useful measures to predict sifaka densities. Sifakas ate different plant parts (buds, flowers, fruits, seeds, and leaves) from over 101 plant species. The amount of time they spent eating each day varied by the time of year, forest type, and sex. On average, they spent a quarter of their day eating. Magnesium and potassium concentrations in sifaka food items also were useful nutrition-related measures to predict sifaka densities. Genetic analyses suggested that sifaka populations are becoming more isolated and inbred, meaning sifakas are breeding with other sifakas to which they are closely related. However, it appears that sifakas still can move between forest patches to find new mates and to potentially colonize new areas, if such areas are created. Further validation of these genetic results is needed. I also identified critical areas that will be important to protect and reforest to ensure that movements between populations can continue.
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