Global ETD Search

11	Do Bats use Olfactory Cues to Find Roosts? Brown, Bridget Kay Gladden 29 September 2020 (has links) No description available. Biology Behavioral Sciences Ecology bats multimodal replication roosting ecology sensory ecology
12	Characterizing the Role of Magnetic Cues Underlying Spatial Behavior Painter, Michael Scott 09 January 2017 (has links) In the 50+ years since the discovery of magnetic compass orientation by migratory songbirds, evidence for the use of magnetic cues has been obtained for a range of taxonomic groups, including several classes of vertebrate and invertebrate taxa. Surprisingly, however, the biophysical mechanisms and biological substrate that underlie magnetic sensing are still not fully understood. Moreover, while use of magnetic cues for compass orientation is intuitive, the functional significance of other forms of behavioral responses mediated by magnetic cues, such as spontaneous magnetic alignment, is less clear. The following research was carried out to investigate the mechanisms underlying magnetic orientation in vertebrates and invertebrates. This involved the modification of existing experimental systems to characterize responses to magnetic cues in laboratory animals (flies, mice) and the development of novel techniques for studying the role of magnetic cues in the spatial behavior of free-living animals (red foxes). Chapter II examines magnetic orientation in wild-type Drosophila melanogaster larvae. We show that three strains of larvae reared under non-directional ultraviolet (UV) light exhibit quadramodal spontaneous orientation along the anti-cardinal compass directions (i.e. northeast, southeast, southwest, northwest) when tested in a radially symmetrical environment under UV light. Double-blind experiments cancelling the horizontal component of the magnetic field confirmed that the response is dependent on magnetic cues rather non-magnetic features of the test environment. Furthermore, we argue that the larval quadramodal pattern of response is consistent with properties of magnetic compass orientation observed in previous studies of adult Drosophila and laboratory mice, both of which have been proposed to be mediated by a light-dependent magnetic compass mechanism. Chapter III explores the use of novel biologging techniques to collect behavioral and spatial data from free-roaming mammals. Specifically, a previous observational study of free- roaming red foxes found a 4-fold increase in the success of predatory 'mousing' attacks when foxes were facing ~north-northeast, consistent with magnetic alignment responses reported for a range of terrestrial animals. The authors propose that the magnetic field may be used to increase accuracy of mousing attacks. Using tri-axial accelerometer and magnetometer bio-loggers fitted to semi-domesticated red foxes, we created ']magnetic ethograms' from behavioral and magnetic machine learning algorithms 'trained'] to identify three discrete behaviors (i.e. foraging, trotting, and mousing-like jumps) from raw accelerometer signatures and to classify the magnetic headings of mousing-like jumps into 45° sectors from raw magnetometer data. The classifier's ability to accurately identify behaviors from a separate fox not used to train the algorithm suggests that these techniques can be used in future experiments to obtain reliable magnetic ethograms for free-roaming foxes. We also developed the first radio-frequency emitting collar that broadcasts in the low MHz frequency range shown to disrupt magnetic compass responses in a host of animals. The radio-frequency collars coupled with biologgers will provide a powerful tool to characterize magnetic alignment responses in predatory red foxes and can be adapted for use in studies of magnetic alignment and magnetic compass orientation in other free-roaming mammals. Chapter 3 discusses findings from a magnetic nest building assay involving male labratory mice. Mice trained to position nests in one of four directions relative to the magnetic field exhibited both learned magnetic compass responses and fixed magnetic nest positioning orientation consistent with northeast-southwest spontaneous magnetic alignment behavior previously reported for wild mice and bank voles. This is the first mammalian assay in which both learned magnetic compass orientation and spontaneous magnetic alignment were exhibited in the same species, and suggests that the use of magnetic cues in rodents may be more flexible that previously realized. / Ph. D. Magnetoreception Magnetic Compass Orientation Navigation Magnetic Field Sensory Ecology Radical Pair Magnetite Drosophila Mammal
13	Phantom Ocean, Real Impact: Natural Surf Sound Experiments Alter Foraging Activity and Habitat Use Across Taxa Wardle, Ryan N 01 December 2020 (has links) (PDF) A growing body of research focuses on how background sounds shape and alter critical elements of animals’ lives, such as foraging behavior, habitat use, and ecological interactions (Bradbury & Vehrencamp, 2011; Barber et al., 2010; Kight & Swaddle, 2011; Shannon et al., 2016). Much of this research has centered on the effects of anthropogenic noise (Dominoni et al., 2020; Francis & Barber, 2013; Ortega, 2012; Swaddle et al., 2015), but recent studies have also revealed that natural sound sources can influence animal behavior (Davidson et al., 2017; Le et al., 2019). Natural sounds, such as crashing surf, can create conditions where signaling and listening are difficult, but how this influences different species’ ecological interactions are unknown. To study the effects of crashing surf sound we experimentally introduced landscape-level acoustic playbacks where surf sound was not naturally present to create a “phantom ocean”. Phantom ocean treatment sites were employed alongside higher frequency “shifted” treatment sites to test for frequency-dependent effects, “real ocean” sites where surf sound was endemic, and ambient control sites. The phantom and shifted treatments were played continuously during the spring and summer of 2017-2019. Within this acoustic experimental landscape we conducted multiple studies to test the effects of crashing surf sound on animal behavior, habitat use, and ecological interactions. Through an artificial caterpillar predation experiment modeled after Roslin et al. (2017), we found that when exposed to natural sound treatments the foraging activity of rodents and arthropods increased, while that of birds declined. A potential explanation for this pattern includes taxon-specific responses reflecting different perceived risk-reward trade-offs in natural sound conditions. To follow this up we performed occupancy modeling on data collected by camera traps set within our system. We observed different responses among groups of species with different functional roles in the community for both detection (p) and occupancy (Ψ) probabilities. Our combined results indicate different species and functional groups have unique foraging behavior and patch use responses to natural sounds, likely based on their ecological interactions. Specifically, Cricetid rodents are likely more active in areas exposed to natural sounds, possibly due to lower perceived predation risk because mesocarnivores are less active. Insectivorous birds are also likely less active under natural sounds conditions, although the frequency of the sound, and the body size and diet of the bird appear influential. Together these findings suggest that natural sounds shape not only individual behavioral adjustments, but also multi-trophic, community level interactions. Our results show that natural sounds are an important driver of ecological interactions, but much remains to be uncovered. The mechanisms by which natural sounds influence individuals, populations, and many other aspects of ecology remain unexplored and provide fertile ground for future inquiry. Natural Sounds Sensory Ecology Soundscape Acoustic Ecology Occupancy Modeling Artificial Predation Animals Other Environmental Sciences Other Physical Sciences and Mathematics Plants
14	Visual ecology of nocturnal bees: how light intensity affects foraging activity in cambuci, a neotropical Myrtaceae / Ecologia Visual de Abelhas Noturnas: como a intensidade de luz afeta a atividade de forrageio no cambuci, uma Myrtaceae neotropical Rodolfo Liporoni Dias 02 May 2018 (has links) The foraging activity of day-active bees often rely on flower availability, light intensity and temperature. However, some bees developed a nocturnal habit and fly during the dusk, dawn and night. We still do not know how these bees cope with environmental factors, especially dimmer light levels, to explore flower earlier than their diurnal relatives. Given that typical bee apposition compound eyes work better in brighter environments and function in their limits in dim-light conditions, we can expect a larger dependence of light intensity for nocturnal groups. Nocturnal and crepuscular bees are frequent visitors of cambuci (Campomanesia phaea, Myrtaceae) in southeastern Brazil. We aimed to investigate how light intensity affects flower visitation of cambuci by nocturnal and crepuscular bees, also controlling for other environmental factors. We counted visits per minute along 30 nights/twilights in 33 cambuci trees from a commercial orchard, measuring the following environmental variables: light intensity, flower availability, temperature, air relative humidity and wind speed. Light intensity is the only variable that explained flower visitation of nocturnal bees in cambuci, which peaks at intermediate light levels that occur around 30 minutes before sunrise. The minimum light intensity threshold to bees start flying is of 0.00024 cd/m2, the first recorded value for nocturnal and crepuscular bees finding flowers in an agro-forest context. Our results highlight for the first time how nocturnal bees rely on light to explore resources and show that the bees light-dependent foraging activity is not always linear, as postulated by previous theoretic models. This is the first step to understand how nocturnal bees react to environmental factors. Our findings also bring concerns about possible negative effects of light pollution at night for cambuci-crepuscular bees interaction / O forrageio de abelhas geralmente depende de disponibilidade de flores, intensidade de luz e temperatura. Contudo, algumas abelhas desenvolveram hábitos noturnos e voam durante os crepúsculos e a noite. Não se sabe como essas abelhas lidam com os fatores ambientais, especialmente os reduzidos níveis de luminosidade. Dado que os olhos compostos de aposição de abelhas funcionam melhor em maiores luminosidades, espera-se uma maior dependência da luz para os grupos noturnos. Abelhas noturnas e crepusculares são visitantes frequentes do cambuci (Campomanesia phaea, Myrtaceae) no sudeste do Brasil. Nosso objetivo foi investigar como a intensidade de luz afeta a visitação floral do cambuci por abelhas noturnas e crepusculares, controlada também por outros fatores ambientais. Para isso, contamos as visitas a cada minuto ao longo de 30 noites/crepúsculos em 33 árvores de cambuci em um pomar comercial, medindo as seguintes variáveis ambientais: intensidade de luz, disponibilidade de flores, temperatura, umidade e velocidade do vento. A intensidade de luz foi a única variável que explicou a visitação floral de abelhas noturnas no cambuci, a qual tem um pico em níveis intermediários de luz que ocorrem ao redor de 30 minutos antes do nascer do sol. O limiar mínimo de intensidade de luz para as abelhas começarem a voar foi de 0.00024 cd/m2, o primeiro valor registrado para abelhas noturnas e crepusculares procurando por flores em um contexto agroflorestal. Nossos resultados destacam pela primeira vez como as abelhas noturnas dependem da luz para explorar recursos e mostram que essa dependência, para abelhas em geral, não é sempre linear, como postulado por modelos teóricos prévios. Este é o primeiro passo para entender como abelhas noturnas reagem a fatores ambientais. Nossos dados também trazem alertas para possíveis efeitos negativos da poluição luminosa à noite para a interação entre cambuci e abelhas noturnas Abelha solitária Ecologia sensorial Hábito crepuscular Insetos noturnos Mata Atlântica Megalopta Megommation Ptiloglossa Zikanapis Atlantic forest Crepuscular habit Megalopta Megommation Nocturnal insects Ptiloglossa Sensory ecology Solitary bees Zikanapis
15	Visual ecology of nocturnal bees: how light intensity affects foraging activity in cambuci, a neotropical Myrtaceae / Ecologia Visual de Abelhas Noturnas: como a intensidade de luz afeta a atividade de forrageio no cambuci, uma Myrtaceae neotropical Dias, Rodolfo Liporoni 02 May 2018 (has links) The foraging activity of day-active bees often rely on flower availability, light intensity and temperature. However, some bees developed a nocturnal habit and fly during the dusk, dawn and night. We still do not know how these bees cope with environmental factors, especially dimmer light levels, to explore flower earlier than their diurnal relatives. Given that typical bee apposition compound eyes work better in brighter environments and function in their limits in dim-light conditions, we can expect a larger dependence of light intensity for nocturnal groups. Nocturnal and crepuscular bees are frequent visitors of cambuci (Campomanesia phaea, Myrtaceae) in southeastern Brazil. We aimed to investigate how light intensity affects flower visitation of cambuci by nocturnal and crepuscular bees, also controlling for other environmental factors. We counted visits per minute along 30 nights/twilights in 33 cambuci trees from a commercial orchard, measuring the following environmental variables: light intensity, flower availability, temperature, air relative humidity and wind speed. Light intensity is the only variable that explained flower visitation of nocturnal bees in cambuci, which peaks at intermediate light levels that occur around 30 minutes before sunrise. The minimum light intensity threshold to bees start flying is of 0.00024 cd/m2, the first recorded value for nocturnal and crepuscular bees finding flowers in an agro-forest context. Our results highlight for the first time how nocturnal bees rely on light to explore resources and show that the bees light-dependent foraging activity is not always linear, as postulated by previous theoretic models. This is the first step to understand how nocturnal bees react to environmental factors. Our findings also bring concerns about possible negative effects of light pollution at night for cambuci-crepuscular bees interaction / O forrageio de abelhas geralmente depende de disponibilidade de flores, intensidade de luz e temperatura. Contudo, algumas abelhas desenvolveram hábitos noturnos e voam durante os crepúsculos e a noite. Não se sabe como essas abelhas lidam com os fatores ambientais, especialmente os reduzidos níveis de luminosidade. Dado que os olhos compostos de aposição de abelhas funcionam melhor em maiores luminosidades, espera-se uma maior dependência da luz para os grupos noturnos. Abelhas noturnas e crepusculares são visitantes frequentes do cambuci (Campomanesia phaea, Myrtaceae) no sudeste do Brasil. Nosso objetivo foi investigar como a intensidade de luz afeta a visitação floral do cambuci por abelhas noturnas e crepusculares, controlada também por outros fatores ambientais. Para isso, contamos as visitas a cada minuto ao longo de 30 noites/crepúsculos em 33 árvores de cambuci em um pomar comercial, medindo as seguintes variáveis ambientais: intensidade de luz, disponibilidade de flores, temperatura, umidade e velocidade do vento. A intensidade de luz foi a única variável que explicou a visitação floral de abelhas noturnas no cambuci, a qual tem um pico em níveis intermediários de luz que ocorrem ao redor de 30 minutos antes do nascer do sol. O limiar mínimo de intensidade de luz para as abelhas começarem a voar foi de 0.00024 cd/m2, o primeiro valor registrado para abelhas noturnas e crepusculares procurando por flores em um contexto agroflorestal. Nossos resultados destacam pela primeira vez como as abelhas noturnas dependem da luz para explorar recursos e mostram que essa dependência, para abelhas em geral, não é sempre linear, como postulado por modelos teóricos prévios. Este é o primeiro passo para entender como abelhas noturnas reagem a fatores ambientais. Nossos dados também trazem alertas para possíveis efeitos negativos da poluição luminosa à noite para a interação entre cambuci e abelhas noturnas Abelha solitária Atlantic forest Crepuscular habit Ecologia sensorial Hábito crepuscular Insetos noturnos Mata Atlântica Megalopta Megalopta Megommation Megommation Nocturnal insects Ptiloglossa Ptiloglossa Sensory ecology Solitary bees Zikanapis Zikanapis
16	Intrasexual selection and warning color evolution in an aposematic poison dart frog Crothers, Laura Rose 04 September 2015 (has links) Flamboyant colors are widespread throughout the animal kingdom. While many of these traits arise through sexual selection, bright coloration can also evolve through natural selection. Many aposematic species, for example, use conspicuous warning coloration to communicate their noxiousness to predators. Recent research suggests these signals can also function in the context of mate choice. Studies of warning color evolution can therefore provide new insights into how the interplay of natural and sexual selection impact the trajectory of conspicuous signal evolution. For my dissertation, I investigated the potential for male-male competition to impact the warning color evolution of a species of poison frog. I focused my work on an exceptionally bright and toxic population of the strawberry poison frog (Oophaga pumilio) where males are brighter than females, a classic signature of sexual selection. In Chapter 1, I used theoretical models of predator and frog visual systems to determine which can see the variation in bright warning coloration within this population. I found that birds, the presumed major predator, likely cannot see this variation, indicating that sexual selection can work under the radar of predators in this species. In Chapter 2, I tested the aggressive responses of males using a two-way choice paradigm that manipulated the perceived brightness of stimulus males. I found that males directed more of their behaviors to bright stimulus frogs, and brighter focal frogs more readily approached stimuli and directed more of their attention to the brighter rival. In Chapter 3, I tested the outcomes of dyadic interactions between males of varying brightness and observed male reactions to simulated intruders in their territories. I found that brighter males initiated aggressive interactions with rivals more readily, and brightness asymmetries between males settled interactions in a way that is consistent with classic hypotheses about male sexual signals. In Chapter 4 I sought to describe physiological correlates of male warning color brightness. While male brightness did not co-vary with classic measures of body condition (circulating testosterone and skin carotenoids), it did correlate with toxins sequestered from the diet and thus appears to be a reliable signal of toxicity in this population. / text Sexual selection Natural selection Aggression Aposematism Brightness Poison dart frog Sensory ecology Evolution Animal communication Warning coloration Oophaga pumilio Dendrobates pumilio Signal evolution Panama Bocas del Toro Diversity
17	Camouflage chez les araignées crabe : approche sensorielle, comportementale et écologique / No title available Defrize, Jérémy 29 June 2010 (has links) Misumena vatia est supposée, depuis plus d‟un siècle, adapter sa couleur à celle de son substrat pour diminuer sa probabilité d‟être détectée par des proies et des prédateurs. Il existe cependant un décalage entre la quantité de travaux sur son écologie, sa notoriété en tant qu‟experte du camouflage, et la connaissance réelle sur son camouflage et le changement de couleur. Le but de cette thèse était d‟aborder le camouflage d‟un point de vue sensoriel, à une échelle communautaire, en combinant plusieurs approches. Il a été ainsi démontré que si M. vatia était indétectable dans l‟achromatique à longue distance, le niveau de contraste chromatique à courte distance était dépendant du substrat et de l‟identité du receveur. Des études électrophysiologiques et comportementales montrent de manière convergente que M. vatia possède la vision des couleurs. Les juvéniles utilisent cette habilité pour choisir des substrats qui les rendent peu détectable pour les proies. Enfin, les résultats de cette thèse sont replacés dans un contexte évolutif et physiologique plus général. / Misumena vatia is assumed for more than a century to adapt its colouration to the colour of its substrate in order to decrease the risk of being detected by prey and predators. However, a discrepancy exists between the large quantity of works on its ecology, its fame as an expert of camouflage and the empirical knowledge about its cryspis and colour change mechanisms. The aim of this thesis was therefore to study crypsis from a community sensory perspective, using an approach combing physiology, behaviour and colour vision models. We showed that if M. vatia was undetectable at long distance through achromatic vision, the chromatic contrast value is quite dependent of both substrates and receiver identities. Electrophysiological recordings and behavioural choices all concur to show that M. vatia is able to see colours. Spiderlings use this ability for making choices among coloured backgrounds diminishing its conspicuousness to potential prey. Finally, the results of this thesis are discussed in an evolutionary and physiological context. Ecologie sensorielle des communautés Sensibilité spectrale Misumena vatia Misumena vatia Crypsis Community sensory ecology Chromatic contrast Achromatic contrast Colour preference Spectral sensitivities
18	Vers une écologie sensible des rues du Caire : le palimpseste des ambiances d'une ville en transition / Towards a sensory ecology of Cairo streets : studying the palimpsest of urban ambiences of a city in a transitional phase Said, Noha Gamal 14 January 2014 (has links) Proposer une relecture du sensible par le palimpseste est s'intéresser avant tout au temps de l'expérience. Il s'agit d'appréhender ce dernier en tant que matière dans la conception de la ville. Étant définie comme une stratification temporelle par la superposition des couches d'écriture, l'introduction de la métaphore palimpseste dans une réflexion sur les ambiances ajoute une épaisseur temporelle aux phénomènes sensibles. La figure «ambiance-palimpseste» montre comment la quotidienneté de l'expérience sensible s'inscrit dans une durée. Cette vision redéfinit l'ambiance comme une incarnation du passé dans le présent à travers un processus continu de sédimentation des traces. Le couplage «ambiance-palimpseste » incarne une puissance du temps dans laquelle le passé se recompose différemment avec la superposition de chaque présent. Entre la production des villes mémorielles et - ou - des villes artefacts, la pensée urbaine contemporaine marque une crise par rapport au temps où le présent fonctionnait comme une étanchéité temporelle, voire un tampon temporel entre le passé et le futur. Le terme « ambiance-palimpseste» resitue le présent dans son emplacement - l'entre-deux -, comme un interface à travers lequel les liens entre le futur et le passé sont rétablis. L'étude du sensible en épaisseur offre une nouvelle perspective dans la conception des villes et propose une autre approche temporelle où il s'agit de « faire avec » le temps, celui du passé et celui du futur. Elle propose une recompositions des valeurs sensibles du passé tout en se projetant vers le futur. Elle mêle la rétrospectivité et la prospectivité dans une approche qui vise à penser et à concevoir l'avenir de la ville autrement. Avec un tel objectif, cette thèse propose un dispositif de lecture du sensible en épaisseur, « la coupe temporelle », comme moyen de considérer l'expérience dans le temps et de déplier les couches des mémoires sédimentées. La coupe temporelle donne à lire les reliefs temporels de l'expérience. Elle marque un tournant dans la représentation de la ville, allant de la cartographie vers la stratigraphie. / Proposing a rereading of the sensory experience by the term palimpsest is above all focusing on « time ».This approach introduces time as a main material for designing cities. Being defined as a stratification of time by a continual re-writing, the metaphorical coupling of terms « ambiance-palimpsest » adds a temporal depth to the sensory phenomena. It point out how everyday life experience reflects a maintain over time. This vision redefines the ambience as an incarnation of the past in the present through a continuous process of sedimentation of traces. Ambience-palimpsest embodies a power of time in which the past is reconstructed differently with each time a new present is overlaid upon territory. Between the production of memorial cities and artifacts ones, the current contemporary urban thinking marks a crisis in dealing with time, in which the present functions as a buffer, isolating the past from the futur. The introduction of term palimpsest in the field of ambiences relocates the present as a connecting interface between the two temporal entities. Taking into consideration the temporal depth when analyzing the sensory experience, offers a new perspective of designing cities by recomposing the past sensory values in a projection to the future. It mixes a retrospective and prospective approaches for rethinking the future of cities. In such an interest, this thesis proposes an architectural reading tool « the temporal section » as a way to stroll in time and to unfold the layers of sediment memories. This architectural section, to which we add time as vertical dimension of place, helps reading the temporal configuration of the experience, thus marking a turning point in the representation of cities form cartography to stratigraphy. Palimpseste urbain Mémoire sensible Temporalité Processus urbain Ambiance urbaine Écologie sensible Palimpsest Sensory memory Temporality Processus urbain Urbain ambience Sensory ecology
19	Importance of metamorphosis in coral-reef fish larval recruitment facing anthropogenic pressures / Importance de la métamorphose dans le recrutement larvaire des poissons coralliens face aux pressions d’origine anthropique Besson, Marc 09 October 2017 (has links) Le maintien et le renouvellement des populations de poissons coralliens dépendent en grande partie du recrutement larvaire, c’est-à-dire de l’installation des larves pélagiques dans les habitats récifaux adultes, et de leur survie après s’être métamorphosées en juvéniles. De plus en plus d’études révèlent que les changements de composition de l’eau, causés par le changement climatique et la pollution, peuvent altérer les capacités sensorielles des poissons coralliens, diminuant leurs aptitudes à localiser des habitats propices (maximisant leur croissance et diminuant leur mortalité) lors de l’installation. Cependant, les mécanismes internes à l’origine de ces phénomènes sont méconnus. Lors de cette thèse, j’ai examiné le recrutement larvaire du poisson chirurgien bagnard Acanthurus triostegus et mis en évidence que les changements écologiques, morphologiques, physiologiques et comportementaux qui s’y déroulent correspondent à une métamorphose contrôlée par les hormones thyroïdiennes (HT). J’ai ensuite analysé comment des stress d’origine anthropique, tels que l’élévation des températures de surface et la pollution par un pesticide d’origine agricole, peuvent perturber sa métamorphose. Lors de cette étape clé de leur cycle de vie, ces perturbations diminuent les taux d’HT, altérant la maturation de leurs organes sensoriels, leurs capacités sensorielles, et augmentant leur mortalité. Cette thèse est donc une analyse holistique de l’impact des perturbations anthropiques sur les processus moléculaires, et les changements histologiques, anatomiques et comportementaux du recrutement larvaire des poissons coralliens. Elle souligne l’importance du système thyroïdien, et invite à une meilleure compréhension des processus endocriniens du recrutement larvaire, dans l’optique d’une amélioration de la conservation des récifs coralliens. / The persistence and sustainability of coral-reef fish populations depends on the continued larval recruitment, i.e. successful settlement by pelagic larvae into adult reef habitats and post-settlement survival through metamorphosis to a juvenile stage. There is growing evidence that changes to water conditions due to global change and waterborne pollution can impair coral-reef fish sensory abilities to locate settlement habitats that maximize growth while minimizing mortality risk. However, the inner mechanisms of such impairments remain unknown. In this thesis, I have examined the recruitment phase of the convict surgeonfish Acanthurus triostegus, and determined that the ecological, morphological, physiological and behavioral changes occurring at recruitment correspond to a metamorphosis mediated by thyroid hormones (TH). Then, I investigated whether this metamorphosis is prone to endocrine disruption under anthropogenic disturbances such as elevated sea water temperature and agricultural pesticide pollution. I demonstrated that such pressures can reduce TH levels at a critical developmental stage in coral-reef fishes, impairing their metamorphic processes such as intestine remodeling, sensory organ maturation, and sensory abilities acquisition, further increasing their mortality rates. Overall, this thesis is a holistic analysis that addresses molecular, histological, anatomical, and behavioral assays of multiple stressors affecting coral-reef fish recruitment. It indicates the importance of a proper endocrine function during coral-reef fish recruitment, highlighting the need for a better understanding of these processes for coral-reef conservation. Écologie sensorielle Hormones thyroïdiennes Acanthurus triostegus Perturbateurs endocriniens Changement climatique Chlorpyrifos Sensory ecology Thyroid hormones Acanthurus triostegus Endocrine disruption Climate change Chlorpyrifos
20	Métrologie optique en dynamique des fluides appliquées à l'écologie physique des insectes / Optical measurement techniques in the fluid dynamics of insect sensory ecology Steinmann, Thomas 06 March 2017 (has links) La capacité à percevoir des courants dans un fluide s'est développée chez de nombreuses espèces animales, dans des contextes écologiques très variés qui couvrent aussi bien les interactions proies-prédateurs, la sélection sexuelle ou l'orientation dans un environnement. Parmi ces espèces animales, les grillons détectent les courants d'air générés notamment lors de l'attaque de leurs prédateurs à l'aide de deux organes appelés "cerques", situés à l'arrière de leur abdomen et recouverts de poils mécano-sensoriels. Ces senseurs sont considérés comme les détecteurs les plus sensibles du monde animal. Il leur suffit de capter l'énergie d'un dixième d'un photon pour déclencher un potentiel d'action au niveau du neurone sensoriel. Ce manuscrit présente à la fois le développement des outils de mesures sans contact adaptés à ces questions d'écologie sensorielle ainsi que les méthodes numériques simulant les processus physiques à l'oeuvre. L'étude du fonctionnement des senseurs a nécessité l'adaptation des méthodes de mesures non intrusives de très grande précision tel que la Vélocimétrie par Imagerie de Particules (PIV). La couche limite oscillante dans laquelle évoluent les poils a été visualisée et a servi à déterminer la réponse de poils modélisés par des systèmes oscillatoires du second ordre. Le couplage visqueux entre poils a été lui aussi caractérisé en adaptant la PIV à des mesures à très petites échelles sur des poils biomimétiques micro-electro-mécanique (MEMS). Les mesures des perturbations générées lors des attaques d'araignées, principales prédatrices des grillons, nous ont aidé à valider des modélisations numériques, réalisées à l'aide des techniques de dynamique des fluides computationnelles (CFD) par résolution des équations de Navier Stokes via la méthode des éléments finis (FEM). La mise au point et l'utilisation de techniques de métrologie optique en dynamique des fluides semi-visqueux et l'analyse des données nous permettent de revisiter la sensibilité extrême du système sensoriel du grillon et de placer ces mesures dans un contexte plus large, d'écologie sensorielle. En particulier, nous montrons que ces soies sont placées en groupe compact et exercent entre elles un fort couplage aérodynamique visqueux, qui réduit fortement leur sensibilité "de groupe". Ce fort couplage interroge l'intérêt d'avoir des récepteurs aussi performants individuellement, s'ils perdent leur sensibilité lorsqu'ils fonctionnent en réseau. Finalement, les réactions des poils à des mouvements de fluides générés par un piston mimant les attaques réelles d'araignées ont pu être déterminées à l'aide d'une caméra rapide, puis simulées et validées après avoir développé un modèle mécanique du poil répondant à des stimuli transitoires. / Flow sensing is used by a vast number of animals in various ecological contexts, from preypredator interactions to mate selection, and orientation to flow itself. Among these animals, crickets use hundreds of filiform hairs on two cerci as an early warning system to detect remote potential predators. Over the years, the cricket hairs have been described as the most sensitive sensor in the animal kingdom. The energy necessary for the emission of an action potential by its sensory neuron was estimated to be a tenth of the energy of a photon. This PhD thesis aims to describe recent technological advances in the measurement and model of flows around biological and artificial flow sensors in the context of organismal sensory ecology. The study and understanding of the performance of sensory systems requires a high spatial precision of non-intrusive measurement methods. Thus, non-contacting measurement methods such as and Particle Image Velocimetry (PIV), originally developed by aerodynamics and fluid mechanics engineers, have been used to measure flows of biological relevance. The viscous oscillatory boundary layer surrounding filiform hairs has been visualized and used as input to model the mechanical response of these hairs, described as second order mechanical systems. The viscous hydrodynamic coupling occurring within hair canopy was also characterized using PIV measurements on biomimetic micro-electro-mechanical systems (MEMS) hairs, mimicking biological ones. Using PIV, we have also measured the air flow upstream of hunting spiders. We prove that this flow is highly conspicuous aerodynamically, due to substantial air displacement detectable up to several centimeters in front of the running predator. This disturbance of upstream air flows were also assessed by computational fluid dynamics (CFD) with the finite elements method (FEM). The development of non-intrusive measurement and CFD methods and their application to the analysis of the biological flow involved in cricket sensory ecology allowed us to revisit the extreme sensitivity of cricket filiform hairs. We predicted strong hydrodynamic coupling within natural hair canopies and we addressed why hairs are packed together at such high densities, particularly given the exquisite sensitivity of a single hair. We also proposed a new model of hair deflection during the arrival of a predator, by taking into account both the initial and long-term aspects of the flow pattern produced by a lunging predator. We conclude that the length heterogeneity of the hair canopy mirrors the flow complexity of an entire attack, from launch to grasp. Écologie sensorielle Écologie physique Poils filiformes Couche limite Bioinspiration Biomimétisme Écoulements visqueux Interaction proie-prédateur Biomécanique Sensory ecology Physical ecology Particle Image Velocimetry (PIV) Filiform hairs Boundary layer flow Biomimetism Bioinspiration Viscous flow Prey-predator interaction Biomechanics

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