Thermal navigation in larval zebrafish

Robson, Drew Norman

08 June 2015

Navigation in complex environments requires selection of appropriate actions as a function of local cues. To gain a quantitative and mechanistic understanding of zebrafish thermal navigation, we have developed a novel assay that requires animals to rely exclusively on thermosensory information in the absence of other cues such as vision or mechanosensation. We show that zebrafish use both absolute and relative temperature information to restrict their locomotor trajectories to a preferred temperature range. We identify components of movement that are modulated solely by absolute temperature, as well as components that are modulated by both absolute and relative temperature. Specifically, we find that dwell time between movements and displacement per movement depend solely on absolute temperature, whereas turn magnitude and turn direction bias are modulated by absolute and relative temperature. To evaluate whether these sensorimotor relationships could explain thermal restriction in our navigation assay, we performed Monte Carlo simulations of locomotor trajectories based on all or subsets of these relationships. We find that thermosensory modulation of turn magnitude and turn direction bias constitute the core navigation strategy in larval zebrafish, while modulation of dwell time accelerates the execution of this strategy at noxious temperatures. Modulation of turn direction bias represents a novel strategy not found in invertebrate models, whereby animals correct unfavorable headings by preferentially turning in a preferred turn direction until they obtain a favorable heading. Modulating turn direction bias in response to recent sensory experience is an effective strategy for selecting favorable headings in organisms that do not have a dedicated sampling phase before each reorientation event.

Neurosciences

Animal behavior

Behavioral sciences

thermotaxis

zebrafish

ENVIRONMENTAL ASPECTS CONCERNING THE ONSET OF THE FORAGING FLIGHT IN THE CAVE BAT MYOTIS VELIFER

McKinley, Earl Gene, 1935-

January 1971

No description available.

Bats -- Arizona.

Animal behavior.

Mammals -- Arizona.

The role of context in filial imprinting : neurophysiological studies

Town, Stephen Michael

January 2012

No description available.

590

Penile responses to stimulation of the medial preoptic area of the hypothalamus in rats

Courtois, Frédérique J.

January 1986

No description available.

Animal behavior

Psychology, Comparative.

Rats.

Hypothalamus.

To hunt or not to hunt? : a feeding enrichment experiment with captive wild felids

Bashaw, Meredith Joy

05 1900

No description available.

Animal behavior

Felidae Feeding and feeds

Felidae Behavior

A comparative evaluation of naturalistic habitats for captive lowland gorillas (Gorilla gorilla gorilla)

Ogden, Jacqueline Jean

05 1900

No description available.

Gorilla Behavior

Animal behavior

Laboratory animals Housing

Pairing in captive chilean flamingos as a function of social separation methods

Reinertsen, Megan E.

05 1900

No description available.

Animal behavior

Flamingos Behavior

Sexual behavior in animals

Aldabra tortoises (Geochelone gigantea) : enriching their captive environment

Katka, Jill Diane

12 1900

No description available.

Testudinidae Behavior

Animal behavior

Testudinidae Feeding and feeds

Quantitative studies of the variation in movement patterns used by predators

McLaughlin, Robert L. (Robert Louis)

January 1990

A literature review shows that qualitative dichotomies describing interspecific differences in the movement patterns of foraging animals are widely-used and biologically important, but fraught with ambiguity. Consistent use of the terminology from foraging theory and stronger quantification are proposed to increase clarity and facilitate more rigorous tests of hypotheses. Greater consideration of intraspecific variation is also needed. In forest bird and lizard communities, move-frequency distributions are bimodal, supporting a dichotomous view, but there is important variation within the statistical modes. Fish species with more red muscle are more mobile than species with less red muscle, but the frequency distribution of the proportion of red muscle does not match subjective, dichotomous classifications. A quantitative field investigation of foraging young-of-the-year brook charr (Salvelinus fontinalis) reveals significant individual differences in movement patterns that are more strongly related to microhabitat use and diet, than to morphological and environmental parameters thought to influence swimming capability.

Predation (Biology)

Animal behavior

Brook trout.

The Perceptual and Decision-Making Processes Guiding Species and Sex Recognition and Rival Assessment in the Jumping Spider Lyssomanes viridis

Tedore, Cynthia Anne

January 2013

<p>The goal of this dissertation was to better clarify the sensory and cognitive capabilities and limitations of a size-constrained animal. Because visually-guided behaviors are more experimentally tractable than behaviors guided by other sensory modalities, I chose to study a small animal with an unusually good visual system and a suite of apparently visually-guided behaviors, the jumping spider <i>Lyssomanes viridis</i> (Salticidae). Jumping spiders' principal eyes, which are adapted for the perception of shape and pattern, have the highest measured acuity of any arthropod, but also the narrowest field of view, making salticids a particularly interesting study system for measuring the capabilities and limitations of a tiny animal with small yet apparently highly functional eyes. For my dissertation, I examined the amount and type of visual information gathered in high-stakes encounters; i.e. species and sex recognition and male-male contests over females. In salticids, the wrong assessment of species and sex or fighting ability carries with it the risk of injury or even death. Thus, more information, and especially high-resolution information, should be particularly adaptive in such encounters, and should provide us with a good proxy of the perceptual and cognitive capabilities and limitations of this small animal. </p><p>In chapter two, I assayed the amount and type of visual information gathered in the context of species and sex recognition, and tested for crossmodal interactions between pheromones and visual cues. Using computer-animated stimuli, I found that, although males took the time necessary to visually scan both the face and legs of other spiders before deciding whether to threaten, court, or ignore them, their conspecific visual recognition templates were fairly coarse, and resulted in them making numerous misidentifications and frequently courting heterospecific salticids. This was especially true in the presence of conspecific female pheromones. Pheromones appeared to exert further top-down effects on visual recognition of conspecifics by bringing visual recognition templates into working memory, as was inferred from the fact that males spent less time examining conspecific images in the presence of conspecific female pheromones. Pheromones also increased the probability that a non-conspecific spider bearing even a slight resemblance to a conspecific female spider would be recognized and courted as a conspecific female. However, pheromones usually did not hasten the recognition of non-conspecific images; this indicates that males' poorer recognition accuracy in the presence of pheromones was not a result of males' spending less time visually examining non-conspecific images. </p><p>In chapter three, I looked for correlations between various visual features and contest success in order to determine what types of visual information opponents could theoretically use to assess their opponents' resource holding potential in contests over females. I found that all measured size-related traits correlated strongly with contest success, but that coloration did not, except in the rare cases in which a smaller male won a contest. In these encounters, males who won, despite being smaller, had less red chelicerae than their opponents. Finally, in chapter four, I used the results of chapter three to begin assessing whether the traits that correlate with contest success are actually assessed by males, and in particular, whether they are assessed visually. To do this, I presented males with various sizes of computer-animated opponents, and found that males were less likely to threaten larger opponents. Thus, males seem to be using visual cues to gather information about the size of their opponents. Whether they evaluate overall size, or more specifically, the size of their opponents' weapons, will be addressed in future work.</p> / Dissertation

Animal behavior

Evolution & development

Ecology