Global ETD Search

101	CONTEXT-DEPENDENT INDIVIDUAL VARIATION IN FORAGING BEHAVIOUR AND PARENTAL CARE IN HOUSE SPARROWS Moldoff, David 01 January 2015 (has links) Behaviors can exhibit a wide degree of plasticity depending on the environmental context in which they are expressed. Despite this, repeatable differences have been found among and within individuals across a wide range of taxa. For my thesis, I investigated individual differences in foraging and parental care. In the first experiment, I assessed house sparrows (Passer domesticus) for domain-generality among neophobia, habituation and associative learning as they are all responses to novelty. While the results of the study find individual differences in each of these contexts the conclusion supported separate mechanisms for each response (domain-specificity). In the second experiment, I examined how the loudness of brood begging vocalizations influenced parent trip time, food load size brought to the nest and the amount of time spent in the box. The results of this study found individual differences in trip time and the time spent in the box with regard to the initial five seconds of begging loudness during a parent’s visit. Additionally, trip time was also influenced by the change in loudness within a visit. My findings reveal that individual variation may depend on the context in which individuals are measured. Animal Behaviour Individual Differences Phenotypic Plasticity Reaction Norm Foraging Parental Care Behavior and Ethology Biology Ecology and Evolutionary Biology Other Ecology and Evolutionary Biology Terrestrial and Aquatic Ecology
102	Multiple responses by Cerulean Warblers to experimental forest disturbance in the Appalachian Mountains Boves, Than James 01 December 2011 (has links) The Cerulean Warbler (Setophaga cerulea) is a mature forest obligate and one of the fastest declining songbird species in the United States. This decline may be related to a lack of disturbance within contemporary forests; however, the consequences of disturbance on the species have not been rigorously evaluated. Thus, we assessed multiple responses by Cerulean Warblers to a range of experimental forest disturbances across the core of their breeding range in the Appalachian Mountains. We quantified individual and population responses to these manipulations, and assessed the potential consequences of disturbance on the sexual signaling system. Male ceruleans were strongly attracted to intermediate and heavy disturbances at the stand scale. Despite attraction to disturbed habitats, nest success declined in these conditions, particularly in the highly productive Cumberland Mountains of northern Tennessee. Taken together, these opposing responses suggest that anthropogenically-disturbed forests may act as local ecological traps, but the impact of these local traps on the global population is dependent on several unestimated parameters. At a finer scale, selection for habitat features varied spatially. Males consistently selected for territories near canopy gaps and on productive slopes, but they displayed inconsistent territory selection in regards to tree diameter, basal area, overstory canopy cover, and canopy height. Females were more consistent in their selection of features within territories, selecting nest patches with large, well-spaced trees near disturbances. Floristically, female ceruleans consistently selected for sugar maples (Acer saccharum), white oaks (Quercus alba), and cucumber magnolias (Magnolia acuminata) as nest trees and they selected against red maples (A. rubrum) and red oaks (Q. rubra). Disturbances had little effect on male age structure, but males that occupied disturbed forest habitat were in better condition than those in undisturbed habitat. Parental behavior differed among disturbances, with birds in more highly disturbed habitats provisioning their young at greater rates, but bringing smaller food loads, potentially helping to explain the decrease in nest survival in disturbances. Finally, we found that male ceruleans displayed various plumage ornaments that signaled individual quality. However, the relationship between breast band width and body mass was contingent on habitat, and only existed in intermediate disturbances. Setophaga cerulea forest management avian ecology ecological trap disturbance ecology sexual signaling Behavior and Ethology Forest Management Population Biology Terrestrial and Aquatic Ecology
103	Feeding Ecology of the Invasive Lionfish (Pterois spp.) and Comparison with Two Native Species: Schoolmaster Lutjanus apodus (Walbaum, 1792) and Graysby Cephalopholis cruentata (Lacepède, 1802) Secord, Jesse J 08 December 2015 (has links) Predator satiation and prey-size preference were determined for locally caught lionfish, schoolmaster, and graysby, all co-occurring predatory fishes in the Florida coral reef ecosystem. Individuals were evaluated by exposing them to wild-caught killifish over a gradient of four size classes (20 mm to 60 mm, in 10 mm increments). Preference trials extended over a 2 hr time period and were filmed to determine the order in which each prey item was consumed. Satiation was evaluated by exposing the predators to an equal number of excess prey items for 24 hrs and evaluating consumed prey weight. Lionfish and schoolmaster showed a significant preference for the smallest size class (20-30 mm) while the graysby preferred the largest (50-60 mm) and smallest equally. Graysby were shown to consume the least amount of food per gram by biomass (0.034g/gram predator-1) while lionfish consumed the most (0.079g/gram predator-1). A significant difference was also found between consumption rates of lionfish and schoolmaster (0.053g/gram predator-1). If consumption is compared by length between species, lionfish ( = 0.051g/mm predator-1) and schoolmaster ( = 0.061g/mm predator-1) consumption was not significantly different. These results suggest that lionfish success may stem from its ability to target prey sizes not preferred by the graysby while able to outcompete schoolmaster for the same prey size class. However, if the lionfish is compared on an individual level to schoolmaster by individual or length, consumption is similar, suggesting lionfish consumption is not significantly greater on the reef than the native species on an individual basis. Pterois volitans Lionfish Lutjanus apodus Schoolmaster Cephalopholis cruentata Graysby Preference Satiation Behavior and Ethology Marine Biology Terrestrial and Aquatic Ecology
104	Differential Use of Two Warm-Water Effluents by the Florida Manatee (Trichechus manatus latirostris) and Temporal Distributions throughout Broward County, Florida Eldredge, Laura F 27 July 2017 (has links) The threatened Florida manatee (Trichechus manatus latirostris) migrates seasonally to warm-water refugia throughout the state of Florida due to metabolic requirements from low thermal conductance. Broward County’s two power plant refugia, Port Everglades (PEP) and Lauderdale (LPP), are known heavily-utilized aggregation sites for the Atlantic sub-population. Broward County collected relative abundance counts via aerial surveys from 2004–2013 siting 31,418 manatees during 169 surveys within 18 defined waterway zones. Counts during manatee wintering seasons were significantly different from January 2005-March 2008 and November 2008-March 2013, likely related to flight path and frequency standardization. Mean percentage of adults (90.12%) to calves (9.88%) demonstrates a higher usage by cow-calf pairs than other aggregation sites. Counts of manatees traveling south to Miami-Dade County comprised only 0.83% of all aerial counts, contrary to the theory of the extensive usage of Biscayne Bay foraging grounds. The LPP zone had 57.21% of all manatees with Port Everglades Inlet zone accounting for 23.88% and the South Fork New River zone with 5.95%. This study provided a baseline for pre-construction distributions prior to Port Everglades plant reenergization. With PEP construction now finished and LPP planned for reenergization in the next 10 years, monitoring data studies be compared to these baseline data to better assess the impact of the disruption of Broward County’s main refugia sources. Florida Manatee Trichechus manatus latirostris Power Plant Broward County Aerial Survey Warm Water Refugia FPL Temporal Distribution Behavior and Ethology Ecology and Evolutionary Biology Environmental Studies Marine Biology
105	The Soundscape of the St. Johns River and its Potential Impacts on the Habitat Use Patterns of Bottlenose Dolphins King, Carissa DeeAnn 01 January 2017 (has links) The development of effective management plans for animal populations relies on an understanding of how the population is utilizing the habitat as well as the identification of any critical habitat areas. The St. Johns River (SJR), an urban estuary with a high level of anthropogenic disturbance, is home to a resident population of bottlenose dolphins (Tursiops truncatus). In chapter one, SJR dolphin habitat use patterns, the factors that influenced these patterns, and the critical habitat areas were identified. Significant associations were found in most pair-wise comparisons between season, behavioral state, group size, water depth, and location, indicating that the overall habitat use patterns of SJR dolphins were influenced by complex interactions among these variables. Additionally, two critical habitat areas were identified. Both critical habitats had high levels of anthropogenic activity and the SJR will undergo further development during the Jacksonville Port expansion project. In conjunction with increasing levels of activity, anthropogenic sound can have numerous effects on cetaceans including the masking of signals, alterations in behavior, abandonment of critical habitats, and physiological stress. In chapter two, the soundscape of the SJR was characterized to evaluate the potential impacts of anthropogenic sound on SJR dolphins. Sound levels in the SJR were consistently high and anthropogenic sound was pervasive throughout the river. Therefore, the dolphins in the SJR are at risk of experiencing long-term behavioral and physiological stress due to anthropogenic sound. Together, this work provides valuable knowledge about dolphin habitat use and the soundscape ecology of an urbanized estuary that will enable more informed management decisions and hopefully lead to more effective conservation practices. Thesis University of North Florida UNF Bottlenose dolphin habitat use soundscape anthropogenic sound Behavior and Ethology Biology
106	Examining Movement and Habitat Selection of Everglades Fishes in Response to Seasonal Water levels Hill, Gregory J 10 March 2017 (has links) Fish distribution patterns and seasonal habitat use play a key role in the food web dynamics of aquatic ecosystems, including the Florida Everglades. In this study I examined the fine scale habitat shifts and movements of spotted sunfish, Lepomis punctatus across varying seasons and hydrologic conditions using in-situ field enclosures and Passive Integrated Transponder (PIT) systems. Data on fish use of three dominant Everglades marsh habitats and activity level were recorded continuously from January to August, 2015. Fish were more active and had the highest use of higher elevation habitats when water levels rose during an experimental reversal in mid-April. Fish activity was higher at increasing water levels relative to decreasing. Fish activity also varied with the rate of change, with the highest activity occurring during rapid increases in depth. Findings from this study provide insight on how fish response to changing water levels may affect foraging for wading birds, a key performance measure for Everglades restoration. fish ecology movement habitat Everglades water birds LILA Telemetry Animal Studies Behavior and Ethology Environmental Studies Integrative Biology Other Animal Sciences Other Ecology and Evolutionary Biology Terrestrial and Aquatic Ecology Zoology
107	Applying Ecological Theory to Amphibian Populations to Determine if Wood Frogs (Lithobates sylvaticus) are Ideal and Free when Selecting Breeding Habitat Braunagel, Taylor M 02 April 2021 (has links) Amphibian populations are declining globally due to a litany of factors including pollution, disease, climate change, and most importantly, habitat destruction. As most amphibian life histories involve their populations being recruitment limited, focusing on the mechanism behind breeding habitat selection will reveal useful cues that managers may use to increase abundance and breeding success. Though there are many theoretical models that describe the distribution of animals in response to a resource, the ideal free distribution (IFD) theory has not yet been applied to amphibian settling decisions. Through this application of the IFD, I have found that a population of wood frogs (Lithobates sylvaticus) in Patuxent National Wildlife Refuge select vernal pools that are large, deep, and hold water into the summer months to breed from 2010-2015. This information will provide managers with the ability to predict sites where wood frogs will breed in the future, as well as describe the cues that wood frogs are cueing in on so we can protect, alter, or create ideal breeding habitat. Ecological theory IFD Lithobates sylvaticus Breeding habitat selection Amphibian conservation Ideal Free Distribution Habitat selection models Behavior and Ethology Other Ecology and Evolutionary Biology Population Biology
108	Factors Affecting Green Turtle Foraging Ecology Across Multiple Spatial Scales Whitman, Elizabeth Rose 15 October 2018 (has links) The hierarchical levels at which resource selection occurs can have important consequences for individual and population energy budgets and structure the impacts of a forager on its ecosystem. Assessing factors affecting resource selection of large marine herbivores across scales is important because of their potentially large impacts on seagrass community dynamics and historical and current changes in their population sizes and those of their potential predators. I explored the factors (predation risk, resource abundance, quality and identity) affecting resource use of large marine herbivores (green turtles, Chelonia mydas) from the scale of habitat patches to forage species within patches. I used a combination of in-water surveys, aerial drone video transects, baited camera surveys, and seagrass community and nutrient content analyses to provide insights into resource use by turtles in multiple ecological contexts. In Abaco, The Bahamas I found relatively intact shark populations, including apex predators, relative to other parts of the Caribbean. In the context of healthy predator populations in Abaco, I tested a priori predictions rooted in Ideal Free Distribution (IFD) theory. Green turtles off Abaco deviated from predictions of an IFD determined by the standing stocks of seagrass. Instead, distributions are consistent with predictions of the foraging arena hypothesis with turtles largely restricted to safe habitat patches and selecting locations within these where seagrass N content is relatively high. Marine invasive species can have detrimental effects on coastal ecosystems and economies. Therefore, understanding the effects of, and factors influencing the rate of spread of the invasive seagrass Halophila stipulacea in the Caribbean is important. In the French West Indies (Guadeloupe, Martinique and St. Martin), I investigated foraging preferences for native versus invasive seagrass species and whether green turtles might facilitate or attenuate the invasion through their choice of habitats and feeding patterns. Green turtle distributions were correlated with native seagrass distributions. Also, despite similar nutrient contents, turtles preferred feeding on native seagrasses irrespective of their relative abundance within a patch. These results suggest that, as predicted by the Enemy Release Hypothesis, green turtles likely facilitate the invasion and spread of the invasive seagrass that may reduce energy flow into turtle populations. Chelonia mydas Ideal Free Distribution invasive plants seagrass risk effects Halophila stipulacea The Bahamas French West Indies Behavior and Ethology Biology Other Plant Sciences Population Biology
109	Time-Memory Behavior Yields Energetically Optimal Foraging Strategy in Honey Bees. Van Nest, Byron N. 08 May 2010 (has links) (PDF) Classical experiments on honey bee time-memory showed that foragers trained to collect food at a fixed time of day return the following day with a remarkable degree of time-accuracy. A series of field experiments revealed that not all foragers return to a food source on unrewarded test days. Rather, there exist two subgroups: "persistent" foragers reconnoiter the source; "reticent" foragers wait in the hive for confirmation of source availability. A forager's probability of being persistent is dependent both on the amount of experience it has had at the source and the environmental conditions present, but the probability is surprisingly high (0.4-0.9). Agent-based simulation of foraging behavior indicated these high levels of persistence represent an energetically optimal strategy, which is likely a compromise solution to an ever-changing environment. Time-memory, with its accompanying anticipation, enables foragers to improve time-accuracy, quickly reactivating the foraging group to more efficiently exploit a food source. agent-based model social insects food-anticipatory activity foraging Apis mellifera time-memory Behavior and Ethology Ecology and Evolutionary Biology Entomology Life Sciences
110	Comparative Thermal Ecology of Coastal and Inland Pacific Rattlesnakes (<i>Crotalus Oreganus</i>) Crowell, Hayley Layne 01 May 2019 (has links) (PDF) Global biodiversity is declining as a direct result of anthropogenic climate change. Ectothermic species have become focal organisms for studying the ecological effects of altered climates due to the clear relationship between environmental temperatures and ectotherms’ basic physiological functions. Historically, examinations of these effects have focused heavily on heliothermic lizards, and most others have tended to focus on single populations or sympatric species within a single community. Addressing the longterm energetic implications of environmental temperature variation will provide valuable insight into the cascading physiological effects that certain populations or species may experience as a result of altered climates. In this study, we used thermal and behavioral data collected between 2010 and 2017 from four distinct populations of Pacific rattlesnakes (Crotalus oreganus) on the Central Coast of California. Two of these populations occupy thermally mild, coastal habitats while the other two occupy more thermally dynamic, inland habitats. Using operative temperature models, surgically implanted temperature loggers, and radiotelemetry, we collected data on the thermal microhabitats available within each of these study sites as well as field active body temperatures for 85 individual snakes. With the addition of a lab-derived preferred body temperature range, we determined the thermal quality of each site and the thermoregulatory accuracy of snakes from each population. Field behavioral observations, gathered from snakes at all four sites simultaneously during the year 2017, revealed how snakes utilize the thermal landscape and adjust thermoregulatory behavior to mitigate the effects of different climates. Although overall thermal quality was best at coastal sites, thermal quality of the microhabitats within each site varied greatly. Consistent with findings in other squamate reptiles, inland snakes thermoregulated more accurately, despite being in more thermally constrained environments. Despite the fact that coastal snakes had lower mean field active body temperatures, the preferred body temperatures of snakes were the same across all four sites. However, field active body temperatures were consistently lower than the preferred range, suggesting there are additional variables that influence thermoregulatory behavior. Using established equations estimating the resting metabolic rates of snakes based on body mass and temperature, we calculated resting metabolic rate and annual baseline maintenance energy expenditure for each population. Coastal snakes, which had lower field active body temperatures, had overall lower metabolic rates than inland snakes, but upon correcting for mass, snakes at neither coastal nor inland sites differed in metabolic rates. Therefore, the majority of the differences observed in metabolic rates are driven by body size and not field-active body temperature. Inland snakes need, on average, approximately 1.6x more food annually than coastal snakes. Due to overall low resting metabolic rates, this translates to snakes at all sites needing less than one ground squirrel (their most common food item on the Central Coast) per year to fuel basic physiological functions. Finally, we used conservative predictive climate change models allowing either 1°C or 2°C increases to predict changes in the thermal quality of each site and ensuing changes in snake metabolic rates and maintenance energy expenditure. Due to the relatively high preferred body temperature of C. oreganus, thermal quality of the environment will actually increase under these climate models; due to an increase in ambient temperature, the proportion of hourly temperatures that fall within the preferred body temperature range will increase. If snake body temperature were to increase as the climate warms, a theoretical increase in body temperature of 1 and 2°C would have a low impact on the overall energetic needs of snakes, still allowing them to meet baseline maintenance energetic needs with only one large meal a year. Furthermore, we expect small increases in ambient temperature to have little impact on rattlesnakes because they are fairly precise thermoregulators, maintaining fairly constant body temperatures regardless of their thermal surroundings. Overall, our results show that studying the thermal ecology of multiple populations of a single species can reveal fine-scale information about the relationship between the thermal landscape and both ectotherm behavior and physiological processes. Additionally, our findings show that some species of large-bodied reptiles may be robust to modest thermal perturbations under conservative climate change predictions. thermal ecology metabolism climate change energetic requirements Crotalus Animal Experimentation and Research Behavior and Ethology Comparative and Evolutionary Physiology Integrative Biology Terrestrial and Aquatic Ecology

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