Browsing by Subject "Parasite"
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Item Open Access Northward Expansion of Bopyrid Isopod Parasites in Daggerblade Grass Shrimp in Cape Cod, MA(2022-04-21) Wilczek, ElizaThe daggerblade grass shrimp, Palaemonetes pugio, is among the most abundant species of shrimp inhabiting estuaries along the East Coast and the Gulf of Mexico. They play an important trophic role as epiphyte grazers, detritivores, and prey for many commercially and ecologically important species. Due to the vital role they play in these estuarine environments, any change in their population has the potential to alter community composition and disrupt ecosystem functioning. Grass shrimp are also the definitive host of bopyrid isopod Probopyrus pandalicola, an ectoparasite that decreases energy availability and prevents reproduction by sexually sterilizing its female host, potentially decreasing shrimp populations. The bopyrid isopod has been reported in grass shrimp in the Southeastern U.S at rates ranging from .001% to 5.7% but has not been documented north of Maryland. This project documents the prevalence of P. pandalicola parasitized P. pugio in Cape Cod, Massachusetts after receiving personal observations of bopyrid isopods parasitizing grass shrimp at Long Pasture Wildlife Sanctuary in 2019. Findings in this study indicate a northward expansion of P. pandalicola in a novel host population of P. pugio at rates higher than previously reported in the literature. Based on this research, we are working on establishing a long-term monitoring program with Long Pasture Wildlife Pasture to manage this population of bopyrid isopods.Item Open Access Parasite-induced Behavior Modification to the Circatidal Rhythm of the Atlantic Mole Crab, Emerita talpoida(2017-05-12) Loh, DonovanParasites with complex life cycles require transmission from their intermediate host to their definite host to reach sexual maturity. In some parasite-host systems, parasites manipulate the behavior of their intermediate host to enhance transmission to their definitive host. This mode of transmission is termed parasite increased trophic transmission. While there are many examples of parasites inducing atypical behavior in their hosts, little is known about the ability of parasites to modify host biological rhythms. In this study, I examined the effects of parasite load on the strength of host biological rhythms, using the Atlantic mole crab (Emerita talpoida) as a model. Mole crabs are common inhabitants of the swash zone of sandy beaches along the east coast of the United States. They exhibit activity rhythms that are entrained to the tides and act as intermediate hosts for trematode parasites (Microphallus sp.) and acanthocephalan parasites (Profilicollis sp.). For this study, behavioral assays were performed to quantify the strength of the circatidal rhythms of mole crabs before they were dissected to determine parasite load. On average, rhythmic crabs were found to have significantly greater trematode loads but not acanthocephalan loads compared to arrhythmic crabs. This result is further supported by a logistic regression analysis, which revealed trematode load as the most significant predictor of rhythmicity amongst other demographic variables such as size, sex, ovigerity and month of collection. Overall, results from this experiment support the hypothesis that parasites may influence the biological rhythms of their hosts, presenting an additional mechanism through which parasites may enhance trophic transmission.Item Open Access Water Scarcity, Distribution, and Quality as Drivers of Lemur Behavior(2019) Amoroso, Caroline RuskBecause water is essential for life, when it is scarce, it may be one of the most important drivers of animal behavior. Despite its clear importance, water is relatively poorly studied in terms of its impact on primate behavior, and previous research has been limited to observational studies. This dissertation takes a combined experimental and observational approach to study behavior related to water acquisition in captive and wild lemurs. Specifically, I investigated how several dimensions of water sources influence lemur behavior, including their parasite transmission risk, spatial distribution, and predation risk. In experiments, I manipulated the fecal contamination of water with several species of lemurs in captivity at the Duke Lemur Center, and found that lemurs strongly preferred clean to feces-contaminated water in captivity (Chapter 2). I expanded this initial study to a more comprehensive examination of the impact of water scarcity on the behavior of wild red-fronted lemurs (Eulemur rufifrons) in Kirindy Forest, Madagascar. This wild study population requires drinking water to survive, but water is extremely limited during the dry season. I experimentally manipulated water availability in the habitat by introducing artificial water sources, and I tracked how changes to the distribution of water influenced the ranging patterns of the lemurs recorded by GPS collars. Lemur groups shifted the intensity of their habitat use relative to natural and experimental water availability (Chapter 3). Using a similar experimental approach to the study in captivity, I determined that wild, water-limited lemurs also preferred to drink clean water. Based on lemur groups’ selection of natural water sources as measured with camera traps, wild lemurs also selected water sources with lower fecal contamination more frequently, but with some constraints. Lemurs were more likely to return to waterholes and returned to them after shorter time intervals when they had lower levels of fecal contamination in the areas around them. However, lemurs’ natural waterhole choices reflected that fecal contamination was a secondary factor determining water source selection, behind travel distance (Chapter 4). Finally, I examined how predation risk, i.e. the presence of fossa (Cryptoprocta ferox) and Madagascar harrier hawks (Polyboroides radiatus), influenced red-fronted lemurs’ spatiotemporal patterns of waterhole use. Red-fronted lemurs used waterholes at times of day when predators were least likely to be present (Chapter 5). This study, with its combined experimental and observational approach, identifies water as an important factor that shapes wild primate behavior. I found that lemurs were flexible in their responses to changes in water distribution, parasite risk, and predation risk. I suggest that water should be the focus of future behavioral research in primates, especially given the relevance of water for human evolution and the potential for climate change and human land use to further alter water availability.