Spelling suggestions: "subject:"predators behavior""
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The Impact of Avian Predation on the Brush-Legged Wolf Spider, <i>Schizocosa Ocreata</i> (Hentz), and Anti-Predator Responses to Avian CuesLohrey, Anne K. January 2007 (has links)
No description available.
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Learning to recognize and generalize the sight of predators and non-predators : does turbidity impair recognition?2013 February 1900 (has links)
To be successful, individuals that are susceptible to predation have to optimize the trade-offs between predator avoidance and other fitness related activities such as foraging or reproduction. One challenge for prey is to identify which species pose a threat and should be avoided, and which species should be ignored. The goal of this study was to investigate whether minnows can generalize recognition of predators and non-predators using visual cues. I conducted experiments in both clear and turbid conditions to test whether the level of turbidity affects the quality of visual information available to the prey and hence the ability of prey to generalize. Latent inhibition and learned irrelevance are mechanisms of learning that can be used by prey to recognize stimuli as non-risky. Repeated exposure to an unknown stimulus in the absence of risk leads to the stimulus being categorized as non-risky. Fathead minnows were pre-exposed to the sight of brook trout or control water to provide minnows the opportunity to learn to recognize the trout as a non-predator. Following this the fish were conditioned with alarm cues (AC) to the sight of each predator paired and then their responses to the sight of brook trout, rainbow trout, and yellow perch were tested either in clear or turbid water. In clear water, minnows conditioned to recognize one of the trout species generalized their response to the other species. However, when the minnows were pre-exposed to the sight of a brook trout, they were inhibited from subsequently recognizing the sight of brook trout as threat and generalized this non-predator recognition to the sight of rainbow trout but not to yellow perch.
In turbid water, however, minnows that were pre-exposed to the sight of brook trout had impaired responses to all predators while those pre-exposed to water showed an intermediate intensity anti-predator response toward each predator. Overall, my results demonstrate that minnows were able to distinguish between predators and non-predators in the clear environment but turbidity influences the visual information used by minnows and hence impaired the minnow’s ability to recognize and generalize the sight of predators and non-predator species.
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Interactions between Spider Mites and Predators in Systems with Dispersal Opportunities / 分散可能な環境でのハダニと捕食者の攻防Otsuki, Hatsune 23 March 2020 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第22475号 / 農博第2379号 / 新制||農||1074(附属図書館) / 学位論文||R2||N5255(農学部図書室) / 京都大学大学院農学研究科地域環境科学専攻 / (主査)教授 日本 典秀, 教授 田中 千尋, 准教授 刑部 正博 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
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Behavioral study of expression of body patterns for avoiding predation in the pharaoh cuttlefish Sepia pharaonis / トラフコウイカにおける捕食回避に関わる体色表出の行動学的研究Okamoto, Kohei 24 September 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第19262号 / 理博第4117号 / 新制||理||1592(附属図書館) / 32264 / 京都大学大学院理学研究科生物科学専攻 / (主査)准教授 森 哲, 教授 沼田 英治, 教授 曽田 貞滋 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM
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Risk Perception, Alarm Call Usage, and Anti-predator Strategies in an Amazonian Primate, Pithecia rylandsiAdams, Dara B. January 2020 (has links)
No description available.
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Variation in predator communities and anti-predator behaviors of Milne-Edwards' sifakas (Propithecus edwardsi) in southeastern MadagascarKotschwar, Mary Wynne 10 August 2010 (has links)
To advance conservation in the increasingly fragmented landscape of Madagascar, we must examine the persistence and interactions of species in human-disturbed habitats. I investigated lemur-predator interactions in southeastern Madagascar through a comparison of predator communities and anti-predator behaviors of Milne-Edwards' sifakas (Propithecus edwardsi) in the continuous rainforest of Ranomafana National Park, and the forest fragments of Ialatsara Forest Station. I confirmed the presence of potential aerial predators at each site, but the sifakas' confirmed native mammalian predator, fossa (Cryptoprocta ferox), was absent from the fragmented site. Playbacks of predator vocalizations did not suggest that fragment-living sifakas have weakened anti-predator responses, but that their responses may be less specific than those of conspecifics in the continuous forest. I found that fragment-living sifakas displayed less downward vigilance and more frequently used low canopy heights; these behaviors may increase their vulnerability to recolonizing ground predators. I investigated local ecological knowledge (LEK) of carnivore ecology in communities 0–20 km from continuous forest to explore the potential for such recolonization. My findings from 182 interviews in 17 communities suggest that the fossa is especially sensitive to anthropogenic disturbance; it was only observed in communities ≤ 2.5 km from the continuous forest within the last five years. In contrast, the introduced small Indian civet (Viverricula indica) and wild cat (Felis silvestris) were distributed ubiquitously and displayed an affinity to human-dominated habitats. LEK surveys can provide information on the poorly understood responses of the Malagasy carnivores to the threats they face in a changing landscape. / Master of Science
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Effect of predator diet on foraging behavior of panopeus herbstII in response to predator urine cuesConnolly, Lauren E. 08 June 2015 (has links)
The ability of prey to detect and respond appropriately to predator risk is important to overall prey fitness. Many aquatic organisms assess risk through the use of chemical cues that can change with predator diet. Two variable characteristics of diet are: 1. prey type and 2. prey mass. To assess the effect of these two characteristics on the assessment of risk by the mud crab Panopeus herbstii, I exposed mud crabs to the urine of the blue crab Callinectes sapidus fed one of 5 diet treatments: 10g of oyster shell free wet mass, 5g of oyster shell free wet mass, 10g crushed mud crabs, 5g crushed mud crabs, and a mix of 5g of oyster shell free wet mass and 5g crushed mud crab. Effects on P. herbstii foraging were tested in a previously developed bioassay by measuring shrimp consumption over a 4 hour period. I hypothesized that P. herbstii would have a larger magnitude response to urine from C. sapidus fed a diet of crushed mud crabs than to urine from C. sapidus fed a diet of oysters. I further hypothesized that P. herbstii would have a larger magnitude response to urine from C. sapidus fed a high mass diet relative to a lower mass diet. Contrary to expectations there was no observed effect of urine on P. herbstii foraging in any of the treatments. Results suggest that bioassay protocol may be unreliable suggesting further replication to determine the difference between this study and previous results. Future studies examining how P. herbstii varies with urine concentration will aid in understanding the ecological scale of this predator cue system. Determining the role of other potential cue sources will improve the predictive abilities of these studies.
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Akuta och kroniska effekter av fluoxetin på antipredatorbeteende hos Asellus aquaticus / Acute and chronic effects of fluoxetine on anti-predator behavior of Asellus aquaticusHietanen, Kai-Henrik January 2017 (has links)
Fluoxetin är den aktiva substansen i många serotoninreglerande läkemedel som förs in i vattendrag. Substansen har visats påverka beteende av vattenlevande organismer som fiskar, mollusker och kräftdjur genom att öka deras djärvhet. I denna studie undersöktes fluoxetins akuta (på vildfångade individer) och kroniska (på labbuppfödda individer) effekter av koncentrationerna 0, 3 och 30 ng L-1 på Asellus aquaticus (sötvattengråsugga) antipredatorbeteende. Detta gjordes genom tre beteendetest: (1) tid att lämna refug, (2) spontan aktivitet samt (3) flyktbeteende under predationsrisk. Överlag hittades få eller inga effekter på A. aquaticus från fluoxetin. De effekter som dock påverkade individer signifikant visade att exponerade individer flydde en signifikant kortare (30 %) tidsperiod från en simulerad predatorattack. Utöver denna huvudeffekt av fluoxetin hittades även signifikanta skillnader i fluoxetins påverkan på de två grupperna, när individer blev utsatta för den högsta koncentrationen ökade vildfångade individer sin aktivitet (38 % fler stopp och 49 % mer rörelse) medan labbuppfödda individer sänkte sin aktivitet (43 % färre stopp och 37 % mindre rörelse). Individer som inte var exponerade visade signifikanta skillnader i alla beteendetest för de två grupperna. Det är troligt att beteendeskillnader är en följd av olika uppfödningsmiljöer, dock går det inte att utesluta att ändrade genfrekvenser uppkommit. Studien lyser sken på behovet av fler studier av långtidsexponering av läkemedelsrester, de är sällan akut giftiga men har däremot subletal påverkan i låga doser. / Fluoxetine is the active substance in many selective serotonin reuptake inhibitive pharmaceuticals that currently enters surface waters. The substance has been shown to affect behaviors of water living organism such as fish, molluscs and crustaceans by making them less cautious. This study investigated the acute (on wild caught individuals) and chronic (on lab reared individuals) effects of fluoxetine on the antipredator behavior of Asellus aquaticus for three concentrations; 0,3 and 30 ng L-1. Three tests were used to determine the effects: (1) time to leave a shelter, (2) spontaneous activity and (3) escape behavior under predation risk. Few statistically significant effects of fluoxetine on A. aquaticus were found. However, individuals exposed to fluoxetine had a significantly shorter (30 %) escape period. Besides this main effect of fluoxetine, significant interactions between the two groups and fluoxetine were also found. When exposed to the highest concentration wild caught individuals increased their spontaneous activity (38 % more stops and 49 % more movement), while lab reared individuals reduced their activity (43 % fewer stop and 37 % less movement). Furthermore, non-exposed individuals from the two groups behaved significantly different in all the tests. It is likely that the differences in behavior occurred due to environmental effects of laboratory rearing, although altered gene frequencies cannot be excluded. This study emphasizes the need for development of methods for more chronic testing of pharmaceuticals, especially considering that pharmaceuticals are seldom acutely toxic but often has sub lethal effects in low doses.
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