Global ETD Search

21	Mathematical Modeling of Intraguild Predation and its Dynamics in Ecology January 2012 (has links) abstract: A functioning food web is the basis of a functioning community and ecosystem. Thus, it is important to understand the dynamics that control species behaviors and interactions. Alterations to the fundamental dynamics can prove detrimental to the future success of our environment. Research and analysis focus on the global dynamics involved in intraguild predation (IGP), a three species subsystem involving both competition and predation. A mathematical model is derived using differential equations based on pre-existing models to accurately predict species behavior. Analyses provide sufficient conditions for species persistence and extinction that can be used to explain global dynamics. Dynamics are compared for two separate models, one involving a specialist predator and the second involving a generalist predator, where systems involving a specialist predator are prone to unstable dynamics. Analyses have implications in biological conservation tactics including various methods of prevention and preservation. Simulations are used to compare dynamics between models involving continuous time and those involving discrete time. Furthermore, we derive a semi-discrete model that utilizes both continuous and discrete time series dynamics. Simulations imply that Holling's Type III functional response controls the potential for three species persistence. Complicated dynamics govern the IGP subsystem involving the white-footed mouse, gypsy moth, and oak, and they ultimately cause the synchronized defoliation of forests across the Northeastern United States. Acorn mast seasons occur every 4-5 years, and they occur simultaneously across a vast geographic region due to universal cues. Research confirms that synchronization can be transferred across trophic levels to explain how this IGP system ultimately leads to gypsy moth outbreaks. Geographically referenced data is used to track and slow the spread of gypsy moths further into the United States. Geographic Information Systems (GIS) are used to create visual, readily accessible, displays of trap records, defoliation frequency, and susceptible forest stands. Mathematical models can be used to explain both changes in population densities and geographic movement. Analyses utilizing GIS softwares offer a different, but promising, way of approaching the vast topic of conservation biology. Simulations and maps are produced that can predict the effects of conservation efforts. / Dissertation/Thesis / M.S. Applied Biological Sciences 2012 Ecology Applied mathematics Conservation biology extinction intraguild predation mathematical modeling persistence spatial synchrony stability
22	Ecological Complexity of Non-Native Species Impacts in Desert Aquatic Systems Henkanaththegedara, Sujan Maduranga January 2012 (has links) Without an adequate understanding of complex interactions between native and non-native species, management of invasive species can result in unforeseen detrimental impacts. I used both field and laboratory experiments to study reciprocal species interactions between the endangered Mohave tui chub (Siphateles bicolor mohavensis) and invasive western mosquitofish (Gambusia affinis). I also examined the impacts of both fish species on the aquatic invertebrate communities in desert springs. I demonstrate a case of intraguild predation (IGP) as a mechanism facilitating co-persistence of the endangered Mohave tui chub with invasive mosquitofish using field mesocosm experiments. In this case of IGP, adult tui chub prey on adult and juvenile mosquitofish, while adult mosquitofish prey on tui chub eggs and/or larvae. I conducted laboratory predation trials to assess if IGP was size-structured due to predator gape-limitation. I explored sex specific differences in gape-size limitation in mosquitofish, because mosquitofish are sexually dimorphic. Larval tui chubs had lower survival in the presence of female mosquitofish than in the presence of males. Reciprocally, male mosquitofish had lower survival than the females in the presence of Mohave tui chub. These results combined with vulnerability modeling supported that IGP in this system is size structured based on gape-size limitation. These results collectively suggest size-structured IGP may facilitate the co-persistence of these two fish species. My findings also suggest that mosquitofish may not be a limiting factor for the persistence of the endangered Mohave tui chub. Further, habitats currently harboring mosquitofish were considered as future refuge habitats for Mohave tui chub, a management option previously un-available. In addition to such reciprocal interactions between fish species, recently established fish populations may impact unique invertebrate communities. Mesocosm experiments with sympatric and allopatric populations of tui chub and mosquitofish showed negative impacts of both fish species on changes of invertebrate community structure. Specifically, fish caused population declines and, in some cases, extirpations of various invertebrate taxa. These results suggest important conservation implications of invasive fish as well as protected fish transplants into fishless desert springs. Overall my research emphasizes the complexity of ecological interactions between native and non-native fish species in desert aquatic systems. Desert fish Desert spring invertebrates Intraguild predation Invasive species Mohave tui chub Mosquitofish
23	Eternal enemies, or incidental encounters? Structure and patterns of interspecific killing in Carnivora Bertin, Tor G 01 January 2019 (has links) Lethal interactions between carnivorans (interspecific killing) may influence their population dynamics, behavior, and other important aspects of their ecology. In this study, I expand upon previous research on the broad-scale patterns of interspecific killing in Carnivora (Palomares & Caro 1999, Donadio & Buskirk 2006) with a greatly expanded dataset (inclusion of scat and stomach data and more intensive sampling of the literature), and suggest avenues for future research. While like previous studies, I found a positive effect of relative body size between killer species and killed species on the likelihood of forming a killing interaction, I failed to find evidence that this effect had a body size ratio threshold above which interactions become less common, suggesting a greater role of non-competitive killing than previously believed. I also found evidence for a positive influence of range overlap and dietary overlap on species interactions, but found mixed effects of phylogeny. This study suggests that our previous understanding of the broad-scale dynamics interspecific killing in Carnivora was, due to limited sampling, incomplete in scope. Incidental killing, whereby killing interactions occur as a byproduct of opportunistic lethal encounters caused by the hyperpredatory behavior of carnivorans, has a number of interesting implications for our understanding of interspecies aggression, including research on intraguild predation and its effects. Carnivora Interspecific killing Competitive interactions Competition Predation Intraguild predation Other Ecology and Evolutionary Biology
24	FACTORS INFLUENCING THE SPATIAL AND TEMPORAL STRUCTURE OF A CARNIVORE GUILD IN THE CENTRAL HARDWOOD REGION Lesmeister, Damon B. 01 May 2013 (has links) (PDF) Ecological communities are most commonly structured by a mixture of bottom-up processes such as habitat or prey, competition within the same trophic level, and top-down forces from higher trophic levels. Carnivore guilds play a vital role in the broader ecological community by stabilizing or destabilizing food webs. Consequently, factors influencing the structure of carnivore guilds can be critical to patterns in ecosystems. Coyotes (Canis latrans), bobcats (Lynx rufus), gray foxes (Urocyon cinereoargenteus), raccoons (Procyon lotor), red foxes (Vulpes vulpes), and striped skunks (Mephitis mephitis) occur sympatrically throughout much of their geographic ranges in North America and overlap in resource use, indicating potential for interspecific interactions. Although much is known about space use, habitat relationships, and activity patterns of the individual species separately, little is known about factors that facilitate coexistence and how interactions within this guild influence distribution, activity, and survival of the smaller carnivores. For example, gray fox populations appear to have declined in Illinois since the early 1990s and it is unknown if the increase in bobcat and coyote populations during the same time period is the cause. I conducted a large-scale non-invasive carnivore survey using an occupancy modeling framework to quantify factors affecting the structure of this widely-occurring carnivore guild. I used baited remote cameras during 3-week surveys to detect carnivores at 1,118 camera-points in 357 2.6-km2 sections (clusters of 3-4 cameras/section) in the 16 southernmost counties of Illinois (16,058 km2) during January-April, 2008-2010. I collected microhabitat data at each camera-point and landscape-level habitat data for each camera-cluster. In a multi-stage approach, I used information-theoretic methods to develop and evaluate models for detection, species-specific habitat occupancy, multi-species co-occupancy, and multi-season (colonization and extinction) occupancy dynamics. I developed hypotheses for each species regarding the occupancy of areas based on anthropogenic features, prey availability, landscape complexity, and vegetative landcover. I used photographic data, Poisson regression, and mixed-model logistic regression to quantify temporal activity of carnivores in the study area and how interspecific factors influence temporal patterns of activity. Of the 102,711 photographs of endothermic animals I recorded photographs of bobcats (n = 412 photographs), coyotes (n = 1,397), gray foxes (n = 546), raccoons (n = 40,029), red foxes (n = 149) and striped skunks (n = 2,467). Bobcats were active primarily during crepuscular periods, and their activity was reduced with precipitation and higher temperatures. The probability of detecting bobcats at a camera point decreased after a bobcat photograph was recorded, suggesting avoidance of remote cameras. Across southern Illinois, bobcat occupancy at the camera-point and camera-cluster scale (point = 0.24 ± 0.04, cluster = 0.75 ± 0.06) was negatively influenced by anthropogenic features and infrastructure. Bobcats had high rates of colonization (0.86) and low rates of extinction (0.07) during the study, suggesting an expanding population, but agricultural land was less likely to be colonized. The number of coyote photographs decreased with increased temperature, but increased with previous coyote photographs, suggesting an attraction to bait in cold weather. Nearly all camera clusters were occupied by coyotes (cluster = 0.95 ± 0.03) during the entire study. At the camera-point scale, coyote occupancy (overall point = 0.58 ± 0.03) was higher in hardwood forest stands with open understories than in other habitats. Similar to coyotes, gray foxes were more likely to be photographed in cold weather and after a previous detection had occurred. However, gray fox occupancy was much lower (point = 0.13 ± 0.01, cluster = 0.29 ± 0.03) at all scales. At the camera-cluster scale, with a buffer-area size that represented 20% of the estimated home-range size of gray foxes, the species selected spatially-complex areas with high proportions of forest, and low proportions of grassland and agriculture land cover. Gray fox occupancy of camera clusters was positively related to anthropogenic features within 100% estimated home-range buffers. Collectively, the results suggest gray fox occupancy was greatest near, but not in, anthropogenic developments. Red foxes occupied a similar proportion of the study area as gray foxes (point = 0.12 ± 0.02, cluster = 0.26 ± 0.04), but were more closely associated with anthropogenic features. Indeed, at all three scales of red fox occupancy analysis, anthropogenic feature models received more support than other hypotheses. Camera-cluster extinction probabilities were higher for both gray foxes (0.57) and red foxes (0.35) than their colonization rates (gray fox = 0.16, red fox = 0.06), suggesting both species may be declining in southern Illinois. I recorded more striped skunk photographs in January and February (i.e., during the breeding period) than in March and April. Striped skunks occupied a large portion of the study area (point = 0.47 ± 0.01, cluster = 0.79 ± 0.03) and were associated primarily with anthropogenic features, especially if the features were surrounded by agricultural land and not forest. Raccoons were essentially ubiquitous within the study area, being photographed in 99% of camera clusters. In some instances, the presence of other carnivores appeared to be an important factor in the occupancy of the 4 smaller species, but in general, habitat models were more supported than co-occurrence models. Habitat had a stronger influence on the occupancy of gray foxes and red foxes than did the presence of bobcats. However, the level of red fox activity, represented by the number of photographs recorded in a camera cluster, was negatively correlated with bobcat activity. Gray fox occupancy and level of activity were reduced in camera-clusters occupied by coyotes, but were not related to bobcat occupancy. When not considering the presence of coyotes, gray foxes appeared to use camera points with fewer hardwood and more conifer trees, which was counter to previous findings. However, when adding the effect of coyote presence, gray fox point models indicated a positive relationship with hardwood stands. Therefore, gray foxes were more likely to occupy camera points in hardwood stands than conifer stands if coyotes were also present; suggesting that hardwood stands may enhance gray fox-coyote coexistence. The 2 fox species appeared to co-occur with each other at the camera-point scale more frequently than expected on the basis of their individual selection of habitat. Similarly, camera-point occupancy of red foxes was higher when coyotes were present. These apparent canid associations may be a response to locally-high prey abundance or an unmeasured habitat variable. Activity levels of raccoons, bobcats, and coyotes were all positively correlated. Collectively, my results suggest that although gray foxes and red foxes currently coexist with bobcats and coyotes, the foxes have reduced activity in the areas occupied by larger carnivores, especially when bobcats and coyotes are highly active. Further, hardwood stands may contain trees with structure that enhances tree-climbing by gray foxes, a behavior that probably facilitates coexistence with coyotes. Therefore, efforts to manage gray foxes should focus on maintaining and increasing the amount of mature oak-hickory forest, which presumably provides a suitable prey base and refugia from intraguild predation. Additionally, the varying results from different scales of analyses underscore the importance of considering multiple spatial scales in carnivore community studies. carnivore ecology community structure co-occupancy ecological sorting intraguild interactions multi-scale analyses
25	Factors Affecting Predation Of Marine Turtle Eggs By Raccoons And Ghost Crabs On Canaveral National Seashore, Fl Brown, Justin 01 January 2009 (has links) Changes in abundance of interactive species can have cascading, community-wide effects (Soule et al. 2003). Raccoons (Procyon lotor) prey on a competitor for marine turtle eggs, the Atlantic ghost crab (Ocypode quadrata). Conservation of marine turtles often includes managing raccoons-the most obvious egg predator-which may have broader ecological effects, and unknown effects on egg predation. Neither the relationship between raccoons and ghost crab density nor the effects of ghost crab density on egg predation are well understood. I studied raccoon-ghost crab interactions and the effects of environmental variation on their activity during the 2007 marine turtle nesting season on Canaveral National Seashore, FL. My goal was to model predator activity and identify efficient management strategies to reduce egg predation. Raccoon activity increased with increasing habitat diversity and edge of the dominant cover type, coastal strand. Raccoon activity increased locally and became less variable near segments of beach accessed for human recreation, but activity was greater on undeveloped beach, where habitat diversity and edge were greater. Ghost crab density and size were primarily affected by sand characteristics and recreation but decreased with increasing raccoon activity in June, which may have contributed to sustained declines in ghost crab density. Hatching success of marine turtles decreased with increasing ghost crab egg predation, suggesting ghost crabs are an important cause of egg mortality and not merely scavengers on unhatched eggs. Egg predation by ghost crabs was unrelated to ghost crab density or size, likely a result of monitoring limitations, but raccoon activity increased with increasing egg predation by ghost crabs, supporting previous research and experimental evidence suggesting ghost crabs can facilitate secondary nest predation by raccoons. This indirect interaction has strong implications for marine turtle conservation, because its strength may increase with increasing ghost crab density, potentially negating the effects of raccoon removal. raccoon ghost crab sea turtle loggerhead conservation intraguild predation nest predation recreation environmental variation Biology
26	INTERACTIONS AMONG TOP-DOWN REGULATORS IN A TEMPERATE FOREST FLOOR ECOSYSTEM: EFFECTS ON MACROFAUNA, MESOFAUNA, MICROBES AND LITTER DECAY Hickerson, Cari-Ann Marie 14 June 2010 (has links) No description available. Ecology food webs temperate forest floor intraguild predators trophic cascade competition Plethodon cinereus centipedes
27	Emerging Factors Associated With The Decline Of A Gray Fox Population And Multi-Scale Land Cover Associations Of Mesopredators In The Chicago Metropolitan Area Willingham, Alison N. 08 December 2008 (has links) No description available. Ecology urban mesopredator intraguild competition gray fox coyote raccoon opossum striped skunk domestic cat
28	Testing an Interference Competition Hypothesis to Explain the Decline of the Convergent Lady Beetle, Hippodamia convergens (Coleoptera: Coccinellidae), in Ohio Smith, Chelsea A. 19 July 2012 (has links) No description available. Biology Conservation Ecology Entomology intraguild predation egg predation biological control Hippodamia convergens Harmonia axyridis Coccinellidae
29	Dinâmica populacional de Spodoptera frugiperda (J. E. Smith) (Lepidoptera: Noctuidae) em milho safra e safrinha e competição entre Telenomus remus Nixon (Hymenoptera: Scelionidae) e Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) / Carneiro, Tatiana Rodrigues. January 2008 (has links) Orientador: Odair Aparecido Fernandes / Banca: Ivan Cruz / Banca: Antonio Carlos Busoli / Banca: Fernando Luís Cônsoli / Banca: Nelson Wanderley Perioto / Resumo: O presente trabalho objetivou avaliar a dinâmica populacional de S. frugiperda em ambientes de com alta e baixa diversidade vegetal no entorno da cultura do milho. Além disso, visou-se observar o comportamento e o processo de interação entre os inimigos naturais T. remus, T. pretiosum e D. luteipes. Em nenhuma das datas de avaliação estudadas detectou-se diferença significativa no número médio de adultos e posturas de S. frugiperda. Quanto ao número de lagartas/planta, as áreas de vegetação não diversificada apresentaram maiores valores. Os predadores apareceram em maior número geralmente após os 30 DAE e preferiram as áreas de vegetação não diversificada. Já os parasitóides concentraram-se na cultura até os 25 DAE e preferiram as áreas de vegetação diversificada. Quando foi avaliada a competição entre T. remus e T. pretiosum não constatou-se multiparasitismo. Entretanto, quando as fêmeas de T. remus e T. pretiosum foram colocadas juntas sobre a mesma postura, T. remus predominou. Já quando T. remus foi colocado com D. luteipes observou-se que quando as posturas de S. frugiperda foram expostas primariamente ao parasitóide, D. luteipes as consumiu, mas somente até o terceiro dia após o parasitismo. T. remus parasitou ovos de D. luteipes com até 48h de desenvolvimento embrionário, mas apenas quando as fêmeas do predador estavam ausentes. / Abstract: This work aimed at evaluating the population dynamics of S. frugiperda in maize culture with high and low vegetal diversity around. And objectified to observe the behavior and interaction between the natural enemies T. remus, T. pretiosum and D. luteipes. Was not detect significant difference in number of S. frugiperda adults and egg masses throughout the time and at the areas of diversified vegetation or not. No diversified areas presented a higher number of larvae/plant. The predators had appeared in higher number after 30 days plants emergence and generally they preferred the areas of no diversified vegetation. The parasitoids were concentrated in the culture until the 25 days after plants emergence and had preferred the areas of diversified vegetation. When S. frugiperda eggs were exposed to either parasitoid previously, there was no emergence of the other parasitoid. And, when the T. remus and T. pretiosum females were placed together with S. frugiperda eggs, it was observed a greater parasitism by T. remus. The results showed a lack of multiparasitism by both species. When S. frugiperda eggs were exposed to T. remus previously, D. luteipes eat the eggs until three days after parasitism. T. remus parasitized D. luteipes eggs until 48h they were laid, but only when predator females were absent. / Doutor Predação (Biologia) Parasitismo. Agroecology. eng Intraguild competiton. eng Behavior. eng Landscape ecology. eng Predation. eng Parasitism. eng
30	Interações interespecíficas e comportamentais de moscas-varejeiras : abordagens ecológicas e médico-legais envolvendo populações naturais / Galindo, Luciane Almeida. January 2009 (has links) Orientador: Wesley Augusto Conde Godoy / Resumo: As interações interespecíficas em dípteros califorídeos de importância forense resultam de processos biológicos complexos, envolvendo comportamentos específicos capazes de influenciar tanto a abundância como a diversidade de insetos presentes nos substratos orgânicos em decomposição. Nesse sentido, a presença de determinadas espécies com forte ação interativa, como por exemplo, predadores, competidores ou parasitóides, pode interferir substancialmente na composição da fauna decompositora de cadáveres, com sérias implicações para a estimativa de intervalo pós-morte em investigações criminais. Em estudo prévio foi investigado em laboratório o comportamento de oviposição em L. eximia, C. megacephala e C. albiceps na tentativa de esclarecer se a postura de ovos em moscas-varejeiras ocorre meramente ao acaso, ou se a presença prévia de diferentes espécies pode influenciar a desova por parte das espécies que chegaram ao local subsequentemente. Os resultados encontrados indicam que as espécies L. eximia e C. megacephala escolhem sítios de oviposição em que não há a presença prévia de larvas de C. albiceps, uma espécie predadora intraguilda. Esses resultados sugerem estudos mais aprofundados, preferencialmente em populações naturais, focalizando sobre a interação entre larvas e adultos de moscas-varejeiras, já que há evidências de que fêmeas adultas são capazes de detectar a presença de larvas predadoras, o que influi na decisão oviposicional. Este estudo teve o objetivo geral de investigar a abundância, diversidade e dinâmica comportamental em populações de moscas-varejeiras no contexto de recursos alimentares efêmeros e limitados, considerando a ação da predação intraguilda. A proposta do estudo é criar duas frentes de investigação no contexto de ecologia comportamental, experimentação em campo e modelagem matemática populacional / Abstract: The interspecific interactions in calliphorid flies of forensic impoltance result of complex biological processes, involving specific behaviors capable of influencing both the abundance and the diversity of insects in organic substrates in decomposition. The presence of certain species with a strong interactive action, such as predators, competitors or parasitoids, can interfere substantially in the composition of the decomposer fauna of corpses, with serious implications for the postmortem interval estimate in criminal inquiries. In a previous study the oviposition behavior in L. eximia, C. megacephala and C. albiceps was investigated in laboratory in the attempt to clarify if the egg laying in blowflies occurs at random, or if the previous presence of different species may influence the oviposition of the species that had arrived subsequently at the substrate. The results suggest that the species L. eximia and C megacephala prefer oviposition substrates, without the previous presence of C. albiceps larvae, an intraguild predator species. These results suggest further studies, preferably in natural populations, focusing on the interaction between larvae and adult of blowflies, since there is evidence that females are able to detect the presence of predator. This study had the general objective of investigating the abundance, diversity and behavioral dynamic in populations of blowflies in the context of limited and ephemeral food resources, considering the effect of intraguild predation. The proposal of the study is to create two fronts of investigation in the context of behavioral ecology, experimentation in field and population mathematical modeling / Mestre Mosca varejeira - Comportamento. Entomologia forense. Calliphoridae. eng Intraguild predation. eng Oviposition. eng Substrates of occupation. eng Population dymanics. eng

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