Global ETD Search

11	Ecologia do movimento da rã-manteiga (Leptodactylus latrans) e da rã-touro (Lithobates catesbeianus) / Movement ecology of the Butter Frog (Leptodactylus latrans) and the Bullfrog (Lithobates catesbeianus) Henrique, Rafael dos Santos 10 March 2017 (has links) O movimento dos animais desempenha papel importante na aptidão dos indivíduos, no fluxo gênico, na dinâmica de metapopulações e na persistência, a longo prazo, de espécies em um ambiente. Dessa forma, o objetivo deste estudo foi compreender aspectos relacionados à ecologia do movimento da rã-manteiga (Leptodactylus latrans) e da rã-touro (Lithobates catesbeianus). Para isso, indivíduos de ambas as espécies foram marcados com radiotransmissores e rastreados com o objetivo de coletar informações sobre seus movimentos. Ressaltamos os seguintes resultados deste trabalho: (1) a área de vida média de L. latrans é de 2034,2 m2; (2) com o aumento do tamanho corpóreo de anuros há o aumento do tamanho da área de vida; (3) indivíduos de L. latrans se locomovem mais em noites escuras, chuvosas e quentes; e (4) o aumento da pressão de propágulos não reflete uma maior probabilidade no aumento da distribuição geográfica de uma dada população de L. catesbeianus. Entender os padrões de locomoção dos anfíbios e como utilizam o espaço na natureza é fundamental para o entendimento de processos ecológicos e evolutivos relacionados às histórias de vida das espécies desse grupo. Além disso, esse conhecimento serve como uma ferramenta importante no estabelecimento de limites de áreas de conservação com significado biológico para espécies ameaçadas. Ainda, saber como espécies invasoras se locomovem é um dos primeiros passos para que se tomem medidas de controle populacional e para o bloqueio do avanço da distribuição de espécies exóticas / The ability of animals to move plays an important role in individual fitness, gene flow, population regulation, metapopulation dynamics and long-term persistence of species. The aim of this study was to understand aspects related to the movement ecology of the Butter Frog (Leptadactylus latrans) and the Bullfrog (Lithobates catesbeianus). We collected movement data by radio tracking individuals of both species. Some of the most important results obtained were: (1) the mean home range of L. latrans is 2034.2 m2; (2) increasing body size increases home range size in anurans; (3) individuals of L. latrans are more likely to move larger distances in dark, rainy and warm nights; (4) the increase in propagule pressure does not reflect an increase in the probability of geographical spread of a given population of L. catesbeianus. Understanding how amphibians move and use the space in nature is fundamental for the understanding of basic ecological and evolutionary processes related to life history of the species. Moreover, this knowledge is a useful tool to establish biologically meaningful conservation boundary areas to threatened species. Yet, understanding how invasive species move in nature is one of the first steps to population control and to block the spread of geographical distribution of exotic species Amphibia Amphibia Área de vida Biologia da invasão Environmental factors Fatores ambientais Home range Invasion biology Pressão de propágulo Propagule pressure Radiotelemetria Radiotelemetry
12	Implication de la niche écologique et des indices environnementaux liés à la localisation de la ressource dans le succès invasif du ravageur Drosophila suzukii : des pistes pour le développement du piégeage massif / Importance of ecological niche and environmental cues linked to resource localisation in the successful invasion of Drosophila suzukii : details for mass trapping development Plantamp, Christophe 13 May 2016 (has links) Ces dernières années ont vu le développement du commerce international entraînant une accélération des mouvements intercontinentaux d'espèces. Ces multiples introductions sont à l'origine de nombreux cas d'invasion, où les espèces s'établissent et se dispersent. Dans le nouvel environnement, étudier les facteurs liés à la niche écologique permet de comprendre comment se déroule l'établissement des espèces introduites au sein de la communauté d'espèces résidentes. L'hypothèse de la niche vide, qui prédit que l'invasion est possible car un espace vide existe au sein des niches écologiques de la communauté résidente, est un des facteurs facilitants de nombreux cas d'invasion. Par ailleurs, la stratégie d'exploitation de la ressource par l'espèce invasive au sein de la niche écologique peut aussi expliquer la propension d'une espèce à envahir ou non le nouvel environnement. L'objectif de cette thèse est d'explorer l'importance de ces hypothèses dans le succès invasif, au travers de l'exemple de Drosophila suzukii. Introduite en 2008 en Europe et aux Etats-Unis, cette espèce a envahi chacun des continents en moins de 7 ans. Elle est la seule espèce européenne de drosophiles capable de pondre à l'intérieur de fruits sains omniprésents, au sein d'une niche écologique vide de tout compétiteur. Elle est à l'origine de gros problèmes pour la culture de fruits cultivés et se retrouve être l'un des ravageurs majeurs en production de fruits rouges. Mieux comprendre son invasion, sa niche écologique et sa stratégie de sélection d'habitat permet de mieux lutter contre l'insecte, notamment par des méthodes permettant de perturber la localisation des fruits dans l'environnement. Cet aspect appliqué est aussi un objectif important de cette thèse CIFRE, financée pour optimiser la lutte par piégeage massif / In the last few decades, the development of international trade has seen resulting in an acceleration of intercontinental movements of species. These multiple introductions are the cause of many cases of invasion, where species are established and spread. In the new environment, studying factors related to the ecological niche help understanding what happens during the establishment of introduced species within the community resident species. The “empty niche hypothesis”, which predicted that the invasion is possible because a gap exists in the ecological niches of the resident community, is one of the facilitating factors of many cases of invasion. In addition, the strategy of utilization of the resource by the invasive species in the ecological niche may also explain the propensity of a species to invade or not the new environment. The objective of this thesis is to explore the significance of these assumptions in the invasive success, through the example of Drosophila suzukii. Introduced in 2008 in Europe and the US, this species has invaded every continent in less than 7 years. It is the only European species of fruit flies that can lay eggs inside healthy fruits, which are omnipresent, in an ecological niche free of any competitor. It is the cause of dreadful issues for grown fruit and is one of the major pests in production of berries. Better understand its invasion, its ecological niche and habitat selection strategy help better fighting the insect, including methods to disrupt the location of fruit in the environment. This applied context is also an important aspect of this thesis, funded also to optimize the fight by mass trapping Biologie de l’invasion Écologie de la nutrition Froid Rythme circadien d’activité Compétition Invasion biology Nutritional ecology Cold Circadian rhythm of activity Competition 577
13	Ecologia do movimento da rã-manteiga (Leptodactylus latrans) e da rã-touro (Lithobates catesbeianus) / Movement ecology of the Butter Frog (Leptodactylus latrans) and the Bullfrog (Lithobates catesbeianus) Rafael dos Santos Henrique 10 March 2017 (has links) O movimento dos animais desempenha papel importante na aptidão dos indivíduos, no fluxo gênico, na dinâmica de metapopulações e na persistência, a longo prazo, de espécies em um ambiente. Dessa forma, o objetivo deste estudo foi compreender aspectos relacionados à ecologia do movimento da rã-manteiga (Leptodactylus latrans) e da rã-touro (Lithobates catesbeianus). Para isso, indivíduos de ambas as espécies foram marcados com radiotransmissores e rastreados com o objetivo de coletar informações sobre seus movimentos. Ressaltamos os seguintes resultados deste trabalho: (1) a área de vida média de L. latrans é de 2034,2 m2; (2) com o aumento do tamanho corpóreo de anuros há o aumento do tamanho da área de vida; (3) indivíduos de L. latrans se locomovem mais em noites escuras, chuvosas e quentes; e (4) o aumento da pressão de propágulos não reflete uma maior probabilidade no aumento da distribuição geográfica de uma dada população de L. catesbeianus. Entender os padrões de locomoção dos anfíbios e como utilizam o espaço na natureza é fundamental para o entendimento de processos ecológicos e evolutivos relacionados às histórias de vida das espécies desse grupo. Além disso, esse conhecimento serve como uma ferramenta importante no estabelecimento de limites de áreas de conservação com significado biológico para espécies ameaçadas. Ainda, saber como espécies invasoras se locomovem é um dos primeiros passos para que se tomem medidas de controle populacional e para o bloqueio do avanço da distribuição de espécies exóticas / The ability of animals to move plays an important role in individual fitness, gene flow, population regulation, metapopulation dynamics and long-term persistence of species. The aim of this study was to understand aspects related to the movement ecology of the Butter Frog (Leptadactylus latrans) and the Bullfrog (Lithobates catesbeianus). We collected movement data by radio tracking individuals of both species. Some of the most important results obtained were: (1) the mean home range of L. latrans is 2034.2 m2; (2) increasing body size increases home range size in anurans; (3) individuals of L. latrans are more likely to move larger distances in dark, rainy and warm nights; (4) the increase in propagule pressure does not reflect an increase in the probability of geographical spread of a given population of L. catesbeianus. Understanding how amphibians move and use the space in nature is fundamental for the understanding of basic ecological and evolutionary processes related to life history of the species. Moreover, this knowledge is a useful tool to establish biologically meaningful conservation boundary areas to threatened species. Yet, understanding how invasive species move in nature is one of the first steps to population control and to block the spread of geographical distribution of exotic species Amphibia Área de vida Biologia da invasão Fatores ambientais Pressão de propágulo Radiotelemetria Amphibia Environmental factors Home range Invasion biology Propagule pressure Radiotelemetry
14	Designing a marketing strategy for the DST-NRF Centre of Excellence for Invasion Biology at Stellenboshc University Van der Vyver, Mathilda 03 1900 (has links) Thesis (MBA)--University of Stellenbosch, 2009. / ENGLISH ABSTRACT: The Centre of Excellence for Invasion Biology (C+B) is a research centre that provides bursaries for post-graduate students to study in the field of "Invasion Biology". One of the goals of the centre is to ensure that 50% of the funded students are from previously disadvantaged groups. However, since its inception in 2004 it has consistently been unable to meet this goal. The researcher, who has insight in the centre's marketing activities and has knowledge of marketing, is of the opinion that the reason for this failure is due to the lack of knowledge of the target market and the lack of a targeted marketing strategy. As background this report investigates the theory related to marketing and whether this is applicable to a centre such as the C-I-B. The conclusion that the marketing theory is relevant to the C-I-B, lead to a market research project that informed the development of a marketing strategy suggestion which the researcher believes will address the stated problem. The report concludes with recommendations to other stakeholders who should address the deeper lying problems which surface at secondary school level. / AFRIKAANSE OPSOMMING: Die Sentrum van Uitnemendheid vir Indringer Biologie (S-I-S) is 'n sentrum wat beurse voorsien vir nagraadse studente wat studeer in die veld van "Indringer Biologie". Een van die sentrum se doelwitte is om te verseker dat 50% van sy studente deur voorheen benadeelde groepe verteenwoordig word. Sedert sy ontstaan in 2004 kon die sentrum nog nooit hierdie doel bereik nie. Die navorser, wat insae het in die bemarkingsaktiwiteite van die sentrum en kennis dra van bemarkingsbeginsels, is van mening dat hierdie probleem die gevolg is van gebrekkige kennis van die teikenmark en 'n gebrek aan 'n gefokusde bemarkingsstrategie. As agtergrond ondersoek hierdie verslag die teorie ten opsigte van bemarking en of hierdie teorie relevant is vir 'n sentrum soos die S-I-B. Die gevolgtrekking was dat die teorie wel relevant is vir die S-I-B en het gelei tot 'n marknavorsingsprojek wat bygedra het tot die ontwikkeling van 'n bemarkingsstrategie voorstel, wat die navorser glo die probleem sal aanspreek. Die verslag sluit af met voorstelle aan die ander belanghebbendes wat verantwoordelikheid behoort te neem vir die dieperliggende probleme wat op sekondere vlak geidentifiseer is. Marketing strategy Dissertations -- Business management Theses -- Business management
15	Genética de populações aplicada à biologia da invasão: um panorama da invasão da rã-touro (Lithobates catesbeianus) / Population genetics applied to invasion biology: a panorama of the bullfrog invasion (Lithobates catesbeianus) Cohen, Gabriel Jorgewich 15 March 2018 (has links) Invasões biológicas tem um papel cada vez mais importante nas políticas ambientais, visto que espécies invasoras desempenham uma crescente influência sobre novos ambientes onde são introduzidas, podendo gerar grandes impactos naturais e financeiros. Estudos na área da biologia da invasão se fazem extremamente necessários para remediar e evitar novas introduções. Dentre as metodologias aplicadas ao estudo das invasões biológicas, a genética de populações apresenta diversas ferramentas uteis para responder perguntas relevantes nos esforços de controle de espécies invasoras. No presente trabalho usamos recursos moleculares aplicados à genética de populações da rã-touro (Lithobates catesbeianus), o anfíbio invasor mais disseminado no planeta. Através deste estudo foi possível compreender mais sobre a estrutura genética das populações invasoras do Brasil e do mundo, além de seu histórico de invasão e sua população nativa de origem. Entender e contextualizar as características e motivos que levam ao sucesso de uma invasão biológica é importante para esforços de combate a pragas e para evitar que outros invasores se fixem em novos ambientes. Este trabalho levantou novos conhecimentos que podem e devem ser usados em políticas de combates à invasão da rã-touro / Biological invasions play an increasingly important role in environmental policies as invasive species represent a growing impact in new environments where they are introduced, potentially causing large natural and financial problems. Studies in the field of invasion biology are extremely necessary to remedy and prevent new introductions. Among the methodologies applied to the study of biological invasions, population genetics presents several useful tools to answer relevant questions in efforts to control invasive species. In the present work we used molecular resources applied to the genetics of populations of the American Bullfrog (Lithobates catesbeianus), the most widespread invasive amphibian on the planet. Through this study it was possible to understand more about the genetic structure of the invasive populations in Brazil and in the world, and its history of invasion and its native population of origin. Understanding and contextualizing the characteristics and motives that lead to the success of a biological invasion is important for pest control efforts and to prevent other invaders from focusing on new environments. This work has raised new knowledge that can and should be used in policies to combat Bullfrog invasion Alien Species Amphibia Amphibia Biologia da invasão Espécie invasora Estabelecimento população Invasion biology Invasive species management Manejo de espécies invasoras Population establishment Pressão de propágulos Propagule pressure
16	Genética de populações aplicada à biologia da invasão: um panorama da invasão da rã-touro (Lithobates catesbeianus) / Population genetics applied to invasion biology: a panorama of the bullfrog invasion (Lithobates catesbeianus) Gabriel Jorgewich Cohen 15 March 2018 (has links) Invasões biológicas tem um papel cada vez mais importante nas políticas ambientais, visto que espécies invasoras desempenham uma crescente influência sobre novos ambientes onde são introduzidas, podendo gerar grandes impactos naturais e financeiros. Estudos na área da biologia da invasão se fazem extremamente necessários para remediar e evitar novas introduções. Dentre as metodologias aplicadas ao estudo das invasões biológicas, a genética de populações apresenta diversas ferramentas uteis para responder perguntas relevantes nos esforços de controle de espécies invasoras. No presente trabalho usamos recursos moleculares aplicados à genética de populações da rã-touro (Lithobates catesbeianus), o anfíbio invasor mais disseminado no planeta. Através deste estudo foi possível compreender mais sobre a estrutura genética das populações invasoras do Brasil e do mundo, além de seu histórico de invasão e sua população nativa de origem. Entender e contextualizar as características e motivos que levam ao sucesso de uma invasão biológica é importante para esforços de combate a pragas e para evitar que outros invasores se fixem em novos ambientes. Este trabalho levantou novos conhecimentos que podem e devem ser usados em políticas de combates à invasão da rã-touro / Biological invasions play an increasingly important role in environmental policies as invasive species represent a growing impact in new environments where they are introduced, potentially causing large natural and financial problems. Studies in the field of invasion biology are extremely necessary to remedy and prevent new introductions. Among the methodologies applied to the study of biological invasions, population genetics presents several useful tools to answer relevant questions in efforts to control invasive species. In the present work we used molecular resources applied to the genetics of populations of the American Bullfrog (Lithobates catesbeianus), the most widespread invasive amphibian on the planet. Through this study it was possible to understand more about the genetic structure of the invasive populations in Brazil and in the world, and its history of invasion and its native population of origin. Understanding and contextualizing the characteristics and motives that lead to the success of a biological invasion is important for pest control efforts and to prevent other invaders from focusing on new environments. This work has raised new knowledge that can and should be used in policies to combat Bullfrog invasion Amphibia Biologia da invasão Espécie invasora Estabelecimento população Manejo de espécies invasoras Pressão de propágulos Alien Species Amphibia Invasion biology Invasive species management Population establishment Propagule pressure
17	Molecular phylogeny and evolution of the Ectemnorhinus group of weevils in the Prince Edward Islands Grobler, Gert Cornelius 28 August 2012 (has links) All previous taxonomic studies on the Ectemnorhinus group of weevils have been based primarily on morphological data. While these studies are invaluable, some questions can only be addressed adequately through molecular studies. This is especially true when studying the genetic relationships and phylogeograpic patterns of taxa endemic to the South Indian Ocean Province (SIP) biotas that have long been controversial. The Ectemnorhinus group of genera is a monophyletic unit of weevils endemic to the region. The present study focused mainly on the Ectemnorhinus group of weevils found on the Prince Edward Islands archipelago (PEIA). The mitochondrial cytochrome oxidase I gene was targeted when investigating relationships among members of this weevil group. On the PEIA, it is important to note that Marion Island (MI) and Prince Edward Island (PEI) differ in terms of alien invasive species, such as the introduced house mouse Mus musculus and in conservation management strategies. Since emergence, a series of volcanic and glaciation events have occurred on Marion Island, whilst Prince Edward Island has remained largely unaffected by glaciation. Phylogenetic analyses revealed the presence of two genetically and morphometrically distinct species of Ectemnorhinus weevils on PEI, whilst evidence for a single species, comprising diverse genetically discrete populations was found on MI. Based on these results, the species unique to PEI has been designated E. kuscheli n. sp., whilst the present study confirmed the synonymy between E. similis and E. marioni, the two species originally described from MI. Ectemnorhinus kucheli appears to be restricted to PEI, whereas E. similis occurs on both MI and PEI. When investigating the population dynamics of the Ectemnorhinus weevils on the PEIA, the data indicated that PEI was the first of the two islands of the PEIA to be colonized by Ectemnorhinus weevils, at an estimated time of coalescence of approximately 0.3116 million years ago (MYA). The PEI population then acted as the source population for the colonization of MI by Ectemnorhinus weevils some time before the last glaciation, approximately 10 000 to 35 000 years ago. The separation by distance of the PEI Ectemnorhinus weevils from those on MI then gave rise to two species by allopatric speciation on MI. During the last glaciations, MI was extensively glaciated with only the southwestern corner of the island being free of ice. This extensive glaciation of MI would have resulted in the eradication of all E. similis on MI except for those occurring on the ice-free southwestern corner of the island. At the end of the last glacial maximum, when the ice started to melt, the coastal areas of MI emerged first from beneath the ice and were available for re-colonization by weevils. The movement of weevils that were isolated in the south-western corner of MI, along the coastal areas of the island, was assisted by strong, frequent south-western winds. Subsequent, post-glacial volcanism during the Holocene was then responsible for the fragmentation of the new migrants, resulting in small population pockets surrounded by fresh, uninhabitable lava and subsequent divergence of each populations. When the Holocene black lava became re-colonizeable, the weevils from the different isolated populations migrated to the remainder of the island. Currently, members of the different genetically-identified populations occur in sympatry and in some cases even on the same plant, but no noticeable geneflow was detected between them. It is thus suggested that the time of isolation, before the post-glacial black lava during Holocene became hospitable, was sufficiently long and the populations sufficiently small that a number of genetically-discrete populations arose. Consequently, the present study recognises two genetically discrete populations of E. kucheli on PEI and seven discrete E. similis populations on MI that are morphologically indistinct. When examining the relationships among 13 species from five different islands within the South Indian Ocean Province (SIP) that are representative of 22 populations within the genera Palirhoeus, Bothrometopus and Ectemnorhinus, there was little support for separating the genus Palirhoeus from Bothrometopus, and no support for the morphologically-delineated species groups currently recognized within Bothrometopus. The present study shows that colonization of the Prince Edward Islands is likely to have occurred repeatedly from other islands within the SIP and that Bothrometopus parvulus on the PEIA comprises two species that are not sister taxa. The second novel con-generic species was therefore designated Bothrometopus huntleyi n. sp. and examination of the genetically identified specimens resulted in the indentification of distinguishing morphological characteristics. The analyses indicated that B. huntleyi arose approximately 0.5 million years ago from a high-altitude population that is still present on MI. The first major intra- and inter-island dispersal event occurred ~0.338 MYA, coinciding with the glaciation-free second volcanic stage on MI. Apart from this early inter-island colonisation, only one other between-island dispersal event, corresponding with the glaciation-free seventh volcanic stage, was detected. Genetically discrete weevil complexes on each of the islands of the PEIA together with the low levels of inter-island gene flow reaffirm the need to control alien invasive mice, which are restricted to MI, and which prey on these weevil species. / Thesis (PhD)--University of Pretoria, 2012. / Zoology and Entomology / unrestricted Phylogeny Marion Island Curculionidae Evolution Ectemnorhinus group of weevils Invasion biology Speciation Dispersal Biogeography MTDNA Conservation Sub-antarctic Prince Edward Island Coi gene Phylogeography Coleoptera Southern Ocean Islands UCTD
18	The Establishment, Control, and Post-Control Response of Amur Honeysuckle (Lonicera maackii) Benjamin Joseph Rivera (11205324) 29 July 2021 (has links) <p>Amur honeysuckle (<i>Lonicera maackii</i>) is a shrub endemic to East Asia which has become invasive and nearly ubiquitous to the forest ecosystems of eastern North America. Through its extended growing season, competitive ability, and potential allelopathy, Amur honeysuckle alters native herbaceous-layer plant communities and inhibits the regeneration of native tree species. As such, it is representative of a range of invasive shrub species imported from East Asia. My thesis contributes to questions fundamental to the understanding this and other invasive shrubs: 1) How do species become invasive? 2) How can the invasions of the species be effectively controlled? 3) How does the ecosystem respond to treatment of the invasive species?</p> <p>First, I examined the role of self-compatibility within Amur honeysuckle. I compared the berry production, seed production, and germination rates between closed-pollinated and open-pollinated flowering branches of Amur honeysuckle individuals across multiple types of invasions (heavy, light, and sprouting). I found that Amur honeysuckle not only possesses the ability to self-pollinate, but that it can produce viable self-pollinated seed sets. This ability may help explain how Amur honeysuckle able to invade isolated forest patches far removed from the main invasion.</p> <p>Second, I evaluated the effectiveness of a novel herbicide adjuvant in reducing the amount of herbicide needed in the ‘cut-stump’ method of controlling Amur honeysuckle. Combining various concentrations of the most common herbicide in the world, glyphosate, with concentrations of cellulases derived from fungi, 2XL, I examined whether the cellulases improved the effectiveness of glyphosate, potentially by increasing glyphosate movement into the vascular tissue of Amur honeysuckle through the degradation of cell walls. While 2XL was not an effective adjuvant, glyphosate concentrations of less than half the recommended dosages were equally effective as higher concentrations in preventing sprouting of treated stumps. The ineffectiveness of 2XL may imply a need for protein-mitigated diffusion of glyphosate across cell walls and into the vascular tissue of the plant, which would be inhibited by the breakdown of cell walls.</p> Finally, I tested how deeper intensities of mulching-head treatments affected the sprouting response of Amur honeysuckle and the response of the herbaceous-layer plant community after treatment. I found a negative relationship between the volume of sprouting Amur honeysuckle and increasing depth of mulching-head treatment. Additionally, increasing mulching-head intensities were correlated with increased herbaceous layer diversity and conservation value as represented by Floristic Quality Index. Mulching-head treatments are a promising tool in controlling heavy invasions of non-native shrubs. Ecology Invasive Species Ecology Forestry Management and Environment Amur honeysuckle Invasion Biology Self-pollination Invasive plants Invasive shrubs Invasive species management

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