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PROTEIN SELF-MARKING BY EMERALD ASH BORER: AN EVALUATION OF EFFICACY AND PERSISTENCEScott Gula (7046486) 13 August 2019 (has links)
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<p>Understanding the
dispersal ability of invasive insects provides useful insights for developing
effective management strategies. Historically, methods for marking insects for
dispersal studies have been expensive, time-consuming, and labor-intensive,
especially for woodboring beetles. In addition, capturing or rearing insects
requires human handling, which can alter behavior. Immunomarking is a
well-established technique for studying the dispersal of insects, however, it
has not been broadly applied to woodborers. This study evaluates the potential
for using immunoproteins applied directly to woodborer-infested trees to mark
emerging beetles. <a>Specifically, in the first experiment I
sprayed varying concentrations of ovalbumin (egg white) solution directly onto
logs infested with emerald ash borer (EAB, <i>Agrilus
planipennis </i>Fairmaire) (Buprestidae: Agrilini) and ELISA was used to detect
the presence of protein on emerged beetles. To test the persistence of the
mark, I applied varying concentrations of albumin to freeze-killed beetles,
mounted them on pins, and placed them in an exposed location outdoors. Adult
EAB self-marked as they emerged from protein-treated trees, with higher protein
concentrations persisting for longer on the cuticle when exposed to sun and
rain. </a>This technique offers a convenient, inexpensive and durable means of
marking woodborers and circumvents the need for human handling, allowing for
more natural behavior and more realistic estimates of dispersal. Protein
self-marking may find application in studies of woodborer dispersal within
natural forest environments.<a></a></p>
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Uma abordagem filogeográfica da espécie invasora Drosophila suzukii (Diptera: Drosophilidae) no Brasil / A phylogeographic approach to the Drosophila suzukii (Diptera: Drosophilidae) invasion in BrazilAbreu, Petra Ferronato Gomes de 19 June 2018 (has links)
As invasões biológicas tem alcançado ampla disseminação devido a ações antrópicas em todo o planeta. Drosophila suzukii (Matsumura, 1931) (Diptera: Drosophilidae), é uma espécie invasora global que vem promovendo grandes danos às culturas agrícolas. Nativa do Sudeste Asiático, D. suzukii recentemente (ano de 2013) invadiu e se dispersou pela América do Sul. Aqui, utilizamos uma abordagem filogeográfica baseada no fragmento do gene COI para explorar a dinâmica de invasão das populações de D. suzukii no Brasil. Identificamos cinco haplotipos e uma diversidade genética moderada nas populações brasileiras, que estão em expansão demográfica e espacial. A AMOVA indicou uma alta estrutura genética entre as populações, o que é parcialmente explicado pela sua origem morfoclimática e história de invasão. D. suzukii expandiu do sul para o sudeste do Brasil, auxiliado pelo transporte de frutas mediado por humanos de região para região. O compartilhamento de haplótipos entre as regiões brasileiras e outras regiões invadidas do mundo sugere um único evento de invasão de D. suzukii no Brasil, originário de áreas previamente invadidas (como América do Norte e Europa). A rápida dispersão geográfica e a grande variedade de frutas atacadas por D. suzukii requerem implementação imediata de estratégias de controle (legais e fitossanitárias) para gerenciar esta praga no Brasil. / Biological invasions have reached large parts of the globe, due to human actions across the planet. Drosophila suzukii (Matsumura, 1931) (Diptera: Drosophilidae) is a globally invasive species, always associated with enormous and costly damage to agricultural crops. Native to Southeast Asia, D. suzukii recently (i.e. 2013) invaded and is dispersing through South America. Here, we used a phylogeographic approach based on the COI gene fragment to explore the invasion dynamics of D. suzukii populations in Brazil. We identified five haplotypes and moderate genetic diversity in Brazilian populations, which are undergoing demographic and spatial expansion. The AMOVA indicated a high genetic structure among the populations, which is partially explained by their morphoclimatic origin and invasion history. D. suzukii expanded from southern to southeastern Brazil, aided by human-mediated transport of fruits from region to region. The sharing of haplotypes among Brazilian and other invaded regions of the world suggests a single invasion event of D. suzukii in Brazil, originating from previously invaded areas (e.g., North America and Europe). The rapid geographic dispersal and wide variety of fruits attacked by of D. suzukii require immediate implementation of control strategies (legal and phytosanitary) to manage this pest in Brazil.
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Evaluation of candidate pheromone blends for mating disruption of the invasive swede midge (Contarinia nasturtii)Hodgdon, Elisabeth Ann 01 January 2019 (has links)
Swede midge (Contarinia nasturtii, Diptera: Cecidomyiidae) is a small invasive fly that is currently threatening Brassica vegetable and oilseed production in the Northeastern U.S. and Canada. Larvae feed on plant meristems, resulting in deformed leaves, stems, and heads. Extremely low damage thresholds for heading Brassica vegetables, multiple overlapping generations, and lack of effective organic insecticide options present serious challenges for managing this pest. Pheromone mating disruption (PMD), which involves confusing male insects with unnaturally large doses of sex pheromones, is particularly promising for swede midge management because it prevents mating and subsequent oviposition. One major challenge to PMD for swede midge management is that the chiral female pheromone blend, a 1:2:0.02 blend of (2S, 9S)-diacetoxyundecane, (2S, 10S)-diacetoxyundecane and (S)-2-acetoxyundecane, is expensive to synthesize due to the structural complexity of the compounds. Here, we explored three ways to reduce the cost of swede midge PMD: the use of lower-cost racemic pheromones containing all possible stereoisomers, single-component blends, and the possibility of using timed pheromone dispensers by testing for diel patterns of midge reproductive behavior.
Although we found that males were not attracted to blends containing the racemic stereoisomers of the main pheromone component, (2S, 10S)-diacetoxyundecane, racemic blends functioned equally as well as chiral blends in confusing males and altering female behavior in PMD systems. We observed 95% and 87% reductions in males caught in monitoring traps in three-component chiral and racemic PMD plots of broccoli, respectively. In addition to confusing males, we also found that females altered their reproductive behavior in response to both chiral and racemic pheromones. Females released pheromones more frequently when exposed to three-component chiral and racemic blends, and were less likely to mate afterward. Single-pheromone treatments containing either chiral or racemic 2,10-diacetoxyundecane neither confused males nor influenced female behavior.
We identified a total of eight hours during the day and night when midges do not exhibit mate-seeking behavior, during which programmable PMD dispensers could be turned off to save pheromone inputs. We found that up to 81% of females released pheromones to attract males for mating in the early morning shortly after dawn. Most females emerged in the morning as well, releasing pheromones soon after eclosing. Because midges are receptive to mates shortly after emergence, they may mate at their emergence site.
Overall, we found relatively high levels of crop damage in our pheromone-treated plots, likely due to the migration of mated females into our plots. If midges mate at emergence sites, rotation of Brassica vegetable crops may result in overwintered midges emerging in fields where host plants are not currently grown. Further research is needed to determine where midges mate in order to determine where to install PMD dispensers.
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Dynamics of tritrophic interactions between solenopsis invicta, antonina graminis, and neodusmetia sangwani: do fire ants negatively impact the success of a biological control system?Chantos, Jillian Marie 15 May 2009 (has links)
Solenopsis invicta, the red imported fire ant, has recently become associated with Antonina graminis, an invasive pest, and Neodusmetia sangwani, biological control agent, and maybe negatively affecting established biological control. A preliminary survey outlined the range of A. graminis and its parasitoids, and found N. sangwani was present at a reduced rate in South Texas and in the southeastern United States. A greenhouse experiment demonstrated that S. invicta decreased the rate of parasitism of A. graminis by N. sangwani, with S. invicta directly interfering with oviposition. Interactions between S. invicta and A. gaminis may be facilitating the spread and establishment of two invasive pests which has a negative impact on established classical biological control of A. graminis by N. sangwani.
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Dynamics of tritrophic interactions between solenopsis invicta, antonina graminis, and neodusmetia sangwani: do fire ants negatively impact the success of a biological control system?Chantos, Jillian Marie 15 May 2009 (has links)
Solenopsis invicta, the red imported fire ant, has recently become associated with Antonina graminis, an invasive pest, and Neodusmetia sangwani, biological control agent, and maybe negatively affecting established biological control. A preliminary survey outlined the range of A. graminis and its parasitoids, and found N. sangwani was present at a reduced rate in South Texas and in the southeastern United States. A greenhouse experiment demonstrated that S. invicta decreased the rate of parasitism of A. graminis by N. sangwani, with S. invicta directly interfering with oviposition. Interactions between S. invicta and A. gaminis may be facilitating the spread and establishment of two invasive pests which has a negative impact on established classical biological control of A. graminis by N. sangwani.
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Uma abordagem filogeográfica da espécie invasora Drosophila suzukii (Diptera: Drosophilidae) no Brasil / A phylogeographic approach to the Drosophila suzukii (Diptera: Drosophilidae) invasion in BrazilPetra Ferronato Gomes de Abreu 19 June 2018 (has links)
As invasões biológicas tem alcançado ampla disseminação devido a ações antrópicas em todo o planeta. Drosophila suzukii (Matsumura, 1931) (Diptera: Drosophilidae), é uma espécie invasora global que vem promovendo grandes danos às culturas agrícolas. Nativa do Sudeste Asiático, D. suzukii recentemente (ano de 2013) invadiu e se dispersou pela América do Sul. Aqui, utilizamos uma abordagem filogeográfica baseada no fragmento do gene COI para explorar a dinâmica de invasão das populações de D. suzukii no Brasil. Identificamos cinco haplotipos e uma diversidade genética moderada nas populações brasileiras, que estão em expansão demográfica e espacial. A AMOVA indicou uma alta estrutura genética entre as populações, o que é parcialmente explicado pela sua origem morfoclimática e história de invasão. D. suzukii expandiu do sul para o sudeste do Brasil, auxiliado pelo transporte de frutas mediado por humanos de região para região. O compartilhamento de haplótipos entre as regiões brasileiras e outras regiões invadidas do mundo sugere um único evento de invasão de D. suzukii no Brasil, originário de áreas previamente invadidas (como América do Norte e Europa). A rápida dispersão geográfica e a grande variedade de frutas atacadas por D. suzukii requerem implementação imediata de estratégias de controle (legais e fitossanitárias) para gerenciar esta praga no Brasil. / Biological invasions have reached large parts of the globe, due to human actions across the planet. Drosophila suzukii (Matsumura, 1931) (Diptera: Drosophilidae) is a globally invasive species, always associated with enormous and costly damage to agricultural crops. Native to Southeast Asia, D. suzukii recently (i.e. 2013) invaded and is dispersing through South America. Here, we used a phylogeographic approach based on the COI gene fragment to explore the invasion dynamics of D. suzukii populations in Brazil. We identified five haplotypes and moderate genetic diversity in Brazilian populations, which are undergoing demographic and spatial expansion. The AMOVA indicated a high genetic structure among the populations, which is partially explained by their morphoclimatic origin and invasion history. D. suzukii expanded from southern to southeastern Brazil, aided by human-mediated transport of fruits from region to region. The sharing of haplotypes among Brazilian and other invaded regions of the world suggests a single invasion event of D. suzukii in Brazil, originating from previously invaded areas (e.g., North America and Europe). The rapid geographic dispersal and wide variety of fruits attacked by of D. suzukii require immediate implementation of control strategies (legal and phytosanitary) to manage this pest in Brazil.
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Fate of White Fringetree Through the Invasion Wave of Emerald Ash Borer and Its Variation in Resistance to AttackEllison, Emily A. 18 May 2020 (has links)
No description available.
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Influence of light availability on tree growth, defense, and emerald ash borer (<i>Agrlius planipennis</i>) success in white fringetree (<i>Chionanthus virginicus</i>) and black ash (<i>Fraxinus nigra</i>)Friedman, Michael S. 20 May 2020 (has links)
No description available.
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Variations in Carbon Fluxes Lead to Resilience of Carbon Storage in New England Forests Affected by the Hemlock Woolly Adelgid at a Centennial Time ScaleLemos, Poliana Costa 21 September 2015 (has links)
Since the 1980s, hemlock-dominated forests (Tsuga canadensis) of central New England have been increasingly infested by the invasive pest hemlock woolly adelgid (HWA, Adelges tsugae), predominantly resulting in its replacement by black birch-dominated forests (Betula lenta). To date there has been no long-term empirical analysis of HWA effects on forest carbon (C) cycling due to forest transition from hemlock to black birch. To address this question, I measured the C pools in five stand types at varying ages and stages of HWA infestation in Massachusetts and Connecticut. I also measured C fluxes in aboveground net primary production (ANPP) and soil respiration, and studied the drivers of these fluxes viz. litter production, rates of foliar decomposition, soil exoenzyme activity, temperature sensitivity of soil respiration and nitrogen (N) cycling. The mass of C stored in recovering forests was resilient to HWA infestation but the location of these stocks varied among stand types. There was a transition of C from live biomass in healthy, unaffected secondary hemlock forests to coarse woody debris (CWD) in recently girdled forests intended to simulate the effect of HWA on hemlock loss. Twenty years post-HWA infestation, however, ANPP was very high and there was a large increase in biomass-C pools in aggrading black stand types. C pools in mature, secondary black birch stand types ~135 years since pastureland abandonment were as large as those in primary hemlock stand types ~235 years of age, suggesting recovery of C storage within one century of HWA infestation. Soil respiration rates were positively correlated with inputs of hardwood leaf litter, fine root biomass and exoenzyme activity. Stand-type variations in ANPP were positively correlated with annual N requirements and N uptake from the soil. Nitrogen-use efficiency was highest in the girdled and post-HWA infestation stand types where ANPP was dominated by wood production which has a wide C:N ratio. Similar trends were found in soil respiration, but not to the same degree as that of ANPP. Collectively, my results indicate that southern New England forests C storage is highly resilient to the HWA-induced losses of hemlock, suggesting that these ecosystems will continue to be sinks for atmospheric carbon dioxide.
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Bio-écologie et dynamique des populations de cécidomyie des fleurs (Procontarinia mangiferae), un ravageur inféodé au manguier (Mangifera indica), en vue de développer une lutte intégrée / Bio-ecology population dynamics of mango gail midge, (Procontarinia mangiferae Felt), a specific mango pest, in order to develop Integrated Pest Management strategiesAmouroux, Paul 03 July 2013 (has links)
Les relations complexes qui unissent les insectes phytophages et les plantes peuvent être étudiées par des approches interdisciplinaires à diverses échelles. Ces études peuvent avoir un intérêt appliqué, dans l'agriculture notamment. Au cours de cette thèse, nous avons mené une étude interdisciplinaire sur la biologie de la cécidomyie des fleurs du manguier, Procontarinia mangiferae (Felt) (Diptera : Cecidomyiidae), un bio-agresseur monophage et invasif responsable de dégâts économiques majeurs dans plusieurs zones de production du monde. L'objectif était d'améliorer les connaissances sur la biologie de cette espèce à l'île de la Réunion : (1) en évaluant sa diversité génétique et les facteurs écologiques et biologiques qui peuvent expliquer la structuration génétique de ses populations ; (2) en étudiant en milieu naturel ou contrôlé les caractéristiques de sa diapause, qui lui permettent de maintenir des populations d'une saison de floraison à la suivante ; (3) en étudiant par modélisation la dispersion des femelles dans un verger lors de sa colonisation, en prenant en compte les capacités de vol et la distribution spatiale et temporelle des stades sensibles du manguier au sein du verger. Les résultats ont montré que l'espèce P. mangiferae se reproduisait à la fois sur les inflorescences et sur les jeunes feuilles, qu'elle était présente toute l'année et sur tous les sites échantillonnés sur l'île, quelles que soient les conditions culturales ou climatiques. Ses populations sont apparues structurées en deux clusters sympatriques, dont un était plus fréquent dans la zone de culture du manguier. Ensuite, nous avons prouvé l'existence d'une diapause facultative induite toute l’année, avec cependant un taux d'induction de diapause supérieur en été. Cette diapause du troisième stade larvaire se déroule dans le sol et dure entre six semaines et plus d'un an. Les températures fraiches déclenchent les émergences des individus en diapause et permettent de synchroniser l'émergence des adultes avec la période de floraison du manguier. Enfin, nous avons montré que des femelles immigrantes étaient capables de coloniser l'ensemble des arbres d'un verger. Le vol d'arrivée des femelles dans le verger et le vol actif au sein du verger se sont avérés influencés respectivement par l'abondance et par l'attractivité de la ressource. Les connaissances obtenues sur la biologie de P. mangiferae et sur ses relations avec le manguier ouvrent des pistes pour le développement de stratégies de gestion agroécologique de ce bio-agresseur. / Phytophagous insects and plants are linked by complex relationships. Insect-plant interaction researches involve several biological disciplines at different levels of analysis. These insect–plant relationships are of crucial importance from an applied point of view, notably for agriculture. In this work, an interdisciplinary approach has been used to study on the mango blossom gall midge, Procontarinia mangiferae (Felt) (Diptera: Cecidomyiidae), an invasive insect pest specific to mango causing major economic damages worldwide. The objective was to improve our knowledge of the biology of this species in the subtropical Reunion Island (i) by describing its genetic diversity and investigate the ecological and biological determinants of the genetic structure of its populations, (ii) by carrying out field and controlled experiments to understand the diapause strategies involved in maintaining populations from one flowering season to the next one, (iii) by modeling the arrival and dispersion of females within an orchard in relation with their flight capacity and with the spatial and temporal distribution of the mango susceptible resources. The results showed that the single species P. mangiferae, feeding on both inflorescences and young leaves, was present all year round and in all the sampled sites on the island, regardless of the climatic and cultural conditions. Populations in Reunion Island appeared structured into two clusters in sympatry, one cluster being more frequent in the cultivated mango area. Secondly, we demonstrated the occurrence of facultative diapause all year round, with the highest rate of diapause observed in summer. The diapause allowed a developmental arrest at the 3rd larval instar in the soil, lasting between six weeks to more than one year. The decrease of temperature at the beginning of winter triggered off the emergence of diapausing individuals and synchronized adult emergence with the mango flowering period. Thirdly, non-native female gall midges were able to colonize all the trees of an orchard. Their arrival flight and trivial flight were oriented by the abundance and by the attractiveness of the mango resources, respectively. The knowledge obtained on the biological cycle of P. mangiferae and on its relationships with the mango tree should be useful to develop new agroecological pest management strategies.
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