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1	Computational mesoscale modelling of concrete material under high strain rate loading Song, Zhenhuan January 2013 (has links) Cement-based composite materials are widely used in engineering applications. The strength and damage patterns of such materials depend upon the properties of the constituent components as well as the microstructure. Three scale levels are generally recognized in the analysis of the mechanical behaviour of composites, namely, macro-scale, meso-scale, and nano- or atomistic scale. Modelling of the mechanical properties at the meso-level provides a powerful means for the understanding of the physical processes underlying the macroscopic strength and failure behaviour of the composite materials under various loading conditions. This thesis endeavours to develop effective and efficient mesoscale models for cement-based composites, especially concrete, with a focus on dynamic analysis applications and in a three-dimensional stress-strain environment. These models are subsequently applied to investigate the intrinsic microscopic mechanisms governing the behaviour of such material under complex and high rate loadings, such as those due to shock, impact and blast. To cater to the needs of dynamic analysis under complex stress conditions, a general 2-dimensinal (2D) mesoscale modelling framework is further developed with the incorporation of the 3-D effect. This framework integrates the capabilities of MATLAB programming for the generation of the mesoscale geometric structure, ANSYS-CAE for finite element mesh generation, and the hydrocode LS-DYNA for solving the dynamic response of the model. The 3D effect is incorporated via a novel pseudo-3D modelling scheme such that the crucial lateral confinement effect during the transient dynamic response can be realistically represented. With the above mesoscale model a comprehensive investigation is conducted on the dynamic increase factor (DIF) in the concrete strength under compression, with particular focus on the variation trend at different strain rate regimes, and the key influencing factors. The wave propagation effect under high strain rate is scrutinised from a strip-by-strip perspective, and the correlation between the externally measured stress-strain quantities and the actual processes within the specimen is examined. The contribution of the material heterogeneity, as well as the structural effect (inertia), in the dynamic strength enhancement is evaluated. The classical Brazilian (splitting) test for the dynamic tensile behaviour of concrete is also investigated with the aid of the mesoscale model. Of particular interest here is the validity of such an indirect setup in reproducing the tensile behaviour of the specimen under high strain rates, as well as the effect of the heterogeneity in the dynamic tensile strength. Complications are found to arise as the loading rate increases. The change of the damage patterns with increase of the loading rate and the implications on the interpretation of the results are discussed. As an ideal solution to modelling of the 3-D effects, a methodology for the creation of a complex real 3-dimensional mesoscale model is put forward in the last part of the thesis. A geometric concept, called convex hull, is adopted for the representation of aggregates, and this makes it possible to utilize the relevant algorithms in computational geometry for the present purpose of generation of random 3-D aggregates. A take-and-place procedure is employed to facilitate the generation of the complete 3-D meso-structure. Associated techniques are developed for fast detection of particle inclusion-intersection. An example 3D mesoscale model is presented and representative numerical simulations are carried out to demonstrate the performance of the 3-D mesoscale modelling scheme. 620.1
2	Calda sulfocálcica em pomares de citros: evolução da resistência em Brevipalpus phoenicis (Acari: Tenuipalpidae) e impacto sobre Iphiseiodes zuluagai (Acari: Phytoseiidae) / Lime sulfur in citrus groves: resistance evolution in Brevipalpus phoenicis (Acari: Tenuipalpidae) and impact on Iphiseiodes zuluagai (Acari: Phytoseiidae) Casarin, Nadia Fernanda Bertan 06 April 2010 (has links) A adoção da calda sulfocálcica como um produto alternativo para o controle de Brevipalpus phoenicis (Geijskes) tem sido intensificada pelos citricultores brasileiros. A calda sulfocálcica é o único produto eficiente no controle de B. phoenicis permitido pelas certificadoras de produtos orgânicos, sendo pulverizada em média 11 vezes por ano. Devido à intensificação no uso da calda sulfocálcica, os objetivos do presente trabalho foram avaliar a evolução da resistência de B. phoenicis e o impacto sobre Iphiseiodes zuluagai Denmark & Muma mediante condução de estudos de: (a) detecção e caracterização da resistência de B. phoenicis à calda sulfocálcica pelo monitoramento da suscetibilidade de populações originárias do sistema de manejo orgânico e convencional, e avaliação de resistência cruzada entre enxofre e calda sulfocálcica; (b) avaliação da toxicidade de calda sulfocálcica na evolução da resistência de B phoenicis mediante estimativa da demografia de linhagens suscetível (S), e resistentes à calda sulfocálcica (Calda-R) e enxofre (Enxofre-R); (c) avaliação da estabilidade da resistência de B. phoenicis à calda sulfocálcica em laboratório, pela estimativa da freqüência de resistência ao longo do tempo e da taxa instantânea de crescimento (ri) das linhagens S e Calda-R; e (d) avaliação do efeito letal e subletal de calda sulfocálcica sobre I. zuluagai. Para monitorar a suscetibilidade de B. phoenicis à calda sulfocálcica, concentração diagnóstica de 320 µg de enxofre/ml de água [(ppm) I.A.] foi definida pela caracterização da linhagem S com bioensaio de contato direto e residual. Diferenças significativas na suscetibilidade foram detectadas entre as populações, mas não entre os sistemas de manejo. A população com maior sobrevivência foi selecionada com concentração diagnóstica para a resistência à calda sulfocálcica (R). A CL50 estimada para as linhagens S e Calda-R à calda sulfocálcica foram 200,79 e 1.142,75 ppm respectivamente, e razão de resistência de 5,69 vezes. Foi detectada resistência cruzada positiva entre enxofre e calda sulfocálcica em B. phoenicis. A avaliação da toxicidade de calda sulfocálcica na evolução da resistência foi baseada na estimativa da ri. A ri diminuiu com o aumento das concentrações de calda sulfocálcica. As linhagens Calda-R e Enxofre-R apresentaram crescimento positivo mesmo nas concentrações de calda sulfocálcica de 3.000 e 6.000 ppm, enquanto a linhagem S foi extinta a partir de 3.000 ppm. Discriminação entre as linhagens S, e resistentes Calda-R e Enxofre-R foi verificada a partir das concentrações de 320 e 240 ppm, respectivamente. A resistência de B. phoenicis à calda sulfocálcica em laboratório foi estável. A toxicidade de calda sulfocálcica a I. zuluagai foi avaliada com bioensaio de contato direto e residual. A persistência da calda sulfocálcica a I. zuluagai foi avaliada em plantas de Canavalia ensiformis L. pulverizadas com concentração de 6.000 ppm. A calda sulfocálcica nas concentrações de 3.000 e 6.000 ppm afetou negativamente a demografia de I. zuluagai, levando a extinção. A persistência da calda sulfocálcica foi relativamente longa, resíduo com 41 dias de idade afetou significativamente a demografia de I. zuluagai. Baseado nos resultados, estratégias de manejo da resistência de B. phoenicis à calda sulfocálcica devem ser implementadas para preservar sua vida útil. / The use of the lime sulfur as an alternative product for controlling Brevipalpus phoenicis (Geijskes) has intensified in Brazilian citrus groves. The lime sulfur is the only efficient product used to control B. phoenicis and certified by organic producers with an average of 11 sprayings per year. Due to intense use of this product, the major objectives of this research were to understand the evolution of resistance of lime sulfur in B. phoenicis and the impact on Iphiseiodes zuluagai Denmark & Muma by conducting studies (a) to detect and characterize B. phoenicis resistance to lime sulfur by monitoring susceptibility in populations collected from citrus groves managed organically and conventionally, and by assessing the possible crossresistance between sulfur and lime sulfur; (b) to understand the impact of lime sulfur toxicity in B. phoenicis resistance evolution, by comparing the demography of susceptible (S), lime sulfurresistant (Lime-R) and sulfur-resistant (Sulfur-R) strains; (c) to evaluate the stability of B. phoenicis resistance to lime sulfur under laboratory conditions, by estimating temporal changes in the frequency of resistance and the instantaneous rate of increase (ri) in S and Lime-R strains; and (d) to evaluate the lethal and sublethal effect of lime sulfur on I. zuluagai. To monitor susceptibility of B. phoenicis to lime sulfur, a diagnostic concentration of 320 g of sulfur/ml of water [(ppm) AI] was defined, by characterization of S strain through direct and residual contact bioassays. Significant differences in susceptibility were detected among populations, but not between management systems. A population with the highest survivorship was identified for selecting a resistant strain to lime sulfur (R) with diagnostic concentration. The estimated LC50 of lime sulfur for S and R strains were 200.79 and 1,142.75 ppm respectively. Therefore, the resistance ratio was 5.69-fold. Cross-resistance between sulfur and lime sulfur was detected in B. phoenicis. The evaluation of the toxicity of lime sulfur on resistance evolution was based on estimation of ri. The ri decreased with the increase of lime sulfur concentrations to all strains. The Lime-R and Sulfur-R strains showed positive population growth, even at concentrations of 3,000 and 6,000 ppm, while the S strain was extinct from concentration of 3,000 ppm of lime sulfur. Discrimination between the S and the Lime-R and Sulfur-R was observed from concentrations of 320 and 240 ppm, respectively. The resistance of B. phoenicis to lime sulfur was stable under laboratory conditions. The toxicity of lime sulfur in I. zuluagai was evaluated with residual and direct contact bioassay. The persistence of lime sulfur to I. zuluagai was evaluated on plants of Canavalia ensiformis L. sprayed at concentrations up to 6,000 ppm. The lime sulfur at concentrations of 3,000 and 6,000 ppm had negative impact on population growth of I. zuluagai, by leading to extinction. The persistence of lime sulfur was relatively high because even 41-day old residues had also negative impact on I. zuluagai population growth. Based on results obtained herein, strategies for managing B. phoenicis resistance to lime sulfur should be implemented to preserve the lifetime of this product. Ácaros - Resistência Calda sulfocálcica Chemical control Controle químico Flat mite Frutas cítricas Instantaneous rate of increase. Leprose. Organic citrus Resistance management
3	Calda sulfocálcica em pomares de citros: evolução da resistência em Brevipalpus phoenicis (Acari: Tenuipalpidae) e impacto sobre Iphiseiodes zuluagai (Acari: Phytoseiidae) / Lime sulfur in citrus groves: resistance evolution in Brevipalpus phoenicis (Acari: Tenuipalpidae) and impact on Iphiseiodes zuluagai (Acari: Phytoseiidae) Nadia Fernanda Bertan Casarin 06 April 2010 (has links) A adoção da calda sulfocálcica como um produto alternativo para o controle de Brevipalpus phoenicis (Geijskes) tem sido intensificada pelos citricultores brasileiros. A calda sulfocálcica é o único produto eficiente no controle de B. phoenicis permitido pelas certificadoras de produtos orgânicos, sendo pulverizada em média 11 vezes por ano. Devido à intensificação no uso da calda sulfocálcica, os objetivos do presente trabalho foram avaliar a evolução da resistência de B. phoenicis e o impacto sobre Iphiseiodes zuluagai Denmark & Muma mediante condução de estudos de: (a) detecção e caracterização da resistência de B. phoenicis à calda sulfocálcica pelo monitoramento da suscetibilidade de populações originárias do sistema de manejo orgânico e convencional, e avaliação de resistência cruzada entre enxofre e calda sulfocálcica; (b) avaliação da toxicidade de calda sulfocálcica na evolução da resistência de B phoenicis mediante estimativa da demografia de linhagens suscetível (S), e resistentes à calda sulfocálcica (Calda-R) e enxofre (Enxofre-R); (c) avaliação da estabilidade da resistência de B. phoenicis à calda sulfocálcica em laboratório, pela estimativa da freqüência de resistência ao longo do tempo e da taxa instantânea de crescimento (ri) das linhagens S e Calda-R; e (d) avaliação do efeito letal e subletal de calda sulfocálcica sobre I. zuluagai. Para monitorar a suscetibilidade de B. phoenicis à calda sulfocálcica, concentração diagnóstica de 320 µg de enxofre/ml de água [(ppm) I.A.] foi definida pela caracterização da linhagem S com bioensaio de contato direto e residual. Diferenças significativas na suscetibilidade foram detectadas entre as populações, mas não entre os sistemas de manejo. A população com maior sobrevivência foi selecionada com concentração diagnóstica para a resistência à calda sulfocálcica (R). A CL50 estimada para as linhagens S e Calda-R à calda sulfocálcica foram 200,79 e 1.142,75 ppm respectivamente, e razão de resistência de 5,69 vezes. Foi detectada resistência cruzada positiva entre enxofre e calda sulfocálcica em B. phoenicis. A avaliação da toxicidade de calda sulfocálcica na evolução da resistência foi baseada na estimativa da ri. A ri diminuiu com o aumento das concentrações de calda sulfocálcica. As linhagens Calda-R e Enxofre-R apresentaram crescimento positivo mesmo nas concentrações de calda sulfocálcica de 3.000 e 6.000 ppm, enquanto a linhagem S foi extinta a partir de 3.000 ppm. Discriminação entre as linhagens S, e resistentes Calda-R e Enxofre-R foi verificada a partir das concentrações de 320 e 240 ppm, respectivamente. A resistência de B. phoenicis à calda sulfocálcica em laboratório foi estável. A toxicidade de calda sulfocálcica a I. zuluagai foi avaliada com bioensaio de contato direto e residual. A persistência da calda sulfocálcica a I. zuluagai foi avaliada em plantas de Canavalia ensiformis L. pulverizadas com concentração de 6.000 ppm. A calda sulfocálcica nas concentrações de 3.000 e 6.000 ppm afetou negativamente a demografia de I. zuluagai, levando a extinção. A persistência da calda sulfocálcica foi relativamente longa, resíduo com 41 dias de idade afetou significativamente a demografia de I. zuluagai. Baseado nos resultados, estratégias de manejo da resistência de B. phoenicis à calda sulfocálcica devem ser implementadas para preservar sua vida útil. / The use of the lime sulfur as an alternative product for controlling Brevipalpus phoenicis (Geijskes) has intensified in Brazilian citrus groves. The lime sulfur is the only efficient product used to control B. phoenicis and certified by organic producers with an average of 11 sprayings per year. Due to intense use of this product, the major objectives of this research were to understand the evolution of resistance of lime sulfur in B. phoenicis and the impact on Iphiseiodes zuluagai Denmark & Muma by conducting studies (a) to detect and characterize B. phoenicis resistance to lime sulfur by monitoring susceptibility in populations collected from citrus groves managed organically and conventionally, and by assessing the possible crossresistance between sulfur and lime sulfur; (b) to understand the impact of lime sulfur toxicity in B. phoenicis resistance evolution, by comparing the demography of susceptible (S), lime sulfurresistant (Lime-R) and sulfur-resistant (Sulfur-R) strains; (c) to evaluate the stability of B. phoenicis resistance to lime sulfur under laboratory conditions, by estimating temporal changes in the frequency of resistance and the instantaneous rate of increase (ri) in S and Lime-R strains; and (d) to evaluate the lethal and sublethal effect of lime sulfur on I. zuluagai. To monitor susceptibility of B. phoenicis to lime sulfur, a diagnostic concentration of 320 g of sulfur/ml of water [(ppm) AI] was defined, by characterization of S strain through direct and residual contact bioassays. Significant differences in susceptibility were detected among populations, but not between management systems. A population with the highest survivorship was identified for selecting a resistant strain to lime sulfur (R) with diagnostic concentration. The estimated LC50 of lime sulfur for S and R strains were 200.79 and 1,142.75 ppm respectively. Therefore, the resistance ratio was 5.69-fold. Cross-resistance between sulfur and lime sulfur was detected in B. phoenicis. The evaluation of the toxicity of lime sulfur on resistance evolution was based on estimation of ri. The ri decreased with the increase of lime sulfur concentrations to all strains. The Lime-R and Sulfur-R strains showed positive population growth, even at concentrations of 3,000 and 6,000 ppm, while the S strain was extinct from concentration of 3,000 ppm of lime sulfur. Discrimination between the S and the Lime-R and Sulfur-R was observed from concentrations of 320 and 240 ppm, respectively. The resistance of B. phoenicis to lime sulfur was stable under laboratory conditions. The toxicity of lime sulfur in I. zuluagai was evaluated with residual and direct contact bioassay. The persistence of lime sulfur to I. zuluagai was evaluated on plants of Canavalia ensiformis L. sprayed at concentrations up to 6,000 ppm. The lime sulfur at concentrations of 3,000 and 6,000 ppm had negative impact on population growth of I. zuluagai, by leading to extinction. The persistence of lime sulfur was relatively high because even 41-day old residues had also negative impact on I. zuluagai population growth. Based on results obtained herein, strategies for managing B. phoenicis resistance to lime sulfur should be implemented to preserve the lifetime of this product. Ácaros - Resistência Calda sulfocálcica Controle químico Frutas cítricas Leprose. Chemical control Flat mite Instantaneous rate of increase. Organic citrus Resistance management
4	Bases para o manejo da resistência de Diaphorina citri (Hemiptera: Liviidae) ao inseticida neonicotinoide imidacloprid em pomares de citros / Bases for resistance management of Diaphorina citri (Hemiptera: Liviidae) to the neonicotinoid insecticide imidacloprid in citrus groves Poltronieri, Alex Sandro 15 April 2013 (has links) Um dos inseticidas mais utilizados para o controle do psilídeo Diaphorina citri (Hemiptera: Liviidae) em pomares de citros no Brasil tem sido o neonicotinoide imidacloprid. Para subsidiar um programa de Manejo da Resistência de D. citri a imidacloprid foram realizados estudos de monitoramento da suscetibilidade a inseticidas em populações de D. citri provenientes das principais regiões citrícolas do Estado de São Paulo, interações de imidacloprid com inseticidas e fungicidas, e avaliação da viabilidade de associação de imidacloprid com o parasitoide Tamarixia radiata (Hymenoptera: Eulophidae). Para a caracterização de linhas básicas de suscetibilidade de D. citri aos inseticidas imidacloprid, deltamethrin e dimethoate foram utilizados bioensaios de contato residual. Foram definidas as concentrações diagnósticas de 56 mg de imidacloprid/L água (CL95), 32 mg de deltamethrin/L água (CL90) e 56 mg de dimethoate/L água (CL95) para o monitoramento da suscetibilidade de 25 populações de D. citri entre 2010 e 1012. Não ocorreram diferenças na sobrevivência aos inseticidas testados em populações de psilídeos coletados em pomares de citros com diferentes intensidades de pulverização com inseticidas. A maior sobrevivência de insetos nas concentrações diagnósticas foi observada em 2010, com valores de sobrevivência variando de 4,7% a 24,0% para imidacloprid, de 0,9% a 11,8% para deltamethrin e de 5,2% a 13,0% para dimethoate. Não foram observados aumentos significativos na sobrevivência de D. citri nos monitoramentos realizados em 2011 e 2012. As interações de imidacloprid com deltamethrin ou dimethoate foram testadas com as CL25 dos respectivos inseticidas em bioensaio de contato residual. As interações foram aditivas sobre a mortalidade de adultos em condições de campo e de casa de vegetação. A mistura de imidacloprid com buprofezin e pyriproxyfen sobre ninfas de 3º instar também foi aditiva. A atividade biológica das concentrações campo de imidacloprid (40?L/mL) e buprofezin (375?g/mL) e da mistura dos mesmos mostrou uma degradação da atividade similar para o controle de D. citri em condições de campo e casa de vegetação. A avaliação da persistência da mistura de imidacloprid e pyriproxyfen (avaliado nas concentrações de 6,25?g/mL e 100?g/mL) indicou que pyriproxyfen teve degradação mais rápida que imidacloprid. A mistura de imidacloprid na CL25 para D. citri com a concentração de campo dos fungicidas Benzimidazol (500?g/mL de tiofanato-metilico), estrubilurina (37,5?g /mL de piraclostrobina) e triazol (50?g/mL de difenenoconazol) não afetaram o desempenho de imidacloprid. Houve significativa redução na taxa instantânea de crescimento (ri) de D. citri quando expostas a diferentes idades de resíduos de imidacloprid pulverizado na concentração de 40?g/mL, mesmo sobre resíduos com 56 dias de idade, levando à extinção da população ou em processo de extinção. A exposição a CL5 (0,501?g/mL), CL10 (0,804?g/mL), CL25 (1,995?g/mL) e CL50 (5,213?g/mL) de imidacloprid para D. citri reduziu o crescimento populacional de D. citri, mas não causou sua extinção. Contudo, essas concentrações de imidacloprid afetaram a ri do parasitoide com a CL50 causando sua extinção. / One of the most widely used insecticides for control of Diaphorina citri (Hemiptera: Liviidae) in citrus groves in Brazil has been the neonicotinoid imidacloprid. To implement an Insect Resistance Management program of D. citri to imidacloprid, studies were conducted to monitor the susceptibility to insecticides in D. citri populations collected from main citrus production regions of São Paulo State, to evaluate the interactions of imidacloprid with insecticides and fungicides, and to assess the feasibility of imidacloprid association with the parasitoid Tamarixia radiata (Hymenoptera: Eulophidae). Residual contact bioassays were used to characterize the baseline susceptibility of D. citri to the insecticides imidacloprid, deltamethrin and dimethoate. Diagnostic concentrations of 56 mg of imidacloprid/L water (LC95), 32 mg of deltamethrin/L water (LC90) and 56 mg of dimethoate/L water (LC95) were defined for monitoring the susceptibility in 25 populations of D. citri from 2010 to 2012. There were no differences in survival to the insecticides tested in D. citri populations collected in citrus groves with different regimes of insecticide use. The highest survival of insects at diagnostic concentrations was observed in 2010, with survival values ranging from 4.7% to 24.0% for imidacloprid, from 0.9% to 11.8% for deltamethrin and 5.2% to 13.0% dimethoate. There were no significant increases in survival of D. citri on monitoring conducted in 2011 and 2012. The interactions of imidacloprid with deltamethrin or dimethoate were tested with the LC25 of each insecticide with residual contact bioassays. The interactions of these insecticides were additive on D. citri adult mortality under field or greenhouse conditions. The interactions of imidacloprid with buprofezin and pyriproxyfen were additive on 3rd instar nymphs. The biological activity at field rates of imidacloprid (40?l/mL) and buprofezin (375?g/mL) as well as the mixture of these insecticides showed a similar degradation in the activity to control D. citri under field and greenhouse conditions. The evaluation of the persistence of the mixture of pyriproxyfen and imidacloprid (evaluated at concentrations of 6.25 ?g/mL and 100?g/mL) indicated that pyriproxyfen degradation was faster than imidacloprid. The mixture of LC25 of imidacloprid to D. citri with fungicides field rates of benzimidazole (500?g/mL of thiophanate-methil), strobilurin (37.5 ?g/mL of pyraclostrobin), and triazole (50?g/mL of difenoconazole) did not affect the performance of imidacloprid. A significant reduction in the instantaneous rate of increase (ri) of D. citri was observed when exposed to different residue ages of imidacloprid sprayed at concentration of 40?g/mL, even when exposed to residues of 56-day old, by leading to their extinction or in extinction process. The exposure to CL5 (0.501 ?g/mL), CL10 (0.804 ?g/mL), LC25 (1.995 ?g/mL) and LC50 (5.213 ?g/mL) of imidacloprid to D. citri did not cause their extinction. However, these concentrations of imidacloprid affected the ri of the parasitoid causing their extinction at LC50. Citros Citrus Citrus psyllids Insect resistance management Insecticide mixture Inseticidas Instantaneous rate of increase Manejo da resistência de insetos Mistura de inseticidas Psilídeo dos citros Tamarixia radiata Tamarixia radiata Taxa instantânea de crescimento
5	Bases para o manejo da resistência de Diaphorina citri (Hemiptera: Liviidae) ao inseticida neonicotinoide imidacloprid em pomares de citros / Bases for resistance management of Diaphorina citri (Hemiptera: Liviidae) to the neonicotinoid insecticide imidacloprid in citrus groves Alex Sandro Poltronieri 15 April 2013 (has links) Um dos inseticidas mais utilizados para o controle do psilídeo Diaphorina citri (Hemiptera: Liviidae) em pomares de citros no Brasil tem sido o neonicotinoide imidacloprid. Para subsidiar um programa de Manejo da Resistência de D. citri a imidacloprid foram realizados estudos de monitoramento da suscetibilidade a inseticidas em populações de D. citri provenientes das principais regiões citrícolas do Estado de São Paulo, interações de imidacloprid com inseticidas e fungicidas, e avaliação da viabilidade de associação de imidacloprid com o parasitoide Tamarixia radiata (Hymenoptera: Eulophidae). Para a caracterização de linhas básicas de suscetibilidade de D. citri aos inseticidas imidacloprid, deltamethrin e dimethoate foram utilizados bioensaios de contato residual. Foram definidas as concentrações diagnósticas de 56 mg de imidacloprid/L água (CL95), 32 mg de deltamethrin/L água (CL90) e 56 mg de dimethoate/L água (CL95) para o monitoramento da suscetibilidade de 25 populações de D. citri entre 2010 e 1012. Não ocorreram diferenças na sobrevivência aos inseticidas testados em populações de psilídeos coletados em pomares de citros com diferentes intensidades de pulverização com inseticidas. A maior sobrevivência de insetos nas concentrações diagnósticas foi observada em 2010, com valores de sobrevivência variando de 4,7% a 24,0% para imidacloprid, de 0,9% a 11,8% para deltamethrin e de 5,2% a 13,0% para dimethoate. Não foram observados aumentos significativos na sobrevivência de D. citri nos monitoramentos realizados em 2011 e 2012. As interações de imidacloprid com deltamethrin ou dimethoate foram testadas com as CL25 dos respectivos inseticidas em bioensaio de contato residual. As interações foram aditivas sobre a mortalidade de adultos em condições de campo e de casa de vegetação. A mistura de imidacloprid com buprofezin e pyriproxyfen sobre ninfas de 3º instar também foi aditiva. A atividade biológica das concentrações campo de imidacloprid (40?L/mL) e buprofezin (375?g/mL) e da mistura dos mesmos mostrou uma degradação da atividade similar para o controle de D. citri em condições de campo e casa de vegetação. A avaliação da persistência da mistura de imidacloprid e pyriproxyfen (avaliado nas concentrações de 6,25?g/mL e 100?g/mL) indicou que pyriproxyfen teve degradação mais rápida que imidacloprid. A mistura de imidacloprid na CL25 para D. citri com a concentração de campo dos fungicidas Benzimidazol (500?g/mL de tiofanato-metilico), estrubilurina (37,5?g /mL de piraclostrobina) e triazol (50?g/mL de difenenoconazol) não afetaram o desempenho de imidacloprid. Houve significativa redução na taxa instantânea de crescimento (ri) de D. citri quando expostas a diferentes idades de resíduos de imidacloprid pulverizado na concentração de 40?g/mL, mesmo sobre resíduos com 56 dias de idade, levando à extinção da população ou em processo de extinção. A exposição a CL5 (0,501?g/mL), CL10 (0,804?g/mL), CL25 (1,995?g/mL) e CL50 (5,213?g/mL) de imidacloprid para D. citri reduziu o crescimento populacional de D. citri, mas não causou sua extinção. Contudo, essas concentrações de imidacloprid afetaram a ri do parasitoide com a CL50 causando sua extinção. / One of the most widely used insecticides for control of Diaphorina citri (Hemiptera: Liviidae) in citrus groves in Brazil has been the neonicotinoid imidacloprid. To implement an Insect Resistance Management program of D. citri to imidacloprid, studies were conducted to monitor the susceptibility to insecticides in D. citri populations collected from main citrus production regions of São Paulo State, to evaluate the interactions of imidacloprid with insecticides and fungicides, and to assess the feasibility of imidacloprid association with the parasitoid Tamarixia radiata (Hymenoptera: Eulophidae). Residual contact bioassays were used to characterize the baseline susceptibility of D. citri to the insecticides imidacloprid, deltamethrin and dimethoate. Diagnostic concentrations of 56 mg of imidacloprid/L water (LC95), 32 mg of deltamethrin/L water (LC90) and 56 mg of dimethoate/L water (LC95) were defined for monitoring the susceptibility in 25 populations of D. citri from 2010 to 2012. There were no differences in survival to the insecticides tested in D. citri populations collected in citrus groves with different regimes of insecticide use. The highest survival of insects at diagnostic concentrations was observed in 2010, with survival values ranging from 4.7% to 24.0% for imidacloprid, from 0.9% to 11.8% for deltamethrin and 5.2% to 13.0% dimethoate. There were no significant increases in survival of D. citri on monitoring conducted in 2011 and 2012. The interactions of imidacloprid with deltamethrin or dimethoate were tested with the LC25 of each insecticide with residual contact bioassays. The interactions of these insecticides were additive on D. citri adult mortality under field or greenhouse conditions. The interactions of imidacloprid with buprofezin and pyriproxyfen were additive on 3rd instar nymphs. The biological activity at field rates of imidacloprid (40?l/mL) and buprofezin (375?g/mL) as well as the mixture of these insecticides showed a similar degradation in the activity to control D. citri under field and greenhouse conditions. The evaluation of the persistence of the mixture of pyriproxyfen and imidacloprid (evaluated at concentrations of 6.25 ?g/mL and 100?g/mL) indicated that pyriproxyfen degradation was faster than imidacloprid. The mixture of LC25 of imidacloprid to D. citri with fungicides field rates of benzimidazole (500?g/mL of thiophanate-methil), strobilurin (37.5 ?g/mL of pyraclostrobin), and triazole (50?g/mL of difenoconazole) did not affect the performance of imidacloprid. A significant reduction in the instantaneous rate of increase (ri) of D. citri was observed when exposed to different residue ages of imidacloprid sprayed at concentration of 40?g/mL, even when exposed to residues of 56-day old, by leading to their extinction or in extinction process. The exposure to CL5 (0.501 ?g/mL), CL10 (0.804 ?g/mL), LC25 (1.995 ?g/mL) and LC50 (5.213 ?g/mL) of imidacloprid to D. citri did not cause their extinction. However, these concentrations of imidacloprid affected the ri of the parasitoid causing their extinction at LC50. Citros Inseticidas Manejo da resistência de insetos Mistura de inseticidas Psilídeo dos citros Tamarixia radiata Taxa instantânea de crescimento Citrus Citrus psyllids Insect resistance management Insecticide mixture Instantaneous rate of increase Tamarixia radiata
6	The social structure, distribution and demographic status of the African elephant population in the Central Limpopo River Valley of Botswana, Zimbabwe and South Africa Selier, Sarah-Anne Jeanetta 11 June 2008 (has links) The Central Limpopo River Valley elephant population is a cross border population on which very little scientific data pertaining to numbers, distribution and demographic status is available. The total range was determined using published literature, reports, postal questionnaires and interviews. Numbers and dry season distribution were determined by means of three total aerial counts in 2000, 2001 and 2004 of the sections of the total range in which elephants were reported. Totals of 1388, 1424 and 1339 were recorded with the highest numbers in all counts in the Botswana section of the study area. Four sub groups within the population were identified. Human settlements and the distribution of rivers and fencing appeared to be the major factors influencing distribution and movement. The population is highly mobile within the total range, and numbers fluctuate markedly in any given section, but numbers in the total range appear to have been increasing slowly at below 2% per annum and the range expanding slightly over the last 30 years. Additional range is being provided by the creation of a Trans Frontier Conservation Area. Movements were determined through ground observations within the study area and seem to follow the major rivers namely the Shashe, Ramokgwabane, Simukwe, Shashani, Tuli, Umzingwane and Limpopo rivers. The social and demographic status of the population was determined through ground observations as well as total aerial counts conducted within the Northern Tuli Game Reserve from 1976 to 2004. The study has shown that group sizes increase with an increase in rainfall (average mean group size of 56.524, SDE 77.388) and decrease during low rainfall periods (mean group size of 24.157, SDE 22.223). The age structure was determined from aerial photographs during August 2000 and showed a high percentage of adults and sub adults, with infants estimated at 3%. The approximate birth rate (1.5%) calculated for 2000 is balanced by an average natural mortality determined between 1999 and 2004 of 1.8%. The inter calf interval determined from known herds observed in the Northern Tuli Game Reserve was estimated at 3.94% and suggests that the long-term birth rate for the population should be higher than that for the year 2000. The difference between the combined natural and human induced mortality rates (~4%) and the birth rate suggested by the age structure and the inter calf interval (~6%) gives the ~2% long-term increase observed in the numbers. Human elephant interactions within the study area were determined through published literature and interviews with local residents. Elephants and humans interact in both a positive and negative manor and interactions are related to human land use practices within the area. Elephants were indicated as the major problem animal in farming areas, but the major draw card within tourism operations. / Dissertation (MSc (Wildlife Management))--University of Pretoria, 2008. / Animal and Wildlife Sciences / unrestricted Trans frontier conservation area Distribution Numbers Range Mortality rate Birth rate Inter calf interval Rate of increase Age structure Human elephant conflict Group sizes Northern tuli gamereserve UCTD
7	Biological control of California red scale, Aonidiella aurantii (Hemiptera: Diaspididae): spatial and temporal distribution of natural enemies, parasitism levels and climate effects Sorribas Mellado, Juan José 24 February 2012 (has links) En muchas áreas citrícolas del mundo el piojo rojo de California (PRC), Aonidiella aurantii (Hemiptera: Diaspididae), está considerado una plaga clave. En el Este de España se ha extendido durante las últimas décadas hasta cubrir una amplia extensión de cítricos. El control químico es difícil y frecuentemente es seguido de infestaciones recurrentes en poco tiempo, de la aparición de resistencias a diferentes productos usados para su control y de la eliminación de enemigos naturales en el campo. La mejora del manejo integrado y las técnicas de control biológico del PRC requieren conocer la composición de los enemigos naturales en cada zona climática, la fluctuación en su abundancia estacional, los niveles de parasitismo y depredación, como se distribuyen en la planta y como son afectados por el clima y el cambio climático. Aunque mucho se ha estudiado en laboratorio sobre los parasitoides Aphytis (Hymenoptera: Aphelinidae), los principales agentes de control del PRC, todavía no se conoce qué combinación de enemigos naturales consigue el mejor nivel de control en el campo, cómo varían los niveles de parasitismo a lo largo del año o cómo los parasitoides se distribuyen y compiten en el campo en relación con el clima. La acción de los Aphytis, ectoparasitoides, es complementada en muchas zonas citrícolas por los endoparasitoides Comperiella bifasciata y Encarsia perniciosi (Hymenoptera: Aphelinidae), los cuales pueden parasitar estadíos diferentes a Aphytis. Muy poco se sabe sobre el comportamiento y las respuestas biológicas bajo diferentes condiciones climáticas de estos endoparasitoides. Del mismo modo, el efecto de los depredadores sobre la población del piojo ha sido raramente estudiado. Actualmente, A. melinus, una especie introducida en el Este de España y el competidor superior, ha desplazado al parasitoide nativo A. chrysomphali de las zonas cálidas y secas ya que puede tolerar mejor las temperaturas cálidas del verano. / Sorribas Mellado, JJ. (2011). Biological control of California red scale, Aonidiella aurantii (Hemiptera: Diaspididae): spatial and temporal distribution of natural enemies, parasitism levels and climate effects [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/14794 / Palancia Parasitoid Predator Biological control Aphytis Species distribution Climate effects Competitve displacement Armored scales Aonidiella aurantii Temperature Relative humidity Intrinsic rate of increase Niche partitioning Phenotypic plasticity Introduction of new species PRODUCCION VEGETAL

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