Aplicação de manipueira no controle da Cochonilha-da-Raiz (Dysmicoccus sp.).

Na região Centro-Sul do Brasil, onde o cultivo da mandioca é destinado principalmente à indústria, o Paraná se destaca ocupando o segundo lugar na produção nacional e o primeiro na produção de fécula (GROXKO, 2013). Com o grande avanço tecnológico nesse cultivo, possibilitando o plantio de grandes áreas, surgiram novos problemas fitossanitários. Das 200 espécies de artrópodes estimadas que estejam em associação com a cultura da mandioca, citadas por Bellotti et al. (2002), muitas tem elevado potencial para atingirem o status de pragas, dentre essas estão as cochonilhas. A cochonilha-das-raízes da mandioca (Dysmicoccus sp.) tem sido amplamente encontrada alimentandose do pedúnculo e raiz de mandioca nas áreas produtoras do Paraná, se tornado uma preocupação ao setor produtivo, seja pela perda direta ocasionada pela sua alimentação ou indireta, abrindo porta de entrada para fungos que causam podridão radicular. A busca de alternativas para o controle de insetos de solo é de extrema importância, uma vez que estes são de difícil controle, necessitando muitas vezes a adoção de produtos com alto poder residual, o que para a cultura da mandioca, na qual se tem o consumo direto das raízes, é um fator limitante. A possibilidade de uso da manipueira, resíduo do processamento da mandioca, no controle desses insetos é uma alternativa interessante, considerando a alta disponibilidade deste produto nas indústrias. Diante desta perspectiva, o objetivo deste trabalho foi comparar a eficiência de aplicação de manipueira oriunda de diferentes cultivares de mandioca, em diferentes concentrações, para o controle de cochonilha da raiz da mandioca (Dysmicoccus sp.)

Definição da folha a ser amostrada para monitoramento de Mosca Branca (Bemisia tuberculata) na cultura da mandioca (Manihot esculenta Crantz).

A mandioca (Manihot esculenta Crantz) é uma cultura com crescente importância no mundo tropical, sendo a terceira fonte de calorias, atrás apenas do arroz e do milho, sendo utilizada na alimentação de cerca de 600 milhões de pessoas. No Brasil, aproximadamente 90% da produção da mandioca é obtida em propriedades de base familiar, sendo o país o terceiro produtor mundial, depois da Nigéria e da Tailândia, com uma produção de 26,52 milhões de toneladas de raízes, obtidas em uma área de cerca de 1,89 milhão de ha, o que corresponde a 12,37% da produção mundial e 10,20% da área, respectivamente (FAOSTAT, 2009). Essa é provavelmente a espécie vegetal mais disseminada pelo país, numa demonstração da profunda identificação entre essa cultura e o povo brasileiro. A cultura se caracteriza pela baixa necessidade de uso de insumos e agroquímicos, tem alta tolerância a períodos de seca, além de poder permanecer no solo até seu consumo, desempenhando papel importante na alimentação da população brasileira (CAMARGO, 2009). No entanto, por apresentar um longo ciclo vegetativo, está sujeita a uma grande diversidade de artrópodes que dela se alimentam (BELLOTTI et al., 1999). Dentro do complexo de insetos praga que atacam a cultura atualmente no Brasil, relata-se o crescimento da importância das espécies de mosca branca. Os gêneros mais importantes descritos atacando a cultura da mandioca no Brasil são Aleurothrixus aepim, Bemisia tuberculata, Trialeurodes variabilis e Bemisia tabaci biótipo B (OLIVEIRA & LIMA, 2006). No Centro-Sul do Brasil a espécie predominante é B. tuberculata, enquanto que no Nordeste destaca-se a espécie A. aepim (OLIVEIRA & LIMA, 2006). As moscas brancas causam danos diretos e indiretos, resultantes da sucção da seiva e transmissão de viroses, respectivamente (OLIVEIRA & LIMA, 2006). Para a supressão das populações desses insetos, apesar da existência de diversos inimigos naturais (BELLOTTI et al., 1999), tem-se predominado a utilização de inseticidas químicos, ainda que sem registros para essa cultura (AGROFIT, 2013) e ineficientes no controle do complexo de moscas brancas (MOREIRA et al., 2006). A utilização de variedades resistentes é outra estratégia de controle dessa praga, pois a mandioca é uma das poucas culturas onde se têm identificado níveis de resistência ao complexo de moscas brancas (CARABALI et al, 2010; OMONGO et al, 2012). Esta estratégia apresenta baixo custo e longa manutenção da população da praga abaixo do nível de dano econômico, além de reduzir perdas no rendimento, sendo uma importante ferramenta para ser incluída em um programa de manejo integrado de pragas (BELLOTTI et al., 1999). Para o estabelecimento de um eficiente programa de manejo integrado de pragas, além de utilizar várias estratégias de controle, é de suma importância um bom monitoramento da população da praga, visando à adoção de medidas de controle no momento ideal. Para a cultura da mandioca não se tem estabelecido um método de monitoramento preciso, eficiente e de baixo custo, principalmente para mosca branca. Observa-se que na cultura da mandioca os adultos de moscas brancas são encontrados principalmente nos ponteiros das plantas, onde se observa que o número de adultos presentes nas três primeiras folhas abertas, onde estes se alimentam e depositam seus ovos, é maior. Já as ninfas e 'pupas' são encontradas no terço apical e médio. Visando estabelecer um método de amostragem, que efetivamente seja representativo da população de mosca branca na cultura da mandioca, e considerando as características de localização dos adultos, se realizou este trabalho, cujo objetivo foi definir qual folha de mandioca deve ser amostrada durante o monitoramento de mosca branca em cultivos comerciais de mandioca, que expressem o nível populacional desta praga no cultivo

Geologically constrained evolutionary geomechanical modelling of diapir and basin evolution: a case study from the Tarfaya basin, West African coast

We systematically incorporate burial history, sea floor geometry and tectonic loads from a sequential kinematic restoration model into a 2D evolutionary geomechanical model that simulates the formation of the Sandia salt diapir, Tarfaya basin, NW African Coast. We use a poro-elastoplastic description for the sediment behaviour and a viscoplastic description for the salt. Sedimentation is coupled with salt flow and regional shortening to determine the sediment porosity and strength and to capture the interaction between salt and sediments. We find that temporal and spatial variation in sedimentation rate is a key control on the kinematic evolution of the salt system. Incorporation of sedimentation rates from the kinematic restoration at a location east of Sandia leads to a final geomechanical model geometry very similar to that observed in seismic reflection data. We also find that changes in the variation of shortening rates can significantly affect the present-day stress state above salt. Overall, incorporating kinematic restoration data into evolutionary models provides insights into the key parameters that control the evolution of geologic systems. Furthermore, it enables more realistic evolutionary geomechanical models, which, in turn, provide insights into sediment stress and porosity

Air-blast atomization and ignition of a kerosene spray in hot vitiated crossflow

Increasingly stringent regulations of pollutant emissions from aviation require rapid implementation of novel combustion technologies. Promising concepts based on moderate or intense low-oxygen dilution (MILD) combustion have been investigated in academia and industry. This MILD regime can be obtained from the recirculation of the hot vitiated combustion products to raise the temperature of the reactants, resulting in distributed reaction regions and lower flame temperatures. In the present work, we consider the air-blast atomization of a kerosene spray in crossflow, which enables efficient mixing between fuel and oxidizer. We investigate experimentally and numerically the effect of the spray air-to-liquid massflow ratio (ALR) variation on the reaction front and flame topology of a kerosene spray flame. The spray is injected transversely into a turbulent vitiated crossflow composed of the products of a lean CH4-H2 flame. The spray flame thermal power is varied between 2.5 and 5 kW, along with the atomizer ALR between 2 and 6. The experimental characterization of the reaction zone is performed using OH∗ chemiluminescence and OH and fuel planar laser-induced fluorescence (PLIF). The Large Eddy Simulations (LES) of the multiphase reactive flow provide good agreement with the experimental observations. Experiments and simulations show that the ALR governs mixing, resulting in different flame stabilization mechanisms and combustion regimes. Low ALR results in a relatively small jet-to-crossflow momentum ratio and a large spray Sauter mean diameter (SMD). A thick windward reaction region is formed due to inefficient shear layer mixing between the fuel spray and the crossflow. Meanwhile, the correspondingly large spray SMD leads to isolated penetration and localized combustion of fuel clusters. At high ALR, the higher penetration and the faster droplet evaporation due to the lower spray SMD result in an efficient entrainmentinduced mixing between the two streams, forming more distributed reaction regions

Ketahanan Sumberdaya Genetik Jagung Sulawesi Tenggara terhadap Cekaman Kekeringan pada Berbagai Fase Vegetatif

Maize crops experiencing water stress can experience cell damage, loss of turgor, closed stomata, plant leaf roll then wilt. Germination and vegetative growth are thought to be a very sensitive phases in relation to the availability of water, because it can influence subsequent growth processes. This study aimed to determine the potential tolerance of Southeast Sulawesi\u27s maize genotypes to drought stress at different vegetative growth phases. This study was based on completely randomized design (CRD) with factorial pattern consisting of two factors: the first factor composed of 9 local maize genotypes of Southeast Sulawesi and 1 national variety (cv. Arjuna), while the second factor was drought stress at different vegetative growth phases, consisting of four levels ie: C0 = plants irrigated with 100 % water availability during the growth phase, C1 = Stress for 5 days , at 21-26 days old (vegetative phase), C2 = Stress for 5 days starting at panicle emergence (early flowering stage), and C3 = Stress for 5 days starting 2 weeks after silking. Research results showed that Genotype (G) treatment significantly influenced all observed growth variables (at age 21 and 42 days after planting, DAP), except for the variable of number of leaf, age 21 DAP. However, water stress treatment (C) only significantly affected plant height variable, at the age of 42 DAP. In general, G6 and G7 genotypes tended to have a higher crop and trunk diameter than the other genotypes. Contrary, G3 genotype tended to have shorter crop and smaller stem diameter than the other genotypes. There are indications that the drought stress treatment (C) significantly inhibited the growth of maize crops

Binary Switching of Calendar Cells in the Pituitary Defines the Phase of the Circannual Cycle in Mammals

Persistent free-running circannual (approximately year-long) rhythms have evolved in animals to regulate hormone cycles, drive metabolic rhythms (including hibernation), and time annual reproduction. Recent studies have defined the photoperiodic input to this rhythm, wherein melatonin acts on thyrotroph cells of the pituitary pars tuberalis (PT), leading to seasonal changes in the control of thyroid hormone metabolism in the hypothalamus. However, seasonal rhythms persist in constant conditions in many species in the absence of a changing photoperiod signal, leading to the generation of circannual cycles. It is not known which cells, tissues, and pathways generate these remarkable long-term rhythmic processes. We show that individual PT thyrotrophs can be in one of two binary states reflecting either a long (EYA3+) or short (CHGA+) photoperiod, with the relative proportion in each state defining the phase of the circannual cycle. We also show that a morphogenic cycle driven by the PT leads to extensive re-modeling of the PT and hypothalamus over the circannual cycle. We propose that the PT may employ a recapitulated developmental pathway to drive changes in morphology of tissues and cells. Our data are consistent with the hypothesis that the circannual timer may reside within the PT thyrotroph and is encoded by a binary switch timing mechanism, which may regulate the generation of circannual neuroendocrine rhythms, leading to dynamic re-modeling of the hypothalamic interface. In summary, the PT-ventral hypothalamus now appears to be a prime structure involved in long-term rhythm generation

Morphological characterization of bushy cells and their inputs in the laboratory mouse (Mus musculus) anteroventral cochlear nucleus.

PMC3753269Spherical and globular bushy cells of the AVCN receive huge auditory nerve endings specialized for high fidelity neural transmission in response to acoustic events. Recent studies in mice and other rodent species suggest that the distinction between bushy cell subtypes is not always straightforward. We conducted a systematic investigation of mouse bushy cells along the rostral-caudal axis in an effort to understand the morphological variation that gives rise to reported response properties in mice. We combined quantitative light and electron microscopy to investigate variations in cell morphology, immunostaining, and the distribution of primary and non-primary synaptic inputs along the rostral-caudal axis. Overall, large regional differences in bushy cell characteristics were not found; however, rostral bushy cells received a different complement of axosomatic input compared to caudal bushy cells. The percentage of primary auditory nerve terminals was larger in caudal AVCN, whereas non-primary excitatory and inhibitory inputs were more common in rostral AVCN. Other ultrastructural characteristics of primary auditory nerve inputs were similar across the rostral and caudal AVCN. Cross sectional area, postsynaptic density length and curvature, and mitochondrial volume fraction were similar for axosomatic auditory nerve terminals, although rostral auditory nerve terminals contained a greater concentration of synaptic vesicles near the postsynaptic densities. These data demonstrate regional differences in synaptic organization of inputs to mouse bushy cells rather than the morphological characteristic of the cells themselves.JH Libraries Open Access Fun