This paper proposes a fault-location method based on smart feeder meters with voltage sag monitoring capability. The main idea is to explore voltage measurements from monitors placed in different buses of distribution systems to estimate the fault location. The estimation is achieved by relating the voltage deviation measured by each meter to the fault current calculated based on the bus impedance matrix, considering the fault in different points. In order to improve the method accuracy, the loads are represented by constant impedance models and included into the bus impedance matrix. The performance of the proposed method is demonstrated by using a real distribution system. Sensitivity studies results show that the method is robust since it has good performance for different values of fault resistance, quantity, and location of the smart meters.
One of 500 rhizobacteria isolated from soil, rhizosphere and rhizoplane of healthy tomato plants was previously selected in laboratory, greenhouse and field tests as a good inducer of systemic resistance. This plant growth-promoting rhizobacterium (PGPR) was identified as Bacillus cereus by fatty-acid analysis. Bacillus cereus bacterial cells were removed from liquid culture by centrifugation and the supernatant repeatedly dialyzed (cut-off ¼ 12 000 daltons) against distilled water. Dialysates applied to roots protected tomato plants against leaf fungal and bacterial pathogens, evidence that macromolecules synthesized by the PGPR and released into the environment act as elicitors of systemic resistance.
The fungus Rhizoctonia solani anastomosis group (AG)-1 IA emerged in the early 1990s as an important pathogen causing foliar blight and collar rot on pastures of the genus Urochloa (signalgrass) in South America. We tested the hypothesis that this pathogen emerged following a host shift or jump as a result of geographical overlapping of host species. The genetic structure of host and regional populations of R. solani AG-1 IA infecting signalgrass, rice, and soybean in Colombia and Brazil was analyzed using nine microsatellite loci in 350 isolates to measure population differentiation and infer the pathogen reproductive system. Phylogeographical analyses based on the microsatellite loci and on three DNA sequence loci were used to infer historical migration patterns and test hypotheses about the origin of the current pathogen populations. Cross pathogenicity assays were conducted to measure the degree of host specialization in populations sampled from different hosts. The combined analyses indicate that the pathogen populations currently infecting Urochloa in Colombia and Brazil most likely originated from a population that originally infected rice. R. solani AG-1 IA populations infecting Urochloa exhibit a mixed reproductive system including both sexual reproduction and long-distance dispersal of adapted clones, most likely on infected seed. The pathogen population on Urochloa has a genetic structure consistent with a high evolutionary potential and showed evidence for host specialization.
RESUMO -A germinação lenta e irregular das sementes é uma limitação para a produção de mudas de teca (Tectona grandis). Embora métodos práticos estejam disponíveis poucos estudos quantificaram sistematicamente o efeito do aquecimento e da escarificação para a superação da dormência. O emprego de altas temperaturas pode ser realizado através de um coletor solar, aparelho de montagem simples que permite a captação da energia solar e transformação em energia calorífera. O objetivo deste trabalho foi avaliar a interação dos fatores "aquecimento" e "escarificação" na superação da dormência dos diásporos de teca avaliando o desempenho do coletor solar. Foi avaliado experimento em delineamento de fatorial completo com quatro níveis do fator "aquecimento" (A1 -solarizador, A2 -estufa a 80ºC (12h), A3 -estufa a 80ºC (4h/3dias), A4-sem aquecimento) e três níveis do fator "escarificação" (E1 -escarificação física, E2 -escarificação química e E3 -sem escarificação), totalizando 12 tratamentos com cinco repetições de 25 diásporos por parcela. O teste F a 1% de probabilidade indicou a ocorrência de interação significativa entre os fatores "aquecimento" e "escarificação", resultado da menor germinação dos diásporos que foram escarificados após aquecimento. A utilização de altas temperaturas na ausência de escarificação caracterizou os tratamentos de melhor desempenho para a superação da dormência. O menor desempenho associado aos maiores custos e riscos para manipulação desencorajaram o uso da escarificação química na superação da dormência. A alternância de temperaturas favoreceu a germinação, sendo que o coletor solar mostrou-se uma alternativa prática, viável e de menor custo para a superação da dormência em teca.
CHARACTERIZATION OF FACTORS AFFECTING TEAK GERMINATION (Tectona grandis): TEMPERATURE AND SCARIFICATION
ABSTRACT -The slow and irregular seeds germination limits the production of teak seedlings (Tectona grandis
O artigo apresenta o desenvolvimento de um sistema integrado de software e hardware cujo objetivo é servir de plataforma para desenvolver e executar em tempo real algoritmos de proteção aplicados a sistemas elétricos. O objetivo deste sistema é reduzir o tempo de desenvolvimento de novas funções de proteção, possibilitando a execução de testes em tempo real e não por meio de simulações computacionais, como é tipicamente encontrado na literatura. Neste trabalho as funções de proteção de gerador que foram implementadas e testadas são descritas, e os resultados obtidos comparados com aqueles extraídos através de testes em um relé comercial, evidenciando a viabilidade do sistema desenvolvido.
The strategies to control the cattle tick, Rhipicephalus microplus are based mainly on the use of synthetic pesticides. However, the emergence, establishment, and development of resistance of ticks is rendering the main chemical groups ineffective. Finding new molecules to effectively control infestations by R. microplus is necessary to maintain the productivity of cattle herds, particularly of taurine breeds established in equatorial and tropical regions of the world. Ethanol extracts from the leaves, stems, and fruits of Piper tuberculatum were evaluated in bioassays at concentrations of 50, 25, 12.50, 6.25, 3.12 and 1.56 mg mL-1. The concentrations lethal to 50% of the individuals (LC50) of tick larvae after 24 hours of exposure were 3.62, 3.99 and 5.30 mg mL-1 for fruit, stem and leaf extracts, respectively. Against the engorged females, the highest efficacy rates were obtained at the concentration of 50 mg mL-1, corresponding to 71.57%, 68.38% and 37.03% of the fruit, leaf and stem extracts, respectively. The main effect of the ethanol extracts was on the egg hatching rate of ticks, with a reduction of 55.63% for the fruit and leaf extracts, and 20.82% for the stem extract. The results show that P. tuberculatum is a promising source of molecules for use as active ingredients in pesticide formulations for R. microplus control.
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