Navegando por Autor "Pereira, G.A.M."
Agora exibindo 1 - 4 de 4
- Resultados por Página
- Opções de Ordenação
Item Application height in herbicides efficiency in bean crops(Planta Daninha, 2015-03-16) Pereira, G.A.M.; Barcellos Jr., L.H.; Braga, R.R.; Silva, D.V.; M.M., Texeira; Silva, A.A.; Ribeiro Jr., J.I.Inadequate herbicide application can result in failures in weed control and/or poisoning of the crops, resulting in yield losses. In this research were assessed the effects of the sprayer nozzle boom height in the distribution of the spray solution for weed control, influencing intoxication of beans and crop yield. Experiments were conducted in laboratory and field conditions. In laboratory, the performance of flat spray tip TT 11002 was assessed at heights 0.20, 0.30, 0.40 and 0.50 meters with respect to the target surface. In the field the same heights were assessed in applications of herbicides fomesafen, fluazifop-P-butyl and fomesafen + fluazifop-P-butyl. There was an inverse relationship between the height of the spray boom and the coefficients of variation of the patterns. The mixture better efficiency in a tank of fluazifop-P-butyl + fomesafen was obtained with the height of 0.50 m from the target. This treatment resulted in better weed control, lower poisoning of the bean plants and better crop yield rates.Item Differential tolerance of sugarcane cultivars to clomazone(Planta Daninha, 2017-10-30) Pereira, G.A.M.; Gonçalves, V.A.; Matos, C.C.; Silva, A.A.; Barcellos Junior, L.H.Weed control is one of the most relevant costs of sugarcane production. If weeds are not controlled at the right time, the productivity and longevity of sugarcane plantations are reduced. In this crop, chemical control is the most used method, since it is efficient and it has a lower cost. Differentiated tolerance of sugarcane cultivars to the herbicide clomazone has been observed in the fields. However, there is no scientific evidence of this effect on the productivity of crops. This study evaluated the effects of clomazone on three sugarcane cultivars (RB966928, RB93579 and RB867515). Herbicide application was performed 40 days after the emergence of sugarcane plants and 7, 14, 21 and 28 days after the application, the toxicity caused by the herbicide in the culture was evaluated through grades ranging from 0 (no toxicity) to 100 (plant death). The harvest was performed 580 days after the herbicide application. On this occasion, the length and diameter of the stem, number of tillers, tons of stems per hectare, total soluble solids of the juice, sucrose of the juice, apparent purity of the juice, sugarcane fiber, reducing sugars and total recoverable sugars were evaluated. The differential tolerance among sugarcane cultivars in response to clomazone application in the early stages of crop development was confirmed. Nevertheless, in all cultivars, the symptoms of intoxication disappeared over time and did not reflect on crop productivity. It was concluded that plant control in the sugarcane crop with clomazone, following the recommendation of the manufacturer, does not interfere negatively in the growth, development and productivity of the crop.Item Eucalypt growth submitted to management of Urochloa spp(Planta Daninha, 2015-07-13) Ferreira, G.L.; Saraiva, D.T.; Queiroz, G.P.; Silva, D.V.; Pereira, G.A.M.; Ferreira, L.R.; Oliveira Neto, S.N.; Mattiello, E.M.The objective of this work was to evaluate the initial growth and the physiological characteristics of eucalypt submitted to different managements of signalgrass. The experiment was conducted in a protected environment, using a randomized blocks design with five repetitions. The treatments were arranged in a (5 x 2) + 1 factorial design, and the first factor corresponded to the types of weed management (no control; chemical control keeping the signalgrass shoot on the soil; chemical control with removal of the signalgrass shoot; mechanical control keeping the signalgrass shoot on the soil, and mechanical control with removal of the signalgrass shoot); the second factor corresponded to the two weeds species (U. brizantha and U. decumbens) and a control relative to the eucalypt in monoculture. The eucalypt growth was not affected by the presence of the Urochloa species until 50 days after treatments (DAT). However, the coexistence of these species with eucalypt for 107 DAT reduced the collar diameter, total dry matter, and the leaf area, but did not alter the characteristics related to photosynthesis and transpiration. The control method adopted, with removal or maintenance of the signalgrass shoot, regardless of species, did not change the initial eucalypt growth. It can be concluded that the coexistence of eucalypt with Urochloa decumbens or Urochloa brizantha for 105 days reduces the eucalypt growth. However, the use of chemical or mechanical control, with or without removal of signalgrass residue, were effective methods to prevent interference of these weeds.Item Protective effect on Eucalyptus plants and signal grass control with a tank mixture of glyphosate and liquid fertilizer(Planta Daninha, 2017-12-07) Machado, M.S.; Ferreira, L.R.; Pereira, G.A.M.; Gonçalves, V.A.; Paixão, G.P.What is expected from an effective antidote, applied with an herbicide, is that it protects crops from damages by the herbicide without reducing its action on weeds. In this context, the goal of this study was to evaluate the effect of liquid fertilizer as a protector of eucalyptus plants and to control signal grass (Urochloa brizantha) submitted the application of glyphosate when applied in tank mixture. Plants were submitted to doses of liquid fertilizer and glyphosate; the application was performed so that the syrup would reach all aerial parts of the plants. The intoxication percentage of eucalyptus plants was evaluated on day 14, 35 and 49 after application (DAA). On day 49 DAA, the morphologic parameters of eucalyptus plants and the dry mass of signal grass were evaluated. The increase in glyphosate doses reduced the dry mass of signal grass, and 1,080 g ha-1 of glyphosate caused the death of the plant, regardless of the use of the liquid fertilizer. At 90, 180, 360 and 540 g ha-1 doses of glyphosate, the mixing tank with liquid fertilizer reduced glyphosate damages to signal grass. Higher doses of glyphosate caused greater toxicity in eucalyptus and the use of liquid fertilizer reduced this poisoning. High doses of glyphosate increased the control of signal grass, but they also increased the damages to eucalyptus, and the liquid fertilizer tends to reduce such damage. The tank mixture of glyphosate + liquid fertilizer (540 g ha-1 + 3 L ha-1) controlled signal grass without causing damages to eucalyptus.