RESUMEN
Maize silage has been used as a forage reserve strategy for critical periods or continuous use in animal feed. However, new genotypes and their potential must be identified. Thus, this study aimed to evaluate the potential of maize genotypes for silage and grain in one off-season in the midwest region of Brazil, under limited water and frost, and select them for this dual purpose (silage and grain) using the GT Biplot tool. The experiment was performed at Embrapa Western Agriculture in the autumn-winter season of 2021 in Dourados, Mato Grosso do Sul, Brazil. The experimental design consisted of randomized blocks of six maize genotypes (BRS1010, KWS9606, 1P2224, 1Q2383, BRS3046, and CAPO) with five replications under no-tillage. Silage points were evaluated at harvest when the grain milk line was at ¾ and maize grains at the maturation stage (dry plant). The 1P2224 and 1Q2383 maize genotypes present silage (high green and dry biomass) and grain yield potential. The GT Biplot tool identified the 1P2224 genotype as superior and suitable for cultivation or as a parent in a breeding program in the midwest region of Brazil for silage and grain yield evaluations of one off-season under limited water and frost.
Asunto(s)
Ensilaje , Productos Agrícolas , Zea maysRESUMEN
Abstract Moringa oleifera Lam., is a tree species that has several purposes of use, standing out in the recovery of degraded areas and the use of seeds as biodsorbents in water clarification. However, ony a little is known about the behavior of seed germination under saline conditions, common in soils and water in the Brazilian Northeast. Thus, the objective was to evaluate the increment of water during the soaking and seed germination of M. oleífera that were submitted to different electrical conductivity of the irrigation water. The work was developed following a completely randomized design, with stress simulation employing saline solutions at the concentrations of 0.0; 3.0; 6.0 and 9.0 dS m-1. To determine the soaking curve, the water increment of the soaked seeds in the different saline solutions was monitored at regular intervals with four replications per treatment. To characterize the physiological quality of the seeds, the percentage, first count, speed index, average time and average germination speed were evaluated. The M. oleífera is tolerant to the effect of salinity during the germination phase, however seed vigor is reduced as a function of increased salinity. Soaking the seeds makes begin the phase II of the germination process around 10 hours and extends for up to 50 hours, when phase III begins, they absorb approximately 0.2 g of water and require 86 hours for germination. Salinity reduces the absorption and increase of water in the seeds.
RESUMEN
The cultivation of non-traditional fruits has gained ground in the horticulture sector, but which, in certain situations, are plants that require previous studies related to soil adaptability, climate, and irrigation water quality. In this sense, this work aimed to evaluate the effects of irrigation water salinity on Physalis peruviana L. (fisális) plants in the different growth phases. The experimental area was installed on the premises of the Federal University of Campina Grande, adopting a casualized block design, with four saline levels of irrigation water (0.3; 1.2; 2.1 and 3.0 dS m-1) and five repetitions per treatment. The variables analyzed were: stem diameter, plant height and number of leaves every 15 days, leaf area at 55 days after transplanting, number of side branches, number of flower buds, number of flowers, average fruit weight, polar diameter, and equatorial diameter of fruits, number of fruits per plant and productivity. According to the results, the plants were tolerant to saline levels of irrigation water of up to 3.0 dS m-1, without prejudice to the phenological and productive characteristics of the crop. The unitary increase in the salinity of the irrigation water did not result in damage to the physiological characteristics of the plants until the 60 days of transplanting. (AU)
O cultivo de frutas não tradicionais tem ganhado espaço no setor de hortifrútis, mas que, em determinadas situações, são plantas que requerem estudos prévios relacionados a adaptabilidade de solo, clima e qualidade da água de irrigação. Neste sentido, este trabalho teve como objetivo avaliar os efeitos da salinidade da água de irrigação em plantas de Physalis peruviana L. (fisális) nas distintas fases de crescimento. A área experimental foi instalada nas dependências da Universidade Federal de Campina Grande, adotando o delineamento em blocos casualizados, com quatro níveis salinos da água de irrigação (0,3; 1,2; 2,1 e 3,0 dS m-1) e cinco repetições por tratamento. As variáveis analisadas foram: diâmetro do caule, altura das plantas e número de folhas a cada 15 dias, área foliar aos 55 dias após o transplantio, número de ramos laterais, número de botões florais, número de flores, peso médio dos frutos, diâmetro polar e diâmetro equatorial dos frutos, número de frutos por planta e produtividade. Conforme os resultados, as plantas se mostraram tolerantes a níveis salinos da água de irrigação de até 3,0 dS m-1, sem prejuízos nas características fenológicas da cultura e produtivas. O aumento unitário da salinidade da água de irrigação não resultou em danos nas características fisiológicas das plantas até os 60 dias de transplantio. (AU)
Asunto(s)
Physalis , Plantas Tolerantes a la Sal , Productos AgrícolasRESUMEN
Intercropping of vegetables in a poorly planned manner may not achieve the expected economic results, as it is an activity that requires a great technical and administrative capacity of the producer. This study aimed to analyze the economic feasibility of intercropping kale with coriander, lettuce, and chives in relation to monocultures. The experiment was conducted in the Center for Agri-food Science and Technology, Federal University of Campina Grande, in the municipality of Pombal, PB in the period from June 2014 to July 2015. Eleven treatments were tested: four polycultures, three bicultives, and four monocultures, in randomized blocks, with four replications. The productivity, total operating costs (TOC), gross and net revenue, rate of return, profitability index, and efficient land use were evaluated. The TOC values of intercropping were calculated with the prices of July 2015. In all the systems studied, the largest participation was referring to the cost hand of labor. The highest gross and net revenues were observed in the kale with lettuce in bicultive, the rate of return and profitability index was higher on lettuce in monoculture. Despite the increase in the TOCs of the intercropping in relation to the monocultures, the intercropping proved to be economically viable in terms of efficient land use, reaching values indicating a land-use efficiency of up to 50% more in polycultures and bicultives.
O cultivo de hortaliças de maneira mal planejada pode não alcançar os resultados econômicos esperados, pois é uma atividade que exige grande capacidade técnica e administrativa do produtor. O objetivo deste estudo foi avaliar a viabilidade econômica de cultivar couve, alface e cebolinha em consórcio. O experimento foi conduzido no Centro de Ciência e Tecnologia Agroalimentar da Universidade Federal de Campina Grande, no município de Pombal, PB, no período de junho de 2014 a julho de 2015. Foram testados onze tratamentos: quatro policultivos, três bicultivos e quatro monocultivos, em blocos casualizados, com quatro repetições. Foram avaliados: produtividade; custos operacionais totais (COT); receita bruta e líquida; taxa de retorno; índice de lucratividade e uso eficiente da terra (UET). Os valores de COT do consórcio foram calculados com os preços de julho de 2015. Em todos os sistemas estudados, a maior participação foi referente ao custo mão de obra. As maiores receita bruta e líquida foram observadas na couve com alface em bicultivo, a taxa de retorno e rentabilidade índice foram maiores na alface em monocultura. Apesar do aumento nos COT'S dos consórcios em relação às monoculturas, a consorciação mostrou-se economicamente viável em termos de uso eficiente da terra, alcançando valores que indicam uma eficiência no uso da terra de até 50% a mais em policultivos e bicultivos.