Produção de maracujazeiro-amarelo sob diferentes densidades de plantio

O adensamento de plantas em cultivos do maracujazeiro-amarelo é importante por propiciar maior rentabilidade em menor área. O objetivo deste trabalho foi avaliar o efeito de diferentes densidades de plantio na produção, qualidade dos frutos e rentabilidade do maracujazeiro-amarelo. O experimento foi instalado e conduzido em pomar comercial da Fazenda Sant'ana, Município de São Tiago, MG. O delineamento experimental utilizado foi o de blocos casualizados com cinco tratamentos e quatro repetições. Os tratamentos constituíram-se de diferentes espaçamentos na linha de plantio: T1, 1,0 m (3.330 plantas/ha); T2, 1,5 m (2.220 plantas/ha); T3, 2,0 m (1.660 plantas/ha); T4, 3,0 m (1.100 plantas/ha) e T5, 4,0 m (830 plantas/ha). O espaçamento entre linhas foi de 3,0 m em todos os tratamentos. Cada parcela foi constituída de 12 m de comprimento por 3,0 m de largura (36 m²). O plantio foi realizado em outubro de 2001, e a colheita, a partir de abril, estendendo-se até agosto de 2002. A maior produtividade foi estimada em 11,9 t/ha na densidade de 1.841 plantas/ha. O adensamento não altera a qualidade do fruto. A máxima eficiência econômica foi alcançada na densidade de 1.340 plantas/ha, com rentabilidade de R$ 1.321,92/ha

Longitudinal data assessment of global stability index in kale leaves

ABSTRACT Kale plants are usually sold “in natura” in street markets and malls. Kale leaves can have their appearance compromised by dehydration and discoloration due to increased post-harvest time exposure. We aimed to analyze the Global Stability Index (GSI) in kale accessions by means of repeated measurement analysis and curve grouping as a complementary form of superior sample identification with regard to post-harvest preservation. Thirty kale accessions were evaluated using a randomized block design with four blocks and five plants per plot. Two commercial leaves per plant were collected, and kept on workbenches in the shade at a temperature of 18 ± 1 °C. Subsequently, the degrees of discoloration and dehydration, total chlorophyll content, and accumulated fresh mass loss were evaluated over a 15-day period. From these data, the GSI was calculated for each day of evaluation. In addition, using mixed models, thirteen co-variance structures were tested. For graphical analysis, thirteen linear and non-linear models were assessed followed by curve grouping using multivariate analysis. The GSI was efficient for differentiating accessions, which became an important tool in post-harvest studies. GSI values were not equally correlated, therefore the use of mixed models became an important approach. The unstructured matrix was the best fit to model the dependence of error. The Melow I model was the best fit for studying the GSI. The accessions UFVJM-10, UFLA-1, COM-1, UFVJM-32, COM-3, UFVJM-8, UFVJM-36 and UFVJM-24, belonging to 3 and 5 clusters, are recommended for crop cultivation and as parental material in breeding programs

Agronomic performance of radish genotypes under different irrigation depths

In radish production, the choice of proper genotypes and irrigation regime is of great importance to achieve success. In light of this, the current study aimed to evaluate the agronomic performance of a few radish genotypes under different irrigation strategies. The plants were grown in the city of Unaí - MG, in Brazil, under field conditions, and during two cycles, one of 40 days (from February 28 to April 8, 2015) and other of 51 days (from May 9 to June 28, 2015). The experimental design was a randomized block design in a split-plot arrangement with four replications. The treatments consisted of four irrigation strategies (50, 75, 100, and 125% of crop evapotranspiration - ETc) applied by a dripping irrigation system, while subplots consisted of three radish cultivars (Comet, Saxa, and Crimson Giant). We evaluated the following parameters: root system depth, leaf chlorophyll content, shoot fresh matter, diameter and length of tuberous root, number, and mass of commercial and non-commercial tuberous roots, and water use efficiency. All the radish genotypes showed no differences for agronomic characteristics. Under Brazilian Cerrado conditions, the most suitable irrigation strategy for radish crops is 100% of ETc