Abstract
ABSTRACT One of the biggest challenges in the intercropping system of two crops is to obtain the optimal dose of green manure and the adequate population density of the crops. So, the objective of this work was to evaluate the performance of beet and arugula intercropping, influenced by green manuring with Merremia aegyptia and Calotropis procera and arugula population densities in two cultivation years, in semi-arid environment. The experimental design used was in randomized complete blocks, with the treatments arranged in a 4 x 4 factorial scheme, with 4 repetitions. The first factor of this scheme consisted of equitable amounts of M. aegyptia and C. procera biomass (20, 35, 50 and 65 t ha-1 on a dry basis) and the second factor, by arugula population densities (40, 60, 80 and 100% of the recommended density for single cropping, corresponding to 400, 600, 800 and 1,000 thousand arugula plants ha-1). The production and its components were evaluated on beet and arugula. In addition to these characteristics, the following agro-economic indicators were also determined for each treatment: system productivity index (SPI), land equivalent coefficient (LEC) and monetary equivalent ratio (MER). The greatest agro-economic advantages of the beet with arugula intercropping were achieved with a system productivity index (SPI) of 53.47 t ha-1, land equivalent coefficient (LEC) of 0.84 and a monetary equivalent ratio (MER) of 1.56, respectively, combining 65 t ha-1 of M. aegyptia and C. procera biomass with the arugula population density of 1,000 thousand plants ha-1. The maximum optimized commercial productivity of beetroots in the system intercropped with arugula was 23.20 t ha-1 using 65 t ha-1 of M. aegyptia and C. procera and in the arugula population density of 1,000 thousand plants ha-1, while the maximum arugula productivity intercropped with beet was 9.65 t ha-1, in the same combination of green manures amount and arugula population density.
Highlights
Consórcio de beterraba e rúcula sob adubação verde e densidade de plantio levam a vantagens agroeconômicas
One of the ways to meet this requirement is through the use of green manuring with mixtures of biomass from spontaneous species in the Caatinga biome, such as Merremia aegyptia and Calotropis procera
For the beet crop we evaluated plant height, number of leaves per plant, productivity of commercial roots, dry mass of shoots, and productivity of classified roots according to diameter, in large (>7 cm), extra AA (≥6 and
Summary
Consórcio de beterraba e rúcula sob adubação verde e densidade de plantio levam a vantagens agroeconômicas. As maiores vantagens agroeconômicas do consórcio de beterraba com rúcula foram alcançadas com um índice de produtividade do sistema (SPI) de 53.47 t ha-1, coeficiente equivalente da terra (LEC) de 0.84 e uma razão equivalente monetária (MER) de 1.56, respectivamente, na combinação de 65 t ha-1 de biomassa de M. aegyptia e C. procera com a densidade populacional de 1 milhão de plantas de rúcula por hectare. The production systems with these vegetables in the semi-arid region have been through intercropping cultures, where the cultures are able to coexist together efficiently, in order to increase the aggregated production per unit of input, guarantee against breaking crop and market fluctuations, meet food preference and/or cultural demands, and increase producer's income (Gebru, 2015) This cultivation practice allows optimizing the use of environmental resources, such as nutrients, water and solar radiation, since the plant species have different growth cycles. These species, according to Linhares et al (2012), contain a good supply of nutrients, suitable biomass production and low C/N ratio, which provides the decomposition and faster release of nutrients for plants
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