Affiliation:
1. Universidade Federal de Santa Maria, Brazil
Abstract
Abstract The objective of this work was to estimate the relative yield that maximizes the profitability of the soybean crop in rotation with flood-irrigated rice. For this, 13 high-yield areas (from 2.6 to 5.2 ha) in lowland soybean-rice systems in Southern Brazil were selected before sowing. The calculation of production costs included seeds, seed treatment, fertilizers, lime, pesticides, irrigation, land, operational outsourcing, labor, and fuel consumption. The observed yield was transformed into relative yield by multiplying the quotient of the observed yield by the yield potential estimated by the CSM-CROPGRO-Soybean model. Water productivity was calculated as the ratio between the observed yield and available water during the crop cycle. Yield potential ranged from 6.1 to 7.4 Mg ha−1, whereas relative yield ranged from 45.3 to 101.2%. In addition, costs ranged from US$564.86 to US$1,122.86 per hectare, and profitability from US$767.18 to US$3,149.75 per hectare. The highest profitability of the soybean crop in rotation with flood-irrigated rice occurs with a relative yield between 67 and 84%.
Reference34 articles.
1. Investment profitability and economic efficiency of the drip irrigation system: evidence from Egypt;ALI A.;Irrigation and Drainage,2020
2. Field validation of a farmer supplied data approach to close soybean yield gaps in the US North Central region;ANDRADE J.F.;Agricultural Systems,2022
3. Fundamentos da economia rural.;ARBAGE A.P.,2012
4. Misallocation, establishment size, and productivity;BENTO P.;American Economic Journal: Macroeconomics,2017
5. Meeting cereal demand while protecting natural resources and improving environmental quality;CASSMAN K.G.;Annual Review of Environment and Resources,2003