Abstract
Soybean is one of the world’s most economically important crops and several factors can affect the productivity of this culture. Among these factors is the supply of needed nitrogen, especially in the reproductive stage, as it acts in photosynthetic activity and in grain filling. In view of this, the objective of our work was to evaluate the effect of foliar application of nitrogen in different reproductive stages in soybean culture. Two sources of nitrogen were used: conventional urea and urea-formaldehyde/triazone, both applied in reproductive stages R2, R3, R4, or R5, as well as a control treatment without foliar application of nitrogen. Plants submitted to foliar application of urea-formaldehyde/triazone showed an increase in nitrogen metabolism (percentage of nitrogen derived from the atmosphere [Ndfa] and nitrate reductase activity [NR]), an increase in peroxidase (POD), and the consequent reduction in hydrogen peroxide (H2O2) in all stages of application of this treatment. When urea-formaldehyde/triazone was applied in R4, it resulted in a 7% increase in yield. The application of conventional urea in reproductive stages R4 and R5 increased nitrogen metabolism and resulted in an increase in yield by 4%. However, conventional urea reduced yield when applied in stages R2 and R3. The use of low doses of foliar nitrogen in stages R4 and R5, increased nitrogen metabolism in soybean plants. The timing of the application has a direct impact on the results with the slow-release nitrogen (urea formaldehyde /triazone) showing better results when applied in stage R4 and better results for conventional urea in R5.
Highlights
Brazil is the world's largest producer of soybean
When observing the percentage of Rur and nitrogen derived from the atmosphere (Ndfa), it is noted that urea-formaldehyde/triazone was more efficient compared to conventional urea when applied in the R2 stage (Figures 1D and 1E), providing an increase of 20% and 18% for the variables Rur and Ndfa, respectively
Effects of foliar application of urea-formaldehyde/triazone and conventional urea on the soybean total amino acid (A), ureide (B), Nitrate (C), relative abundance of ureide (D) and percentage of nitrogen derived from the atmosphere (E)
Summary
According to the National Supply Company (CONAB, 2021), the national soybean production in the 2020/2021 season was 135.9 million tons in an area of 38.5 million hectares. The environment, and crop management are directly related to yields, and nutrient supply must be in accordance with plant requirements in the appropriate form, time, and quantities (Pacentchuk, Novakowiski, & Sandini, 2014). Nitrogen (N) is one of the main nutrients required by soybean culture and most of this N comes from the symbiotic relationship with Bradyrhizobium elkanlii and Bradyrhizobium japonicum that can occur naturally in the environment or are provided through seed inoculation (Hungary et al, 2001). To maximize the productivity of soybean, different management practices are adopted, among them the foliar application of N
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