Molybdenum-enriched soybean seeds enhance N accumulation, seed yield, and seed protein content in Brazil |
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Authors: | Rubens Jos Campo Ricardo Silva Araujo Mariangela Hungria |
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Institution: | aEmbrapa Soja, Cx. Postal 231, 86001-970, Londrina, Paraná, Brazil;bConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq-MCT), Brasilia, Federal District, Brazil |
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Abstract: | High soybean yields require large amounts of nitrogen (N), which can be obtained mainly from symbiotic N2 fixation. However, the efficiency of this biological process can be limited by micronutrient deficiencies, especially of molybdenum (Mo). In Brazil, soybean generally responds positively to fertilization with Mo in soils of low fertility and in fertile soils depleted of Mo due to long-term cropping. The micronutrient can be supplied by seed treatment, however toxicity of Mo sources to Bradyrhizobium strains applied to seed as inoculant has been observed, resulting in bacterial death and reductions in nodulation, N2 fixation and grain yield. Therefore, use of seeds enriched in Mo could be a viable alternative to exterior seed treatment, allowing elite inoculant strains of Bradyrhizobium to sustain high rates of biological N2 fixation. We demonstrated the feasibility of producing Mo-rich seeds of several soybean cultivars, by means of two foliar sprays of 400 g Mo ha−1 each, between the R3 and R5 stages, with a minimum interval of 10 days between sprays. As a result of this method, considerable increases in seed-Mo content were obtained, of as much as 3000%, in comparison to seeds obtained from plants which received no Mo. In field experiments performed in soils with low N content and without any N-fertilizer supply, inoculation of Mo-rich seeds produced plants with increased N and Mo contents in the grain and higher yields of total N and of grain. In most cases, Mo-rich soybean seeds did not require any further application of Mo-fertilizer. |
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Keywords: | Soybean Molybdenum Seed enrichment Bradyrhizobium Biological nitrogen fixation Seed protein content |
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