Does the application of boron in different stages of soy crop affect its productivity?

Authors

DOI:

https://doi.org/10.5965/223811712142022395

Keywords:

foliar fertilization, phenology, boron, soybean

Abstract

Soybean is one of the most demanding annual crops in boron (B), however, there is a divergence regarding the best phenological stage to carry out this application via foliar. Therefore, the objective of the present work was to evaluate the influence of different times of foliar application of B, with and without splitting, on flowering, productivity, and components of soybean production. For this, an experiment was carried out in the field, the experimental design used was in randomized blocks, with seven times of foliar applications of B (control, 100% 15 V4, 100% R1, 100% R3, 50% V4 + 50% R1, 50% V4 + 50% R3 and 50% R1 + 50% R3) and four replications, totaling 28 experimental plots. The number of flowers, number of beginning pod, B content in plants, weight of 1000 grains (g) and productivity were analyzed. The highest B content was observed with applications in the V4 (50%) + R1 (50%) and V4 (50%) + R3 (50%) stages, that is, part in the vegetative stage and part in the reproductive stage. The application of B did not result in a significant difference in relation to the number of inflorescences per plant. There was no significant effect of the times of foliar application of B for the variable of number of pods per plant, number of inflorescences and productivity. For weight of 1000 grains (g) higher values ​​were found in V4, R1 and R3 and in the control. Therefore, the foliar application of boron in the stages V4 (50%) + R1(50%) and V4(50%) + R3 (50%) increased the levels of B in the plant, while in R1+R3 it provided the highest number of beginning pods. However, there was no effect of boron application for grain yield regardless of the time of application.

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References

ALVARES CA et al. 2013. Köppen’s climate classification map for Brazil. Meteorologische Zeitschrift 6: 711-728.

AHMAD W et al. 2009. Role of boron in plant growth: a review. Journal of Agricultural Research 47: 329-338.

BRASIL. 2009. Ministério da Agricultura Pecuária e do Abastecimento. Regras para análise de sementes. Disponível em: http://www.bs.cca.ufsc.br/publicacoes/regras%20analise%20sementes.pdf. Acesso em: 12 nov. 2017.

CAMACHO-CRISTÓBAL JJ et al. 2018. Plant response to boron deficiency and boron use efficiency in crop plants. Academic Press 1: 109-121.

CALONEGO JC et al. 2010. Adubação boratada foliar na cultura da soja. Colloquium Agrariae 6: 20-26.

CONAB. 2022. Companhia Nacional de Abastecimento. Quarto levantamento - Safra 2021/2022. Disponível em: https://www.conab.gov.br/info-agro/safras/graos/boletim-da-safra-de-graos. Acesso em: 02 fev. 2022.

CARVALHO NM & NAKAGAWA J. 2012. Sementes: ciência, tecnologia e produção. 5.ed. Jaboticabal: FUNEP, p.475-590.

ENDERSON JT et al. 2015. Soybean yield response to foliar-applied micronutrients and relationships among soil and tissue test. Agronomy Journal 107: 2143-61.

FAGERIA NK et al. 2009. Foliar fertilization of crop plants. Journal of Plant Nutrition 32: 1044-1064.

FIOREZE SL et al. 2018. Effects of calcium supply on soybean plants. Comunicata Scientiae 9: 219-225.

FUJIYAMA BS et al. 2019. Boron fertilization enhances photosynthesis and water use efficiency in soybean at vetative growth stage. Journal of Plant Nutrition 42: 2498-2506.

GAZZIERO DLP. 2015. Misturas de agrotóxicos em tanque nas propriedades agrícolas do Brasil. Planta Daninha 33: 83-92.

GOMES IS et al. 2017. Boron Fertilisation at different phenological stages of soybean. Austrtalian Journal of Crop Science 11: 1026-1032.

GUPTA U & SOLANKI H. 2013. Impact of boron deficiency on plant growth. International Journal of Bioassays 2: 1048-1050.

KAPPES C et al. 2008. Doses e épocas de aplicação foliar de boro nas características agronômicas e na qualidade de sementes de soja. Scientia Agraria 9: 291-297.

MALAVOLTA E et al. 1997. Avaliação do estado nutricional de plantas: Princípios e aplicações. Piracicaba: Potafós. 308p.

MASCARENHAS HAA et al. 2014. Micronutrientes em soja no estado de São Paulo. Nucleus 11: 323-343.

NAKAO AH et al. 2018. Características agronômicas e qualidade fisiológica de sementes de soja em função da adubação foliar com boro e zinco. Revista Cultura Agronômica 27: 312-327.

RAIJ BV et al. 1997. Recomendações de adubação e calagem para o estado de São Paulo. Campinas: Instituto Agronômico/ Fundação IAC. 285p. (Boletim 100).

R CORE TEAM. 2021. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Disponível em: https://www.R-project.org/.

RAIJ B Van. 2011. Fertilidade do solo e manejo de nutrientes. 1.ed. Piracicaba: lnternational Plant Nutrition lnstitute, 420p.

RAIMUND IDL et al. 2013. Modos de aplicação de boro na cultura da soja. Cultivando o Saber 6: 112-131.

RATKE RF et al. 2020. Micronutrientes via foliar na cultura da soja no Cerrado Piauiense. In: ZUFFO AM & AGUILERA JG (Ed.) Agronomia Avanços e Perspectivas Belo Horizonte: Editora Pantanal. p. 81-90.

ROSOLEM CA & BOARETTO AE. 1989. A adubação foliar em soja. In: BOARETTO AE & ROSOLEM CA. Adubação foliar. Campinas, SP : Fundação Cargill. 500p.

SANTOS HG et al. 2013. Sistema Brasileiro de Classificação de Solos. 3.ed. Brasilia: Embrapa. 353p.

SANTOS M et al. 2019. Adubação foliar com boro em sistema de plantio direto na cultura da soja. Revista Ciência Rural 21: 1-11.

SANTOS FC dos & ALBUQUERQUE FILHO MR. 2020. Importância da matéria orgânica e cobertura vegetal para os solos arenosos do Cerrado. Disponível em: https://revistacultivar.com.br/artigos/importancia-da-materia-organica-e-cobertura-vegetal-para-os-solos-arenosos-do-cerrado. Acesso em: 08 fev. 2022.

SILVA RCD et al. 2020. Doses, methods and times of application of boron in soybean under field conditions Bioscience Journal 36: 1999-2006.

SILVA LD et al. 2021. Importância em se conhecer o tipo de solo e as particularidades da adubação em áreas de cerrado. In: Embrapa Agricultura Digital. Capítulo 3. p.30-43.

SOUZA JA et al. 2018. Boron and Amino Acid Foliar Application on Wheat-Soybean Intercropping in a Non-Tillage System. Communications in Soil Science and Plant Analysis 49: 1638-1649.

TAIZ L et al. 2017. Fisiologia e desenvolvimento vegetal. 6.ed. Porto Alegre: Artmed Editora. 888p.

TRAUTMANN RR et al. 2014. Potencial de água do solo e adubação com boro no crescimento e absorção do nutriente pela cultura da soja. Revista Brasileira de Ciência do Solo 38: 240-251.

VARANDA MAF et al. 2018. Efeitos da aplicação foliar de boro na produtividade de soja na várzea irrigada. Pesquisa Aplicada & Agrotecnologia 11: 15-22.

ZANON AJ et al. 2015. Desenvolvimento de cultivares de soja em função do grupo de maturação e tipo de crescimento em terras altas e terras baixas. Bragantia 74: 400-411.

ZUFFO AM et al. 2018. Correlações e análise de trilha em cultivares de soja cultivadas em diferentes densidades de plantas. Revista Cultura Agronômica 27: 78-90.

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Published

2022-12-12

How to Cite

SOUZA , Eduardo Schanoski de; ROMAM , Matheus Silva; SCHEDENFFELDT, Bruna Ferrari; MEDEIROS, Elias Silva de; SILVA, Paulo Vinicius da; MAUAD, Munir. Does the application of boron in different stages of soy crop affect its productivity?. Revista de Ciências Agroveterinárias, Lages, v. 21, n. 4, p. 395–401, 2022. DOI: 10.5965/223811712142022395. Disponível em: https://periodicos.udesc.br/index.php/agroveterinaria/article/view/21816. Acesso em: 21 nov. 2024.

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Section

Research Article - Science of Plants and Derived Products

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