Do organic fertilization and azospirillum brasilense influence radish cultivation?

Authors

DOI:

https://doi.org/10.5965/223811712232023439

Keywords:

Raphanus sativus L, Productivity, Vegetables

Abstract

ABSTRACT

The association of conventional fertilizers with fertilizers of organic origin is a well-known practice in agriculture for achieving high productivity and also with the adoption of inoculants, composed of bacteria for promoting better plant development of crops. Thus, the objective of the work was to investigate the growth and productivity of radish with organic fertilization and the influence of the use of nitrogen fixing bacteria of the genus Azospirillum spp. radish (Raphanus sativus L.) Hybrid Margaret Queen. The treatments were the use of different doses of organic fertilizer and the application of Azospirillum brasilense, besides the control. At the end of the cycle, plant height, tuber diameter, tuber fresh mass, tuber dry mass, and total tuber fresh mass were evaluated. With and without application of A. brasilense, increases of 16.5% and 6.40% in tuber diameter were obtained, respectively. Without application of A. brasilense, there was an increase of 0.37% in leaf dry mass when the maximum concentration of 8 kg m² of organic fertilizer was used. For root fresh mass and root dry mass, with foliar application of A. brasilense, there was an increase of 9.57% and 0.67%, while without A. brasilense there was an increase of 2.43% and 0.22%. There were increases of 12.83% for total fresh mass with the management of A. brasilense and 3.4% without A. brasilense, using the maximum concentration of 8 kg m² of organic fertilizer. For height, there was an increase of 5.12% without A. brasilense. It was concluded that organic fertilization alone or combined with A. brasilense is an alternative in radish production.

 

KEYWORDS: Raphanus sativus L; organic fertilization; Productivity; Vegetables.

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References

BONFIM-SILVA EM et al. 2021. Calagem e adubação fosfatada no cultivo rabanete em Latossolo Vermelho Liming and phosphate fertilization for rabanette cultivated in Red Oxisol. Brazilian Journal of Development 7: 78970-78986.

DA SILVA BERILLI S et al. 2020. Lodo de curtume como adubo alternativo na produção de rabanete. Energia na Agricultura 35: 214-224.

DANTAS ILA et al. 2014. Viabilidade do uso de água residuária tratada na irrigação da cultura do rabanete (Raphanus sativus L.). Revista Ambiente & Água 9: 109-117.

EL_KOMY MH et al. 2020. A mixture of Azotobacter, Azospirillum, and Klebsiella strains improves root-rot disease complex management and promotes growth in sunflowers in calcareous soil. European Journal of Plant Pathology 156: 713-726.

FERNANDES GB. 2018. Adubações mineral, orgânica e organomineral na cultura do rabanete. Trabalho de conclusão de curso. (Bacharel em Engenharia Agricola e Ambiental). Rondonópolis: UFMT.

FILIPINI LD et al. 2021. Application of Azospirillum on seeds and leaves, associated with Rhizobium inoculation, increases growth and yield of common bean. Archives of Microbiology 203: 1033-1038.

GUIMARÃES GGF et al. 2017. Liberação Controlada de Ureia Proveniente de Nanocompósitos Reduz a Volatilização de Amônia e Aumenta a Eficiência do Uso de Nitrogênio pela Planta. São Carlos: Embrapa Instrumentação. p. 471–474.

HIGASHIKAWA FS & MENEZES JÚNIOR FOG. 2017. Adubação mineral, orgânica e organomineral: efeitos na nutrição, produtividade, pós-colheita da cebola e na fertilidade do solo. Scientia Agraria 18: 1-10.

LOPES HLS et al. 2019. Crescimento inicial da cultura do rabanete (Raphanus sativus L.) submetida a níveis e fontes de fertilizantes orgânicos. Revista Brasileira de Gestão Ambiental 13: 19–24.

MAIA AH et al. 2018. Productivity of radish fertilized with different doses of bovine manure. African Journal of Agricultural Research 13: 963–968.

MANGMANG JS et al. 2016. Germination characteristics of cucumber influenced by plant growth promoting Rhizobacteria. International Journal of Vegetable Science 22: 66–75.

MANGMANG JS et al. 2015. Azospirillum brasilense Enhances recycling of fish effluent to support growth of tomato seedlings. Horticulturae 1: 14-26.

MANGMANG JS et al. 2014. Effects of plant growth promoting Rhizobacteria on seed germination characteristics of tomato and lettuce. Journal of Tropical Crop Science 1: 35-40.

OLIVEIRA AP et al. 2006. Produção de raízes de batata­doce em função do uso de doses de N aplicadas no solo e via foliar. Horticultura Brasileira 24: 279282.

PEREIRA GMA et al. 2021. Combinação de Azospirillum brasilense E Bradyrhizobium japonicum na promoção do crescimento inicial de milho. Revista de Agricultura Neotropical 8: e5360.

PEREIRA DC et al. 2013. Adubação orgânica e algumas aplicações agrícolas. Revista Varia Scientia Agrárias 3: 159­ 174.

POHLMANN V et al. 2019. Adubação foliar silicatada na cultura do rabanete. Revista Cultivando o Saber 12: 108¬117.

RIBEIRO JVS et al. 2020. Increasing doses of cattle manure for organic chili pepper production.Revista de Agricultura Neotropical 7: 109-112.

RODRIGUES JF et al. 2013. Utilização de estercos em substituição a adubação mineral na cultura do rabanete. Revista Trópica: Ciências Agrárias e Biológicas 7: 160–168.

SILVA AFA et al. 2017. Agronomic performance in radish fertilised with Calotropis procera (Ait.) R. Br. in two growing seasons. Revista Ciência Agronômica 48: 328–336.

SILVA EMB et al. 2020. Adubação mineral, orgânica e organomineral na cultura do rabanete. Brazilian Journal of Development 6: 23300-23318.

SILVA ER et al. 2019. Can co-inoculation of Bradyrhizobium and Azospirillum alleviate adverse effects of drought stress on soybean (Glycine max L. Merrill.)? Archives of Microbiology 201: 325-335.

SOUSA AM. 2017. Adubação potássica e nitrogenada em solo com e sem biofertilizante na cultura do rabanete no litoral cearense. Dissertação (Mestrado em Ciência do Solo) Fortaleza: UFC. 83 p.

SUBEDI S et al. 2018. Effect of organicand inorganic nutrient sources on growth, yield and quality of radish (Raphanus sativus L.) varieties in Chitwan, Nepal. SAARC Journal of Agriculture 16: 61–69.

TEJO DP & SANTOS CHF. 2021. Estudo sobre os impactos da adoção de métodos de adubação nitrogenada no desenvolvimento do trigo. Revista Terra & Cultura: Cadernos de Ensino e Pesquisa 37: 26-45.

TRANI PE et al. 2013. Adubação orgânica de hortaliças e frutíferas. Campinas: Instituto Agronômico de Campinas.

TRANI PE et al. 2014. Calagem e adubação da cebola (Allium cepa L.). Campinas: Instituto Agronômico de Campinas. 35p.

VENDRUSCOLO E & LIMA SF. 2021. The Azospirillum genus and the cultivation of vegetables. A review. BASE.

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Published

2023-08-04

How to Cite

ARAUJO, Tassila Aparecida do Nascimento de; VENDRUSCOLO, Eduardo Pradi; SOUZA, Maria Ingrid de; DANTAS, Thaise; SILVA, Brenda Virgínia Sanches; NETO, Fausto Antônio Coli. Do organic fertilization and azospirillum brasilense influence radish cultivation?. Revista de Ciências Agroveterinárias, Lages, v. 22, n. 3, p. 439–444, 2023. DOI: 10.5965/223811712232023439. Disponível em: https://periodicos.udesc.br/index.php/agroveterinaria/article/view/23494. Acesso em: 12 nov. 2024.

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Section

Research Article - Science of Plants and Derived Products

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