Foliar application of molybdenum on cover crops and response of common beans in successive cultivation

Autores

  • Fernanda Daniela Brandelero UTFPR
  • Talita Slota Kutz UTFPR
  • Thiago de Oliveira Vargas UTFPR
  • Alcir José Modolo UTFPR
  • Luís César Cassol UTFPR
  • Marisa de Cacia Oliveira UTFPR
  • Ricardo Henrique Silva Santos UFV

Palavras-chave:

legumes, nitrogen, enzyme activity, nitrate reductase

Resumo

The effects of foliar application of Mo and use of N from cover crops (Crotalaria juncea L. and Canavalia ensiformis (L.) DC) on the performance of common beans were investigated in this study. Field experiments were carried out in a succession planting system (cover crops – common beans), and nitrate reductase activities were evaluated in the laboratory. For the production of cover crops, a 2 x 4 factorial scheme was installed, with the two cover crops sunn hemp and jack bean, along with four doses of Mo (0, 40, 80, and 120 g ha-1) in the form of sodium molybdate (Na2MoO4 ) through foliar application in random blocks with four replications. For bean cultivation, an unfertilized control treatment was evaluated. Sunn hemp showed a linear positive response to Mo application in terms of shoot dry matter and N accumulation, while jack bean showed a quadratic negative response for shoot dry matter; for N accumulation, there was no adjustment of the regression models. Nitrate reductase activity in the common beans was up to three times higher at the Mo dose of 0 g ha-1 when compared to the treatments with Mo application to both cover crops. Cover crops or Mo doses had no significant effect on bean productivity.

Referências

Albuquerque HC, Pegoraro RF, Vieira NMB, Amorim IJF & Kondo MK (2012) Nodulor capability and agronomic characteristics of common bean plants subjected to fragmented molybdenum and nitrogen fertilization. Revista Ciência Agronômica, 43:214-221.

Almeida FFD, Araújo AP & Alves BJR (2013) Seeds with high molybdenum concentration improved growth and nitrogen acquisition of rhizobium-inoculated and nitrogen-fertilized common bean plants. Revista Brasileira de Ciência do Solo, 37:367-378.

Bertoldo JG, Pelisser A, Silva RPD, Favreto R & Oliveira LADD (2015) Alternatives in bean fertilization to reduce the application of N-urea. Pesquisa Agropecuária Tropical, 45:348-355.

Bredemeier C & Mundstock CM (2000) Regulation of nitrogen absortion and assimilation in plants. Ciência Rural, 30:365-372.

Calvache AM, Reichardt K, Malavolta E & Bacchi OOS (1997) Effect of water deficit and of nitrogen fertilization on yield and water use efficiency in a common bean crop. Scientia Agricola, 54:232-240.

Carvalho AM, Coser TR, Rein TA, Araujo Dantas R, Silva RR & Souza KW (2015) Management of cover crops at flowering and physiological maturity and its effect on maize yield. Pesquisa Agropecuária Brasileira, 50:551-561.

Cavalcante VS, Santos VR, Neto S, Santos MA, Santos CGD & Costa LC (2012) Biomass production and nutrient removal by plant cover. Revista Brasileira de Engenharia Agrícola e Ambiental, 16:521-528.

Jaworski EG (1971) Nitrate reductase assay in intact plant tissues. Biochemical and Biophysical Research Communications, 43:1274-1279.

Kubota FY, Andrade Neto AC, Araújo AP & Teixeira MG (2008) Growth and nitrogen accumulation by common bean plants originating from seeds with high molybdenum concentration. Revista Brasileira de Ciência do Solo, 32:1635-1641.

Leal MDA, Guerra JGM, Peixoto RDG & Almeida DD (2012) Performance of crotalaria cultivated at different sowing and cutting dates. Revista Ceres, 59:386-391.

Liu L, Xiao W, Li L, Li DM, Gao DS, Zhu CY & Fu XL (2017) Effect of exogenously applied molybdenum on its absorption and nitrate metabolism in strawberry seedlings. Plant Physiology and Biochemistry, 115:200-211.

Lopes JF, Coelho FC, Rangel OJP, Rabello WS, Amaral Gravina G & Vieira HD (2014) Foliar fertilization with nickel and molybdenum in common bean cv. ‘Ouro Vermelho’. Revista Ceres, 61:234-240.

Marur CJ, Mazzafera P & Magalhães AC (2000) Nitrate reductase activity in cotton plants under water deficit and after turgescence recovery. Scientia Agrícola, 57:277-281.

Matoso SC & Kusdra JF (2014) Nodulation and growth of bean in response to application of molybdenum and rhizobia inoculation. Revista Brasileira de Engenharia Agrícola e Ambiental, 18:567-573.

Nie Z, Hu C, Liu H, Tan Q & Sun X (2014) Differential expression of molybdenum transport and assimilation genes between two winter wheat cultivars (Triticum aestivum). Plant physiology and biochemistry, 82:27-33.

Oliveira AES, Simeão M, Mousinho FEP & Gomes RLF (2014) Desenvolvimento do feijão-fava (Phaseulus lunatus L.) sob déficit hídrico cultivado em ambiente protegido. Holos, 1:143-151.

Pereira VGC, Gris DJ, Marangoni T, Frigo JP, Azevedo KD & Grzesiuck AE (2014) Agroclimatic Requirements for Common Beans (Phaseolus vulgaris L.). Revista Brasileira de Energias Renováveis, 3:32-42.

Pessoa ACS, Ribeiro AC, Chagas JM & Cassini STA (2000) Molybdenum leaf concentration and nutrient accumulation by common beans “ouro negro” in response to leaf molybdenum application. Revista Brasileira de Ciência do Solo, 24:75-84.

Pessoa ACS, Ribeiro AC, Chagas JM & Cassini STA (2001) Nirogenase and nitrate reductase activities and productivity of common beans in response to foliar application of molibdenum. Revista Brasileira de Ciência do Solo, 25:217-224.

Pires AA, Andrade Araújo GA, Leite UT, Zampirolli PD, Ribeiro JMO & Meireles RC (2005) Molybdenum partitioning and foliar application time on common bean leaves mineral composition. Acta Scientiarum. Agronomy, 27:25-31.

Santos VS & Júnior JHC (2003) Influence of the meteorological elements in the production of green manures sown in different periods. Revista Brasileira de Engenharia Agrícola e Ambiental, 7:91-98.

Silva FAS & Azevedo CAV (2016) The Assistat Software Version 7.7 and its use in the analysis of experimental data. African Journal of Agricultural Research, 11:3733-3740.

Soil Survey Staff (2014) Keys to Soil Taxonomy. 12th ed. Washington, USDA. 372p.

Tedesco MJ, Gianello C, Bissani CA & Volkweiss SJ (1995) Análise de solo, plantas e outros materiais. 174p. (Boletim Técnico de Solos, 5).

Toledo MZ, Garcia RA, Pereira MRR, Boaro CSF & Lima GPP (2010) Nodulação e atividade da nitrato redutase em função da aplicação de molibdênio em soja. Bioscience Journal, 26:858-864.

Vargas TO, Diniz ER, Santos RHS, Lima CTA, Urquiaga S & Cecon PR (2011) Influence of the biomass of legumes on cabbage yield held in two consecutive crops. Horticultura Brasileira, 29:562-568.

Downloads

Publicado

2025-05-09

Como Citar

Brandelero, F. D., Slota Kutz, T., de Oliveira Vargas, T., Modolo, A. J., Cassol, L. C., de Cacia Oliveira, M., & Silva Santos, R. H. (2025). Foliar application of molybdenum on cover crops and response of common beans in successive cultivation. Revista Ceres, 67(1), 35–41. Recuperado de https://ojs.ceres.ufv.br/ceres/article/view/7759

Edição

v. 67 n. 1 (2020)

Seção

CROP PRODUCTION

Licença

Creative Commons License
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

Artigos mais lidos pelo mesmo(s) autor(es)

1 2 > >>