Ascophyllum nodosum and nicotinamide affect the productivity of commom bean

Authors

DOI:

https://doi.org/10.33448/rsd-v9i9.7628

Keywords:

Seaweed extract; Phaseolus vulgaris; Vitamins; Biostimulants.

Abstract

The aim of this work was to evaluate the effect of foliar application of biostimulant based on Ascophyllum nodosum and nicotinamide on the production components and on the productivity of the bean crop. The experimental design consisted of randomized blocks in a 2x5 factorial scheme, with 4 replications. The experimental plots consisted of 5 planting lines, spaced 0.45 m apart and 5 meters long each. The treatments were formed by the presence and absence of A. nodosum in the dose of 1.0 ml L-1 and applications of solutions containing nicotinamide in the doses of 0, 100, 200, 300 and 400 mg L-1. The number of pods per plant, number of seeds per pod, mass of grains per plant, mass of one hundred grains and productivity were evaluated. The treatment with A. nodosum was 17.5% higher for bean grain productivity than the control. It was concluded that the biostimulant promoted an increase in the number of seeds per pod and productivity and nicotinamide increased all the productive components.

Author Biography

Sebastião Ferreira Lima, Universidade Federal de Mato Grosso do Sul

Professor dos cursos de Agronomia, Engenharia Florestal e pós-graduação em produção vegetal da UFMS, campus de Chapadão do Sul.

References

Abdelhamid, M. A., Sadak-Mervat, S. H., Schmidhalter, U. & El-saady, A. M. (2013). Interactive effects of salinity stress and nicotinamide on physiological and biochemical parameters of faba bean plant. Acta Biológica Colombiana, 18(1), 499-510.

Ahmed, Y. M. & Shalaby, E. A. (2012). Effect of different seaweed extracts and compost on vegetative growth, yield and fruit quality of cucumber. Journal of Horticultural Science & Ornamental Plants, 4(3), 235-240.

Albrecht, L. P., Braccini, A. L., Scapim, C. A., Ávilla, M. R., Albrecht, A. J. P. & Ricci, T. T. (2011). Manejo de biorregulador nos components de produção e desempenho das plantas de soja. Bioscience Journal, 27(2), 865-876.

Azooz, M. M., Alzahrani, A. M. & Youssef, M. M. (2013). The potencial role of seed priming with ascorbic acid and nicotinamide and their interactions to enhance salt tolerance in broad bean (Vicia faba L.). Australian Journal of Crop Science, 7(13), 2091-2100.

Bassuony, F. M., Hassanein, R. A., Baraka, D. M. & Khalil, R. R. (2008). Physiological effects of Nicotinamide and ascorbic acid on Zea mays plant grown under salinity stress. II-Changes in nitrogen constituents, protein profiles, protease enzyme and certain inorganic cations. Australian Journal of Basic and Applied Sciences, 2(3), 350-359.

Beigzadeh, S., Maleki, A., Heydari, M. M., Khourgami, A. & Rangin, A. (2019). Ecological and physiological performance of white bean (Phaseolus vulgaris L.) affected by algae extract and salicylic acid spraying under water deficit stress. Applied Ecology and Environmental Research, 17(1), 343-355.

Berglund, T., Lindstrom, A., Aghelpasand, H., Stattin, E. & Ohlssonn, A. B. (2016). Protection of spruce seedlings against pine weevil attacks by treatment of seeds or seedlings with nicotinamide, nicotinic acid and jasmonic acid. Forestry, 89(2), 127-135.

Berglund, T., Wallstrom, A., Nguen, T.; Laurell, C. & Ohlsson, A. B. (2017). Nicotinamide; antioxidative and DNA hypomethylation effects in plant cells Plant Physiology and Biochemistry, 118(55), 551-560.

Bossolani, J. W., Sá, M. E, Merloti, L. F., Bettiol, J. V. T.; Oliveira, G. R. F. & Pereira, D. S. (2017). Bioestimulante vegetal associado a indutor de resistência nos componentes da produção de feijoeiro. Revista Agro@mbiente On-line, 11(4), 307-314.

Cunha, F. F., Magalhães, F. F. & Castro, M. A. (2013). Métodos para estimativa da evapotranspiração de referência para Chapadão do Sul-MS. Revista Engenharia na Agricultura, 21(2), 159-172.

Dawood, M. G., Abdel-Baky, Y. R., El-Awadi, M. E. & Bakhoum, G. S. (2019). Enhancement quality and quantity of faba bean plants grown under sandy soil conditions by nicotinamide and/or humic acid application. Bulletin of the National Research Centrent, 43(28).

De Block, M. & Lijsebettens, M. V. (2011). Energy efficiency and energy homeostasis as genetic and epigenetic components of plant performance and crop productivity. Current Opinion in Plant Biology, 14(3), 275-282.

Dourado Neto, D.; Dario, G. J. A.; Barbieri, A. P. P. & Martin, T. N. (2014). Ação de bioestimulante no desempenho agronômico de milho e feijão. Bioscience Journal, 30(1), 371-379.

El-Bassiouny, H. M. (2005). Physiological Responses of Wheat to Salinity Alleviation by Nicotinamide and Tryptophan. Internationa Journal of Agriculture and Biology, 7(1), 653-659.

Goyer, A. (2010) Thiamine in plants: aspects of its metabolism and functions. Phytochemistry, 71(14), 1615-1624.

Hassanein, R. A., Bassony, F. M., Barakat, D. M. & Khalil, R. R. (2009). Physiological effects of nicotinamide and ascorbic acid on Zea mays plant grown under salinity stress. I – Changes in growth, some relevant metabolic activities and oxidative defense systems. Research Journal agriculture Biological Science, 5(1), 72-80.

Kaya, C., Ashraf, M., Sonmez, O. & Tuna, A. L. (2015). Exogenous application of thiamin promotes growth and antioxidative defense system at initial phases of development in salt-stressed plants of two maize cultivars differing in salinity tolerance. Acta Physiologiae Plantarum, 37(1), 1741-1753.

Khan, W., Rayirath, U. P., Subramanian, S., Jithesh, M. N., Rayorath, P., Hodges, D. M., Critchley, A. T., Craigie, J. S., Norrie, J. & Prithviraj, B. (2009). Seaweed extracts as biostimulants of plant growth and development. Journal of Plant Growth Regulation, Secaucus, 67(7), 636-641.

Kocira, A., Kornas, R. & Kocira, S. (2013). Effect assessment of Kelpak SL on the bean yield (Phaseolus vulgaris L.). Journal of Central European Agriculture, 14(2), 67-76.

Kocira, A., Swieca, M., Kocira, M., Zlotek, U. & Jakubczyk, A. (2018) - Enhancement of yield, nutricional and nutraceutical properties of two commom bean cultivars following the application of seaweed extract (Ecklonia maxima). Saudi Journal of Biological Sciences, 25(3), 563-571.

Kocira, S., Szparaga, A., Kocira, A., Czerwinskka, E., Wójtowicz, A., Bronowicka-Mielniczuk, U., Koszel, M. & Findura, P. (2018a). Modeling biometric traits, yield and nutritional and antioxidant properties of seeds of three soybean cultivars through the application of biostimulant containing seaweed and amino acids. Frontiers in Plant Science, 9(388), 334-348.

Lana, A. M. Q.; Lana, R. M. Q.; Gozuen, C. F.; Bonotto, I. & Trevisan, L. R. (2009). Bioscience Journal, 25(1), 13-20.

Lemes, A. C., Paula, L. C., Batista, K. A. & Fernandes, K. F. (2018) Potencial Antioxidante de Proteínas Extraídas de Feijão Comum (Phaseolus vulgaris) cv. BRSMG-Madrepérola. Uniciências, 22(3), 38-42.

Pereira, A. S., Shitsuka, D. M., Parrira, F. J. & Shitsuka, R. (2018). Metodologia da pesquisa científica. [e-book]. Santa Maria. Ed. UAB/NTE/UFSM. Disponível em: https://repositorio.ufsm.br/bitstream/handle/1/15824/Lic_Computacao_Metodologia-Pesquisa-Cientifica.pdf?sequence=1. Acesso em: 10 junho 2020.

Perin, A., Gonçalves, E. L., Ferreira, A. C., Salib, G. C., Ribeiro, J. M. M., Andrade, E. P. & Salib, N. C. (2016). Uso de promotores de crescimento no tratamento de sementes de feijão carioca. Global Science and Technology, 9(3), 98-105.

Sousa, A. M., Ayub, R. A., Viencz, T. & Botelho, R. V. (2019). Fruit set and yield of apple trees cv. Gala treated with seaweed extract of Ascophyllum nodosum and thidiazuron. Revista Brasileira de Fruticultura, 41(1), 1-12.

Taiz, L., Zeiger, E., Møller, I. M. & Murphy A. (2017). Fisiologia e desenvolvimento vegetal. Porto Alegre: Artmed

Tandon, S. & Dubey, A. (2015). Effects of Biozyme (Ascophyllum nodosum) biostimulant on growth and development of soybean [Glycine max (L.) Meril]. Communications in Soil Science and Plant Analysis, 46(7), 845-858.

Vendruscolo, E. P., Rodrigues, A. H. A., Martins, A. P. B., Campos, L. F. C. & Seleguini, A. (2018). Tratamento de sementes com niacina ou tiamina promove o desenvolvimento e a produtividade do feijoeiro. Revista de Ciências Agroveterinárias, 17(1), 83-90.

Zodape, S. T., Mukhopadhyaym, S., Eswaran, K., Reddy, M. P. & Chikara, J. (2010). Enhanced yield and nutritional quality in green gram (Phaseolus radiata L.) treated with seaweed (Kappaphycus alvarezii) extract. Journal of Scientific & Industrial Research, 69(6), 468-471.

Published

30/08/2020

How to Cite

ABREU, M. S.; LIMA, S. F.; OLIVEIRA NETO, F. M. de .; GARCIA, D. H. .; TAVEIRA, A. C.; THOMÉ, S. E. N. .; QUIRINO, T. S. Ascophyllum nodosum and nicotinamide affect the productivity of commom bean. Research, Society and Development, [S. l.], v. 9, n. 9, p. e597997628, 2020. DOI: 10.33448/rsd-v9i9.7628. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/7628. Acesso em: 28 dec. 2024.

Issue

Section

Agrarian and Biological Sciences