Effect calcium solubilizing rhizobacteria on agronomic characters and mineral of Tagetes erecta

Authors

  • Raúl Alejandro Ramos Salazar Universidad Autónoma Agraria Antonio Narro
  • Rosalinda Mendoza-Villarreal Unversidad Autónoma Agraria Antonio Narro
  • Valentin Robledo Torres Universidad Autónoma Agraria Antonio Narro
  • Armando Hernández Pérez Universidad Autónoma Agraria Antonio Narro

DOI:

https://doi.org/10.18633/biotecnia.v24i2.1621

Keywords:

Calcium, PGPR, Tagetes erecta, Bacillus

Abstract

The objective of the study was to evaluate three wild plant growth promoter rhizobacteria (PGPR) (Bacillus sp, B. cereus and B. licheniformis), inoculated individually and in combination on the agronomic properties and mineral quality of marigold crop on open field. Eight treatments were compared: T0= control, T1= Bacillus sp., T2= B. cereus, T3= B. licheniformis, T4=Bacillus sp. + B. cereus, T5= Bacillus sp. + B. licheniformis, T6= B. cereus + B. licheniformis, T7= Bacillus sp. + B. cereus + B. licheniformis, with Steiner nutrient solution without Calcium. The experiment was established in randomized complete blocks with three repetitions per treatment. The results showed that the fresh and dry root biomass increased with the application of the T6 treatment, fresh and dry foliage biomass presented higher values in T5, same treatment that increased total carotenoids (847.01 μg·g-1). Meanwhile the minerals, calcium was concentrated in leaves, in T2 and T1, magnesium in leaves in T7, potassium in stem in T5, phosphorus in petals in T5, nitrogen in leaves, in T1 and T2. Bacillus application is an alternative to replace calcium fertilizers, which could help mitigate the negative effects of chemical fertilization.

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References

Amereshwar-Reddy, K. y Saravanan, S.S. 2020. Effect of Bio Fertilizers on Plant Growth and Flower Yield of African Marigold Tagetes erecta. Journal of Pharmacognosy and Phytochemistry; 9(5), 1334-1338.

AOAC. 1984. Official Methods of Analysis, 14th ed. Association of Official Analytical Chemists, Washington DC, pp. 739-740.

Glick, B. R. 2014. Bacteria with ACC deaminase can promote plant growth and help to feed the world. Microbiol. Res. 169, 30–39. https://doi.org/10.1016/j.micres.2013.09.009

Hu, W., Tian, S., Di, Q., Duan, S. y Dai, K. 2018. Effect of Exogenous Calcium on Mesophyll Cell Ultrastructure, gas Exchange, and Photosystem II in Tobacco (Nicotiana tabacum Linn.) under drought stress. Photosynthtetyca, 56(4), 1204-1211. https://doi.org/10.1007/s11099-018-0822-8

Chauhan, A., Guleria, S., Balgir, P. P., Walia, A., Mahajan, R., Mehta, P. y Shirkot, C. K. 2017. Tricalcium phosphate solubilization and nitrogen fixation by newly isolated Aneurinibacillus aneurinilyticus CKMV1 from rhizosphere of Valeriana jatamansi and its growth promotional effect. Brazilian Journal of Microbiology, 48(2), 294–304. https://doi.org/10.1016/j.bjm.2016.12.001

Jiménez‐Gómez, A., García‐Estévez, I., García‐Fraile, P., Escribano‐Bailón, M. T., y Rivas, R. 2020. Increase in phenolic compounds of Coriandrum sativum L. after the application of a Bacillus halotolerans biofertilizer. Journal of the Science of Food and Agriculture. https://doi.org/10.1002/jsfa.10306

Karamat, M. y Ahmed, A. 2018 Impact of Arthrobacter mysorens, Kushneria avicenniae, Halomonas spp. and Bacillus sp. On Helianthus annus L. for Growth Enhancement. The Journal of Animal & Plant Sciences, 28(6), 1629-1634.

Kuan, K. B., Othman, R., Rahim, K. A. y Shamsuddin, Z. H. 2016. Plant growth-promoting rhizobacteria inoculation to enhance vegetative growth, nitrogen fixation and nitrogen remobilisation of maize under greenhouse conditions. PLoS ONE 11:e0152478. https://doi.org/10.1371/journal.pone.0152478

Labra-Cardón D., Guerrero-Zúñiga L.A., Rodríguez T.A.V., Montes-Villafán S., Pérez-Jiménez S. y Rodríguez-Dorantes A. 2012. Respuesta de crecimiento y tolerancia a metales pesados de Cyperus elegans y Echinochloa polystachya inoculadas con una rizobacteria aislada de un suelo contaminado con hidrocarburos derivados del petróleo. Revista Internacional de Contaminación Ambiental 28(1): 7-16. https://www.redalyc.org/articulo.oa?id=37023172001

Moliner, C., Barros, L., Dias, M., López, V., Langa, E., Ferreira, I., y Gómez-Rincón, C. 2018. Edible Flowers of Tagetes erecta L. as Functional Ingredients: Phenolic Composition, Antioxidant and Protective Effects on Caenorhabditis elegans. Nutrients, 10(12), 2002. https://doi.org/10.3390/nu10122002

Petrova, I., Petkova, N. e Ivanov, I. 2016. Five Edible Flowers – Valuable Source of Antioxidants in Human Nutrition. International Journal of Pharmacognosy and Phytochemical Research, 8(4); 604-610.

Pourbabaee, A. A., Bahmani, E., Alikhani, H. A. y Emami, S. 2016. Promotion of wheat growth under salt stress by halotolerant bacteria containing ACC deaminase. J. Agric. Sci. Technol. 18, 855–864. https://www.sid.ir/en/journal/ViewPaper.aspx?id=538324

Radhakrishnan, R. & Lee, I. J. 2016. Gibberellins producing Bacillus methylotrophicus KE2 supports plant growth and enhances nutritional metabolites and food values of lettuce. Plant Physiol. Biochem. 109, 181–189. https://doi.org/10.1016/j.plaphy.2016.09.018

Rauber, L.P., Andrade, A.P., Friederichs, A., Mafra, A.L., Baretta, D., da Rosa, M.G., Heberle Mafra, M.S. y Correa, J.C. 2018. Soil physical indicators of management systems in traditional agricultural areas under manure application. Sci. Agric. 75 (4), 354–359. https://doi.org/10.1590/1678-992x-2016-0453.

Rolaniya, M., Khandelwal, S., Koodi, S., Sepat, S. y Choudhary, A. 2017. Effect of NPK, Biofertilizers and Plant Spacings on Growth and Yield of African Marigold (Tagetes erecta Linn.). Chemical Science Review and Letters, 6(21), 54-58.

Sadzawka, R., Grez, R., Carrasco, M. y Mora, M. 2004. Métodos de análisis de tejidos vegetales. Comisión de Normalización y Acreditación. Sociedad chilena de la Ciencia de Suelo. 7-8, 19-21, 25-30.

Sonmez, F., Alp, S. y Yasar, O. 2017. The Effects of Humic Acid Application on the nutrient Contents and Heavy Metals in Organs of Marigold (Tagetes erecta L.). Gresenius Enviromental Bulletin, 26 (8), 5340-5348.

Wasti, S., Manaa, A., Mimouni, H., Nsairi, A., Ibtissem, M., Gharbi, E. y Ben Ahmed, H. 2016. Exogenous application of calcium silicate improves salt tolerance in two contrasting tomato (Solanum lycopersicum) cultivars. Journal of Plant Nutrition, 40(5), 673–684. https://doi.org/110.1080/01904167.2016.1250908

Yan, P., Shen, C., Fan, L., Li, X., Zhang, L., Zhang, L. y Han, W. 2018. Tea planting affects soil acidification and nitrogen and phosphorus distribution in soil. Agric. Ecosyst. Environ. 254, 20–25. https://doi.org/10.1016/j.agee.2017.11.015.

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Published

2022-06-07

How to Cite

Ramos Salazar, R. A., Mendoza-Villarreal, R., Robledo Torres, V., & Hernández Pérez, A. (2022). Effect calcium solubilizing rhizobacteria on agronomic characters and mineral of Tagetes erecta. Biotecnia, 24(2), 149–154. https://doi.org/10.18633/biotecnia.v24i2.1621

Issue

Vol. 24 No. 2 (2022): Mayo-Agosto

Section

Research Articles

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