Influence of beneficial microorganisms on the agronomic behavior of potato crop cv. “Bicentenaria”

Keywords: Solanum tuberosum, Mycorrhizae, Trichoderma spp., Glomus spp., Efficient microorganisms, Plant growth biostimulant

Abstract

The excessive use of chemical fertilizers causes alterations in soil microbial activity, environmental pollution and high production costs in potato cultivation (Solanum tuberosum L.). One way to avoid this effect is with the use of beneficial microorganisms, due to their ability to capture atmospheric nitrogen, produce growth-promoting substances such as indole acetic acid and solubilize inorganic phosphorus from insoluble compounds, which in turn time improves crop yields. The objective of this research was to evaluate the effect of the beneficial microorganisms as biofertilizers on growth and yield of potato crop. In a population of 1,600 potato plants cv. “Bicentenaria” four treatments were evaluated: Trichoderma harzianum (0.5 g.L-1), Glomus spp. (30 g.plant-1), efficient microorganisms (EM) (50 mL.L-1) and a control treatment (no application of microorganisms). A completely randomized experimental design with four repetitions per treatment was used. The effect of the treatments was evaluated using vegetative and reproductive variables. It was evident that the treatment with T. harzianum significantly favored the rest of the treatments in plant height at 90 days (43.60 cm), tuber weight (154 g) and yield (57.13 t.ha-1). The use of Glomus spp. and EM, had only a partial effect on the growth of the plants. The treatment with T. harzianum could represent an ecological agricultural alternative for potato production.

Downloads

Download data is not yet available.

References

Abdirahman, S. H., Mafurah, J. J., Kimurto, P. K., & Nyongesa, M. W. (2022). Effect of biofertilizers and farmyard manure on growth and tuber yield of potatoes (Solanum tuberosum L.) in Highlands of Kenya. European Journal of Agriculture and Food Sciences, 4(5), 83–89. https://doi.org/10.24018/ejfood.2022.4.5.479
Akello, R., Turinawe, A., Wauters, P., & Naziri, D. (2022). Factors influencing the choice of storage technologies by smallholder potato farmers in Eastern and Southwestern Uganda. Agriculture 12(2), 240. https://doi.org/10.3390/agriculture12020240
Beltrán-Pineda, M.E. (2014). Bacterias solubilizadoras de fosfato con potencial biofertilizante en suelos cultivados con papa (Solanum tuberosum). Revista Agronomía, 22(2), 7-20. http://agronomia.ucaldas.edu.co/downloads/Agronomia 22(2)_2.pdf
Cano, M. A. (2011). Interacción de microorganismos benéficos en plantas: Micorrizas, Trichoderma spp. y Pseudomonas spp. una revisión. Revista U.D.C.A Actualidad & Divulgación Científica, 14(2), 15-31. https://biblat.unam.mx/es/revista/revista-udca-actualidad-divulgacion-cientifica/articulo/interaccion-de-microorganismos-beneficos-en-plantas-micorrizas-trichoderma-spp-y-pseudomonas-spp-una-revision
Centro Internacional de la Papa (CIP). (2017). Hechos y cifras sobre la papa. International Potato Center. https://cgspace.cgiar.org/handle/10568/87957
Contreras-Cornejo, H. A., Macías-Rodríguez, L., del-Val, E., & Larsen, J. (2016). Ecological functions of Trichoderma spp. and their secondary metabolites in the rhizosphere: interactions with plants. FEMS Microbiology Ecology, 92(4), 1-17. https://doi.org/10.1093/femsec/fiw036
Contreras-Liza, S., Jhoncon Kooyip, J., Vargas Luna, L., Cervantes Torres, D., Luis Olivas, D., & Quevedo Bacigalupo, M. (2023). Bicentenaria, un nuevo cultivar de papa para procesamiento en el Perú: perspectivas desde la mejora genética. Revista de Investigaciones Altoandinas, 25(1), 5-13. https://dx.doi.org/10.18271/ria.2023.434
Cruz-Cárdenas, C. I., Zelaya- Molina, L. X., Sandoval Cancino, G., Villalobos, S., Rojas Anaya, E., Chávez Díaz, I. F., & Ruíz Ramírez, S. (2021). Utilización de microorganismos para una agricultura sostenible en México, consideraciones y retos. Revista Mexicana de Ciencias Agrícolas, 12(5), 899-913. https://doi.org/10.29312/remexca.v12i5.2905
Dash, S. N., & Jena, R. C. (2015). Biofertilizer Options in Nutrient Management of Potato. International Journal of Scientific Research, 1, 28–30. https://pubmed.ncbi.nlm.nih.gov/28695465/
Díaz-Canseco, L. F. de (ed). (2018). La papa, orgullo del Perú. Universidad San Ignacio de Loyola. Fondo Editorial USIL. Lima. https://repositorio.usil.edu.pe/server/api/ core/bitstreams/83b41470-bff5-40af-abc7-58f64e66e713/content
Di Renzo, J.A., Casanoves, F., Balzarini, M.G., González, L., Tablada, M., & Robledo, C. W. (2018). InfoStat. Universidad Nacional de Córdoba. Córdoba, Argentina. http://www.infostat.com.ar/
Herrera, R., de Von Chong, M., Bethancourt, A., Mejía, F., Hernández, R., & Carrasco, I. (2022). Aislamiento e identificación de hongos con capacidad entomopatógena en el cultivo de yuca contra el chinche Cyrtomenus bergi Froeschner (Cydnidae) en las Provincias de Coclé y Herrera. Revista Semilla del Este, 3(1), 127-143. https://revistas.up.ac.pa/index.php/semilla_este/article/view/3208
Instituto Nacional de Estadística e Informática (INEI). (2023). Perú: Panorama Económico Departamental. Informe Técnico No 9. Instituto Nacional de Estadística e Informática. pp. 1-28. https://m.inei.gob.pe/biblioteca-virtual/boletines/panorama-economico-departamental/1/#lista
Instituto Tecnológico Valle Grande. (2022). Laboratorio de Química Agrícola. Valle Grande. San Vicente de Cañete, Lima, Perú. https://vallegrande.edu.pe/laboratorio-de-quimica-agricola/
Luna-Quecaño, J. C., Zapana-Pari, J. G., Cutipa-Limache, A. M., & Rofner-Nelino, F. (2020). Efecto de la micorriza (Glomus Intrarradices), en el rendimiento de dos variedades de papa (Solanum Tuberosum L.) en el Altiplano de Puno – Perú. Journal of High Andean Research, 22(1), 58-67. http://dx.doi.org/10.18271/ria.2020.535
Mamani-Rojas, P., Limachi-Villalba, J., & Ortuño-Castro, N. (2016). Uso de microorganismos nativos como promotores de crecimiento y supresores de patógenos en el cultivo de la papa en Bolivia. Revista Latinoamericana de la Papa, 17(1), 74-96. https://n9.cl/i2tmou
Pathak, D., Lone, R., Khan, S., & Koul, K. K. (2019). Isolation, screening and molecular characterization of free-living bacteria of potato (Solanum tuberosum L.) and their interplay impact on growth and production of potato plant under mycorrhizal association. Scientia Horticulturae, 252, 388-397. https://doi.org/10.1016/j.scienta.2019.02.072
Rafiq, L., Razia, S., Vandna, S., Vijay, K., Rayees, M., & Koul, K. K. (2015). Effect of arbuscular mycorrhizal fungi on growth and development of potato (Solanum tuberosum) plant. Asian Journal of Crop Science, 7(3), 233-243. https://doi.org/10.3923/ajcs.2015.233.243
Rahmani, M., & Aboutalebian, M. A. (2021). Response of Tuber yield and some physiological growth indices of potato to phosphate and mycorrhizae under moisture stress. Isfahan University of Technology-Journal of Crop Production and Processing, 11(3), 35-49. ‎ https://doi.org/10.47176/jcpp.11.3.26307
Rakibuzzaman, M., Tusi, R. R., Maliha, M., Husna, A., & Jamal Uddin, A.F.M. (2021). Response of Potato Germplasm to Trichoderma viride as Bio-stimulator. International Journal of Business and Social Science, 9(2), 17-21. http://www.ijbssr.com/currentissueview/ijbssr07040
Ranjani, S. N., Naik, K., & Kushala, G. (2018). Use of plant growth promoting microorganisms in plant propagation. Journal of Pharmacognosy and Phytochemistry, 7(3), 478-481.
https://www.phytojournal.com/archives/2018/vol7issue3/PartG/7-2-427-566.pdf
Saini, I., Kaushik, P., Al-Huqail, A. A., Khan, F., & Siddiqui, M. H. (2021). Effect of the diverse combinations of useful microbes and chemical fertilizers on important traits of potato. Saudi Journal of Biological Sciences, 28(5), 2641-2648. https://doi.org/10.1016/j.sjbs.2021.02.070
Sawicka, B., Pszczółkowski, P., Dadasiewicz, A., Barbaś, P., Ćwintal, M., & Krochmal-Marczak, B. (2021). The effect of effective microorganisms on the quality of potato chips and French fries. Applied Sciences (Switzerland), 11(4), 1–23. https://doi.org/10.3390/app11041415
Servicio Nacional de Meteorología e Hidrología (SENAMHI). (2022). Servicio Nacional de Meteorología e Hidrología. Lima. Perú. https://www.gob.pe/senamhi (consulta de marzo 2022).
Singh, M., Biswas, S. K., Nagar, D., Lal, K., & Singh, J. (2017). Impact of Bio-fertilizer on Growth Parameters and Yield of Potato. International Journal of Current Microbiology and Applied Sciences, 6(5), 1717–1724. https://doi.org/10.20546/ijcmas.2017.605.186
Srivastava, M., Kumar, V., Shahid, M., Sonika, P., & Singh, A. (2016). Trichoderma – a potential and effective bio fungicide and alternative source against notable phytopathogens: A review. African Journal of Agricultural Research, 11(5), 310-316. https://doi.org/10.5897/AJAR2015.9568
Wang, Z., Li, Y., Zhuang, L., Yu, Y., Liu, J., Zhang, L., & Wang, Q. (2019). A rhizosphere-derived consortium of Bacillus subtilis and Trichoderma harzianum suppresses common scab of potato and increases yield. Computational and Structural Biotechnology Journal, 17, 645-653.53. https://doi.org/10.1016/j.csbj.2019.05.003
Published
2024-02-18
How to Cite
Flores, P., & Leon, B. (2024). Influence of beneficial microorganisms on the agronomic behavior of potato crop cv. “Bicentenaria”. Revista De La Facultad De Agronomía De La Universidad Del Zulia, 41(1), e244105. Retrieved from https://mail.produccioncientificaluz.org/index.php/agronomia/article/view/41634
Section
Crop Production