Sistemas de labranza del suelo y su efecto sobre cuatro variedades de algodón en Armero, Colombia

Rodolfo Lizcano Toledo; Diego German  Rojas Pareja; Javier Fernando  Osorio Saravia; Dilier  Olivera Viciedo; Maira Vannessa  Lizcano Toledo

doi:10.18004/investig.agrar.2022.junio.2401693

Authors

Rodolfo Lizcano Toledo Tolimense Institute of Technical Training Professional, Faculty of Engineering and Agro-industrial Science, Espinal. Universidad del Tolima. Ibagué, Tolima, Colombia. https://orcid.org/0000-0003-2797-0237
Diego German Rojas Pareja Universidad del Tolima. Ibagué, Tolima, Colombia.
Javier Fernando Osorio Saravia Universidad del Tolima. Ibagué, Tolima, Colombia.
Dilier Olivera Viciedo Federal University of Maranhão, Center of Environment and Agriculture Science. Chapadinha, Maranhão, Brazil. https://orcid.org/0000-0002-7975-9508
Maira Vannessa Lizcano Toledo Universidade Estadual Paulista, Programa de Pós-graduação em Ciências Ambientais, Campus Sorocaba. Bairro Alto da Boa Vista Sorocaba, São Paulo, Brasil. https://orcid.org/0000-0002-4092-1838

DOI:

https://doi.org/10.18004/investig.agrar.2022.junio.2401693

Keywords:

Compactation, Gossipium herbarum, Tillage, microorganisms

Abstract

Cotton is a crop of great economic importance throughout the world. In Colombia, plantings have increased in recent years; however, there are agronomic practices that favor soil degradation. The objective of the work was to evaluate the morphophysiological and productive response of four cotton varieties, under the effect of two tillage systems under conditions of Armero-guayabal, Colombia. The research was conducted at the North Regional University Center (CURDN) of the University of Tolima. The experimental design was sub-divided plots with randomized blocks with four replications. In the main plot, a minimum tillage (LM) and a traditional one (LT) were located (reduced for LM using a chisel plow and tillage with soil turning, with the use of a harrow and a rake for LT). The varieties managed were: RR, Nuopal RR, FM 9063 and FM9171Bt (Bacillus thuringiensis). The results were submitted to the Analysis of Variance (ANOVA) and Tukey and Bonferroni tests for comparison of means (p≤0.05). The processes of rotation of grasses and oilseeds, in long-term agronomic management, present significant changes in the potential and effective edaphic fertility, as well as in the processes of conservation, quality and health of the soil, in an area historically with edaphic problems in poor tillage practices.

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References

Alarcón, R., Hernández, E., Navarrete, L., Sánchez, M. & Sánchez, A. (2019). Climate and tillage system drive weed communities’ functional diversity in a Mediterranean cereal-legume rotation. Agriculture, Ecosystem and Environmental, 283, 106574.

Alvear, M., Pino, M., Castillo, C., Trasar-Cepeda, C. & Gil-Sotres, F. (2006). Efecto de la cero labranza sobre algunas actividades biológicas en un Alfisol del sur de Chile. Revista de la Ciencia del Suelo y Nutrición vegetal, 6(2), 38-53.

Andrade, E., Simas, M., Queiroz, H. & Antunes D. (2020). Ecohydrology in Brazilian tropical dry forest: thinned vegetation impacto n hydrological functions and ecosystem services. Journal of Hydrology: Regional Studies, 27.

Bonilla Buitrago, R. & Venegas Rodriguez, N. (1998). Efecto de sistemas de labranza sobre las propiedades físicas y producción del algodonero en suelos compactados del valle del Cesar. En Memorias del encuentro nacional de labranza de conservación, Corporación Colombiana de Investigación Agropecuaria. Villavicencio, Colombia: Editora Guadalupe Ltda., pp. 205-206.

Bordoni, M., Vercesi, A., Maerker M., Ganimede C., Reguzzi M., Capelli E.,…,Meisina C. (2019). Effects of vineyard soil management on the characteristics of soils roots in the lower Oltrepo Apennines (Lombardy, Italy). Science of the Total Environmental, 693, 133390.

Borges, J., Pires, L., Cássaro, F., Auler, A., Rosa, J., Heck, R. & Roque, W. (2019). X-ray computed tomography for assesing the effect of tillage systems on topsoil morphological attributes. Soil & Tillage Research, 189, 25-35.

Burbano-Figueroa, O., Montes-Mercado, S., Pastrana-Vargas, I. J. & Cadena-Torres, J. (2018). Introducción y desarrollo de variedades de algodón Upland en el sistema productivo colombiano: una revisión. Ciencia y Agricultura, 15(1), 29-44.

Escobar, C., Horna, Y., Carreño, C. & Mendoza, G. (2011). Caracterización de cepas nativas de Azotobacter spp. y su efecto en el desarrollo de Lycopersicon esculentum Mill. ‘tomate’ en Lambayeque. Scientia Agropecuaria., 2,39-49.

Franco, S., Cavero, J., Plaza, D., Cantero, C., Arrúe, J. & Álvaro, J. (2020). Tillage and irrigation system effects on soil carbon dioxide (CO2) and methane (CH4) emissions in a maize monoculture under Mediterranean conditions. Soil & Tillage Research, 196, 104488.

Frasier, I., Quiroga, A. & Noellemeyer, E. (2016). Effect of different cover crops on C and N cycling in sorghum NT systems. Science of The Total Environment, 562, 628-639.

Haghverdi, K. & Kooch, Y. (2019). Effects of diversity of tree species on nutrient cycling and soil-related processes. Catena, 178, 335-344.

Hochmuth, G. J. (1994). Efficiency ranges for nitrate-nitrogen and potassium for vegetable petiole sap quick tests. HortTechnology, 4(3), 218-222.

IGAC. (2006). Métodos analíticos del laboratorio de suelos. 6° ed. Imprenta Nacional de Colombia. Bogotá. Instituto Geográfico Agustín Codazzi, 648 p.

Júnnyor, W. D. S. G., De Maria, I. C., Araujo-Junior, C. F., Diserens, E., da Costa Severiano, E.,...de Souza, Z. M. (2022). Conservation systems change soil resistance to compaction caused by mechanised harvesting. Industrial Crops and Products, 177, 114532.

Li, Y., Chang, S. X., Tian, L. & Zhang, Q. (2018). Conservation agriculture practices increase soil microbial biomass carbon and nitrogen in agricultural soils: a global meta-analysis. Soil Biology and Biochemistry, 121(4), 50-58.

Li, Y., Li, Z., Chang, S., Cui, S., Jagadamma, S., Zhang, Q. & Cai, Y. (2020). Residue retention promotes soil carbon accumulation in minimum tillage systems: Implications for conservation agriculture. Science of Total Environmental, 740, 140147.

Lizcano Toledo, R., Olivera Viciedo, D., Saavedra Mora, D., Machado Cuellar, L., Valencia, E., Moreno Pérez, M. & Fidel Flórez, M. (2017). Muestreo de suelos, técnicas de laboratorio e interpretación de análisis de suelos: Servicio Nacional de Aprendizaje (SENA), pp. 42-44.

Lizcano-Toledo, R., Reyes-Martín, M. P., Celi, L. & Fernández-Ondoño, E. (2021). Phosphorus Dynamics in the Soil–Plant–Environment Relationship in Cropping Systems: A Review. Applied Sciences, 11(23), 11133.

Mejía-Salazar, J. R., Galeano-Mendoza, C. H., Burbano-Erazo, E., Vallejo-Cabrera, F. A. & Arango, M. (2020). Interacción genotipo por ambiente de nueve variedades de algodón para los Valles interandinos en Colombia. Agronomía Mesoamericana, 31(1), 31-42.

Nafi, E., Webber, H., Danso, I., Naab, J. B., Frei, M. & Gaiser, T. (2019). Soil tillage, residue management and site interactions affecting nitrogen use efficiency in maize and cotton in the Sudan Savanna of Africa. Field Crops Research, 244, 107629.

Nasir, M., Zhao, C., Luo, J., Zhu, X., Gao, X., Iqbal, M. F., Ji, J. C., Shuai, Z. & Cui, J. (2021). Population dynamics, hunting nature on insect pests and existence of symbiotic bacterial microbes among leading transgenic cotton spiders. Journal of Asia-Pacific Entomology, 24(1), 297–307.

Ni, Z., Liu, N., Yu, Y., Bi, C., Chen, Q. & Qu, Y. (2021). The cotton 70-kDa heat shock protein GhHSP70-26 plays a positive role in the drought stress response. Environmental and Experimental Botany, 191, 104628.

Prieto, B., Peroza, J. & Grandet, G. (2009). Efecto de la labranza y manejo de materiales orgânicos sobre algunas propiedades físicas y químicas de un Vertic Endoaquetp en el valle del Sinú, Córdoba Colombia. Temas Agrarios, 15(2), 27-36.

Romero-Perdomo, F., Abril, J., Camelo, M., Moreno, A., Pastrana, I., Rojas, D. & Bonilla, R. (2017). Azotobacter chroococcum as a potentially useful bacterial biofertilizer for cotton (Gossypium hirsutum): Effect in reducing N fertilization. Revista Argentina de microbiologia, 49(4), 377-383.

Schlüter, S., Großmann, C., Diel, J., Wu, G., Tischer, S., Deubel, A. & Rücknagel, J. (2018). Long-term effects of conventional and reduced tillage on soil structure, soil ecological and soil hydraulic properties. Geoderma, 332, 10 - 19.

Schmidt, E., Villamil, M. & Amiotti, N. (2018). Soil quality under conservation practices on farm operations of the southern semiarid pampas region of Argentina. Soil & tillage Research, 176, 85 - 94.

Sierra, J. A. P. & Grandet, G. (2010). Efecto de labranza y manejo de materiales orgánicos sobre algunas propiedades físicas y químicas de un vertic endoaquept del valle del Sinú, Córdoba Colombia. Temas Agrarios, 15(2), 27-36.

USDA. (1997). Official United States standards for grades of carcass beef: Agric. Marketing Service.

Viciedo, D. O., Hernández, A., Rodríguez, M., Lizcano, R., Calero, A. & Peña, K. (2018). Effects of land-use change on Nitisols properties in a tropical climate. Revista Facultad Nacional de Agronomía Medellín, 71(3), 8601-8608.

Wang, X., Chen, Y., Liu, F., Zhao, R., Quan, X. & Wang, C. (2020). Nutrient resorption estimation compromised by leaf mass los and area shrinkage; Variations and solutions. Forest Ecology and Management, 472, 118232.

Wang, X., Qi, J., Zhang, X., Li, S., Latif, A., Zhao,…Zhang, H. (2019). Effects of tillage and residue management on soil aggregates and associated carbon storage in a double paddy cropping system. Soil & Tillage Research, 194, 104339.

Wang, Y., Li, C., Tu, C., Hoyt, G., DeForest, J. & Hu, S. (2017). Long-term no-tillage and organic input management enhanced the diversity and stability of soil microbial community. Science of the Total Environment, 609, 341-347.

Wells, R. & Meredith, W. R. (1984). Comparative growth of obsolete and modern cotton cultivars. 11 Reproductive dry matter partitioning. Crop Science, 24, 863-868.

Yang, H., Hu, F., Yin, W., Chai, Q., Zhao, C., Yu, A., Fan, Z., Fan, H. & Ren, X. (2021). Integration of tillage and planting density improves crop production and carbon mitigation of maize/pea intercropping in the oasis irrigation area of northwestern China. Field Crops Research, 272, 108281.

Yang, H., Wu, G., Mo, P., Chen, S., Wang, S., Xiao, Y. & Fan, G. (2020). The combined effects of maize straw mulch and no-tillage on grain yield and water and nitrogen use efficiency of dry-land winter wheat (Triticum aestivum L.). Soil and Tillage Research, 197, 104485.

You, M., Fang, S., MacDonald, J., Xu, J. & Yuan, Z. (2019). Isolation and characterization of Burkholderia cenocepacia CR318, a phosphate solubilizing bacterium promoting corn growth. Microbiological Research, 126395.

Yu, Q., Wang, H., Wen, P., Wang, S., Li, J., Wang, R. & Wang, X. (2020). A suitable rotational conservation tillage system ameliorates soil physical properties and wheat yield: An 11-year in-situ study in semi-arid agroecosystem. Soil & Tillage Research, 199, 104600.

Zuber, S. & Villamil, M. (2016). Meta-analysis approach to assess effect of tillage on microbial biomass and enzyme activities. Soil Biology and Biochemistry, 97, 176-187.

Zúñiga Escobar, O., Osorio Saravia, J. C., Cuero Guependo, R. & Peña Ospina, J. A. (2011). Evaluation of technologies for the recovery of soils degraded by salinity. Revista Facultad Nacional de Agronomía Medellín, 64(1), 5769-5779.