Diagnóstico de la fertilidad química de suelos (Rhodic Paleudult) en sistemas agrarios y forestal de la región Oriental de Paraguay

  1. Villalba Martínez, Carlos Javier 1
  2. Merino García, Agustín 2
  3. Etchevers Barra, Jorge 3
  1. 1 Universidad Nacional de Caaguazú. Coronel Oviedo, Paraguay.
  2. 2 Universidad Santiago de Compostela. Santiago de Compostela, España.
  3. 3 Colegio de Postgraduados, Campus Montecillo. Montecillo, México.
Zeitschrift:
Investigación Agraria

ISSN: 2305-0683 1684-9086

Datum der Publikation: 2020

Titel der Ausgabe: Julio-Diciembre

Ausgabe: 22

Nummer: 2

Seiten: 92-99

Art: Artikel

DOI: 10.18004/INVESTIG.AGRAR.2020.DICIEMBRE.2202658 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Andere Publikationen in: Investigación Agraria

Ziele für nachhaltige Entwicklung

Zusammenfassung

Soil management systems affect the quality and sustainability of agricultural production, especially in the tropics. The soils of the Vaquería area of Paraguay present an extreme fragility to overexploitation, due to the high extraction of nutrients from the soil. A frequent practice to reduce its degradation is direct sowing, although this system increases yield in a short term, as time passes since its implementation, a decrease in productivity is observed. This could be due to the overexploitation of the resource and the low replacement of the nutrients extracted by the crop. The objective of this study was to determine the chemical properties of the soil in which direct sowing has been practiced for 15 years and to compare them with those of a soil under pasture established on agricultural soil. The soil chosen was a Rhodic Paleudult, sandy, poor in organic matter and low CEC, representative of the area. Three management systems were compared: (a) the direct sowing of soybeans and corn without removing harvest residues (fifteen consecutive years); with (b) a native pasture; and, with (c) natural forest as witness. The experimental design was randomized blocks with five replications. The samples were taken 3 consecutive years (2017, 2018 and 2019) soil samples were collected from the 0 to 20 cm layer. The samples were analyzed to determine pH, organic matter, Al3+, CEC, macro and micronutrients, to evaluate their dynamics in a short time. The study did not reveal significant variations during the 3 years of follow-up in any of the parameters evaluated. The comparison of the treatments showed that the soil managed with direct sowing presented higher acidity and lower availability of nutrients compared to the pasture and the forest.

Bibliographische Referenzen

  • Astier Calderón, M., Maass-Moreno, M. y Etchevers-Barra, J. (2002). Derivación de indicadores de calidad de suelos en el contexto de la agricultura sustentable. Agrociencia 36, 605-620.
  • Álvarez I., Sam, O. y Reynaldo, I. (2005). Cambios inducidos por el aluminio en la morfogénesis radicular del arroz. Cultivos Tropicales 26 (1), 21-25.
  • Anda, M., Shamshuddin, J. & Fauziah, C. I. (2013). Increasing negative charge and nutrient contents of a highly weathered soil using basalt and rice husk to promote cocoa growth under field conditions. Soil and Tillage Research 132, 1-11.
  • Bono, A., Álvarez, R., Buschiazzo, D. & Cantet, R. J. C. (2008). Tillage effects on soil carbon balance in some semiarid agroecosystems. Soil Sci. Soc. Am. J. 72 (4), 1140-1149. 10.2136/sssaj2007.0250
  • Bremmer, J. M. (1965). Nitrógeno total. In C. A. Black (ed.). Methods of soil analysis. Part 2: Chemical and microbial properties. Number 9 in series Agronomy, American American Society Agronomy : Inc. Publisher. pp. 1149 - 1178.
  • Cantú, M. P., Becker A., Bedano, J. C. y Schiavo, H. F. (2007). Evaluación de la calidad de suelos mediante el uso de indicadores e índices en la Pampa Argentina. Ciencia Suelo 25 (2), 173-178.
  • Castellanos, Uvalle Bueno, J. X. y Aguilar Santelises, S. (2000). Manual de Interpretación de Análisis de Suelos. 2a. ed. Guanajuato, México : Instituto de Capacitación para la Productividad Agrícola. San Miguel de Allende. pp. 34-74.
  • Ciampitti, I. A. y García, F. O. (2007). Requerimientos nutricionales, absorción y extracción de macronutrients y nutrientes secundarios. I Cereales, Oleaginosos e Industriales. Informaciones Agronómicas No. 33, Archivo Agronómico No. 11. IPNI Canada. Cono Sur. Acassuso, Buenos Aires, Argentina.
  • Cristancho, R. J. A., Hanafi, M. M., Syed Omar, S. R. y Rassi, M. Y. (2010). Variations in oil palm (Elaeis guineensis Jacq.) progeny response to high aluminum concentrations in solution culture. Plant Biology 13 (2), 33-42.
  • Derpsch, R., Florentín, M.A. y Moriya, K. (2000). Importancia de la siembra directa para alcanzar a sustentabilidad agrícola. Proyecto Conservación de Suelos. San Lorenzo, Paraguay : MAG - GTZ, DEAG. 40 p.
  • Díaz-Rossello, R. y Durán, H. (2011). Secuestro de carbono en suelos de sistemas agrícola-lecheros mixtos en Uruguay. Agrociencia Uruguay 15 (2), 109-119.
  • Eberlein, C., Heuer, H., Vidal, S. & Westphal, A. (2016). Microbial Communities in Globodera pallida Females Raised in Potato Monoculture Soil. Phytopathology 106(6), 581-90.
  • Souza, E. D. de, Costa, S.E.V.G.A., Anghinoni, I., Carneiro, M. A. C., Martins, A. P. & Bayer, C. (2014). Soil quality indicators in a Rhodic Paleudult under long-term tillage systems. Soil Till. Res. 139, pp. 28-36.
  • Fisher, R. F. & Binkley, D. (2000). Ecology and Management of Forest Soils. 3a ed. New York : John Wiley & Sons Inc, 489 p.
  • Fink, J. R., Inda, A. V., Bavaresco, J., Almeida, J. A. de, Bissani, C. A., Giasson, E. & Nascimento, P. C. do. (2014). Chemical and mineralogical changes in a Brazilian Rhodic Paleudult under different land use and managements. Rev. Bras. Ciénc. Solo 38, pp. 1304-1314.
  • Fink, J. R., Inda, A. V., Bavaresco, J., Barrón, V., Torrent, J. & Bayer, C. (2016). Adsorption and desorption of phosphorus in subtropical soils as affected by management system and mineralogy. Soil Tillage Res. 155, pp. 62-68.
  • Ghaemi, M., Astaraei, A. R., Emami, H., Nassiri Mahalati, M. & Sanaeinejad, S. H. (2014). Determining soil indicators for soil sustainability assessment using principal component analysis of Astan Quds- east of Mashhad- Iran. J. Soil Sci. Plant Nut 14 (4), 987-1004.
  • Hahn E. y Fioretto C. (2017). Fertilidad de los suelos de la Región Oriental. En: E. Hanh (Ed.) Diagnóstico de la Fertilidad de los suelos de la Agricultura Familiar paraguaya : Región Oriental. Asunción : Atlas, p. 177-191.
  • Hevia, G. G., Mendez, M. & Buschiazzo, D. E. (2007). Tillage affects soil aggregation parameters linked with wind erosion. Geoderma 140 (1-2), 90-96.
  • Jackson, M. L. (1976). Análisis químico de suelos. Barcelona : Omega. 662 p.
  • Karayel, D. (2009). Performance of a modified precision vacuum seeder for no-till sowing of maize and soybean. Soil Till. Res. 104 (1), 121-125.
  • Kochian, L. V., Hoekenga, O. A. & Piñeros, M. A.(2004). How do crop plants tolerate acid soils Mechanisms of aluminum tolerance and phosphorous. Annual Review of Plant Biology 55, 459-493.
  • Lesmo Duarte, N. D., da Costa, J. S., Villalba González, M. y Lesmo Duarte, C. R. (2017) Competitividad de la soja y la carne bovina en Paraguay. Investig. Agrar. 2017 19(2), 86-92. http://www2.agr.una.py/revista/index.php/ria/article/view/353/372
  • Li B.Y., Zhou D.M., Cang L., Zhang H.L., Fan X.H. & Qin S.W. (2007). Soil micronutrient availability to crops as affected by long-term inorganic and organic fertilizer applications. Soil and Tillage Research 96 (1-2), 166-173.
  • Liao, H., Wan, H., Sha , J., Wang, X., Yan, X., y Kochian, L. (2006). Phosphorus and Aluminum interactions in soybean in relation to aluminum tolerance. Exudation of speci$c organic acids from di'erent regions of the intact root system. Plant Physiology, 141, 674-684.
  • Martins, A. P., Andrade Costa, S.E.V.G. de, Anghinoni, I., Kunrath, T. R., Balerini, F., Cecagno, D. & Carvalho, P.C.F. (2014). Soil acidification and basic cation use efficiency in an integrated no-till crop-livestock system under different grazing intensities. Agric. Ecosyst. Environ. 195, 18-28. https://doi.org/10.1016/j.agee.2014.05.012
  • Martins, A. P., Cecagno, D., Borin, J. B. M., Arnuti, F., Lochmann, S.H., Anghinoni, I., Bissani, C. A…Carvalho, P. C. F. (2016). Long-, medium- and short-term dynamics of soil acidity in an integrated crop-livestock system under different grazing intensities. Nutr. Cycl. Agroecosys. 104 (1), 67-77. https://doi.org/10.1007/s10705-015-9759-5
  • Martins, A. P, de Oliveira Denardin, L. G. de, Tiecher, T., Moraes Borin, J. B., Schaidhauer, W., Anghinoni, I. … Kumar, S. (2020). Nine-year impact of grazing management on soil acidity and aluminum speciation and fractionation in a long-term no-till integrated crop-livestocksystem in the subtropics. Geoderma 359. https://doi.org/10.1016/j.geoderma.2019.113986
  • Martínez, J., Cajas, Y. S ., León, J. D. & Osorio, N. W. (2014). Silvopastoral Systems Enhance Soil Quality in Grasslands of Colombia. Applied and Environmental Soil Science, 1-8. Doi: 10.1155/2014/359736
  • Novelli, L., Caviglia, O. & Melchiori, R. (2011). Impact of soybean cropping frequency on soil carbon storage in Mollisols and Vertisols. Geoderma 167, 254-260.
  • Pietsch, K. A., Ogle, K., Cornelissen, J. H. C., Cornwell, W. K., Bönisch, G., Craine, J.M… Zanne, C. (2014). WirthGlobal relationship of wood and leaf litter decomposability: the role of functional traits within and across plant organs. Glob. Ecol. Biogeogr. 23, 1046-1057. 10.1111/geb.12172
  • Jha, P., Hati., K.M., Dalal., R. C., Dang., Y. P., Kopittke., P. M. & Menzies, N. W. (2020). Soil carbon and nitrogen dynamics in a Vertisol following 50 years of no-tillage, crop stubble retention and nitrogen fertilization. Geoderma 358. https://doi.org/10.1016/j.geoderma.2019.113996
  • Porta, J., López-Acevedo, M. & Roquero, C. (2003). Edafología para la agricultura y el medio ambiente. Madrid : Mundi-Prensa.
  • Quinteiro Ribeiro, M. A., Furtado de Almeida, A.-A., Schramm Mielke, M., Pinto Gómes, F., Viana Pires, M. & Baligar, V. C. (2013). Aluminum effects on growth photosynthesis and mineral nutrition of cacao genotypes. Journal of Plant Nutrition 36 (8), 1161-1179.
  • Ramachandran Nair, P. K., Mohan Kumar, B., Kumar, B. & Nair, V. D. (2009). Agroforestry as a strategy for carbon sequestration. Journal of Plant Nutrition and Soil Science, 172 (1), 10-23.
  • Rivera Méndez, Y., Moreno Chacón, L., Herrera Corzo, M. & Romero Angulo, H. M. (2016). La toxicidad por aluminio (Al3+) como limitante del crecimiento y la productividad agrícola: el caso de la palma de aceite. Palmas 37 (1), 11-23.
  • Ruiz Díaz Arce, G. A. y Cabral López, M. A. (2018). Comercio bilateral entre Paraguay y Estados Unidos: un análisis de su desarrollo en el periodo 1994-2016. Revista Relaciones Internacionales. Escuela de Relaciones Internacionales 91 (2). Julio - Diciembre de 2018.
  • Raij, B. Van, Andrade, J. C. De, Cantarella, H. é Quaggio, J. A. (Ed.). (2001). Análise química para avaliação da fertilidade de solos tropicais. Campinas: IAC.SAS Institute Inc. (2007). SAS OnlineDoc® 9.2. Cary, NC: SAS Institute Inc.
  • Zhang, S.X., Wang, X.B. & Jin, K. (2001). Effect of different N and P levels on availability of zinc, copper, manganese and iron under arid conditions. Plant Nutr. Fert. Sci. 7 : pp. 391-396 (in Chinese, with English abstract)
  • Sá J. C. M., Cerri, C. C., Dick, W. A., Lal, R., S. Venske Filho, Piccolo, M. C. y Feigl, B. J. (2001). Organic matter dynamics and carbon sequestration rates for a tillage chronosequence in a brazilian oxisol. Soil Sci. Soc. Am. J. 65:1486-1499.
  • Pozzi Jantalia, C., Pereira Dos Santos, H., Boddey, R., Alves, B. J. R., Urquiaga, S. & Kohham, R. (2004). Change in carbon and nitrogen stocks in soil under 13 years of conventional or zero tillage in southern Brazil. Soil Till Res 76 (1): 39-58
  • Vallejos, F., Kliewer, I., Florentín, M. A., Casaccia, J., Calegari, A. y Derpsch, R. (2001). Abonos verdes y rotación de cultivos en siembra directa. Sistemas de producción tractorizados. Proyecto Conservación de Suelos MAG - GTZ, DEAG. San Lorenzo, Paraguay. 85 p.
  • Vallejo, V. E., Roldán, F. & Dick, R. P. (2012). Soil enzymatic activities and microbial biomass in an integrated agroforestry chronosequence compared to monoculture and a native forest in Colombia. Biology and Fertility of Soils 46 (6), 577-587. https://doi.org/10.1007/s00374-010-0466-8.
  • Walkley, A. é Black, I. A. (1946). A examination of the Degjtjareff method for determining soil organic matter and proposed modification of the cromic acid titration method. Soil Sci. 37, 29-38.