Impact of Traffic in Two Sowing Systems
Agricultural farm systems show high levels of mechanization using tractors and machines weighing more than formers. As a consequence, soil compaction is an emerging problem, resulting in the deterioration of the structure of many soils and low yields. The aim of this study was to evaluate the effect of different intensities of traffic on two conditions of soil: low tillage and direct seeding, under different traffic intensities. Two sowing systems were compared: direct seeding and tilled soil sowing. As subtreatments, multiple traffic intensities were applied using one, five and ten passes of a 6.4 Mg tractor. Induced soil compac-tion was assessed by penetration resistance, bulk density and rut depth. In addition the resulting maximum compaction was evaluated using Proctor Test (1933). Tilled soil was more compactable, showing more important rut depths and less penetra-tion resistance after the traffic. The soil under reduced tillage presented lower Proctor compactness and lower optimum moisture. Furthermore, it was found that this soil had a higher percentage of total carbon and particulate carbon, and greater structural stability. The soil under no tillage was able to store more water for a longer period. There was a different rheological behavior under tillage system. The changes in physical properties were more evident in the tilled soil.
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Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA)
2015
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oai:oai.agrocienciauruguay.uy:article-3022022-12-15T13:28:30Z Impact of Traffic in Two Sowing Systems Impacto del tránsito en dos sistemas de siembra Draghi, Laura Jorajuria Collazo, Daniel Sarena, Daniel Bailleres, Matías Melani, Esteban Castillo, José Manuel Cerisola, Cecilia Palancar, Telmo soil physical properties bearing capacity bulk density propiedades físicas del suelo capacidad portante densidad aparente Agricultural farm systems show high levels of mechanization using tractors and machines weighing more than formers. As a consequence, soil compaction is an emerging problem, resulting in the deterioration of the structure of many soils and low yields. The aim of this study was to evaluate the effect of different intensities of traffic on two conditions of soil: low tillage and direct seeding, under different traffic intensities. Two sowing systems were compared: direct seeding and tilled soil sowing. As subtreatments, multiple traffic intensities were applied using one, five and ten passes of a 6.4 Mg tractor. Induced soil compac-tion was assessed by penetration resistance, bulk density and rut depth. In addition the resulting maximum compaction was evaluated using Proctor Test (1933). Tilled soil was more compactable, showing more important rut depths and less penetra-tion resistance after the traffic. The soil under reduced tillage presented lower Proctor compactness and lower optimum moisture. Furthermore, it was found that this soil had a higher percentage of total carbon and particulate carbon, and greater structural stability. The soil under no tillage was able to store more water for a longer period. There was a different rheological behavior under tillage system. The changes in physical properties were more evident in the tilled soil. Los sistemas productivos agrícolas presentan altos niveles de mecanización con tractores y máquinas cada vez más pesados. Como consecuencia, la compactación de los suelos es un problema emergente, dando como resultado el deterioro de la estructura de muchos suelos y la baja de los rendimientos productivos. El objetivo del presente trabajo fue evaluar el efecto de distintas intensidades de tráfico sobre dos condiciones de suelo: con labranza y bajo siembra directa, sometidos a diferentes intensidades de tráfico. Se compararon dos sistemas de siembra: suelo bajo siembra directa y suelo con labranza. Como subtratamientos se estudió la incidencia del pasaje repetido sobre la misma senda de un tractor de 6,4 Mg resultando en una, cinco y diez pasadas. Para cuantificar la compactación inducida se evaluaron la resistencia a la penetración, la densidad aparente y la profundidad de huella. Además se evaluó la compactación máxima resultante a través del test Proctor (1933). El suelo labrado resultó ser más compactable, presentando mayor profundidad de huella y menos resistencia a la penetración luego del tráfico. El suelo bajo siembra directa presentó una menor compactabilidad Proctor y una menor humedad óptima. Además, se encontró que este suelo tenía un mayor porcentaje de carbono total y de carbono particulado y mayor estabilidad estructural. El suelo bajo siembra directa fue capaz de almacenar más agua durante un periodo más prolongado. Hubo un comportamiento reológico diferente según el sistema de labranza. Los cambios en las propiedades físicas mesuradas resultaron más evidentes en el suelo labrado. Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA) 2015-12-01 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://agrocienciauruguay.uy/index.php/agrociencia/article/view/302 10.31285/AGRO.19.302 Agrociencia Uruguay; Vol. 19 No. 2 (2015); 59- 67 Agrociencia Uruguay; Vol. 19 Núm. 2 (2015); 59- 67 Agrociencia Uruguay; v. 19 n. 2 (2015); 59- 67 2730-5066 spa https://agrocienciauruguay.uy/index.php/agrociencia/article/view/302/257 Copyright (c) 2015 Agrociencia Uruguay http://creativecommons.org/licenses/by/4.0 |
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Draghi, Laura Jorajuria Collazo, Daniel Sarena, Daniel Bailleres, Matías Melani, Esteban Castillo, José Manuel Cerisola, Cecilia Palancar, Telmo |
| spellingShingle |
Draghi, Laura Jorajuria Collazo, Daniel Sarena, Daniel Bailleres, Matías Melani, Esteban Castillo, José Manuel Cerisola, Cecilia Palancar, Telmo Impact of Traffic in Two Sowing Systems |
| author_facet |
Draghi, Laura Jorajuria Collazo, Daniel Sarena, Daniel Bailleres, Matías Melani, Esteban Castillo, José Manuel Cerisola, Cecilia Palancar, Telmo |
| author_sort |
Draghi, Laura |
| title |
Impact of Traffic in Two Sowing Systems |
| title_short |
Impact of Traffic in Two Sowing Systems |
| title_full |
Impact of Traffic in Two Sowing Systems |
| title_fullStr |
Impact of Traffic in Two Sowing Systems |
| title_full_unstemmed |
Impact of Traffic in Two Sowing Systems |
| title_sort |
impact of traffic in two sowing systems |
| description |
Agricultural farm systems show high levels of mechanization using tractors and machines weighing more than formers. As a consequence, soil compaction is an emerging problem, resulting in the deterioration of the structure of many soils and low yields. The aim of this study was to evaluate the effect of different intensities of traffic on two conditions of soil: low tillage and direct seeding, under different traffic intensities. Two sowing systems were compared: direct seeding and tilled soil sowing. As subtreatments, multiple traffic intensities were applied using one, five and ten passes of a 6.4 Mg tractor. Induced soil compac-tion was assessed by penetration resistance, bulk density and rut depth. In addition the resulting maximum compaction was evaluated using Proctor Test (1933). Tilled soil was more compactable, showing more important rut depths and less penetra-tion resistance after the traffic. The soil under reduced tillage presented lower Proctor compactness and lower optimum moisture. Furthermore, it was found that this soil had a higher percentage of total carbon and particulate carbon, and greater structural stability. The soil under no tillage was able to store more water for a longer period. There was a different rheological behavior under tillage system. The changes in physical properties were more evident in the tilled soil. |
| publisher |
Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA) |
| publishDate |
2015 |
| url |
https://agrocienciauruguay.uy/index.php/agrociencia/article/view/302 |
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