2017
DOI: 10.5424/sjar/2017151-8935
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Traffic effects on soil compaction and sugar beet (Beta vulgaris L.) taproot quality parameters

Abstract: Soil compaction is a critical issue in agriculture having a significant influence on crop growth. Sugar beet (Beta vulgaris L.) is accounted as a crop susceptible to compaction. Reduction of leaf area, final yield, and root quality parameters are reported in compacted soils. The most obvious visual indicator of topsoil compaction is root depth affected by agricultural tractor and machinery traffic up on the soil. Such indicators are mainly correlated to initial soil condition, tyre features, and number of pass… Show more

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Cited by 29 publications
(18 citation statements)
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“…soil texture, bulk density and water content), climate, tillage, and drilling procedures (Aubertot et al , 1999). Soil compaction (a decrease in pore space and increase in bulk density) poses a serious problem for the sugar beet industry as conventional field preparation techniques result in subsoil compaction, reducing root development and yield (Marinello et al ., 2017). The ideal conditions for a seedbed are thought to consist of both fine and coarse aggregates to prevent erosion (erosion prevention facilitated by a proportion of coarse aggregates) and to ensure sufficient soil–seed and soil–root contact (improved contact facilitated by a proportion of fine aggregates) whilst minimizing compaction which represents a challenge to the farmer (Fig.…”
Section: Preparation Of the Soil Seedbedmentioning
confidence: 99%
“…soil texture, bulk density and water content), climate, tillage, and drilling procedures (Aubertot et al , 1999). Soil compaction (a decrease in pore space and increase in bulk density) poses a serious problem for the sugar beet industry as conventional field preparation techniques result in subsoil compaction, reducing root development and yield (Marinello et al ., 2017). The ideal conditions for a seedbed are thought to consist of both fine and coarse aggregates to prevent erosion (erosion prevention facilitated by a proportion of coarse aggregates) and to ensure sufficient soil–seed and soil–root contact (improved contact facilitated by a proportion of fine aggregates) whilst minimizing compaction which represents a challenge to the farmer (Fig.…”
Section: Preparation Of the Soil Seedbedmentioning
confidence: 99%
“…En la Figura 4 se aprecia la materia seca obtenida por hectárea en ambos tratamientos. El tratamiento descompactado duplica la masa del testigo, al igual que Tolon-Becerra et al, (2011); Marinello et al, (2017) y Jorajuría et al (1997 quienes encontraron reducciones de rendimiento a causa de compactaciones inducidas. La persistencia del efecto de la descompactación sobre la variable rendimiento, coincide con Vepraskas et al (1995) quienes manifiestan que los efectos del subsolado se mantienen dos años después de la labranza.…”
Section: Resultados Y Discusiónunclassified
“…Respecto a la variable infiltración, la descompactación antes de la siembra influyó notablemente sobre el ingreso del agua al suelo, pero la misma no se mantuvo en el tiempo y al momento de la cosecha los valores de infiltración no mostraron diferencias significativas con el testigo sin subsolado. Existen antecedentes sobre reducción en el rendimiento por causas de la compactación (Tolon-Becerra et al, 2011;Marinello et al, 2017). Jorajuría et al (1997) encontraron una disminución significativa de materia seca de una pastura atribuible a la compactación inducida.…”
Section: Introductionunclassified
“…The above features greatly complicate the creation of calculated dependencies necessary to identify the distribution of the contact pressure of pneumatic tires on the wheel support, which is soil [6][7][8]. Two schemes, which are used for mathematical description [9][10][11] of the wheel interaction with a bearing surface, are known. In the first scheme they consider the fixed moment of a rolling wheel on the support surface.…”
Section: Analysis Of Publications and Studiesmentioning
confidence: 99%