2022
DOI: 10.36783/18069657rbcs20210123
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Soil physical change and sugarcane stalk yield induced by cover crop and soil tillage

Abstract: Conventional tillage and intensive machinery traffic are the major causes of physical soil degradation in sugarcane fields. This study evaluates the impact of adopting conservation management practices during sugarcane planting on soil physical properties and stalk yield of sugarcane in the municipality of Ibitinga, state of São Paulo, Brazil. The experimental design (split-block) included four cover crops and three soil tillage systems, with three repetitions. For comparison purposes, a control treatment was … Show more

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Cited by 9 publications
(15 citation statements)
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“…Compared with CT, DT improved macroporosity over the years (Figure 2a,b). This increase was related to the disruption of the soil layer surface by the rotary hoe, which reached a working depth of 0.4 m during bed formation, increasing soil porosity and reducing soil bulk density (Barbosa et al, 2019; Farhate et al, 2022) and SPR (Cherubin et al, 2016; Marasca et al, 2015; Shukla et al, 2021). Although the treatments did not affect TP (Figure 2a,b), studies suggest that high TP is common in clayey soils and mainly reflects micropores, whereas the volume of macropores is usually deficient, which causes problems with water infiltration, gas exchange and reduced root growth (Cintra et al, 1983).…”
Section: Discussionmentioning
confidence: 99%
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“…Compared with CT, DT improved macroporosity over the years (Figure 2a,b). This increase was related to the disruption of the soil layer surface by the rotary hoe, which reached a working depth of 0.4 m during bed formation, increasing soil porosity and reducing soil bulk density (Barbosa et al, 2019; Farhate et al, 2022) and SPR (Cherubin et al, 2016; Marasca et al, 2015; Shukla et al, 2021). Although the treatments did not affect TP (Figure 2a,b), studies suggest that high TP is common in clayey soils and mainly reflects micropores, whereas the volume of macropores is usually deficient, which causes problems with water infiltration, gas exchange and reduced root growth (Cintra et al, 1983).…”
Section: Discussionmentioning
confidence: 99%
“…DT management provided higher porosity, aeration and water distribution along the entire soil profile, allowing better root development (Barbosa et al, 2020; Farhate et al, 2022; Lovera et al, 2021; Marasca et al, 2015). In addition, the increase in sucrose in DT2 can be explained by the improvement of Ca and Mg contents by liming, as previously discussed.…”
Section: Discussionmentioning
confidence: 99%
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“…Sugarcane demands the most intensive machine traffic, as it is a semi-perennial crop. The intense machine traffic causes soil compaction and affects crop productivity [3][4][5][6][7][8]. Understanding soil preparation effects on crop productivity becomes important to achieve a sustainable agriculture model [9,10].…”
Section: Introductionmentioning
confidence: 99%
“…The use of traffic control techniques, primarily involves an efficient planting project, including parallelism between traffic lines, tires with high-flotation, and the use of autopilot. Soil management practices such as reduced or no-tillage Luz et al, 2022) and cover crops cultivation on sugarcane renewal (Farhate et al, 2022) are efficient strategies to attenuate soil physical degradation, increase soil organic matter, and improve soil structure creating an environment more resistant to physical degradation by external pressure. On the other hand, the better soil physical quality obtained by soil tillage and the use of cover crops can be weakened by the compaction caused in harvesting operations if controlled traffic not be adopted .…”
Section: Implications Of Controlled Traffic Farming On Spqi and Soil ...mentioning
confidence: 99%