Impact of machine traffic events on the physical quality of a minesoil after topographic reconstruction

•Clay topsoil moisture should be considered during topographic reconstruction.•First machine traffic event promoted a bulk density increase at 0.20 m depth.•First traffic event reduced soil macroporosity by 76 % at 0.20 m depth.•Cohesive aggregates were formed after twelfth traffic event at 0.10 m d...

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Bibliographic Details
Published in:Soil & tillage research 2021-06, Vol.210, p.104981, Article 104981
Main Authors: da Silva Barboza, Fabrício, Stumpf, Lizete, Pauletto, Eloy Antonio, de Lima, Claudia Liane Rodrigues, Pinto, Luiz Fernando Spinelli, Jardim, Thais Murias, Pimentel, Jefferson Prass, Albert, Renata Pinto, Vivan, Gisele Aparecida
Format: Article
Language:English
Subjects:
Compaction degree
Compression machine
Minesoil restoration
Soil moisture
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Summary:•Clay topsoil moisture should be considered during topographic reconstruction.•First machine traffic event promoted a bulk density increase at 0.20 m depth.•First traffic event reduced soil macroporosity by 76 % at 0.20 m depth.•Cohesive aggregates were formed after twelfth traffic event at 0.10 m depth.•First machine traffic promoted 170 % increase in soil pre-consolidation pressure. Excessive traffic from large machines during topographic reconstruction promotes the persistent topsoil compaction in the minesoil around the world. Therefore, this study aimed to measure the impactof machine traffic events on the physical quality of a minesoil immediately after topographic reconstruction.The study was conducted in a minesoil recently constructed, on which 0.70 m of clay topsoil was placed. During topographic reconstruction, different traffic events (zero, one, three, five, eight, and twelve passes) over a 12-meter transection were simulated, totaling six treatments. Before and after traffic events soil samples were collected from the 0.00 to 0.10 and 0.10 to 0.20 m layers to evaluate bulk density, soil porosity, distribution of water-stable aggregates, preconsolidation pressure, degree of compactness, soil water retention curve, and soil penetration resistance. The minesoil restoration using topsoil with 473 g kg−1clay and 216.31 g kg−1 of soil moisture proved highly susceptible to compaction when subjected to the first machine traffic event. Bulk density, soil porosity, soil pre-consolidation pressure, and degree of compaction were highly sensitive to respond to the first machine traffic event, while the macroaggregation formed by compression machine and an increase of soil water retention was observed after twelve tractor passes. Before the topographic reconstruction operations of the minesoil, the topsoil must be subjected to a Proctor test to establish a soil moisture level to minimize the impacts of machine traffic.
ISSN:0167-1987
1879-3444
DOI:10.1016/j.still.2021.104981