Selection of a stress-based soil compaction test to determine potential impact of machine wheel loads

Article

Ali, Aram, Bennett, John McLean, Roberton, Stirling, Krwanji, Diman, Zhu, YingCan and West, David. 2024. "Selection of a stress-based soil compaction test to determine potential impact of machine wheel loads." European Journal of Soil Science. 75 (3). https://doi.org/10.1111/ejss.13501
Article Title

Selection of a stress-based soil compaction test to determine potential impact of machine wheel loads

ERA Journal ID41617
Article CategoryArticle
AuthorsAli, Aram, Bennett, John McLean, Roberton, Stirling, Krwanji, Diman, Zhu, YingCan and West, David
Journal TitleEuropean Journal of Soil Science
Journal Citation75 (3)
Article Numbere13501
Number of Pages14
Year2024
PublisherJohn Wiley & Sons
Place of PublicationUnited Kingdom
ISSN1351-0754
1365-2389
Digital Object Identifier (DOI)https://doi.org/10.1111/ejss.13501
Web Address (URL)https://bsssjournals.onlinelibrary.wiley.com/doi/10.1111/ejss.13501
Abstract

The use of heavy machinery is increasing in agricultural industries, and in particular cotton farming systems in Australia, which induces an increased risk of soil compaction and yield reduction. Hence, there is a need for a technical solution to use available tools to measure projected soil compaction due to farm machinery traffic. The aim of this work was to compare the effects of static and dynamic loads on soil compaction. In this study, three Vertisols (soils commonly used for cotton production in Australia) were selected to examine soil compaction under a range of static and dynamic loads, respectively, using uniaxial compression equipment and a modified Proctor test. In general, soils behaved similarly under static and dynamic loads with no significant difference between bulk density values for all moisture contents with a high index of agreement (d = 0.96, RMSE = 0.056). The results further indicate better agreement between soil compaction produced under static and dynamic loads. Uniaxial compression test (static loads) produced greater compaction compared with the modified Proctor test (dynamic loads), in particular at moisture contents less than the plastic limit condition. The variation in soil compaction for static and dynamic loads was often evident for loads ≥600 kPa, with the greatest soil compaction induced under loads ≥1200 kPa. The findings of this study confirm the suitability of a modified Proctor method to assess soil compaction as an alternative tool under a range of moisture contents and machinery loads for Vertisols.

Keywordsdynamic load; static load; soil moisture; soil compaction; soil bulk density; farm traffic
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020410699. Soil sciences not elsewhere classified
Byline AffiliationsCentre for Sustainable Agricultural Systems
Salahaddin University-Erbil, Iraq
Soil Insight, Australia
Charles Sturt University
Centre for Crop Health
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