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The mechanism of the plant roots’ soil-reinforcement based on generalized equivalent confining pressure

Ping Guo, Zhenyao Xia, Qi Liu, Hai Xiao, Feng Gao, Lun Zhang, Mingyi Li, Yueshu Yang, Wennian Xu

2020PeerJ20 citationsDOIOpen Access PDF

Abstract

BACKGROUND: To quantitatively evaluate the contribution of plant roots to soil shear strength, the generalized equivalent confining pressure (GECP), which is the difference in confining pressure between the reinforced and un-reinforced soil specimens at the same shear strength, was proposed and considered in terms of the function of plant roots in soil reinforcement. METHODS: were chosen as the reinforcing material. Different drainage conditions (consolidation drained (CD), consolidation undrained (CU), and unconsolidated undrained (UU)) were used to analyse the influences of different root distribution patterns (horizontal root (HR), vertical root (VR), and complex root (CR)) and root contents (0.25%, 0.50%, and 0.75%) on the shear strength of soil-root composites. RESULTS: ) values remain basically stable under different drainage conditions. Under the same root content and drainage conditions, the shear strength indexes ranked in order of lower to higher were HR, VR and CR. The GECP of the soil-root composites with a 0.75% root content was 1.5-2.0 times that with a 0.50% root content and more than 5 times that with a 0.25% root content under the CD and CU conditions. The GECP in reinforced soil followed the sequence of CD > CU > UU. The GECP of the plant roots increased as confining pressure increased under CD and CU conditions while showed a complex change to the confining pressure under the UU condition. CONCLUSION: It was concluded that the evaluation of plant root reinforcing soil based on GECP can be used to measure effectively the influences of roots on soil under different drainage conditions and root distribution patterns.

Topics & Concepts

LoamConsolidation (business)Cohesion (chemistry)Soil waterGeotechnical engineeringOverburden pressureSiltDrainageShear strength (soil)Soil scienceMaterials scienceGeologyEnvironmental scienceChemistryBiologyOrganic chemistryPaleontologyEcologyAccountingBusinessTree Root and Stability StudiesGeotechnical Engineering and Soil StabilizationSoil Management and Crop Yield