Improvement of biochemical characteristics of tetracycline-contaminated soil for stimulating soybean growth using Arbuscular mycorrhizal fungi

Tetracycline (TC), as a new type of environmental pollutant, poses a great threat to human food safety and health, thus becoming the focus of human environmental protection issues. In this study, we selected an environmentally friendly microbial remediation method to degrade the residual TC in soil. An experiment was conducted with Funneliformis mosseae (F. mosseae) and artificial TC-contaminated soil to analyze the physiology, antimicrobial enzyme activities, and TC residues in soybean plants and rhizomatous soil. The results showed that the presence of TC in the soil inhibited the enzyme activities of soybean root system and soil, and suppressed the biomass of soybean. Inoculation of F. mosseae in TC-contaminated soil promoted the degradation of TC in the soil, enhanced soil resistance enzyme and urease activities (12.53-43.48%) around the root soil, and enhanced the soil resistance enzymes and promoted the uptake of nutrients in the soybean root system.We conclude that F. mosseae may reduce antibiotics or promote nutrient uptake to enhance plant resistance by altering inter-root enzyme activity. Therefore, this study provides a new theoretical basis for using AMF to remediate TC-contaminated soil and retard the stress of TC on the growth of soybean.