

[1] Wang K, Zhao M, Zhang M, et al. Topography-and depth-dependent rhizosphere microbial community characteristics drive ecosystem multifunctionality in Juglans mandshurica forest[J]. Science of The Total Environment, 2024: 175070. (IF 8.2)
[2] Lei Y, Huang D, Zhou W, et al. Higher Remediation Efficiency of Cd and Lower CO2 Emissions in Phytoremediation Systems with Biochar Application[J]. Environmental Pollution, 2025: 126345. (IF 7.6)
[3] Wei W, Ma M, Jiang X, et al. Soil P-stimulating bacterial communities: response and effect assessment of long-term fertilizer and rhizobium inoculant application[J]. Environmental Microbiome, 2024, 19(1): 86. (IF 6.2)
[4] Yue Z, Guo Y, Zhang Y, et al. Endophytic Pantoea sp. EEL5 isolated from Elytrigia elongata improves wheat resistance to combined salinity-cadmium stress by affecting host gene expression and altering the rhizosphere microenvironment[J]. Industrial Crops and Products, 2025, 234: 121585. (IF 6.2)
[5] Yu S U N, Li J I, CHANG J, et al. Compositional and functional succession of soil bacterial communities during long-term rice cultivation on saline-alkali soils: Insights derived from a new perspective of the core bacterial taxa[J]. Pedosphere, 2024. (IF 5.2)
[6] Zhang X, Song Y, Yang X, et al. Regulation of soil enzyme activity and bacterial communities by food waste compost application during field tobacco cultivation cycle[J]. Applied Soil Ecology, 2023, 192: 105016.(IF 4.8)
[7] Ma L, Yang T, Dong L, et al. Long-term rice-crab coculturing leads to changes in soil microbial communities[J]. Frontiers in Microbiology, 2025, 15: 1395544. (IF 4.0)
[8] Lv B, Sun H, Cao W, et al. Intercropping Between Panax ginseng and Arisaema amurense Improves Ginseng Quality by Improving Soil Properties and Microbial Communities[J]. Horticulturae, 2025, 11(2): 172. (IF 3.1)
[9] Gao W, He Y, Chen Z, et al. Rice Dryland Cultivation Promotes Beneficial Rhizosphere Microorganisms and Root Metabolites, Enhancing Rhizosphere Soil Quality[J]. ACS Agricultural Science & Technology, 2025. (IF 2.9)
[10] Chen W, Hou Z, Zhang D, et al. The Complex Co-Occurrence Network Under N Deposition Resulting in the Change of Soil Bacterial Structure and the Decrease of Bacterial Abundance in Subtropical Quercus aquifolioides Forest[J]. Forests, 2025, 16(3): 481. (IF 2.4)