Jiao Feng

Publications

• Soil microbial trait-based strategies drive metabolic efficiency along an altitude gradient
• Phosphorus transformations along a large-scale climosequence in arid and semiarid grasslands of northern China
• Important Roles of Thiols in Methylmercury Uptake and Translocation by Rice Plants
• Microbial assemblies associated with temperature sensitivity of soil respiration along an altitudinal gradient
• Different forms of nitrogen deposition show variable effects on soil organic nitrogen turnover in a temperate forest
• Soil nitrogen‐hydrolyzing enzyme activity and stoichiometry following a subtropical land use change
• How do Biotic and Abiotic Factors Regulate Soil Enzyme Activities at Plot and Microplot Scales Under Afforestation?
• Contrasting soil C and N dynamics inferred from δ13C and δ15N values along a climatic gradient in southern China
• Microbial Communities Associated with Methylmercury Degradation in Paddy Soils
• Linkages between soil organic carbon fractions and carbon-hydrolyzing enzyme activities across riparian zones in the Three Gorges of China
• Soil labile and recalcitrant carbon and nitrogen dynamics in relation to functional vegetation groups along precipitation gradients in secondary grasslands of South China
• Shift in functional plant groups under flooding impacted ecosystem C and N dynamics across riparian zones in the Three Gorges of China
• Coupling and Decoupling of Soil Carbon and Nutrient Cycles Across an Aridity Gradient in the Drylands of Northern China: Evidence From Ecoenzymatic Stoichiometry
• Inhibited enzyme activities in soil macroaggregates contribute to enhanced soil carbon sequestration under afforestation in central China
• Divergent composition and turnover of soil organic nitrogen along a climate gradient in arid and semiarid grasslands
• Stimulation of nitrogen-hydrolyzing enzymes in soil aggregates mitigates nitrogen constraint for carbon sequestration following afforestation in subtropical China
• Increased simulated precipitation frequency promotes greenhouse gas fluxes from the soils of seasonal fallow croplands
• Microbial Adaptations Within Fine‐Scale Soil Structure Alleviate Phosphorus Limitation on Carbon Sequestration Following Afforestation
• Microbial communities in terrestrial surface soils are not widely limited by carbon
• Metabolic coupling between soil aerobic methanotrophs and denitrifiers in rice paddy fields
• Geologically younger ecosystems are more dependent on soil biodiversity for supporting function
• Stochastic community assembly of abundant taxa maintains the relationship of soil biodiversity-multifunctionality under mercury stress
• Soil core microbiota drive community resistance to mercury stress and maintain functional stability
• Climatic seasonality challenges the stability of microbial‐driven deep soil carbon accumulation across China
• Plastispheres as hotspots of microbially-driven methylmercury production in paddy soils
• Trade‐offs in carbon‐degrading enzyme activities limit long‐term soil carbon sequestration with biochar addition
• Amendments of nitrogen and sulfur mitigate carbon-promoting effect on microbial mercury methylation in paddy soils
• Tracking soil resistance and virulence genes in rice-crayfish co-culture systems across China
• Local temperature increases reduce soil microbial residues and carbon stocks
• Increased water inputs fuel microbial mercury methylation in upland soils
• Stronger responses of soil protistan communities to legacy mercury pollution than bacterial and fungal communities in agricultural systems
• The Proportion of Soil-Borne Fungal Pathogens Increases with Elevated Organic Carbon in Agricultural Soils
• Soil nitrogen-hydrolyzing enzyme activity and stoichiometry following a subtropical land use change
• Ecological drivers of methanotrophic communities in paddy soils around mercury mining areas
• Variations in carbon‐decomposition enzyme activities respond differently to land use change in central China
• Shifts in soil organic carbon dynamics under detritus input manipulations in a coniferous forest ecosystem in subtropical China
• Changes of plant N:P stoichiometry across a 3000-km aridity transect in grasslands of northern China
• Effects of mineral phosphorus fertilizer reduction and maize straw incorporation on soil phosphorus availability, acid phosphatase activity, and maize grain yield in northeast China
• Microbial taxonomic and functional attributes consistently predict soil CO2 emissions across contrasting croplands
• Spatial variation in soil microbial community structure and its relation to plant distribution and local environments following afforestation in central China
• Effects of elevated nitrogen and precipitation on soil organic nitrogen fractions and nitrogen-mineralizing enzymes in semi-arid steppe and abandoned cropland
• A threshold reveals decoupled relationship of sulfur with carbon and nitrogen in soils across arid and semi-arid grasslands in northern China
• Characteristic microbial communities in the continuous permafrost beside the bitumen in Qinghai-Tibetan Plateau
• Reduced ligninase‐cellulase ratio enhances soil carbon sequestration following afforestation of agricultural land
• The legacy effects of afforestation facilitate the maintenance of microbial C:N:P stoichiometric homeostasis amid land use change
• Microbial potential to mitigate neurotoxic methylmercury accumulation in farmlands and rice
• Negative Impacts of Global Change Stressors Permeate Into Deep Soils
• Redistribution of Soil Phosphorus Fractions Alleviates Phosphorus Limitations Following Afforestation