Important progress have been made in the evolution model and the numerical simulation of mountain disaster chain by Institute of Mountain Hazards and Environment (IMHE), CAS

Significant Progress Has Been Made in The Research of The Critical Conditions for The Formation of Outburst Debris Flows at Mountain Hazards and Environment, CAS, Chengdu

IMHE Clarifies Unsaturated Hydro-mechanical Behaviour of Rainfall-induced Mass Remobilization in Post-earthquake Landslides

Research Progresses in Debris Flow Entrainment Mechanism by IMHE

IMHE Reveals the Different Responses of Cunninghamia Lanceolata Seedlings to Nitrogen and Phosphorus additions ThoughPhysiological and Proteomic Analysis

IMHE reveals plants adapted to nutrient limitation allocate less biomass into stems in an arid-hot grassland

IMHE reveals the determining critical support discharge of a riverhead and river network analysis

IMHE reveals the physiological and molecular mechanism on photosynthesis of Chinese fir under high planting density and nutrient addition

IMHE reveals the soil reinforcement by the roots of four prevailing grass species in the riparian zone of Three Gorges Reservoir

IMHE achieves new progress of SOC erosion in agricultural soils

IMHE reveals the altitudinal variations in soil phosphorus biogeochemistry on the eastern slope of Mt. Gongga, SW China

IMHE reveals the rainfall thresholds for debris flows in Wenchuan Earthquake area