Tag: Hydrology and Watershed Management Studies
Most reviewed catchment models cover ecology, few cover social factors
Review of ten catchment models in New Zealand shows strong capacity for ecological climate change simulation but substantial gaps in representing economic and cultural social-system impacts.
Graph neural networks identified flood-vulnerable river segments
Graph neural network framework for assessing flood vulnerability in river basins. Identifies high-risk segments and flood-prone sub-basins by combining hydrological attributes with network topology.
EO data may improve flood monitoring and forecasting
Review of Earth Observation data capabilities for enhancing riverine flood monitoring and forecasting systems, analyzing accuracy, latency, and assimilation constraints.
Forestation in China is linked to water and ecosystem trade-offs
Synthesis of forest hydrological research in China examining ecohydrological processes, ecosystem service trade-offs, and management implications of large-scale forestation programs.
CMIP6 models project stronger precipitation extremes in the Kosi Basin
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in ClimatologyCMIP6 climate models project intensified precipitation extremes in the Kosi Basin, with 47-79% increases in rainfall by 2100, critical for flood risk management and water resource planning.
Future climate scenarios may reduce Nekarood Watershed health
Scenario-based assessment of Nekarood Watershed health under climate change using SWAT modeling and reliability-resilience-vulnerability framework across SSP scenarios.
SWAT review links land use, climate, and watershed outcomes
SWAT modeling synthesizes 143 studies on land use and climate impacts in developing agricultural watersheds, revealing urbanization effects on water quality and effectiveness of combined.
Warming scenario increases rain-on-snow events in Gallatin watershed
SnowModel simulations project increased rain-on-snow events in the upper Gallatin River watershed, with significant hydrologic implications for streamflow and aquatic ecosystems under future.
Projected land cover change slightly increases flood discharge
Hydrologic impact assessment of projected land cover changes in Cijangkelok Watershed using ANN-based spatial prediction and HEC-HMS design flood simulation.
Model-based planning improved watershed saturation planning in a semi-arid basin
SWAT-based hydrological framework optimizing soil and water conservation practices for watershed saturation and water availability in semi-arid regions through ridge-to-valley spatial planning.
