James McNamara
Boise State University
H-index: 52
North America-United States
Top articles of James McNamara
Influence of subsurface critical zone structure on hydrological partitioning in mountainous headwater catchments
Geophysical Research Letters
2024/3/28
Extending active network length versus catchment discharge relations to temporarily dry outlets
Water Resources Research
2024/1
Gianluca Botter
H-Index: 28
James Mcnamara
H-Index: 33
Geophysics‐Informed Hydrologic Modeling of a Mountain Headwater Catchment for Studying Hydrological Partitioning in the Critical Zone
Water Resources Research
2023/12
Quantifying Groundwater Exchanges Throughout the Upper Logan River Watershed
2023
Understanding sediment in river systems—Building on a 50‐year contribution
Hydrological Processes
2023/1
Drivers of spatiotemporal patterns of surface water inputs in a catchment at the rain-snow transition zone of the water-limited western United States
Journal of Hydrology
2023/1/1
Imposing Snow and Discharge Constraints on a Regional High-Resolution Precipitation Data Using Bayesian Inference
AGU Fall Meeting Abstracts
2022/12
The Drying of Dry Creek: Examining the influence of springs on headwater stream intermittency through in-field mapping
AGU Fall Meeting Abstracts
2022/12
From Snowflake to Snowpack: Examining the Consequences of Cloud Microphysical Representations for Hydrologic Uncertainty
AGU Fall Meeting Abstracts
2022/12
Airborne SAR (UAVSAR) and machine learning accurately predict snow density
AGU Fall Meeting Abstracts
2022/12
Forest impacts on snow accumulation and melt in a semi-arid mountain environment
Frontiers in Water
2022/11/29
Why does snowmelt-driven streamflow response to warming vary? A data-driven review and predictive framework
2022/5/1
Evapotranspiration across the rain–snow transition in a semi‐arid watershed
Hydrological Processes
2022/3
Evapotranspiration Across the Rain-Snow Transition
AGU Fall Meeting Abstracts
2021/12
Slope and aspect controls on soil climate: Field documentation and implications for large‐scale simulation of critical zone processes
Vadose Zone Journal
2021/11