Taehee Hwang
Environmental Science · Indiana University
Publications
93
Citations
2,656
Est. group size
—
Recurring co-author estimate
Active years
21
Publishing since 2005
Taehee Hwang studies how forests interact with water and climate, using computer models and satellite (remote sensing) data to understand how vegetation, streamflow, and soil moisture respond to climate change and land-use change. A recurring focus is on forest water use, tree stress and mortality during droughts, and how shifts in the timing of plant growth (phenology) affect the flow of water and carbon through watersheds. The work combines ecology, hydrology (the science of water movement), and large-scale environmental modeling.
Publication activity has remained fairly steady over the past decade, averaging around four to eight papers per year with a modest uptick in the most recent years.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Do Lagged Ecosystem Feedbacks to Hydroclimate Extremes Promote Resilience of Forest Watersheds?
Water Resources Research · 2025
- Climate Change May Increase the Drought Stress of Mesophytic Trees Downslope With Ongoing Forest Mesophication Under a History of Fire Suppression
UNC Libraries · 2025
- Watershed impacts of climate and land use changes depend on magnitude and land use context
UNC Libraries · 2025
- Simulating forest evapotranspiration in hydrologic models: challenges and opportunities
Elsevier eBooks · 2025
- Greening mediates climate and CO2 induced water use efficiency effects on freshwater yield
2024
- Earth's record-high greenness and its attributions in 2020
Remote Sensing of Environment · 2024
- Ecological Characterization of Vegetation Using Multi-Sensor Remote Sensing in the Solar Reflective Spectrum
2024
- Evaluating key climatic and ecophysiological parameters of worldwide tree mortality with a process-based BGC model and machine learning algorithms
Ecological Modelling · 2024
- Can Process-Based Bgc Models Simulate Drought-Induced Tree Mortality Worldwide?
SSRN Electronic Journal · 2023
- Early greenup impact on seasonal streamflow and soil moisture dynamics in humid, temperate forests
2023
- Greenup Variability Impact on Seasonal Streamflow and Soil Moisture Dynamics in Humid, Temperate Forests
Water Resources Research · 2023
- Extended growing seasons and decreases in hydrologic connectivity indicate increasing water stress in humid, temperate forests
Agricultural and Forest Meteorology · 2023
- Early greenup impact on seasonal streamflow and soil moisture dynamics
2022
- Recent field findings and modeling on non-structural carbohydrates (NSCs): How to synthesize?
Ecological Informatics · 2022
- Extended Growing Seasons and Decreases in Hydrologic Connectivity Indicate Increasing Water Stress in Humid, Temperate Forests
SSRN Electronic Journal · 2022
- AGU Fall Meeting Abstracts×6
- Journal of Geophysical Research Biogeosciences×3
- Water Resources Research×3
- Agricultural and Forest Meteorology×3
- UNC Libraries×3
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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