Mallory L. Barnes
Environmental Science · Indiana University
Publications
73
Citations
2,251
Est. group size
—
Recurring co-author estimate
Active years
44
Publishing since 1983
Mallory L. Barnes studies how ecosystems, especially dry and drought-prone landscapes, exchange carbon and water with the atmosphere, and how climate change and human activity alter these processes. The research combines remote sensing (using satellites and near-surface sensors to observe vegetation), field measurements, and machine learning to monitor plant productivity and ecosystem function across scales.
Publication activity has grown substantially over the past decade, rising from a few papers per year to roughly nine to fourteen in recent years.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Using a social‐ecological macrosystems framework to understand how human activities alter ecological synchrony
People and Nature · 2026
- The Global Spectra-Trait Initiative: A database of paired leaf spectroscopy and functional traits associated with leaf photosynthetic capacity
Earth system science data · 2026
- Random forests of the Chihuahuan Desert: Comparing performance of remotely sensed inputs with local and gridded meteorology to estimate ecosystem productivity using Machine Learning
SSRN Electronic Journal · 2026
- Supplementary material to "Importance of plant functional type, dynamic vegetation, and fire interactions for process-based modeling of gross carbon uptake across the drylands of western North America"
2025
- Proximal remote sensing: an essential tool for bridging the gap between high‐resolution ecosystem monitoring and global ecology
New Phytologist · 2025
- Effects of Hot Versus Dry Vapor Pressure Deficit on Ecosystem Carbon and Water Fluxes
Journal of Geophysical Research Biogeosciences · 2025
- Stand density and local climate drive allocation of <scp>GPP</scp> to aboveground woody biomass
New Phytologist · 2025
- The Global Spectra-Trait Initiative: A database of paired leaf spectroscopy and functional traits associated with leaf photosynthetic capacity
2025
- Near-surface remote sensing applications for a robust, climate-smart measurement, monitoring, and information system (MMIS)
Carbon Management · 2025
- The Global Spectra-Trait Initiative: A database of paired leaf spectroscopy and functional traits associated with leaf photosynthetic capacity (v1.0.0)
OSTI OAI (U.S. Department of Energy Office of Scientific and Technical Information) · 2025
- Soil amendment mitigates mortality from drought and heat waves in dryland tree juveniles
UNC Libraries · 2025
- Remote Sensing and Fluxes Upscaling for Real-world Impact (Workshop Report)
2025
- Random forests of the Chihuahuan Desert: Comparing performance of remotely sensed inputs with local and gridded meteorology to estimate ecosystem productivity using Machine Learning
SSRN Electronic Journal · 2025
- The Global Spectra-Trait Initiative: A database of paired leaf spectroscopy and functional traits associated with leaf photosynthetic capacity (v1.0.0)
Open MIND · 2025
- Importance of plant functional type, dynamic vegetation, and fire interactions for process-based modeling of gross carbon uptake across the drylands of western North America
2025
- Global Change Biology×4
- New Phytologist×3
- Geophysical Research Letters×2
- Communications Earth & Environment×2
- Earth s Future×2
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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