Mallory L. Barnes

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    A[Mallory L. Barnes]
    AC["Associated Concepts (25)"]
    AW["Authored Works (16)"]
    CA["Linked Co-Authors (30)"]
    CI["Linked Collaborating Institutions (28)"]
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ORCiD

https://orcid.org/0000-0001-8528-6981

OpenAlex ID

https://openalex.org/A5005584576 (API record)

Associated Concepts [?]

• Geology
• Environmental science
• Ecology
• Biology
• Geography
• Physics
• Ecosystem
• Atmospheric sciences
• Remote sensing
• Engineering
• Oceanography
• Botany
• Medicine
• Climate change
• Computer science
• Pathology
• Vegetation (pathology)
• Meteorology
• Eddy covariance
• Climatology
• Agronomy
• Paleontology
• Mathematics
• History
• Geotechnical engineering

Authored Works

sorted by decreasing year, and then by display-name

• What can high-resolution thermal remote sensing reveal about the ecophysiological function of an eastern deciduous forest?
• Upscaling dryland carbon and water fluxes with artificial neural networks of optical, thermal, and microwave remote sensing
• Seasonally varying water use strategies in Juniperus osteosperma associated with GPP
• RainMan: A Global Change Experiment Integrating Proximal Remote Sensing with Direct Measures of Semiarid Grassland Structure and Function
• How well can we detect plant water stress from space?
• Global-Scale Benchmarking of TRENDY Dynamic Vegetation Model Spatiotemporal Estimates of Dryland Productivity using a Dryland-Specific, Ecohydrologically-Informed GPP Product
• Effects of Hot vs. Dry Vapor Pressure Deficit on Ecosystem Carbon and Water Fluxes
• Drivers of dryland carbon-water cycling across the soil-plant-atmosphere continuum
• Disentangling Structural and Physiological Responses to Soil Versus Atmospheric Drought - a Growth Chamber Experiment
• Use of Landsat data to evaluate spatial trends in cover crop adoption
• Upscaling carbon fluxes to capture hot spots and hot moments in drylands
• Tree carbon responses to dryness: Does biomass partitioning buffer plant productivity from low soil moisture supply and high atmospheric water demand?
• The rate of canopy development modulates the link between the timing of spring leaf emergence and summer soil moisture dynamics.
• Informing Nature-based Climate Solutions with the best-available science: a research agenda for the land-atmosphere flux community
• High resolution landscape scale predictions of collective soil functioning
• Exploring the role of peak CO2 fluxes versus growing season length in controlling semiarid ecosystem net CO2 flux interannual variability

Linked Co-Authors

• Benjamin R. K. Runkle
• David R. Bowling
• Dennis Baldocchi
• G. N. Flerchinger
• Gregory R. Goldsmith
• Jessica J. Mitchell
• Jessica S. Guo
• Jitendra Kumar
• Joel A. Biederman
• Joshua B. Fisher
• Kaiyu Guan
• Kimberly A. Novick
• Kyle S. Hemes
• M. E. Litvak
• M. Roby
• M. S. Torn
• Martha C. Anderson
• Martha M. Farella
• Matthew P. Dannenberg
• Mostafa Javadian
• Natasha MacBean
• Rachel E. Gallery
• Richard P. Phillips
• Russell L. Scott
• Sasha C. Reed
• Stefan Metzger
• Susanne Wiesner
• William K. Smith
• Xi Yang
• Yakir Preisler

Linked Collaborating Institutions

• Brown University, Rhode Island
• CAS, Institute of Geographic Sciences and Natural Resources Research
• Colorado State University
• Harvard University, Massachusetts
• Indiana University, Bloomington
• Jet Propulsion Laboratory
• National Center for Atmospheric Research, Colorado
• Northern Arizona University
• Oak Ridge National Laboratory, Tennessee
• Purdue University, Indiana
• Seoul National University, Korea
• Sharif University of Technology, Iran
• Stanford University, California
• U.S. Department of Agriculture
• U.S. Geological Survey
• University of Arizona
• University of Arkansas, Fayetteville
• University of California, Berkeley
• University of California, Los Angeles
• University of Illinois, Urbana-Champaign
• University of Iowa
• University of Montana
• University of New Hampshire
• University of New Mexico
• University of North Carolina, Chapel Hill
• University of Utah
• University of Western Ontario, Canada
• University of Wisconsin, Madison

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