HelioWebJoel A. Biederman
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A[Joel A. Biederman]
AC["Associated Concepts (24)"]
AW["Authored Works (13)"]
CA["Linked Co-Authors (22)"]
CI["Linked Collaborating Institutions (12)"]
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AW== author ==>CA
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click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0002-1831-461X
- OpenAlex ID
- https://openalex.org/A5000560342 (API record)
Associated Concepts [?]
- Environmental science
- Biology
- Geology
- Ecology
- Geography
- Physics
- Engineering
- Ecosystem
- Geotechnical engineering
- Botany
- Meteorology
- Hydrology (agriculture)
- Atmospheric sciences
- Oceanography
- Chemistry
- Agronomy
- Climate change
- Organic chemistry
- Paleontology
- Medicine
- Precipitation
- Climatology
- Geomorphology
- Cartography
Authored Works
sorted by decreasing year, and then by display-name
- Upscaling dryland carbon and water fluxes with artificial neural networks of optical, thermal, and microwave remote sensing
- Soil Microbial Activities Following a Summer Monsoon Rain Event Vary With Severity of Prior Winter Drought
- RainMan: A Global Change Experiment Integrating Proximal Remote Sensing with Direct Measures of Semiarid Grassland Structure and Function
- Multi-scale remote sensing of extreme drought impacts on vegetation productivity across drylands of the southwestern US
- Forest structure controls on water inputs to soils, vegetation water stress, and percolation at sites with contrasting ephemeral or seasonal snowpack
- Effects of Hot vs. Dry Vapor Pressure Deficit on Ecosystem Carbon and Water Fluxes
- Using high resolution modelling to predict the effects of forest change on snowpack in the semiarid Southwest US
- The feedback of Arizona Grassland to Longer Seasonal Droughts and its Implication for Dryland Carbon Cycling: Insights from Model-Experiment Integration
- The Importance of Long-term Observations for Understanding Dryland Soil-Water-Vegetation-Climate Dynamics
- Snow and Soil Moisture Response to Post-thinning Forest Structure and Seasonal Drought Conditions
- Response of Soil Carbon Dioxide Efflux to Rainfall Intensification in a Semiarid Grassland
- Improved understanding of climate-forest-snow interactions in forested ecosystems leads to a better understanding of ecohydrologic processes and informs forest management
- Exploring the role of peak CO2 fluxes versus growing season length in controlling semiarid ecosystem net CO2 flux interannual variability
Linked Co-Authors
- C. Jason Williams
- David C. Goodrich
- David J. P. Moore
- E. M. Demaria
- G. N. Flerchinger
- M. E. Litvak
- M. Roby
- Mallory L. Barnes
- Matthew P. Dannenberg
- Mostafa Javadian
- Natasha MacBean
- P. D. Broxton
- Rachel E. Gallery
- Ravindra Dwivedi
- Russell L. Scott
- Sasha C. Reed
- Temuulen Tsagaan Sankey
- William K. Smith
- Xubin Zeng
- Yakir Preisler
- Yang Song
- Yao Zhang
Linked Collaborating Institutions
- CAS, Institute of Geographic Sciences and Natural Resources Research
- Harvard University, Massachusetts
- Indiana University, Bloomington
- Northern Arizona University
- Peking University, China
- Sharif University of Technology, Iran
- U.S. Department of Agriculture
- U.S. Geological Survey
- University of Arizona
- University of Iowa
- University of New Mexico
- University of North Carolina, Chapel Hill
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