HelioWebHilary R. Martens
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A[Hilary R. Martens]
AC["Associated Concepts (18)"]
AW["Authored Works (17)"]
CA["Linked Co-Authors (21)"]
CI["Linked Collaborating Institutions (18)"]
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AW== author ==>CA
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click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0003-2860-9013
- OpenAlex ID
- https://openalex.org/A5034734983 (API record)
Associated Concepts [?]
- Geology
- Physics
- Geography
- Biology
- Engineering
- Paleontology
- Meteorology
- Computer science
- Astronomy
- Oceanography
- Environmental science
- Seismology
- Geodesy
- Geomorphology
- Quantum mechanics
- Operating system
- Telecommunications
- Global Positioning System
Authored Works
sorted by decreasing year, and then by display-name
- Quantifying Subsurface Water Loss During the Present Southwest U.S. Drought, 2020-2022
- Ocean Tide-load Adjoint Sensitivity in 3D
- Investigating the Relationship Between GPS Elastic Displacements and Hydrologic Storage in Rain and Snow Dominated Watersheds
- Investigating load-induced elastic Earth deformation using a homogeneous, non-gravitating half-space method and a homogeneous, gravitating, spherical method
- Hydrologic Signals in GNSS Geodesy and Their Implications for Advancing Hydrologic Models
- Hydrogeodesy: A technological platform to evaluate the status of global water resources and stability of the Earth system, and to answer unsolved hydrological questions
- Fluctuation in subsurface water inferred from GPS elastic displacements: Insight on water cycle processesand the critical zone
- Crustal Deformation around Lake Mead, Nevada-Arizona due to Current Drought of 2022
- Using Elastic Deformation of the Earths Surface to Investigate Watershed Storage-Discharge Relationships
- Tracking the storage and dissipation of atmospheric river storm water in the Russian River watershed using GPS elastic displacements
- Tracking Changes in Groundwater Storage from GNSS Geodesy in the Great Lakes Region
- Response of Crustal Deformation in Lake Mead due to Current Drought of 2021
- Loss of water in the ground in the southwest U.S.during drought in 2020 and 2021
- Hydrologic Signals in GNSS Geodesy and Their Implications for Future Hydrology
- Comparison of GPS Observations of Crustal Deformation and Hydrologic Storage Estimates
- Assessing meteorological and hydrological drought in the western US using geodesy
- Analyzing the multipath of GNSS time series to study snow properties
Linked Co-Authors
- A. A. Borsa
- Anna M. Wilson
- Ashlesha Khatiwada
- Athina Peidou
- D. N. Wiese
- Donald F. Argus
- Ellen Knappe
- F. W. Landerer
- Fernando Jaramillo
- M. Ralph
- Martin van Driel
- Mason Perry
- Ming Pan
- Nicholas Lau
- Qiqi Cao
- Rebecca Bendick
- S. Wdowinski
- Stacy Larochelle
- W. Payton Gardner
- Yuning Fu
- Z. H. Hoylman
Linked Collaborating Institutions
- Bowling Green State University, Ohio
- California Institute of Technology
- California Institute of Technology, Division of Geological and Planetary Sciences
- Colorado School of Mines
- ETH Zurich, Institute of Geophysics
- Eidgenossische Technische Hochschule, Zurich, Switzerland
- Florida International University
- Jet Propulsion Laboratory
- Kansas State University
- Research Institute for Humanity and Nature, Kyoto, Japan
- Stockholm University
- Syracuse University, New York
- University of Arizona
- University of California, Los Angeles
- University of California, San Diego
- University of California, San Diego, Scripps Institution of Oceanography
- University of Montana
- University of Saskatchewan, Canada
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