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- Ahamed, A., Knight, R., Pauloo, R., Melton, F., & Wei, Z. (2020). Development of a Remote Sensing-Based Method to Monitor Changes in Groundwater Storage. Water Resources Research., abstract #SY035-0009.
- Dewar, N., & Knight, R. (2020). Estimation of the top of the saturated zone from airborne electromagnetic data. Geophysics, EN63-EN76. https://doi.org/0.1190/geo2019-0539.1
- Knight, R., Smith, R., Asch, T., Abraham, J., Cannia, J., Viezzoli, A., & Fogg, G. (2020). Mapping Aquifer Systems with Airborne Electromagnetics in the Central Valley of California. Groundwater. https://doi.org/10.1111/gwat.12656
- Kang, S., Dewar, N., & Knight, R. (2020). The effect of power lines on time-domain airborne electromagnetic data. Geophysics, 86(2). https://doi.org//10.1190/geo2020-0089.1
- Lees, M. (2020). Understanding the Link Between Changing Head Levels and Land Subsidence: A Field Experiment in Californiaâs San Joaquin Valley. American Geophysical Union, Fall Meeting 2020, San Francisco, California.
- Gottschalk, I., Knight, R. ., Asch, T. A., Abraham, J., & Canina, J. (2020). Using an airborne electromagnetic method to map saltwater intrusion in the northern Salinas Valley, California. Geophysics. https://library.seg.org/doi/10.1190/geo2019-0272.1
- Advancing the Use of InSAR Data through Integration with Geophysical Data. (2019). American Geophysical Union, Fall Meeting 2019, San Francisco, California. .
- Gottschalk, I., & Knight, R. (2019). Application of machine learning to build the rock-physics transform for the interpretation of electrical resistivity measurements. AGU Fall Meeting, 2019. https://ui.adsabs.harvard.edu/abs/2019AGUFM.H32A..02G/abstract
- Behroozmand, A., Auken, E., & Knight, R. . (2019). Assessment of managed aquifer recharge sites using a new geophysical imaging method. Vadose Zone Journal. https://acsess.onlinelibrary.wiley.com/doi/10.2136/vzj2018.10.0184
- Knight, R., Goebel, M., & Osterman, G. (2019). Geophysical Imaging of Sediment Texture. The Almond Conference.
- Smith, R., & Knight, R. (2019). Modeling Land Subsidence Using InSAR and Airborne Electromagnetic Data. Water Resource Research. https://doi.org/10.1029/2018WR024185
- Ahamed, A., Knight, R., Pauloo, R., Melton, A., & Wei, Z. (2019). Remote Sensing-Based Estimation of Groundwater Storage Changes in Californiaâs Central Valley. AGU Chapman Conference on Heavily Stressed Aquifers.
- The Use of Ground Motion Data from InSAR to Explore and Manage the Groundwater Systems in Californiaâs Central Valle.. (2019). GRA Annual Groundwater Congress, September 17-19. .
- Gottschalk, I., Knight, R., Asch, T., Abraham, J., & Cannia, J. (2018). Improved Understanding of Hydrostratigraphy and Saltwater Intrusion from Airborne Electromagnetics. GRACast.
- Gottschalk, I., Knight, R., Asch, T., Abraham, J., & Cannia, J. (2018). Improved Understanding of Hydrostratigraphy and Saltwater Intrusion from Airborne Electromagnetics. Groundwater Resources Association of California (GRAC) Western Groundwater Congress.
- Interpretation of Hydrostratigraphy and Water Quality from AEM Data Collected in the Northern Salinas Valley, CA. (2018). https://stanford.box.com/s/xyxtjefdugej0hjai6wj6va8sve79vp5
- Jerome, S. (2018). Overpumping groundwater linked to arsenic threat. Water Online. https://www.wateronline.com/doc/overpumping-groundwater-linked-to-arsenic-threat-linked-to-deadly-water-quality-problems-0001
- Smith, R. (2018). Overpumping Leads to California Groundwater Arsenic Threat. Nature Communications . https://www.nature.com/articles/s41467-018-04475-3
- Overpumping of Central Valley groundwater has side effect: too much arsenic. (2018). San Francisco Chronicle. https://www.sfchronicle.com/science/article/Over-pumping-of-Central-Valley-groundwater-has-12967278.php?utm_source=1.%20People%26Planet%20%7C%20Woods%20Newsletter&utm_campaign=161399d10c-EMAIL_CAMPAIGN_2018_06_06_11_20&utm_medium=email&utm_term=0_ec34d34b19-161399d10c-238705049
- Sentinel Geophysics: Imaging Saltwater Intrusion from Monterey to Santa Cruz. (2018). https://www.youtube.com/watch?v=k4XcBx7OT3Y