Pubs by Program
This page lists the publications in the ESD Publications database, sorted by first author and year. To filter the list, select one or more Research Program(s) to filter the list, or else specify a publication year (e.g., 2011). Options to view other pages of the list are provided at the bottom of the page.
| Publication Citation | Research Program(s) |
|---|---|
| Barnhart, W.D. (2017), Fault creep rates of the Chaman fault (Afghanistan and Pakistan) inferred from InSAR, J. Geophys. Res., 122, 372-386, doi:10.1002/2016JB013656. | NIP, ESI |
| Barnhart, W.D., R.D. Gold, H.N. Shea, K.E. Peterson, R.W. Briggs, and D.J. Harbor (2019), Vertical Coseismic Offsets Derived From High‐Resolution Stereogrammetric DSM Differencing: The 2013 Baluchistan, Pakistan Earthquake, J. Geophys. Res.. | ESI |
| Bato, M.G., P. Lundgren, V. Pinel, R. Solidum, A. Daag, and M. Cahulogan (2021), The 2020 Eruption and Large Lateral Dike Emplacement at Taal Volcano, Philippines: Insights From Satellite Radar Data, Geophys. Res. Lett., 48, e2021GL092803, doi:10.1029/2021GL092803. | ESI |
| Baver, K., and J. Gipson (2020), Balancing source strength and sky coverage in IVS-INT01 scheduling, Journal of Geodesy, 94, 18, doi:10.1007/s00190-020-01343-1. | ESI |
| Behrend, D., C.C. Thomas, J.M. Gipson, E. Himwich, and K. Le Bail (2020), On the organization of CONT17, Journal of Geodesy, 94, 100, doi:10.1007/s00190-020-01436-x. | ESI |
| Bekaert, D.P.S., A.L. Handwerger, P. Agram, and D.B. Kirschbaum (2020), InSAR-based detection method for mapping and monitoring slow-moving landslides in remote regions with steep and mountainous terrain: An application to Nepal, Remote Sensing of Environment, 249, doi:https://doi.org/10.1016/j.rse.2020.111983. | ESI |
| Bellas, A., S. Zhong, and A. Watts (2020), Constraints on the Rheology of the Lithosphere From Flexure of the Pacific Plate at the Hawaiian Islands, Geochem., Geophys., Geosyst., 21, 1-19, doi:10.1029/2019GC008819. | ESI |
| Belli, A., N.P. Zelensky, F.G. Lemoine, and D.S. Chinn (2021), Impact of Jason-2/T2L2 Ultra-Stable-Oscillator Frequency Model on DORIS stations coordinates and Earth Orientation Parameters, Advances in Space Research, 67, 930-944, doi:10.1016/j.asr.2020.11.034. | POP, ESI |
| Farrand, W.H., and S. Bhattacharya (2021), Bhattacharya, International Journal of Remote Sensing, 42, 8, doi:10.1080/01431161.2020.1864057. | ESI |
| Blackwell, E., M. Shirzaei, C.&. Ojha, and S. Werth (2020), Tracking California’s sinking coast from space, Implications for relative sea-level rise. Science Advances, 6, eaba4551-10, doi:10.1126/sciadv.aba4551. | ESI |
| Bleier, T., C. Dunson, C. Alvarez, F. Freund, and R. Dahlgren (2010), Correlation of pre-earthquake electromagnetic signals with laboratory and field rock experiments, Nat. Hazards Earth Syst. Sci., 10, 1965-1975, doi:10.5194/nhess-10-1965-2010. | ESI |
| Blewitt, G., C. Kreemer, W.C. Hammond, and J. Gazeaux (2016), MIDAS robust trend estimator for accurate GPS station velocities without step detection, J. Geophys. Res., 121, 2054-2068, doi:10.1002/2015JB012552. | ESI |
| Blewitt, G., W.C. Hammond, and C. Kreemer (2018), Harnessing the GPS Data Explosion for Interdisciplinary Science, Eos, 99, doi:10.1029/2018EO104623. | ESI |
| Bock, Y., and D. Melgar (2016), Physical Applications of GPS Geodesy: A Review, Rep. Prog. Phys., 79, doi:10.1088/0034-4885/79/10/106801. | ASP, ESI |
| Borsa, A.A., H.A. Fricker, and K.M. Brunt (2019), A Terrestrial Validation of ICESat Elevation Measurements and Implications for Global Reanalyses, IEEE Trans. Geosci. Remote Sens., 57, 6946-6959, doi:10.1109/TGRS.2019.2909739. | ESI |
| Bouali, E.H., T. Oommen, and R. Escobar-Wolf (2018), Mapping of slow landslides on the Palos Verdes Peninsula using the California landslide inventory and persistent scatterer interferometry, Landslides, 15, 439-452, doi:10.1007/s10346-017-0882-z. | ESI |
| Bouali, E.H., T. Oommen, and R. Escobar-Wolf (2019), remote sensing Case Report Evidence of Instability in Previously-Mapped Landslides as Measured Using GPS, Optical, and SAR Data between 2007 and 2017: A Case Study in the Portuguese Bend Landslide Complex, California, doi:10.3390/rs11080937. | ESI |
| Brandenberg, S.J., P. Wang, C.C. Nweke, K. Hudson, S. Mazzoni, C.A. Goulet, S.C.E. Center, A. Donnellan, et al. (2019), A report of the NSF-Sponsored Geotechnical Extreme Event Reconnaissance Association GEER Team Members, Preliminary Report on Engineering and Geological Effects of, 2019, 8/1/2019, doi:10.18118/G6H66K. | ESI |
| Brandenberg, S., J. Stewart, P. Wang, A. Donnellan, G. Lyzenga, M. Pierce, J. Wang, M.A. Winters, Marie-Pierre, et al. (2022), Ground Deformation Data from GEER Investigations of Ridgecrest Earthquake Sequence Scott J. Brandenberg*1, Jonathan P. Stewart1, Pengfei Wang1, Chukwuebuka C. Nweke1, Kenneth Hudson1, Christine A. Goulet2, Xiaofeng Meng2, Craig A. Davis3, Sean K. Ahdi4, M, Seismol. Res. Lett., XX, 1-11, doi:10.1785/0220190291. | ESI |
| Brandin, M.C., D.T. Sandwell, C.L. Johnson, and M.B. Russell (2024), This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. Mapping Lava Flows on Venus Using SAR and InSAR: Hawa, Hawaiʻi case study. Earth and Space Science, 11, e2024EA003510, doi:10.1029/2024EA003510. | ESI |