CREDITS.md

UCVM Software Contributors

The following developers have contributed to the development of the UCVM software framework. Along with these UCVM developers, each velocity model accessible through UCVM has its own list of contributors which can be found in the git repositories for each model.

• Mei-Hui Su
• Philip Maechling
• David Gill
• Patrick Small
• Rasheed Ajala
• Patricia Persaud
• Alan Juarez
• Thomas Jordan
• John Shaw
• Andreas Plesch
• En-Jui Lee
• Po Chen
• Christine Goulet
• Ricardo Taborda
• Kim Olsen
• Scott Callaghan
• Harold Magistrale

References

Researchers that use the UCVM software should cite the primary UCVM software reference, and also, the appropriate reference for any of the velocity models they use in their research.

UCVM Software Reference:

• Small, P., Gill, D., Maechling, P. J., Taborda, R., Callaghan, S., Jordan, T. H., Ely, G. P., Olsen, K. B., & Goulet, C. A. (2017). The SCEC Unified Community Velocity Model Software Framework. Seismological Research Letters, 88(5). doi:10.1785/0220170082. SCEC Contribution 2067

UCVM Model References

CVM-H

• Shaw, J. H., A. Plesch, C. Tape, M. P. Suess, T. H. Jordan, G. Ely, E. Hauksson, J. Tromp, T. Tanimoto, R. Graves, K. Olsen, C. Nicholson, P. J. Maechling, C. Rivero, P. Lovely, C. M. Brankman, J. Munster (2015). Unified Structural Representation of the southern California crust and upper mantle. Earth and Planetary Science Letters. 415 1, doi: 10.1016/j.epsl.2015.01.016 SCEC Contribution 2004

CVM-S

• Magistrale, H, Day, S, Clayton, RW, Graves, RW (2000) The SCEC southern California reference three-dimensional seismic velocity model version 2. Bulletin of the Seismological Society of America 90(6B): S65–S76.
• Kohler, MD, Magistrale, H, Clayton, RW (2003) Mantle heterogeneities and the SCEC reference three-dimensional seismic velocity model version 3. Bulletin of the Seismological Society of America 93(2): 757–774.

CVM-S4.26

• Lee, E.-J., P. Chen, T. H. Jordan, P. J. Maechling, M. A. M. Denolle, and G. C.Beroza (2014), Full 3-D tomography for crustal structure in Southern California based on the scattering-integral and the adjoint-wavefield methods, J. Geophys. Res. Solid Earth, 119, doi:10.1002/2014JB011346. SCEC Contribution 6093

CVM-S4.26.M01

• Lee, E.-J., P. Chen, T. H. Jordan, P. J. Maechling, M. A. M. Denolle, and G. C.Beroza (2014), Full 3-D tomography for crustal structure in Southern California based on the scattering-integral and the adjoint-wavefield methods, J. Geophys. Res. Solid Earth, 119, doi:10.1002/2014JB011346. SCEC Contribution 6093
• Taborda, R., Olsen, K. B., Graves, R. W., Silva, F., Khoshnevis, N., Savran, W. H., Roten, D., Shi, Z., Goulet, C. A., Bielak, J., Maechling, P. J., Cui, Y., & Jordan, T. H. (2016, 09). Verification and Validation of High-Frequency (fmax = 5 Hz) Ground Motion Simulations of the 2014 M 5.1 La Habra, California, earthquake. Poster Presentation at 2016 SCEC Annual Meeting.

USGS Central California Model (cencal)

• Brocher, Tom & Aagaard, Brad & Simpson, R. & Jachens, R.. (2006). The USGS 3D Seismic Velocity Model for Northern California. AGU Fall Meeting Abstracts. -1. 1266.

CCA-06 (cca)

• Jordan, T. H., Callaghan, S. (2018) SCEC Central Coast Seismic Velocity Model, USGS 2018 San Francisco Bay Region Seismic Velocity Models for Seismic Hazard Assessment Workshop, Oral Presentation, March 18, 2018

ALBACORE

• Bowden, D. C., Kohler, M. D., Tsai, V. C., & Weeraratne, D. S. (2016). Offshore southern California lithospheric velocity structure from noise cross-correlation functions. Journal of Geophysical Research, 121(5), 3415-3427. doi: 10.1002/2016JB012919.

SSIP Imperial Valley Model

• Persaud P., (2016) Integrated 3-D Seismotectonic-Velocity Model of the Salton Trough Region based on Seismicity and Explosive Shots from the Salton Seismic Imaging Project Final Technical Report to U.S. Geological Survey NEHRP, Award G15AP00062.
• Persaud P., Y. Ma, J. M. Stock, J. Hole, G. Fuis and L. Han (2016), Fault zone characteristics and basin complexity in the southern Salton Trough, California , Geology, 44(9), p. 747-750, doi:10.1130/G38033.1.

SSIP Coachella Valley Model

• Ajala, R., Persaud, P., Stock, J. M., Fuis, G. S., Hole, J. A., Goldman, M., & Scheirer, D. (2019). Three‐Dimensional Basin and Fault Structure From a Detailed Seismic Velocity Model of Coachella Valley, Southern California. Journal of Geophysical Research: Solid Earth,. doi: 10.1029/2018JB016260. https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2018JB016260.

Wasatch Model

• Magistrale, H, Olsen, KB, Pechmann, JC (2008) Construction and verification of a Wasatch front community velocity model. Technical report no. HQGR.060012, 14 pp. Reston, VA: US Geological Survey.

UW Statewide

• Lin, G., C. H. Thurber, H. Zhang, E. Hauksson, P. Shearer, F. Waldhauser, T. M. Brocher, and J. Hardebeck (2010), A California statewide three-dimensional seismic velocity model from both absolute and differential times. Bulletin of the Seismological Society of America, 100, 225-240. doi: 10.1785/0120090028. SCEC Contribution 1360.

USGS San Francisco Bay

• Aagaard, B.T., and Hirakawa, E.T., 2021, San Francisco Bay region 3D seismic velocity model v21.1: U.S. Geological Survey data release, https://doi.org/10.5066/P9TRDCHE.

UW San Francisco Bay

• Guo, H., T. Taira, A. Nayak, C. H. Thurber, and E. Hirakawa, Three-dimensional seismic velocity models for the San Francisco Bay region, California from joint body-wave and surface-wave tomography validated by waveform simulation, J. Geophys. Res. Solid Earth, submitted.

CANVAS

• Doody, C., Rodgers, A., Afanasiev, M., Boehm, C., Krischer, L., Chiang, A., & Simmons, N. (2023). CANVAS: An adjoint waveform tomography model of California and Nevada. Journal of Geophysical Research: Solid Earth, 128(12). https://doi.org/10.1029/2023JB027583
• Doody, C. (2023). Dataset for "CANVAS: An adjoint waveform tomography model of California and Nevada" [Data set]. In Journal of Geophysical Research: Solid Earth (Vol. 128, Number 12). Zenodo. https://doi.org/10.5281/zenodo.8415562

CVM-H Basins

• Plesch, A., C.H. Thurber, C. Tape, and J.H. Shaw (2021, 08), The SCEC CVM effort: new basin models, enhanced access and tomographic updates. Oral Presentation at 2021 SCEC Annual Meeting.

Digital Elevation Model

Ely/Jordan GTL

• Ely, G., T. H. Jordan, P. Small, P. J. Maechling (2010), A Vs30-derived Near-surface Seismic Velocity Model Abstract S51A-1907, presented at 2010 Fall Meeting, AGU, San Francisco, Calif., 13-17 Dec.

Topography-based Vs30 Model

• Wald, D. J., and T. I. Allen (2007), Topographic slope as a proxy for seismic site conditions and amplification, Bull. Seism. Soc. Am., 97 (5), 1379-1395, doi:10.1785/0120060267.

Wills California Vs30 Model

• Wills, C. J., and K. B. Clahan (2006), Developing a map of geologically defined site-condition categories for California, Bull. Seism. Soc. Am., 96 (4A), 1483-1501, doi:10.1785/0120050179.

Thompson California Vs30 Model

• Thompson, E.M. (2022), An Updated Vs30 Map for California with Geologic and Topographic Constraints (ver. 2.0, July 2022): U.S. Geological Survey data release, doi:10.5066/F7JQ108S.

Digital Elevation Model

• USGS NED 1 arcsec DEM
• https://apps.nationalmap.gov/datasets/
• https://cugir.library.cornell.edu/catalog/cugir-009096