In prep.

Agrawal, S., Frost, D., & Crotwell, P. Influence of Moho topography on seismic beamforming: implications for mantle scattering. in prep.

In review/revision

O’Donnell JP, Selway K, Wade CE, Thiel S, Eakin CM, Pickle R, Agrawal S, Goleby B, Gorbatov A. The deep lithospheric structure of the South Australian Craton revealed by teleseismic Rayleigh wave tomography. in review.

Published

10. Marignier, A., Eakin, C.M., Hejrani, B., Agrawal, S. (2024). Hassan, R. Sedimentary thickness across Australia from passive seismic methods, GJI, https://doi.org/10.1093/gji/ggae070.

9. Agrawal, S., Eakin, C., & O'Donnell, J. P. (2024). Fluid-assisted intra-plate seismicity at the edge of the Gawler Craton, South Australia, Physics of the Earth and Planetary Interiors, 107133. https://doi.org/10.1016/j.pepi.2023.107133

8. Eakin, C.M., Davies, D.R., Ghelichkhan, S., O’Donnell, J.P., Agrawal, S. (2023). The influence of lithospheric thickness variations beneath Australia on seismic anisotropy and mantle flow, G-Cubed. https://doi.org/10.1029/2023GC011066

7. Agrawal, S., Eakin, C., & O'Donnell, J. P. (2023). Tracking crustal thickness at the sediment inundated edge of the Gawler Craton, Tectonophysics. https://doi.org/10.1016/j.tecto.2023.229938

6. O’Donnell, J. P., Agrawal, S., Eakin, C., Thiel, S., et al. (2023). Mapping crustal structure across southern Australia using seismic ambient noise tomography, Gondwana Research. https://doi.org/10.1016/j.gr.2023.04.013.

5. Kennett, B., Gorbatov, A., Yuan, H., Agrawal, S., et al. (2023). Refining the Moho across the Australian continent. Geophysical Journal International. https://doi.org/10.1093/gji/ggad035.

4. Agrawal, S., Eakin, C.M., & O'Donnell, J.P (2022). Characterizing the cover across South Australia: A simple passive-seismic method for estimating sedimentary thickness. Geophysical Journal International. http://doi.org/10.1093/gji/ggac294.

3. Eakin, C. M., Flashman, C., & Agrawal, S. (2021). Seismic anisotropy beneath Central Australia: A record of ancient lithospheric deformation. Tectonophysics, 229123. https://doi.org/10.1016/j.tecto.2021.229123.

2. Agrawal, S., Eakin, C.M., Portner, D.E., Rodriquez, E.E., Beck, S.L (2020). The deformational journey of the Nazca Slab from seismic anisotropy. Geophysical Research Letters. doi: 10.1029/2020GL087398.

1. Singh, S., Agrawal, S., Ghosh, A (2017). Understanding deep Earth dynamics: a numerical modelling approach. Current Science, 112(7).

Conference posters & presentations (all first-authored)

19. (Invited) Following the waves: Seismic windows into crustal & mantle dynamics. University of South Carolina, Nov 2025, Columbia, USA.

18. (Invited) Talk: Cleaning the dirty lens: how the crust affects measurements of the deep Earth. Georgia Institute of Technology, Oct 2025, Atlanta, USA

17. Cleaning the dirty lens: how the crust affects measurements of the deep Earth. University of Graz, Sept 2025, Graz, Austria

16. Cleaning the dirty lens: how the crust affects measurements of the deep Earth. IASPEI/IAGA, Sept 2025, Lisbon, Portugal

15. (Invited) Cleaning the dirty lens: how the crust affects measurements of the deep Earth. ACCESS, May 2025, Flagstaff, AZ.

14. Improving resolution of mantle scattering – correcting for crustal effects. AGU, Dec 2024, Washington D.C.

13. Determining the fate of oceanic crust in the mid-mantle? Cascades24, August 2024, Bend, OR.

12. How to determine the fate of oceanic crust in the mid-mantle? SEDI, June 2024, Great Barrington, MA.

11. Earthquakes and natural springs – a tryst. Kennett Symposium, June 2023 - Canberra, Australia.

10. Tracking Crustal Thickness at the Sediment Inundated Edge of the Gawler Craton, Australia. AGU Fall Meeting 2022 - Chicago, USA. iposter.

9. Intra-plate Seismicity of the Gawler Craton and Lake Eyre Basin, Australia. AGU Fall Meeting 2022 - Chicago, USA. 

8. Intra-plate seismicity of the Lake Eyre Basin and Gawler Craton, Australia. EGU General Assembly 2022 – Vienna, Austria. DOI

7. Calibrating sediment thickness utilizing receiver functions and borehole data. EGU General Assembly 2022 – Vienna, Austria. DOI

6. (Invited) Understanding the Deformation of the Nazca Slab Using Seismic Anisotropy. AGU Fall Meeting - Virtual, U53A-08.

5. Estimating Sediment Thickness Across South Australia Using Receiver Functions. AGU Fall Meeting - Virtual, S22B-05.

4. Uncovering South Australia – the passive seismic way. AuScope Research Conference, 2021. Link to presentation.

3. Depth dependent deformation of the Nazca slab from Seismic anisotropy. AGU Fall Meeting – Virtual, DI029-0010. (Link to e-poster)**

2. Depth varying Deformation within the Nazca Slab from Seismic Anisotropy. 19th International Symposium on Deep Seismic Profiling of the Continents and their Margins, March 2020, Perth, Australia.

1. Constraining the dynamics of the subducting Nazca slab from seismic anisotropy. EGU General Assembly 2019 – Vienna, Austria.