25. Shoemaker ES, DMH Baker, JA Richardson, LM Carter, SP Scheidt, PL Whelley, KE Young (2024). Mapping Ice Buried by the 1875 and 1961 Tephra of Askja Volcano, Northern Iceland using Ground-Penetrating Radar: Implications for Askja Caldera as a Geophysical Testbed for In-Situ Resource Utilization, Journal of Geophysical Research-Planets, (accepted February 2, 2024).

24. Sutton SS, JA Richardson, PL Whelley, SP Scheidt, CW Hamilton (2024). Degradation of the 2014-2015 Holuhraun vent-proximal edifice in Iceland, Bulletin of Volcanology, (accepted January 11, 2024).

23. Scheidt SP, Crown DA, DC Berman (2024). Valley networks on the flanks of Alba Mons: Mapping fluvial systems in northern Tharsis, Mars, Journal of Geophysical Research-Planets, (resubmitted January 24, 2024).

22. Blasizzo AY, IA Ukstins, SP Scheidt, AH Graettinger, DW Peate, TL Carley, AJ Moritz, JE Thines (2022) Vikrahraun – the 1961 basaltic lava flow eruption at Askja, Iceland: morphology, geochemistry, and planetary analogs, Earth, Planets and Space, 74:168.

21. Fenton LK, SM Metzger, TI Michaels, SP Scheidt, TC Dorn, LDV Neakrase, B Cole, and O Sprau (2022). Meteorological and geological controls on dust devil activity: Initial results from a field study at Smith Creek Valley, Nevada, USA. Aeolian Research 59 (2022): 100831.

20. Crown DA, SP Scheidt, DC Berman (2022). Distribution and morphology of lava tube systems on the western flank of Alba Mons, Mars, Journal of Geophysical Research-Planets, 127, 6.

19. Voigt JRC, CW Hamilton, G Steinbrügge, and SP Scheidt (2022) Surface roughness characterization of the 2014–2015 Holuhraun lava flow-field in Iceland: Implications for facies mapping and remote sensing, Bulletin of Volcanology, 83, 82.

18. Kolzenburg S, J Kubanek, M Dirscherl, CW Hamilton, E Hauber, SP Scheidt, U Münzer (2022) Solid as a rock: Tectonic control of dike propagation and graben extension, Geology, 50(3): 260-265.

17. Voigt, JR, CW Hamilton, SP Scheidt, U Münzer, Á Höskuldsson, I Jónsdottir, T Thordarson (2021). Geomorphological characterization of the 2014–2015 Holuhraun lava flow-field in Iceland. Journal of Volcanology and Geothermal Research, 107278,

16. Simurda C, MS Ramsey, SP Scheidt (2020). Assessing lava flow subpixel surface roughness and particle size distribution for improved thermal inertia interpretations. Remote Sensing, 12, 18,

15. Marx HE, SP Scheidt, MS Barker, KM Dlugosch (2020). TagSeq for gene expression in non-model plants: a pilot study at the Santa Rita Experimental Range NEON core site, Applications in Plant Science, 8, 11,

14. Hamilton CW, SP Scheidt, MM Sori, AP de Wet, JE Bleacher, PJ Mouginis-Mark, S Self, JR Zimbelman, WB Garry, PL Whelley, LS Crumpler (2020). Lava-rise plateaus and inflation pits in the McCartys lava flow-field, New Mexico: An analog for pāhoehoe-like lava flows on planetary surfaces, Journal of Geophysical Research – Planets

13. Bonnefoy LE, CW Hamilton, SP Scheidt, S Duhamel, Á Höskuldsson, I Jónsdottir, T Thordarson, and U Münzer (2019). Landscape evolution associated with the 2014-2015 Holuhraun eruption in Iceland, Journal of Volcanology and Geothermal Research,

12. Young KE, JE Bleacher, AD Rogers, HH Schmitt, AC McAdam, WB Garry, PL Whelley, SP Scheidt, G Ito, CA Knudson, TG Graff, LV Bleacher, N Whelley, CA Evans, JM Hurtado Jr., TD Glotch (2018). The incorporation of field portable instrumentation into human planetary surface exploration, Earth and Space Science, 5,

11. Hamilton CW, PJ Mouginis-Mark, MM Sori, SP Scheidt, AM Bramson (2018). Episodes of aqueous flooding and effusive volcanism associated with Hrad Vallis, Mars, Journal of Geophysical Research: Planets, 123, 10.1029/2018JE005543.

10. Palafox LF, CW Hamilton, SP Scheidt and AM Alvarez (2016). Automated detection of geological landforms on Mars using convolutional neural networks, Computers and Geosciences,

9. Zimbelman JR, SP Scheidt, SL de Silva, NT Bridges, MG Spagnuolo and EM Neely (2016). Aerodynamic roughness height for gravel-mantled megaripples, with implications for wind profiles near TARs on Mars, Icaurus, 266, 306-31, 10.1016/j.icarus.2015.11.008.

8. Lorenz RD and SP Scheidt (2014). Compact and inexpensive kite apparatus for geomorphological field aerial photography, with some remarks on operations, GeoResJ, 3, 1-8, doi:10.1016/j.grj.2014.06.001.

7. Zimbelman JR and SP Scheidt (2014). Precision topography of a reversing sand dune at Bruneau Dunes, Idaho, as an analog for Transverse Aeolian Ridges on Mars, Icarus, 230, 29-37, doi:10.1016/j.icarus.2013.08.004.

6. Scheidt SP and N Lancaster (2013). The application of COSI-Corr to determine dune system dynamics in the southern Namib Desert using ASTER data, Earth Surface Processes and Landforms, 38, 9, 1004-1019, doi: 10.1002/esp.3383.

5. Zimbelman JR and SP Scheidt (2012). Hesperian age for western medusae fossae formation, Mars, Science, 336, 6089, 1683, doi:10.1126/science.1221094.

4. Scheidt SP, N Lancaster and MS Ramsey (2011). Eolian dynamics and sediment mixing in the Gran Desierto, Mexico, determined from thermal infrared spectroscopy and remote-sensing data, Geological Society of America Bulletin, 123, 7-8, 1628-1644, doi:10.1130/B30338.1.

3. Scheidt SP, MS Ramsey and N Lancaster (2010). Determining soil moisture and sediment availability at White Sands Dune Field, New Mexico, from apparent thermal inertia data, Journal of Geophysical Research: Earth Surface (2003–2012), 115, F2, doi:10.1029.2009JF001378.

2. Katra I, SP Scheidt and N Lancaster (2009). Changes in active eolian sand at northern Coachella Valley, California, Geomorphology,105, 3-4, 277-290, doi:10.1016/j.geomorph.2008.10.004.

1. Scheidt SP, MS Ramsey and N Lancaster (2008). Radiometric normalization and image mosaic generation of ASTER thermal infrared data: An application to extensive sand sheets and dune fields, Remote Sensing of Environment, 112, 3, 920-933, doi:10.1016/j.rse.2007.06.020.


Scheidt SP (2009). Aeolian System Dynamics Derived from Thermal Infrared Data. Ph.D. dissertation, University of Pittsburgh. 294 p.

Scheidt SP (2002). Temporal Trends and Spatial Distribution of Wet Deposition of Mercury in the Southeastern United States. Master’s thesis, University of South Carolina. 238 p.