|
View: |
Part 1: Document Description
|
|
Citation |
|
|---|---|
|
Title: |
Lava flow eruption conditions in the Tharsis Volcanic Province on Mars |
|
Identification Number: |
doi:10.48349/ASU/NFY27T |
|
Distributor: |
ASU Library Research Data Repository |
|
Date of Distribution: |
2021-05-10 |
|
Version: |
1 |
|
Bibliographic Citation: |
Peters, Sean; Christensen, Phil; Clarke, Amanda, 2021, "Lava flow eruption conditions in the Tharsis Volcanic Province on Mars", https://doi.org/10.48349/ASU/NFY27T, ASU Library Research Data Repository, V1 |
|
Citation |
|
|
Title: |
Lava flow eruption conditions in the Tharsis Volcanic Province on Mars |
|
Identification Number: |
doi:10.48349/ASU/NFY27T |
|
Authoring Entity: |
Peters, Sean (Arizona State University) |
|
Christensen, Phil (Arizona State University) |
|
|
Clarke, Amanda (Arizona State University) |
|
|
Other identifications and acknowledgements: |
Peters, Sean |
|
Software used in Production: |
Java Mission Planning and Remote Sensing (JMARS) GIS software |
|
Distributor: |
ASU Library Research Data Repository |
|
Access Authority: |
Peters, Sean |
|
Access Authority: |
Christensen, Philip |
|
Access Authority: |
Clarke, Amanda |
|
Depositor: |
Peters, Sean |
|
Date of Deposit: |
2021-05-05 |
|
Holdings Information: |
https://doi.org/10.48349/ASU/NFY27T |
|
Study Scope |
|
|
Keywords: |
Other, Geology, Planetary science, Volcanology |
|
Abstract: |
The data were collected from derived products of instruments on NASA missions orbiting Mars accessed through the Java Mission-planning and Analysis for Remote Sensing (JMARS) GIS platform. Our dataset exists in the form of tables and Microsoft Excel spreadsheets, with a data volume of <2 MB. <br /></br /> The dataset generated represents measured flow dimensions (i.e., length, width, and slope) and subsequent calculated flow dimensions (i.e., volume and mass) for 40 lava flows observed in the Tharsis volcanic province on Mars. The raw data can be compared to known terrestrial data and fed through existing and future models to constrain flow emplacement conditions. This dataset represents one of the larger samples of observed Martian lava flows analyzed with high resolution images (e.g., CTX and HiRISE) and moderate to high resolution DEM data (e.g., MOLA and HRSC). <br /></br /> In addition to the raw data, this dataset also contains the results of two model applications. We used these data to obtain eruption rate and/or rheological parameters using models described in the main text of Peters et al. (in review) derived from the following references (e.g., Fink and Griffiths, 1990; 1992; Hiesinger et al., 2007; Baloga and Glaze, 2008). A combination of total volume estimated from the DEMs and calculated eruption rate resulted in eruption durations are also supplied in the dataset. |
|
Date of Collection: |
2018-2019 |
|
Methodology and Processing |
|
|
Sources Statement |
|
|
Data Access |
|
|
Other Study Description Materials |
|
|
Related Materials |
|
|
Fink, J.H., and R. W. Griffiths (1990), Radial spreading of viscous-gravity currents with solidifying crust, *J. Fluid Mech.*, 221, 485–509. |
|
|
<br /></br />Griffiths, R.W. and J.H. Fink (1992), The morphology of lava flows in planetary environments: predictions from analog experiments, *J. Geophys. Res. Solid Earth*, 97, B13, 19739–19748. doi:10.1029/92JB01953. |
|
|
<br /></br />Hiesinger, H., Head III, J.W., and G. Neukum (2007), Young lava flows on the eastern flank of Ascraeus Mons: Rheological properties derived from High Resolution Stereo Camera (HRSC) images and Mars Orbiter Laser Altimeter (MOLA) data, *J. Geophys. Res.*, 112, E05011, doi: 10.1029/2006JE002717. |
|
|
<br /></br />Baloga, S.M., and L.S. Glaze (2008), A self-replication model for long channelized lava flows on the Mars plains, *J. Geophys. Res.*, 113, E05003, doi: 10.1029/2007JE002954 |
|
|
Related Publications |
|
|
Citation |
|
|
Title: |
Peters, S. et al. Investigating Lava Flow Emplacement: Implications for Volcanic Hazards and Planetary Evolution. in ASU Electronic Theses and Dissertations (Arizona State University, 2020). |
|
Identification Number: |
2286/R.A.235894 |
|
Bibliographic Citation: |
Peters, S. et al. Investigating Lava Flow Emplacement: Implications for Volcanic Hazards and Planetary Evolution. in ASU Electronic Theses and Dissertations (Arizona State University, 2020). |
|
Citation |
|
|
Title: |
Peters et al., in review |
|
Bibliographic Citation: |
Peters et al., in review |
|
Label: |
PetersSean_LavaFlowEruptionConditionsTharsisMars_Readme.txt |
|
Text: |
Readme file contains general information on dataset and description of methods used for collection and generation of data. |
|
Notes: |
text/plain |
|
Label: |
peters_christensen_clarke_ds01.xlsx |
|
Text: |
Raw lava flow data, calculated flow dimensions, and calculated eruption-related values related to the methods outline in the published work. |
|
Notes: |
application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
|
Label: |
peters_christensen_clarke_tables.pdf |
|
Text: |
Raw data, calculated values, and error calculations in table formats corresponding to figures in published work. |
|
Notes: |
application/pdf |