The Effects of Unsteady Effusion Rates on Lava Flow Emplacement

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Peters, Sean; Clarke, Amanda; Erika L Rader, 2022, "The Effects of Unsteady Effusion Rates on Lava Flow Emplacement", https://doi.org/10.48349/ASU/LTWBGY, ASU Library Research Data Repository, V4

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Description	This dataset consists of observations from 222 lava flow simulation experiments performed to understand lava flow propagation. The crux of the dataset is two spreadsheets detailing the calculation, observations, and data visualizations from this experimental dataset. Also included are photographs from these experiments taken at the conclusion of each experimental run. Project: The effects of unsteady effusion rates on lava flow emplacement: insights from laboratory analogue experiments The data was collected by performing experiments to simulate lava flow emplacement using polyethylene glycol (PEG) 600 wax in the Volcano Lab at Arizona State University. This methodology has previously been documented in Fink and Griffiths [1990], Gregg and Fink [1996], and more recently with methods similar to ours in Rader et al. [2017]. The experiments were produced by erupting PEG 600 wax into a chilled water bath via a peristaltic pump. Experiments were measured, characterized, and photographed and/or recorded. Experiments were photographed and recorded using a Nikon digital camera.
Subject	Earth and Environmental Sciences
Keyword	Volcanology, Lava flows
Related Publication	Is Cited By: Peters, S.I., A.B. Clarke, and E.L. Rader (2022), The effects of unsteady effusion rates on lava flow morphology and emplacement: results from laboratory analogue experiments, Journal of Volcanology and Geothermal Research, 432.doi: 10.1016/j.jvolgeores.2022.107674
License/Data Use Agreement	CC0 1.0

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	PetersSean_EffusionRatesOnLava_README_20250722.txt Plain Text - 5.3 KB Published Aug 19, 2025 4 Downloads MD5: e3fe78f29f552814f3b60d3feeb1fd54 README file containing file list, dataset authors, methodology, and other relevant information Documentation	Preview "PetersSean_EffusionRatesOnLava_README_20250722.txt" Access File File Access Public Download Options Plain Text Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	peters_et_al_experiments_unsteadyflat.xlsx MS Excel Spreadsheet - 1.1 MB Published Aug 19, 2025 12 Downloads MD5: 7dfdebbe74fe6e410ec474305c4d072f an Excel spreadsheet containing relevant data for 150 analog experiments conducted under 4 variable extrusion rate conditions Data	Access File File Access Public Download Options MS Excel Spreadsheet Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	peters_wax_experiments_unsteadyslope.xlsx MS Excel Spreadsheet - 417.6 KB Published Aug 19, 2025 16 Downloads MD5: 1563a4bad6b6ad3f97cfc056344e4d87 Spreadsheet of individual experimental runs and subsequent data reduction and analysis for unsteady wax analog flows erupted on variable slopes. Data	Access File File Access Public Download Options MS Excel Spreadsheet Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_1.JPG Condition 1 - Decreasing/JPEG Image - 1.7 MB Published Jun 1, 2022 21 Downloads MD5: 2b54293b6bff50182f7d240cafe4cafe Condition 1. Experiment 1. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_1.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_10.JPG Condition 1 - Decreasing/JPEG Image - 1.9 MB Published Jun 1, 2022 19 Downloads MD5: 4051a4bc5a24356cf0de5de70796ac71 Condition 1. Experiment 10. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_10.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_11.JPG Condition 1 - Decreasing/JPEG Image - 1.8 MB Published Jun 1, 2022 13 Downloads MD5: 8168a006ecb16f3fda4ad1c607c18167 Condition 1. Experiment 11. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_11.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_12.JPG Condition 1 - Decreasing/JPEG Image - 1.9 MB Published Jun 1, 2022 16 Downloads MD5: a4c36c0ad4951e56f11efa949f572c65 Condition 1. Experiment 12. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_12.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_13.JPG Condition 1 - Decreasing/JPEG Image - 2.3 MB Published Jun 1, 2022 13 Downloads MD5: 8ba32c7ba54c3f05c2c0016c939a7d68 Condition 1. Experiment 13. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_13.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_14.JPG Condition 1 - Decreasing/JPEG Image - 1.9 MB Published Jun 1, 2022 12 Downloads MD5: ea1c9eebfbd3626f317aa0a705a3710c Condition 1. Experiment 14. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_14.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	PULSE_FLAT_15.JPG Condition 1 - Decreasing/JPEG Image - 2.1 MB Published Jun 1, 2022 13 Downloads MD5: c1b8f82d1e42d93c0a228a1fdc8ebf35 Condition 1. Experiment 15. Refer to spreadsheet 'peters_et_al_wax_experiments_unsteadyflat.xlsx' for experimental run conditions Condition 1	Preview "Condition 1 - Decreasing/PULSE_FLAT_15.JPG" Access File File Access Public Download Options JPEG Image Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX

Citation Metadata

Persistent Identifier	doi:10.48349/ASU/LTWBGY
Publication Date	2022-06-01
Title	The Effects of Unsteady Effusion Rates on Lava Flow Emplacement
Author	Peters, Sean (Arizona State University) - ORCID: 0000-0002-9003-8867 Clarke, Amanda (Arizona State University) - ORCID: 0000-0002-1637-0474 Erika L Rader (University of Idaho) - ORCID: 0000-0003-2729-4275
Point of Contact	Use email button above to contact. Peters, Sean Clarke, Amanda (Arizona State University)
Description	This dataset consists of observations from 222 lava flow simulation experiments performed to understand lava flow propagation. The crux of the dataset is two spreadsheets detailing the calculation, observations, and data visualizations from this experimental dataset. Also included are photographs from these experiments taken at the conclusion of each experimental run. Project: The effects of unsteady effusion rates on lava flow emplacement: insights from laboratory analogue experiments The data was collected by performing experiments to simulate lava flow emplacement using polyethylene glycol (PEG) 600 wax in the Volcano Lab at Arizona State University. This methodology has previously been documented in Fink and Griffiths [1990], Gregg and Fink [1996], and more recently with methods similar to ours in Rader et al. [2017]. The experiments were produced by erupting PEG 600 wax into a chilled water bath via a peristaltic pump. Experiments were measured, characterized, and photographed and/or recorded. Experiments were photographed and recorded using a Nikon digital camera.
Subject	Earth and Environmental Sciences
Keyword	Volcanology http://id.loc.gov/authorities/subjects/sh2008009516 (LCSH) Lava flows http://id.loc.gov/authorities/subjects/sh93007829 (LCSH)
Related Publication	Is Cited By: Peters, S.I., A.B. Clarke, and E.L. Rader (2022), The effects of unsteady effusion rates on lava flow morphology and emplacement: results from laboratory analogue experiments, Journal of Volcanology and Geothermal Research, 432. doi 10.1016/j.jvolgeores.2022.107674 https://doi.org/10.1016/j.jvolgeores.2022.107674 Is Cited By: Peters, S.I., A.B. Clarke, and E.L. Rader (2024), The impacts of lulls and peaks in effusion rate on lava flow propagation, Journal of Volcanology and Geothermal Research, 451. doi 10.1016/j.jvolgeores.2024.108099 https://doi.org/10.1016/j.jvolgeores.2024.108099 Is Cited By: Peters, S.I., A.B. Clarke, and E.L. Rader (2024), The impacts of lulls and peaks in effusion rate on lava flow propagation, Journal of Volcanology and Geothermal Research, 451. doi 10.1016/j.jvolgeores.2024.108099 https://doi.org/10.1016/j.jvolgeores.2024.108099
Language	English
Producer	School of Earth and Space Exploration (Arizona State University) (SESE) https://sese.asu.edu/
Production Location	Arizona State University
Depositor	Peters, Sean
Deposit Date	2022-03-15
Date of Collection	Start Date: 2017-12; End Date: 2018-08
Data Type	Experimental Data
Software	Microsoft Excel
Other Reference	Fink, J., & Griffiths, R. (1990). Radial spreading of viscous-gravity currents with solidifying crust. Journal of Fluid Mechanics, 221, 485-509. doi:10.1017/S0022112090003640; Gregg, T. K. P., and Fink, J. H. (1996), Quantification of extraterrestrial lava flow effusion rates through laboratory simulations, J. Geophys. Res., 101( E7), 16891– 16900, doi:10.1029/96JE01254.; Rader, E., Vanderkluysen, L., & Clarke, A. (2017). The role of unsteady effusion rates on inflation in long-lived lava flow fields. Earth and Planetary Science Letters, 477, 73–83. https://doi.org/10.1016/j.epsl.2017.08.016

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