Mark S Pleasants

University of Wyoming | PhD Candidate

Subject Areas: Hydrology, Soil Physics, Hydrogeophysics

 Recent Activity

Mark S Pleasants shared Upper Sheep Creek UW and EM Data
Type: Resource
Date: Jan. 9, 2024, 6:08 p.m.

ABSTRACT:

Electromagnetic induction and soil moisture data from the Upper Sheep Creek watershed in Idaho, USA.

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Mark S Pleasants shared Hydrological and geophysical data for calibrated hillslope model comparisons
Type: Resource
Date: Aug. 9, 2022, 3:51 p.m.

ABSTRACT:

Water content, groundwater level, snow lysimeter, rainfall, potential evapotranspiration, Archie’s Law calibration, streamflow, gravimetric water retention, and particle size analysis data from No Name watershed in Snowy Range of southeast Wyoming and Spear-O watershed in Big Horn Mountains of northern Wyoming.

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Mark S Pleasants shared Hydrologic Model Driving Data and Geophysical Measurements - Uncoupled and Coupled Brute Force Hydrogeophysical Inversions
Type: Resource
Date: June 17, 2021, 9:54 p.m.

ABSTRACT:

Synthetic hydrologic model driving data (rainfall, snowmelt, potential evaporation, potential transpiration) and assumed soil data (hydraulic properties and texture) are provided for uncoupled and coupled brute force hydrogeophysical inversion tests.

For field data applications of the brute force hydrogeophysical inversions, raw and inverted electrical resistivity tomography data, hydrologic model driving data (rainfall, snowmelt, potential evaporation, potential transpiration), and measured soil characteristics (water retention and texture) are provided for the 2018 water year (1 October 2017 to 30 September 2018) from the No Name watershed in southeast Wyoming.

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 Author Identifiers

ORCID
https://orcid.org/0000-0002-9864-5282
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Hydrologic Model Driving Data and Geophysical Measurements - Uncoupled and Coupled Brute Force Hydrogeophysical Inversions
Created: June 17, 2021, 9:54 p.m.
Authors: Pleasants, Mark S · Thijs J Kelleners · Andrew D Parsekian · Felipe dos Anjos Neves

ABSTRACT:

Synthetic hydrologic model driving data (rainfall, snowmelt, potential evaporation, potential transpiration) and assumed soil data (hydraulic properties and texture) are provided for uncoupled and coupled brute force hydrogeophysical inversion tests.

For field data applications of the brute force hydrogeophysical inversions, raw and inverted electrical resistivity tomography data, hydrologic model driving data (rainfall, snowmelt, potential evaporation, potential transpiration), and measured soil characteristics (water retention and texture) are provided for the 2018 water year (1 October 2017 to 30 September 2018) from the No Name watershed in southeast Wyoming.

Show More
Resource Resource
Hydrological and geophysical data for calibrated hillslope model comparisons
Created: Aug. 9, 2022, 3:51 p.m.
Authors: Pleasants, Mark S

ABSTRACT:

Water content, groundwater level, snow lysimeter, rainfall, potential evapotranspiration, Archie’s Law calibration, streamflow, gravimetric water retention, and particle size analysis data from No Name watershed in Snowy Range of southeast Wyoming and Spear-O watershed in Big Horn Mountains of northern Wyoming.

Show More
Resource Resource
Upper Sheep Creek UW and EM Data
Created: Jan. 9, 2024, 6:08 p.m.
Authors: Pleasants, Mark S · Kelleners, Thijs · Parsekian, Andrew · Carr, Bradley James

ABSTRACT:

Electromagnetic induction and soil moisture data from the Upper Sheep Creek watershed in Idaho, USA.

Show More