WorldCat Identities

Mastin, Mark C.

Overview
Works: 19 works in 29 publications in 2 languages and 2,649 library holdings
Genres: Maps 
Roles: Author
Publication Timeline
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Most widely held works by Mark C Mastin
Effects of potential future warming on runoff in the Yakima River Basin, Washington by Mark C Mastin( )

2 editions published in 2008 in English and held by 273 WorldCat member libraries worldwide

Modeling water temperature in the Yakima River, Washington, from Roza Diversion Dam to Prosser Dam, 2005-06 by Frank D Voss( )

1 edition published in 2008 in English and held by 270 WorldCat member libraries worldwide

Verification of 1921 peak discharge at Skagit River near Concrete, Washington, using 2003 peak-discharge data by Mark C Mastin( )

1 edition published in 2005 in English and held by 267 WorldCat member libraries worldwide

Re-evaluation of the 1921 peak discharge at Skagit River near Concrete, Washington by Mark C Mastin( )

2 editions published in 2007 in English and held by 267 WorldCat member libraries worldwide

Verification of 1921 peak discharge at Skagit River near Concrete, Washington, using 2003 peak-discharge data by Mark C Mastin( )

1 edition published in 2005 in English and held by 266 WorldCat member libraries worldwide

Watershed scale response to climate change, Naches River Basin, Washington by Mark C Mastin( )

2 editions published in 2012 in English and held by 263 WorldCat member libraries worldwide

Flood-hazard mapping in Honduras in response to Hurricane Mitch by Mark C Mastin( Book )

2 editions published in 2002 in English and held by 234 WorldCat member libraries worldwide

Simulated runoff at many stream locations in the Methow River Basin, Washington by Mark C Mastin( )

1 edition published in 2015 in English and held by 232 WorldCat member libraries worldwide

Updates to watershed modeling in the Potholes Reservoir basin, Washington-a supplement to Scientific Investigation Report 2009-5081 by Mark C Mastin( )

1 edition published in 2012 in English and held by 203 WorldCat member libraries worldwide

Flood potential of South Prairie Creek, Pierce County, Washington by Mark C Mastin( Book )

2 editions published in 1998 in English and held by 181 WorldCat member libraries worldwide

Recharge from precipitation in three small glacial-till-mantled catchments in the Puget Sound Lowland, Washington by H. H Bauer( Book )

2 editions published in 1997 in English and held by 177 WorldCat member libraries worldwide

Real-time flood alert and simulation of river flood discharges in the Puyallup River Basin, Washington by Mark C Mastin( Book )

2 editions published in 1999 in English and held by 11 WorldCat member libraries worldwide

Documentation of Precipitation Runoff Modeling System modules for the Modular Modeling System modified for the Watershed and River Systems Management Program by Mark C Mastin( )

1 edition published in 2002 in English and held by 2 WorldCat member libraries worldwide

Monitoring recharge in areas of seasonally frozen ground in the Columbia Plateau and Snake River Plain, Idaho, Oregon, and Washington by Mark C Mastin( )

2 editions published in 2014 in English and held by 2 WorldCat member libraries worldwide

Seasonally frozen ground occurs over approximately one-third of the contiguous United States, causing increased winter runoff. Frozen ground generally rejects potential groundwater recharge. Nearly all recharge from precipitation in semi-arid regions such as the Columbia Plateau and the Snake River Plain in Idaho, Oregon, and Washington, occurs between October and March, when precipitation is most abundant and seasonally frozen ground is commonplace. The temporal and spatial distribution of frozen ground is expected to change as the climate warms. It is difficult to predict the distribution of frozen ground, however, because of the complex ways ground freezes and the way that snow cover thermally insulates soil, by keeping it frozen longer than it would be if it was not snow covered or, more commonly, keeping the soil thawed during freezing weather. A combination of satellite remote sensing and ground truth measurements was used with some success to investigate seasonally frozen ground at local to regional scales. The frozen-ground/snow-cover algorithm from the National Snow and Ice Data Center, combined with the 21-year record of passive microwave observations from the Special Sensor Microwave Imager onboard a Defense Meteorological Satellite Program satellite, provided a unique time series of frozen ground. Periodically repeating this methodology and analyzing for trends can be a means to monitor possible regional changes to frozen ground that could occur with a warming climate. The Precipitation-Runoff Modeling System watershed model constructed for the upper Crab Creek Basin in the Columbia Plateau and Reynolds Creek basin on the eastern side of the Snake River Plain simulated recharge and frozen ground for several future climate scenarios. Frozen ground was simulated with the Continuous Frozen Ground Index, which is influenced by air temperature and snow cover. Model simulation results showed a decreased occurrence of frozen ground that coincided with increased temperatures in the future climate scenarios. Snow cover decreased in the future climate scenarios coincident with the temperature increases. Although annual precipitation was greater in future climate scenarios, thereby increasing the amount of water available for recharge over current (baseline) simulations, actual evapotranspiration also increased and reduced the amount of water available for recharge over baseline simulations. The upper Crab Creek model shows no significant trend in the rates of recharge in future scenarios. In these scenarios, annual precipitation is greater than the baseline averages, offsetting the effects of greater evapotranspiration in future scenarios. In the Reynolds Creek Basin simulations, precipitation was held constant in future scenarios and recharge was reduced by 1.0 percent for simulations representing average conditions in 2040 and reduced by 4.3 percent for simulations representing average conditions in 2080. The focus of the results of future scenarios for the Reynolds Creek Basin was the spatial components of selected hydrologic variables for this 92 square mile mountainous basin with 3,600 feet of relief. Simulation results from the watershed model using the Continuous Frozen Ground Index provided a relative measure of change in frozen ground, but could not identify the within-soil processes that allow or reject available water to recharge aquifers. The model provided a means to estimate what might occur in the future under prescribed climate scenarios, but more detailed energy-balance models of frozen-ground hydrology are needed to accurately simulate recharge under seasonally frozen ground and provide a better understanding of how changes in climate may alter infiltration
Verification of 1921 peak discharge at Skagit River near Concrete, Washington, using 2003 peak-discharge data by Mark C Mastin( Book )

2 editions published in 2005 in English and held by 2 WorldCat member libraries worldwide

Fifty-year flood-inundation maps for Catacamas, Honduras by David L Kresch( )

1 edition published in 2002 in English and held by 1 WorldCat member library worldwide

Fifty-year flood-inundation maps for Nacaome, Honduras by David L Kresch( Book )

1 edition published in 2002 in English and held by 1 WorldCat member library worldwide

Maps of the areas and depths of 50-year-flood inundation at 15 municipalities in Honduras were prepared as a tool for agencies involved in reconstruction and planning. This report, which is one in a series of 15, presents maps of areas in the municipality of Nacaome that would be inundated by 50-year floods on Río Nacaome, Río Grande, and Río Guacirope
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2 editions published in 2017 in Korean and held by 1 WorldCat member library worldwide

 
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Audience level: 0.47 (from 0.44 for Effects of ... to 0.99 for <> ...)

Alternative Names
Mastin, M. C. (Mark C.)

Languages
English (27)

Korean (2)