09487000 - Brawley Wash near Three Points, AZ - 2018/09/19 GPS Survey
December 3, 2019
The dataset contains GPS survey data from two surveys conducted after a flow event on September 19, 2018, at the USGS streamgage 09487000 - Brawley Wash near Three Points, AZ. The first survey, on October 1, 2018, documents cross section geometry and high-water marks from the flow event in the reach downstream from the gage. The second survey, on January 31, 2019, documents additional high-water marks and provides ground control for a small unmanned aircraft system survey. The surveys were performed using Leica GS14 RTK GPS equipment, S/N base-2806898, S/N rover-2806883.
Citation Information
| Publication Year | 2019 |
|---|---|
| Title | 09487000 - Brawley Wash near Three Points, AZ - 2018/09/19 GPS Survey |
| DOI | 10.5066/P9TRESCN |
| Authors | Geoffrey P. DeBenedetto, Brandon T Forbes, Claire E Bunch |
| Product Type | Data Release |
| Record Source | USGS Digital Object Identifier Catalog |
| USGS Organization | Arizona Water Science Center, Tucson Office |
Related Content
Using small unmanned aircraft systems for measuring post-flood high-water marks and streambed elevations
Floods affected approximately two billion people around the world from 1998–2017, causing over 142,000 fatalities and over 656 billion U.S. dollars in economic losses. Flood data, such as the extent of inundation and peak flood stage, are needed to define the environmental, economic, and social impacts of significant flood events. Ground-based global positioning system (GPS) surveys of post-flood
Authors
Brandon T. Forbes, Geoffrey DeBenedetto, Jesse E. Dickinson, Claire Bunch, Faith A. Fitzpatrick
Related Content
Using small unmanned aircraft systems for measuring post-flood high-water marks and streambed elevations
Floods affected approximately two billion people around the world from 1998–2017, causing over 142,000 fatalities and over 656 billion U.S. dollars in economic losses. Flood data, such as the extent of inundation and peak flood stage, are needed to define the environmental, economic, and social impacts of significant flood events. Ground-based global positioning system (GPS) surveys of post-flood
Authors
Brandon T. Forbes, Geoffrey DeBenedetto, Jesse E. Dickinson, Claire Bunch, Faith A. Fitzpatrick