Pages that link to "Item:Q46207"
From geokb
The following pages link to John W Fulton (Q46207):
Displayed 34 items.
- Remote sensing of river flow in Alaska—New technology to improve safety and expand coverage of USGS streamgaging (Q57099) (← links)
- Occurrence and trends in the concentrations of fecal-indicator bacteria and the relation to field water-quality parameters in the Allegheny, Monongahela, and Ohio Rivers and selected tributaries, Allegheny County, Pennsylvania, 2001–09 (Q58949) (← links)
- Water-budgets and recharge-area simulations for the Spring Creek and Nittany Creek Basins and parts of the Spruce Creek Basin, Centre and Huntingdon Counties, Pennsylvania, Water Years 2000–06 (Q59222) (← links)
- Using science to strengthen our Nation's resilience to tomorrow's challenges: understanding and preparing for coastal impacts (Q59995) (← links)
- Calibration of a two-dimensional hydrodynamic model for parts of the Allegheny, Monongahela, and Ohio Rivers, Allegheny County, Pennsylvania (Q60167) (← links)
- Remediation scenarios for attenuating peak flows and reducing sediment transport in Fountain Creek, Colorado, 2013 (Q60373) (← links)
- Velocity, water-quality, and bathymetric surveys of the Grays Landing and Maxwell Navigation Pools, and Selected Tributaries to the Monongahela River, Pennsylvania, 2010–11 (Q60940) (← links)
- Fecal-indicator bacteria in the Allegheny, Monongahela, and Ohio Rivers and selected tributaries, Allegheny County, Pennsylvania, 2001-2005 (Q67533) (← links)
- Hydrogeologic setting and conceptual hydrologic model of the Spring Creek Basin, Centre County, Pennsylvania, June 2005 (Q68943) (← links)
- Fecal-indicator bacteria in the Allegheny, Monongahela, and Ohio Rivers, near Pittsburgh, Pennsylvania, July-September 2001 (Q69948) (← links)
- Streamflows at Baca and Alamosa National Wildlife Refuges using Non-Contact Technology (Q227634) (← links)
- Remotely Sensed Discharge (Q228887) (← links)
- Under-Ice: Computing Real-time Discharge (Q229246) (← links)
- Fountain Creek Watershed Flood and Sediment Transport Study (Q229555) (← links)
- Radar on Drones (Q229920) (← links)
- Precipitation and Streamgage Flood Warning System (Q230075) (← links)
- Hydraulic modeling of mussel habitat at a bridge-replacement site, Allegheny River, Pennsylvania, USA (Q247947) (← links)
- Near-field remote sensing of surface velocity and river discharge using radars and the probability concept at 10 USGS streamgages (Q253350) (← links)
- Snowpack relative permittivity and density derived from near-coincident lidar and ground-penetrating radar (Q257495) (← links)
- The applicability of time-integrated unit stream power for estimating bridge pier scour using noncontact methods in a gravel-bed river (Q257919) (← links)
- QCam: sUAS-based doppler radar for measuring river discharge (Q259462) (← links)
- Computing under-ice discharge: A proof-of-concept using hydroacoustics and the Probability Concept (Q269420) (← links)
- Predicting the floods that follow the flames (Q277493) (← links)
- Snow depth retrieval with an autonomous UAV-mounted software-defined radar (Q279236) (← links)
- Satellite remote sensing estimation of river discharge: Application to the Yukon River Alaska (Q279410) (← links)
- Use of Doppler velocity radars to monitor and predict debris and flood wave velocities and travel times in post-wildfire basins (Q282264) (← links)
- Uncertainty in remote sensing of streams using noncontact radars (Q283122) (← links)
- Engaging the user community for advancing societal applications of the Surface Water Ocean Topography mission (Q283609) (← links)
- Effects of high salinity wastewater discharges on unionid mussels in the Allegheny River, Pennsylvania (Q287074) (← links)
- Fundamental hydraulics of cross sections in natural rivers: Preliminary analysis of a large data set of acoustic doppler flow measurements (Q291425) (← links)
- USGS HYDRoacoustic dataset in support of the Surface Water Oceanographic Topography satellite mission (HYDRoSWOT) (Q317901) (← links)
- Near-field Remote Sensing of River Velocity, Stage, and Precipitation during Portions of 2015 in Waldo Canyon, Colorado, USA (Q318178) (← links)
- Lidar Point Clouds (LPCs), Digital Elevation Models (DEMs), and Snow Depth Raster Maps Derived from Lidar Data Collected on Small, Uncrewed Aircraft Systems in the Upper Colorado River Basin, Colorado, 2020-22 (Q322854) (← links)
- Radar-based field measurements of surface velocity and discharge from 10 U.S. Geological Survey streamgages for various locations in the United States, 2002-19 (Q327103) (← links)