Rose L. Medina
Rose Medina is a Physical Scientist in the Information Management Unit.
Rose supports the Nevada Water Science Center with geospatial data management, analysis, and data release. She provides expertise in knowledge of the center’s data holdings, visualization, usability principles to user interface designs, and publication processes. She also supports the internal SharePoint and public Drupal center web spaces.
Professional Experience
1996 - Present: Physical Scientist, U.S. Geological Survey, Nevada Water Science Center
1994 - 1996: SCEP student, U.S. Geological Survey, Nevada Water Science Center
Education and Certifications
B.S. in Geography, University of Nevada, Reno, 1996
Science and Products
Filter Total Items: 13
Depth-to-water area polygons, isopleths showing mean annual runoff, 1912-1963, and water-level altitude contours for the Humboldt River Basin, Nevada Depth-to-water area polygons, isopleths showing mean annual runoff, 1912-1963, and water-level altitude contours for the Humboldt River Basin, Nevada
This USGS data release represents the 1:500,000-scale geospatial data for the following publication: Eakin, T.E., and Lamke, R.D., 1966, Hydrologic reconnaissance of the Humboldt River basin, Nevada: Nevada Department of Conservation and Natural Resources, Water Resources Bulletin 32, 107 p. The data set consists of 3 separate items: 1. Depth-to-water area polygons 2
Science and Products
Filter Total Items: 13
Depth-to-water area polygons, isopleths showing mean annual runoff, 1912-1963, and water-level altitude contours for the Humboldt River Basin, Nevada Depth-to-water area polygons, isopleths showing mean annual runoff, 1912-1963, and water-level altitude contours for the Humboldt River Basin, Nevada
This USGS data release represents the 1:500,000-scale geospatial data for the following publication: Eakin, T.E., and Lamke, R.D., 1966, Hydrologic reconnaissance of the Humboldt River basin, Nevada: Nevada Department of Conservation and Natural Resources, Water Resources Bulletin 32, 107 p. The data set consists of 3 separate items: 1. Depth-to-water area polygons 2