Maps

GIS Data

Filter Total Items: 77
Bad River mapper
April 10, 2016

The Bad River Groundwater Model Mapper accompanies the report "Groundwater-Surface Water Interactions in the Bad River Watershed, Wisconsin". The mapper displays model inputs such as aquifer recharge and hydraulic conductivity; outputs including water-table elevations, groundwater-flow directions, and stream baseflows; and the results of an analysis evaluating potential monitoring well locations.

Screen capture of the Red-Assiniboine SPARROW online mapper.
April 10, 2016

This mapper displays SPARROW nutrient load and yield data and the importance of various nutrient sources for the RARB, given nutrient inputs similar to 2002. Rankings can be shown by country, state/province, HUC4, HUC8, and catchment. Nutrient data can be explored using maps and interactive graphs and tables. Modeling results can be exported as an Excel spreadsheet or a geospatial dataset.

Figure showing the main page of the MRB3 SPARROW Mapper, 2002
April 9, 2016

This mapper displays SPARROW nutrient load and yield data and the importance of various nutrient sources for the MRB3, given nutrient inputs similar to 2002. Rankings can be shown by major watershed, state, HUC8, tributary, and catchment. Nutrient data can be explored using maps and interactive graphs and tables. Modeling results can be exported as an Excel spreadsheet or a geospatial dataset.

Figure of the main page of the Great Lakes SPARROW Mapper, 2002
April 8, 2016

This mapper displays SPARROW nutrient load and yield data specifically for U.S. tributaries to the Great Lakes. The results are based on the SPARROW models developed for the Great Lakes, Ohio, Upper Mississippi, Red River Basins (MRB3). Modeling results can be exported as an Excel spreadsheet or a geospatial dataset.

Figure showing the main page of the Mississippi/Atchafalaya River Basin (MARB) SPARROW Mapper, 2002
April 7, 2016

The mapper displays SPARROW nutrient load and yield data and the importance of various nutrient sources for the MARB, given nutrient inputs similar to 2002. Rankings can be shown by major watershed, state, HUC8, tributary, and catchment. Nutrient data can be explored using maps and interactive graphs and tables. Modeling results can be exported as an Excel spreadsheet or a geospatial dataset.

Figure showing the main page of the Yellowstone River SPARROW Mapper, 2002
April 6, 2016

This mapper displays SPARROW nutrient load and yield data specifically for the Yellowstone River. The results are based on the SPARROW models developed for the Mississippi/Atchafalaya River Basin (MARB). Modeling results can be exported as an Excel spreadsheet or a geospatial dataset.

Image showing the main page of the Winnebago Data Mapper tool
April 5, 2016

Monitoring locations within the Lake Winnebago watershed (Wis.)

Main page of the Green Lake monitoring map.
April 4, 2016

Map of monitoring locations on Green Lake and its tributaries.

Image showing the main page of the Anvil Lake Monitoring Map tool
April 3, 2016

Map of monitoring locations on Anvil Lake.

Image showing the main page of the Delavan Lake Monitoring Map tool
April 2, 2016

Map of monitoring locations on Delavan Lake and its tributaries.

example soil geochemistry data
April 1, 2016

Online data set provides an estimate of the abundance and spatial distribution of chemical elements and minerals in soils of the conterminous United States and represents a baseline for soil geochemistry and mineralogy against which future changes may be recognized and quantified.

Image showing the main page of the Lake Geneva Monitoring Map tool.
April 1, 2016

Map of monitoring locations on Geneva Lake.