Todd D Stuntebeck

Nutrient and sediment concentrations, loads, yields, and rainfall characteristics at USGS surface and subsurface-tile edge-of-field agricultural monitoring sites in Great Lakes States (ver. 2.1, September 2023)

This data release provides computed rainfall (rain total, duration, intensity, erosivity and antecedent rainfall) and flow (flow volume, flow-weighted mean concentrations, total loads, and total yields) metrics from monitored precipitation, discharge, and water quality (nutrients and sediment concentrations) data collected at U.S. Geological Survey edge-of-field (EOF) monitoring sites located in five Great Lakes States (Wisconsin, Michigan, Ohio, Indiana, and New York). EOF monitoring sites are installed at the edge of agricultural fields, either on the field surface or using subsurface tiles, where runoff can be intercepted and channeled through monitoring equipment before it enters the natural stream system. These...

Categories: Data, Data Release - Revised; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: Great Lakes, Indiana, Michigan, New York, Ohio, All tags... USGS Science Data Catalog (SDC), Wisconsin, agriculture, erosion, farming, field inventory and monitoring, nutrient content (water), precipitation (atmospheric), runoff, suspended material (water), water quality, Fewer tags

Estimated daily loads of nutrients, sediment, and chloride at USGS edge-of-field stations, in Wisconsin, water years 2012-17

As part of the Great Lakes Restoration Initiative, the U.S. Department of Agriculture, Natural Resources Conservation Service; U.S. Environmental Protection Agency; and the U.S. Geological Survey (USGS) have partnered to evaluate agricultural conservation practices focused on nutrient management. Monitoring methods allow for rapid assessment of water-quality changes in response to conservation efforts by focusing on subsurface-tile drainage and direct surface runoff from fields. Estimated daily loads presented within this dataset are from five surface-runoff monitoring stations (USGS station identification number 441624088045601, approximated drainage area of 4.17 hectare; USGS station identification number 441546088082001,...

Categories: Data; Tags: Brown County, East River, Greenleaf, USGS Science Data Catalog (SDC), Wisconsin, All tags... agriculture, field monitoring stations, hydrology, nutrient content (water), suspended material (water), water chemistry, water quality, water resource management, Fewer tags

As part of the Great Lakes Restoration Initiative, the U.S. Department of Agriculture, Natural Resources Conservation Service; U.S. Environmental Protection Agency; and the U.S. Geological Survey (USGS) have partnered to evaluate the impacts of implementing agricultural conservation practices focused on nutrient management. Monitoring methods have been designed to allow for rapid assessment of water-quality changes in response to conservation efforts by focusing on subsurface-tile drainage and direct surface runoff from fields—the major pathways for nonpoint-source pollution to enter streams. Monitoring stations were established at the field edge that measured runoff volume and enabled the collection of samples...

Tags: Allen County, Brown County, East Groveland, Genesee County, Greenleaf, All tags... Hancock County, Harlan, Indiana, Livingston County, Michigan, New York, Ohio, Sonyea, Swartz Creek, Williamstown, Wisconsin, Wrightstown, agriculture, field monitoring stations, hydrology, nutrient content (water), suspended material (water), water chemistry, water quality, water resource management, Fewer tags

Data used to evaluate the effects of field-level management practices on edge-of-field phosphorus loading in Minnesota and Wisconsin, 2004-17

This dataset is a compilation of 125 site years of data collected between 2004-2017 from 26 agricultural fields (2-17 ha) in Minnesota and Wisconsin, representing 13 environmental and seven management factors. Each field was continually monitored for snowmelt and storm event surface runoff volume and phosphorus (P) concentrations. Event data were compiled to calculate both P loads and flow-weighted mean P concentrations during frozen and non-frozen conditions each year. This dataset consists of qualitative information (such as agricultural landuse types, crop rotation information, and soil classifications) and quantitative information (measurements of precipitation and runoff, calculation of P yield).

Categories: Data; Tags: Blue Earth County, Chisago County, Dodge County, Goodhue County, Iowa County, All tags... Kewaunee County, LaFayette County, Manitowoc County, Minnesota, Rock County, St. Croix County, Stearns County, USGS Science Data Catalog (SDC), Vernon County, Water Quality, Water Resources, Waukesha County, Wisconsin, Wright County, agriculture, hydrology, nutrient content, phosphorus, precipitation, regression analysis, runoff, soil chemistry, surface water quality, water chemistry, Fewer tags