The stream monitoring will follow the stream monitoring parameters and frequency tables outlined in the Surface Water Assessment Grant (SWAG) Request for Proposals (RFP). Specifically over the two-year grant period, monitoring will include 19 sets of field measurements for specific conductance, temperature, pH, dissolved oxygen, secchi tube readings, and one upstream photograph at each visit.
The goal of this project is to construct, calibrate, and validate a watershed model using the Hydrological Simulation Program FORTRAN (HSPF) model for the Upper/Lower Red Lake Watershed. The contractor will produce an HSPF model that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDL) Studies. The model will generate predicted output for hydrology, sediment, nutrients, and dissolved oxygen that is consistent with observed data.
This project will develop an effective transferable model to engage and educate watershed residents, stakeholders and others to better understand and protect watershed ecostystems through environmental monitoring, training, and formal and informal education programs in their local watershed. The project will build on the foundation of the existing Red River Basin River Watch program by strengthening three main activity areas: 1) curriculum integration and teacher training, 2) youth leadership and civic engagement, and 3) applied research collaboration and watershed science skills building.
The purpose of this project is to improve understanding of primary productivity in the Red River and the diversity and population structure of the algal communities occurring along the river system. This will be accomplished through taxonomic identification of periphyton and phytoplankton assemblages necessary for characterizing responses to nutrient gradients along the Red River of the North.
This is a joint project between the United States Geological Survey (USGS), Minnesota Pollution Control Agency (MPCA), North Dakota, and Manitoba. The project is a basin-wide, up-to-date water quality trend analysis using the "QWTrend" program for approximately 40 bi-national river sites to review nutrients, total suspended solids, total dissolved solids, sulfate and chloride from 1980 - 2015.