This project will promulgate a nitrate water quality standard to address aquatic life toxicity, and gather information needed to support the development of total nitrogen (N) loading reduction strategies for Minnesota’s waters and also address Minnesota’s contribution to marine water hypoxia. Project will also develop a framework for a watershed nitrogen planning aid that can be used to optimize selection of Best Management Practice (BMP) systems for reducing nitrogen.
Because Minnesota is at the juncture of three distinct types of ecosystems - western prairie, northern coniferous forest, and eastern deciduous forest - the region is particularly sensitive to changes in climate conditions. Understanding how the plants, animals, and waterways of Minnesota might respond to these changes will help the state plan for and manage the potential impacts. The University of Minnesota's Department of Forestry is using this appropriation to analyze past climate conditions in Minnesota and make estimates pertaining to changes expected in the foreseeable future.
An emerging practice called "precision conservation" aims to maximize conservation benefits by considering the value of lands in terms of the interconnected systems of which they are a part. By compiling and integrating multiple types of data layers and analysis that are available today, conservation professionals can use the best and most precise information available to identify, prioritize, and guide conservation efforts.
This project will generate water quality data for 10 stream locations MPCA designated for their 2012 and 2013 open-water sampling seasons (8 by NRRI-UMD and 2 via subcontract to the North St. Louis SWCD). The overall project goal is to collect event-based physical and chemical data sets for 10 agency-prioritized stream sampling sites in NE Minnesota for calculating pollutant loads and for incorporation into the overall State database for MPCA assessment purposes.
This project will develop a surficial geology shapefile (map) for part of the State of Minnesota, by modifying and joining smaller existing, but separate, surficial geology maps. The resulting internally consistent geographic information system (GIS) layer will be used to support the hydrologic parameterization of Minnesota Pollution Control Agency (MPCA) watershed models.
The goal of this project is to develop knowledge on pollutant removal and fate in infiltration Best Management Practices (BMPs). Results of this study will enhance pollutant reduction estimates, inform BMP planning and performance assessments, address groundwater protection concerns, and increase our understanding of stormwater and stormwater BMPs in the water cycle.