Graham Sustainability Institute

Water Center Products

Use the search feature below to find Water Center supported products, including papers, videos, and fact sheets. Alternatively, you may search/browse products across the entire institute.

Displaying 101 - 110 of 112
Paper/Project Report

Co-authored by Joseph DePinto of LimnoTech and Margaret Kalcic of the U-M Water Center, this proceedings document describes a regional Great Lakes SWAT Modeling workshop hosted by the Water Center in March 2014. SWAT, which stands for Soil Water Assessment Tool, is a powerful model that allows users to determine the impacts of land management practices on water, sediment, and nutrient yields in agricultural watersheds. It is used frequently to answer land management questions and to inform nonpoint source pollution control decisions in agricultural watersheds such as Western Lake Erie, Green Bay, and Saginaw Bay.

July 2014
Video

These animated videos created by David J. Schwab of the University of Michigan Water Center with support from the National Wildlife Federation show the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. The U-M Water Center is a center of U-M's Graham Sustainability Institute.

July 2014
Video

These animated videos created by David J. Schwab of the University of Michigan Water Center with support from the National Wildlife Federation show the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. The U-M Water Center is a center of U-M's Graham Sustainability Institute.

July 2014
Video

These animated videos created by David J. Schwab of the University of Michigan Water Center with support from the National Wildlife Federation show the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. The U-M Water Center is a center of U-M's Graham Sustainability Institute.

July 2014
Video

These animated videos created by David J. Schwab of the University of Michigan Water Center with support from the National Wildlife Federation show the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. The U-M Water Center is a center of U-M's Graham Sustainability Institute.

July 2014
Video

These animated videos created by David J. Schwab of the University of Michigan Water Center with support from the National Wildlife Federation show the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. The U-M Water Center is a center of U-M's Graham Sustainability Institute.

July 2014
Video

These animated videos created by David J. Schwab of the University of Michigan Water Center with support from the National Wildlife Federation show the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. The U-M Water Center is a center of U-M's Graham Sustainability Institute.

July 2014
Online Cover for Straits of Mackinac Report
Paper/Project Report

David J. Schwab, Ph.D., U-M Water Center

With support from the National Wildlife Federation, this eight-page report examines the wide extent to which an oil spill beneath the Straits of Mackinac could impact Great Lakes ecology, wildlife, and coastal communities. Animated videos of potential flow patterns are available on the Graham Institute's YouTube page.

July 2014
Cover Image
Paper/Project Report

Article in the Journal of Great Lakes Research

Daniel K. Rucinski, Joseph V. DePinto, Donald Scavia, and Dmitry Beletsky

March 2014
Paper/Project Report

Co-authored by Thomas F. Nalepa, of the U-M Water Center, and  Don W. Schloesser, of the Great Lakes Science Center, this book covers a variety of topics on the invasive mussel issue, including mussel biology, distribution, life history traits, ecological impacts, and control techniques.

October 2013

Pages