Big Green Lake, near the inlet.  Aaron Becker photo
Big Green Lake, near the inlet.  Aaron Becker photo

   Researchers at the University of Wisconsin-Madison have teamed up with community leaders to analyze Big Green Lake — Wisconsin’s deepest lake and a crucial habitat for lake trout and other coldwater species.

   In 2014, the Wisconsin Department of Natural Resources designated the lake as “impaired” because it failed to meet water-quality standards due to low levels of dissolved oxygen at certain depths, which can happen when increasing amounts of phosphorus, sediment and algae alter the lake’s ecology.

   When oxygen levels fall below a certain point, many native species die out.

   This summer, three faculty members specializing in agriculture and water quality are leading an interdisciplinary analysis of the lake and its watershed to better understand what’s happening, and to find some possible solutions.

   Chris Kucharik, a professor of agronomy and environmental studies, is working with Anita Thompson, a professor of biological systems engineering, and Jake Vander Zanden, a professor of zoology, to develop information and models that will support the management plan and help restore Green Lake.

   Additionally, two Nelson Institute graduate student project assistants, Annie Lord and Sarah Fuller, are reviewing the many studies that have been done already on different aspects of the lake.

   They are investigating the physical and natural makeup of the watershed and compiling social science data from personal interviews and surveys.

   “It was an ecological jewel,” said John Nelson, an emeritus member of the Nelson Institute Board of Visitors and University of Wisconsin-Madison adjunct professor of civil and environmental engineering, who spent his childhood summers swimming, snorkeling, skiing and paddling in Green Lake’s crystal-clear waters. “You could drop a net along the pier and catch enough minnows to fill a bucket. You could take them in the rowboat and fish the 60-foot drop-off in front of our house, which you could see because the lake was so clear.

   “You could catch dinner and row back in, all within an hour.”

   But those conditions are long gone, as Green Lake faces challenges common to waters in agricultural and developing landscapes. 

   Dairy farms produce a significant amount of manure, a natural fertilizer containing critical nutrients such as phosphorus that farmers spread on their fields.

   During heavy rains, fields can erode and wash phosphorus into streams that feed into the lake, providing a nutrient overload that fuels excess plant and algae growth and degrades water quality.

   “If you think of south-central to east-central Wisconsin, that’s our most concentrated area of agriculture in the state,” Kucharik said.

   In 2011, the Green Lake Sanitary District, in collaboration with the Green Lake Association, Green Lake Conservancy, Green Lake and Fond du Lac counties, the Wisconsin DNR and other partners, developed a new, comprehensive lake management plan.

   “Phosphorus reduction is a very big challenge for our lake, but we’re making significant strides,” Sanitary District administrator Charlie Marks said. “I believe we will continue to see incremental improvements in this area if we can continue with our current strategies and solutions. I believe this is a winnable battle.”

   Stephanie Prellwitz, the executive director of the Green Lake Association and a University of Wisconsin-Madison alumna who studied under Thompson, said the university can help the coalition identify broad lessons that can be applied to other communities facing similar water-quality issues. 

   “Our goal is to use the Nelson Institute’s involvement as a catalyst that creates a model for watershed management,” Prellwitz said. “We want to improve water quality on Green Lake in a way that creates a framework to tackle these issues and validate solutions.”

   For his part, Nelson said he recognizes that Green Lake will probably never return to its pristine historical conditions.

   Still, he’d like to see a reversal of the trend toward degradation.

   “I know there’s no going back, but what I inherited should be available in some similar form to people for generations to come,” he said.