The value of aquatic plants

Aquatic plants are a natural part of most lake communities and provide many benefits to fish, wildlife, and people. Aquatic plants such as cattail, bulrush, water lilies, and other aquatic vegetation are important because they reduce wave action (thereby reducing the threat of shoreline erosion), provide fish and wildlife habitat, buffer shorelines from pollutants, and provide other environmental benefits. In lakes, life depends–directly or indirectly–on water plants. They are the primary producers in the aquatic food chain, converting the basic chemical nutrients in the water and soil into plant matter, which becomes food for all other life.

Aquatic plants serve many important functions, including:

• Provide fish food
•  Offer fish shelter
•  Improve water clarity and quality
•  Protect shorelines and lake bottoms
•  Provide food and shelter for waterfowl
•  Improve aesthetics
•  Provide economic value

Explore A guide to aquatic plants: identification and management to learn the importance of aquatic vegetation to Minnesota lakes, get an easy-to-use picture key to some of the common aquatic plants, and find out about regulations and methods of control.

Most recent DNR survey: 2014 Minnesota Biological Survey List of Plant Species Observed at Shamineau Lake

Permit is required for alteration of aquatic vegetation See information on Floating Bogs page.

2022 Aquatic Invasive Species (AIS) Detection and Removal Update

By Rick Rosar-Board Chair

The Lake Shamineau Lake Improvement Districts AIS program has been extremely successful in controlling Eurasian Water Milfoil (EWM). In addition to AIS Ambassadors at the boat landings, a targeted survey of the lake was completed to determine areas for treatment, and in the summer a lake wide delineation was completed. Herbicide treatments were not needed since there were only limited amount of AIS found in the lake with the survey. However, the LID did engage Scuba Divers for hand pulling.

Delineation Survey

Freshwater Scientific Services surveyed portions of Lake Shamineeau on two different dates in 2022. The first survey conducted on June 28, focused on only those areas where we have found Eurasian Water Milfoil in the past. The second survey was conducted on Auguse 4 and included a recheck of the previously treated plots, as well as a much wider search of vegetated areas throughout the rest of the lake.

Although we did not find any substantial areas of EWM in 2022, we did find a few individual plants in the far northwestern bay that appeared to be hybrid watermilfoil. We also found a small patch of EWM (does not look like hybrid) along the edge of the cattails just south of the western public boat access. These areas are too small to warrant herbicide treatment, but are prime candidates for diver-removal

Diver removal

Approximately 20 heavy-duty mesh bags of vegetation, weighing roughly 205 pounds total, were removed from Lake Shamineau. Overall, the density of EWM was observed to have greatly decreased from last year and follows a year-over-year decline in total growth. The divers noted that the lake bottom had a noticeable buildup of dead vegetation throughout the area. Vegetation that was growing was sparse and spread out. The crew spent about 5 hours removing aquatic vegetation by the root. They spent approximately 3 hours surveying other GPS points and traveling to each location. The total project time at Lake Shamineau on Wednesday, August 31, 2022, was 42-man hours.

The amount of EWM present in the lake has been substantially reduced, which, in turn, reduces the amount of new growth in future years to help restore the population of native milfoil and aquatic vegetation.

Early Detection of Aquatic Invasive Species Provides Profound Results and Good Return on Investment

Washburn Lake Eradicates Eurasian Watermilfoil (mostly)

In about 2007, I received a call from Ted Johnson, the President of the Lake Washburn Association, LWA about Aquatic Invasive Species. Ted was concerned that Lake Washburn was susceptible to AIS following the construction of a MN DNR water access site.

I could offer little comfort.

This was before MLR had successfully lobbied the legislature to create the annual $10 million in County AIS Prevention Aid, so there were no county AIS programs then. There was almost no watercraft inspection program from the MN DNR, no decontamination services for the public. It was not until 2012 that MLR was able to successfully lobby the Minnesota legislature to establish and fund the creation of the Minnesota Aquatic Invasive Species Research Center, MAISRC through the Environment and Natural Resources Trust Fund.

So there were almost no resources available to lake associations for AIS prevention or management.

Ted and the Lake Washburn Association had to go it alone. The LWA looked at the most likely AIS they would face. They reached out to the private sector to get a quote on what a treatment might cost, and then asked members to contribute to an AIS fund so that they would be able to move quickly when/if an AIS was discovered. They brought in a DNR expert to teach the lake association members how to identify eurasian watermilfoil, curly leaf pondweed and other AIS.

In 2009, one of the LWA members found a fragment of eurasian watermilfoil, EWM on the shore. The MN DNR confirmed the milfoil. The LWA set the goal of eradication, but the MN DNR cautioned them that the best they could hope for was “control” of the invasive species. But LWA was one of the very first to implement an early detection and response program. 

Within days Ted had contracted James Johnson at Freshwater Scientific Services to survey the lake and determine the exact location and size of any EWM infestations in the lake.

Johnson found that there was an area of about 4 acres near the public water access where EWM was growing. Ted then contacted Patrick Selter, PLM Land and Lake Management Corp to chemically treat the area. In addition Ted, who had become SCUBA certified, hand pulled the milfoil that had survived the treatment.

In subsequent years, the LWA continued to hire Freshwater Scientific Services to survey the lake and then used a combination of hand pulling and chemical treatment from PLM. Over time the size of the EWM infestation declined. Last year, after an exhaustive survey of Lake Washburn using both a rake and diving, only one EWM plant was discovered.

Since then initiating a New Infestation Response Plan has had further success, and shown the strategy to provide a significant Return On Investment, ROI for lake associations. It may be possible to eradicate some AIS if it is discovered early:

• 2012 Weaver Lake – During a survey of of Curly Leaf Pondweed, they found a single EWM plant. Further survey found 200 plants. Volunteers helped dig out the root balls and remove the EWM. They currently survey 3 times a year and have found no more EWM.
• Crookneck Lake – Was infested with EWM and began treatments. During a EWM survey, a single zebra mussel shell was discovered. The lake association and Lake Improvement District began a regime of spring and fall surveys and treatments. In 2021 the survey found no EWM, and no zebra mussels.
• Ruth Lake – In 2015 20 – 30 zebra mussels were discovered in the lake. The MN DNR initiated a pilot project, curtained off the infested area and treated it. Surveys in 2022 found no zebra mussels.
• Lake Sylvia – In 2016 starry stonewort (4 – 5 acres) was discovered during an AIS survey. The Lake Association brought in Dr. Rogers, a starry stonewort expert from Clemson University. They initiated an aggressive treatment program. In 2022, Steve McComas, Blue Water Science, completed a survey and found 5 grams, a “teacups worth” of starry stonewort.

As lake associations consider their limited budgets, and investment in early detection can save many tens of thousands of dollars, and countless hours of volunteer time down the road.

Given this Return On Investment and the potential success, the MAISRC launched the AIS Detectors program where volunteers can receive training in identifying AIS. Six years ago MAISRC launched the Starry Trek program to search high risk lakes for starry stonewort.

The results so far are impressive. Last year 233 volunteers searched 289 water access sites on 248 water bodies for starry stonewort and other AIS. No starry stonewort was found, but volunteers successfully identified 13 other previously undiscovered AIS.

Lake associations play a critical role in AIS prevention and management. A vigorous early detection effort could be key to the eventual management or even eradication of an AIS infestation.