On:
In: 2024, AIS, angling, aquatic invasive species, Boating, conservation, fishing, Fox-Wolf Watershed Alliance, FWWA, invasive, invasive species, Lake Butte des Morts, Lake Poygan, Lake Winnebago, Lake Winneconne, Spiny Waterflea, waterflea, Winnebago, Winnebago Lakes, Winnebago Waterways

Additional Monitoring Reveals No Other Spiny Waterfleas

Following up from a spiny water flea finding in Lake Winnebago in 2022, the WI Department of Natural Resources and local partners conducted extensive monitoring for spiny water fleas through the summer and fall of 2022. Biologists were searching for additional adult spiny waterfleas as well as eggs that would have been laid in the sediment of the lake. Following analysis of the samples collected, we are please to report that no evidence of spiny waterflea were found which includes not finding any eggs!

This is fantastic news for our waterways! Currently, there is no evidence that the spiny waterfleas found in 2022 were able to establish a population in Lake Winnebago. Ongoing monitoring by UW-Green Bay as part of the Fox River Navigational System Authority (FRNSA) AIS Monitoring Program will continue to keep an eye out for spiny waterflea and other invasive species.

Remember- an ounce of prevention is worth a pound of cure. It’s easy to help prevent the spread of all aquatic invasive species between lakes. No matter what lake or river you visit, follow these steps to protect your wild places:

Spiny waterflea on a fingertip

· Inspect equipment (boats, fishing line, etc.) for attached aquatic plant, animals, or mud

· Remove all attached plants or animals

· Drain all water from buckets and containers

· Never move live fish away from a waterbody (fish out of water = dead)

Photo Credit: Riley Schultz (UWGB), WI Sea Grant, Donn Brandstrator (UM-Duluth), Chris Acy

Questions? Comments? Contact Chris Acy, the AIS Coordinator covering Brown, Outagamie, Fond du Lac, Calumet, and Winnebago Counties at (920) 460-3674 or chris@fwwa.org!

Follow the Fox Wolf Watershed Alliance’s Winnebago Waterways Program on our Winnebago Waterways Facebook page or @WinnWaterways on Twitter! You can also sign-up for email updates at WinnebagoWaterways.org.

Winnebago Waterways is a Fox-Wolf Watershed Alliance program. The Fox-Wolf Watershed Alliance is an independent nonprofit organization that identifies and advocates effective policies and actions that protect, restore, and sustain water resources in the Fox-Wolf River Basin.

Check out the Keepers of the Fox Program at https://fwwa.org/watershed-recovery/lower-fox-recovery/

Reporting invasive species is a first step in containing their spread. Maintaining and restoring our waters and landscapes can reduce the impacts even when we don’t have other management options to an invasive species.

The post Update: 2022 Spiny Waterflea Findings in Lake Winnebago appeared first on Fox-Wolf Watershed Alliance.

Original Article

Fox-Wolf Watershed Alliance

Fox-Wolf Watershed Alliance

https://fwwa.org/2024/04/24/update-2022-spiny-waterflea-findings-in-lake-winnebago/?utm_source=rss&utm_medium=rss&utm_campaign=update-2022-spiny-waterflea-findings-in-lake-winnebago

Chris Acy

On:
In: Douglas County, Fond du Lac Natural Resource Management Division, Kelsey Taylor, River Talks, Spiny Waterflea, Stop Spiny, Zach Stewart

The River Talks will be held at 7 p.m. Wednesday, Feb. 8 with “We’ve Got Fleas! Invaders and Nonlocal Beings on Water and Land,” a Zoom-only presentation given by Kelsey Taylor with Fond du Lac Natural Resource Management Division and Zach Stewart with Douglas County. Taylor will share information about invasive species, or nonlocal beings, present in our region and how they impact the environment. Stewart will discuss the biology, lifecycle and ecological impacts of the invasive spiny waterflea and share information about how to get involved with the “Stop Spiny” prevention program.

In a change from past events, pre-registration is required. Access it via this link.

Other River Talks will be held March 8, April 12 and May 10, 2023. The March talk will be held in conjunction with the St. Louis River Summit. For more information, visit the River Talks page: go.wisc.edu/4uz720.

The River Talks are sponsored by the Lake Superior National Estuarine Research Reserve and the Wisconsin Sea Grant Program.

The post We’ve got fleas! first appeared on Wisconsin Sea Grant.

Original Article

News Releases | Wisconsin Sea Grant

News Releases | Wisconsin Sea Grant

https://www.seagrant.wisc.edu/news/weve-got-fleas/?utm_source=rss&utm_medium=rss&utm_campaign=weve-got-fleas

Marie Zhuikov

On:
In: AIS, aquatic invasive species, invasive species, John Berges, Spiny Waterflea

While New Zealand white rabbits do not normally spring to mind when you mention the fauna of Lake Michigan, a recently published paper in Limnology and Oceanography: Methods, a journal of the Association for the Science of Limnology and Oceanography, shows how this cotton-tailed creature plays a role in a newly validated method for assessing the lake’s food web, along with yielding surprising finds about the feeding habits of invasive spiny waterfleas.

Sea Grant-funded scientist John Berges, a University of Wisconsin-Milwaukee professor of biological sciences, and UW-M biology colleague Craig Sandren (now deceased), set about investigating the impact of invasive zooplankton on the big lake’s system. As they weighed and rejected three different research tools, Berges suggested an approach that he termed, “almost naively simple.”

Sea Grant-funded researcher John Berges on Lake Michigan for a study of the effects of invasive zooplankton on the food web. (contributed photo)

He harkened back to the 1970s for a process first used terrestrially to calculate what’s eating insects and what kind of insects are being eaten. Berges said the technique had seen limited use in the marine environment but that “this is really the first time it’s been used systematically in fresh waters.”

Berges noted, “What we like about it as opposed to some of the DNA techniques is that it’s pretty quick. It’s cheap. You don’t need big deep DNA sequencing. Most labs will be able to use this.” Additionally, he said, scientists—such as the University of Windsor’s Aaron Fisk—who are using stable isotopes to map food webs can use this process to corroborate findings.

So far, there’s been references to fish and bugs. Just where do the rabbits come into the picture? Berges provided a detailed rundown of this “simple” process: “You take the likely prey (of a spiny waterflea) and…you grind it up. You basically homogenize it, make a soup of it. You take that soup and you inject it into an animal. We’re going to use a bunny rabbit here. That bunny rabbit’s immune system goes nuts, making a whole bunch of antibodies against the proteins that are in the putative prey organism. You have a huge array, a suite, of antibodies which now recognize the proteins that are in that item that potential prey item, that you injected into it.”

There is then a rabbit blood draw—after six to 12 weeks, during which time the immune response has built up. In the lab, Berges’ team then took the antibody (also known as immunoglobulin IgG) fraction of the blood, “which is real easy to do, and you have basically stuff, the immunoglobulins, which are going to stick very, very precisely to the proteins that were in that particular (prey) organism. So, you have a nice little marker.”

The next step, he said, is to determine if any of the markers from the rabbit blood overlap with the predator, which is the spiny waterflea. “You grind up the predator (the spiny waterflea) and you let the immunoglobulin bind to all the predator’s proteins. You remove them (the predator’s antibody) …What we’ve got left over now is things that are going to react only to the prey and not to the predator.”

Berges continued, “We found a whole bunch of the predators and checked them out for 12 different prey and some of them we didn’t find. None of the predators had them and we can be pretty clear that the predators aren’t eating them. And other prey, almost everybody had some of the prey in them. Now, we have a fairly clear picture of what the spiny waterflea is eating and a couple surprises came out.”

A University of Wisconsin-Milwaukee research team collects samples that will later be used as part of a “almost naively simple” method to assess an ecosystem’s populations. The represents the first time the antibody-based method has been used systematically in fresh waters. (contributed photo)

There were two surprises. First was evidence that the spiny waterflea was consuming the larvae of invasive Dreissenid mussels, commonly known as zebra mussels or quagga mussels. “That’s a neat story. We have one invasive species eating another invasive species. Well, that’s kinda cool. But we think about it a little more and it doesn’t make an awful lot of sense because we have this great big predator why is it grazing on these tiny little larvae,” Berges said.

The researchers continued with their reasoning and are now confident that it’s a case of what is known as hyperpredation—the spiny water flea ate something that itself first ate the larval Dressenid mussel.

The second surprise was a 180-degree turn in the category of size—not a tiny food source like the Dreissenid mussel larvae, but a large organism. Evidence of a type of zooplankton called Limnocalanus macrurus, or one of the “big dogs in the lake” as Berges put it, was found to have been consumed by the spiny waterflea. In this instance, Berges said they reasoned the spiny waterflea was eating the juvenile and larval forms of the large copepod.

In the end and with the help of a few New Zealand white rabbits as interim hosts for ground-up zooplankton prey, Berges said, “We have reasonable explanations for those two strange things that we found, and a technique that now we’ve proven out.”

Original Article

News Releases – Wisconsin Sea Grant

News Releases – Wisconsin Sea Grant

https://www.seagrant.wisc.edu/news/uw-milwaukee-researchers-enlist-antibodies-to-understand-spiny-waterflea-diet/

Moira Harrington