A forest for the fish

If you look through the ice on a winter day, or peer into the water during a rare summer moment when the wind is calm, you might glimpse the tips of the trees that make up Ocean Lake’s underwater forest.

Below the surface is a Christmas tree forest “planted” by sportsmen and Wyoming Game and Fish in an effort to enhance fish habitat. In more than two decades some 8,000 trees have been left on the ice of Ocean Lake, tied to cement blocks to sink to the bottom providing fish habitat. It is an effort that began in the early 1980s by four friends who loved to ice fish on the lake and noticed the fish population dwindling. It has grown into a Fremont County community event where more than 500 Christmas trees are donated to the project each year.

Kelsey Dayton

The result? Healthier fish populations and happier fishermen.

Howard Johnson of Riverton, always loved ice fishing. It’s a sport that takes little gear as long as one person has an ice auger. No boat is needed to catch as many fish as you would in the summer. And the cold adds a challenge and bonding experience.

“You just have to weather the weather and that’s the fun part of it,” he said.

In the early 1980s he started ice fishing with Bob Wilczewski and Scott Stanley of Riverton, along with Bob Baumann of Shoshoni  at Ocean Lake.

They’d gather with their families and campers, playing cards and games and baking biscuits to go with the fresh fish they’d catch on the ice.

After a few years of bountiful hauls they noticed their catches diminishing. They knew the history of the lake, and it didn’t seem right. Dozens of unique habitat models at fishiding.com

Christmas trees are left on the ice of Ocean Lake. Each year recycled Christmas trees are left on the ice to sink to the bottom of the lake where they provide fish habitat. (Photo courtesy Wyoming Game and Fish).

Until the 1930s, Ocean Lake was basically a pond, about 225 acres in size, known as Dry Lake and surrounded by sagebrush and rocks, said Nick Scribner, a habitat biologist with the Wyoming Game and Fish. The Riverton Reclamation Irrigation project started in 1922.When new irrigation systems were developed in the area, water started draining to the low spot in the area, where the pond sat, covering the weeds and willows with water and making the pond more of a lake. It kept rising until the Bureau of Reclamation built an outlet off the east side to drain to a creek, stabilizing the water level, Johnson said.

Fish stocking began in the 1930s, bringing black crappie, bluegill, burbot and largemouth bass to the lake, Scribner said. Walleye stocking began in 1954 and became an annual practice starting in 1972.

Old-timers told stories of the incredible fishing in the area, especially walleye and perch, Johnson said. As the plants on the bottom began to thin and decompose, the smaller fish had no place to hide, the bigger fish had easy feasts and thrived. Fishermen caught fish “by the washtub full,” Johnson said.

For several years Johnson and his friends found Ocean Lake’s fishing bountiful. Then a few years later the fish stopped biting.

On a particularly slow day, the four men lay on the ice, put their coats over their heads and peered down to the bottom. There was nothing but mud.

“It was just like a carpeted floor down there,” Johnson said.

Ocean Lake sits northwest of Riverton in an open area exposed to Wyoming’s wind.  The gusts create waves, which stir up the silt in the bottom,  Scribner said.

The silt makes it hard for plants to grow and there is little natural vegetation on the bottom of the lake, he said. Small fish have little cover to hide from predators.

With no place to hide, the small fish population was decimated by the larger fish, whose population then suffered because there wasn’t enough food.

Most of Johnson’s fishing group came originally from the Midwest, where using old Christmas trees for fish habitat is common. They decided to see if they could help the fish of Ocean Lake. That winter they wandered alleys and picked up about 50 Christmas trees they hauled to the lake, tying on cement blocks and letting them sink to the bottom. A strong believer in that anyone who fishes should donate at least one day a year to projects to that helps habitat, Johnson and the group continued to collect and “plant” Christmas trees each year.

The effort became an annual event and now, with the help of the Fremont County Solid Waste Disposal District, Wyoming Game and Fish and about 20 volunteers, about 500 trees are planted in Ocean Lake each year. Johnson estimates they’ve planted about 8,000 trees since they started the project. One year, when an area business sold trees where the needles fell off quickly, they received about 1,000 trees — too many for the small number of volunteers, Johnson said.

Volunteers bundle Christmas trees at Ocean Lake. Each year recycled trees are gathered and planted in the lake to help fish habitat. A date for this year’s event hasn’t been yet. (Photo courtesy Wyoming Game and Fish).

The trees are tied together in bunches and attached to concrete blocks and left on the ice. Eventually they drop through the ice, settling on the bottom- about 15 to 25-feet below the surface, where for three or four years they’ll provide fish habitat before decomposing. The trees provide cover for small fish and perch spawn in the branches, Scribner said. Other species, like tadpoles use the habitat as well, he said. The cement blocks are left on the lake bottom, but don’t cause any environmental harm, Scribner said.

The trees come in all shapes and sizes from small “Charlie Brown”-like ones to the full and tall that would dominate a room. All of the trees break down quickly once submerged, Scribner said.

While the practice of using Christmas trees isn’t common in Wyoming, similar efforts have been done elsewhere in the state, Scribner said. In Boysen Reservoir cottonwood and pine tree stumps are put in into the lake.

While Game and Fish monitors the area and knows the trees benefit fish habitat,  it’s hard to quantify the impact of the project on fish populations, Scribner said.

Johnson doesn’t need numbers. He knows the fishing is better. They are seeing more age groups of walleye. The locations the trees are dropped are tracked by GPS and those areas have noticeably improved, if a fishermen knows the lake — when and how to fish it.

“It’s all how you do it, where you do it and when you do it,” he said.

And that information, he added like any good fishermen, is a secret.

Get involved:

A date hasn’t yet been set for this year’s tree “planting.”

To volunteer with the project, contact Howard Johnson at (307) 856-1145, or contact Wyoming Game and Fish Lander office at (307) 332-2688.

To donate your Christmas tree, recycle it at no cost at the Lander landfill, Riverton bale facility or the Dubois landfill.

— “Peaks to Plains” is a blog focusing on Wyoming’s outdoors and communities. Kelsey Dayton is a freelance writer based in Lander. She has been a journalist in Wyoming for seven years, reporting for the Jackson Hole News & Guide, Casper Star-Tribune and the Gillette News-Record. Contact Kelsey at kelsey.dayton@gmail.com.

David Beasley, head Fisheries Biologist for Solitude Lake Management talks about the need for fish habitat for a balanced aquatic environment. Fishiding.com and Solitude Lake Management have been working closely together to help clients up and down the East coast improve water quality and fish habitat. Beasley has been a strong leader in helping lake and pond owners understand the multiple benefits of adding and improving fish habitat in their waters. Dozens of unique habitat models at fishiding.com

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By Mark Reinsel

ES&E Magaqzine’s May/June 2012 issue

An enhanced floating treatment wetland (FTW) that incorporates air diffuser technology is under evaluation in an ongoing study at Floating Island International in Montana. The latest-generation system lifts and circulates water through floating streambeds within the FTW. This combination of FTW and improved water circulation/aeration is part of a product range called BioHaven®. The primary objective of the study is to determine whether biofilm-based microbes can provide nutrient removal, while increasing fish productivity.

This system, which is a new type of
constructed wetland, has been evaluated
for treatment of agricultural effluent and
municipal wastewater. Cost-effective treatment options for end users with limited
funding will be its greatest benefit. It can
provide treatment of agricultural-impacted
waters, municipal wastewater, storm water
and polishing of tertiary waste water, along with lake restoration.

Fisheries managers will be especially interested in the productivity potential afforded by a biological system, which can reduce algae and grow more (and bigger) fish. See the dozens of unique artificial fish habitat models, fish attractors and fish cover at fishiding.com, the leader in proven science based, fish protection.

Wetland areas have been reduced worldwide, while nutrient loading has increased
with growing human populations. Mass-production agriculture, as practiced in many developed nations, can contribute to hyper-eutrophication in water bodies that were previously low in nutrient concentrations. In fresh water, partly as a result of normal seasonal stratification, nutrient loading can deplete oxygen levels within the livable temperature zone for fish species.

Over the last 11 years, Floating Island
International (FII) has developed the Bio-
Haven FTW technology, which mimics
the ability of natural peat-based wetlands
to purify water. The Leviathan™ extrapolates
this technology by maximizing surface area and circulation, which are key components of wetland effectiveness. The islands are also designed to provide
optimal perennial plant habitat.

System background:
Dissolved oxygen and temperature measurements taken on Fish Fry Lake,
FII’s 6.5-acre research lake in 2008/2009 indicated that stratified water near the
surface was too warm to sustain a trout fishery. While temperatures below the
stratified warm water layer were sufficiently cool for trout, that zone contained
low dissolved oxygen (DO) levels. During late summer, no strata of water could
consistently provide the cold-water, high- DO environment demanded by fish, such
as rainbow, brown and Yellowstone cutthroat trout.
Groundwater containing variable nutrient concentrations enters the lake at an estimated average rate of 18 m3/hr. Surface water also flows into the lake with variable nutrient concentrations and flow rates. Evaporative loss and outflow are balanced to maintain the lake level, which is approximately 9 m deep.

As the lake was filled several years
ago, a series of BioHaven floating islands
covering 5,200 square feet (480 m2) of
lake area and providing over 9.3 ha of saturated surface area was installed. Several
islands were positioned next to the inflow
to maximize exposure to the highest nutrient concentrations.

These islands were designed to maximize production of biofilm (organisms attached to underwater surfaces), and to move nutrients into and through the food web.
After addition of the last 232-m2 FTW, floating islands now cover approximately 715 m2, or 2.7% of the lake’s surface area. Active treatment system with floating streambed Leviathan is an enhanced form of constructed wetland, and is FII’s latest effort to move excess nutrients into the food chain or harvest them. It integrates high volume, low-pressure circulation with matrix surface area constructed of postconsumer (recycled) polymer fibers, for maximum wetland performance.

Air-driven directional diffusers circulate up to 2,300 m3/hr, pushing it through the Bio-
Haven matrix and plant roots. The system’s floating streambed contributes to aeration and nutrient uptake.

The FPZ-brand air diffusers require 3 hp (2.2 kW) to operate, typically with 230V
single-phase power. Leviathan is designed to provide the  complete “wetland effect,” including aerobic, anaerobic and anoxic microbial nutrient conversion. This allows it to treat large, nutrient-rich stratified bodies of water, including “dead zones,” in both freshwater and marine settings. Removal of ammonia, nitrate, phosphate and soluble organic carbon has been demonstrated.

The system can move nutrients from
any depth into and through the islands’
biologically active substrate. In the
process, these nutrients are digested by
beneficial microbes and form periphyton
(attached plant and animal organisms
embedded in a polysaccharide matrix,
similar to biofilm), which is the base of
the freshwater food chain. As these excess nutrients transition into the food chain via biofilm/periphyton, both water quality and fish growth rates can be dramatically improved.
Leviathan can de-stratify water bodies, resulting in greatly expanded habitable zones for targeted fish species. As part of this process, high DO levels can be achieved and maintained, and water temperatures homogenized.

Results:
A 232-m2 Leviathan system, incorporating floating streambeds and grid-powered water circulation, was installed in the lake in April 2009. This system circulated up to 770 m3/hr through the stream channels within the island. Each cubic meter of Leviathan’s matrix, averaging 0.64 m in thickness, provided 820 square meters of surface area.

After 17 months of operation, water clarity had improved from a low of 0.36 m of visibility to as much as 3.3 m. Clarity is now at 5.8 m. Simultaneously, the
water temperature gradient was reduced, creating a larger zone of “livable” water for fish. Two age classes of Yellowstone cutthroat trout were introduced 13 and 14 months into the test. Through the summer of 2010, a favorable temperature/dissolved oxygen strata, ranging from the water surface down to a depth of at least 3.7 m, was maintained as potential cutthroat trout habitat.

One-year-old and two-year-old black crappie were also introduced two months
into the test, and naturally-occurring northern yellow perch were present in the
lake when it was filled. All three species have flourished.

The new aeration scheme in the lake improves water quality by incorporating
dissolved phosphorus and nitrogen into the aquatic food web, in the form of periphyton,
while limiting the growth of deleterious algae. Total phosphate concentrations
are reduced from about 0.04 mg/L to 0.02 mg/L, while nitrate-nitrogen
concentrations decrease from about 0.6 mg/L to 0.01 mg/L.
Fish Fry Lake is relatively unique in that it supports fish accustomed to cold
water (Yellowstone cutthroat trout), temperate water (perch) and warm water
(crappie). Montana officials have made two unsuccessful attempts at sustaining
cutthroat populations in an adjacent stretch of the Yellowstone River.
Fish catch rates and growth rates are now being monitored at the lake. Initial
data show that experienced fishermen catch an average of one perch every two
minutes. Visual observations from diving and an underwater viewing station indicate
that perch approaching or exceeding the Montana state record of 1.0 kg now
inhabit the lake.
The perch harvest at Fish Fry Lake averaged 12 kg of fish per week from May-
November 2011. With a phosphorus content of 0.9% in perch, phosphorus removal
from the lake via fishing averaged 0.10 kg/wk, or 84% of the estimated
phosphorus input to the lake.
In summary, Fish Fry Lake was poised to become another eutrophic waterway, until a new form of applied stewardship was introduced, which reversed the process.

Mark Reinsel is with Apex Engineering.
E-mail: mark@apexengineering.us

See what professional fishing guide, photographer and accomplished writer Brad Wiegmann, has to say about fishiding habitat products.

Adding Artificial PVC Fish Attractors with Fishiding

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This next group of amazing shots by Engbretson Underwater Photgraphy, show biofilm and algae growth explode after less than four weeks. Fishiding Reclaimed Artificial Fish  Habitat products made from reclaimed pvc vinyl siding, act as an ideal inert substrate to grow biofilm which in turn feeds and grows fish at a far above normal or average rates. This process called biomimicry, has been perfected and installed with overwhelming success by a company called Floating Island International, which utilizes recycled plastic matrix to create massive amounts of surface area.

See the dozens of unique artificial fish habitat models, fish attractors and fish cover used at fishiding.com, the leader in proven science based, fish protection.