Written By
By Amanda Smith, public affairs officer, Pacific Region of the U.S. Fish and Wildlife Service
鈥淥ne plus one plus one equals six on this project,鈥� said Kat Hall, restoration manager for , an environmental non-profit organization that seeks to preserve and restore Northwest ecosystems through partnerships.
The excitement is evident in Hall鈥檚 voice as she speaks about an innovative and collaborative effort to reconnect and restore aquatic habitat in Thompson Creek, a primary tributary to Newman Lake located northeast of Spokane, Washington. For the past 3 years, Hall has been part of what she calls 鈥渁 dream team鈥� of federal, state, and local partners to design, implement, and monitor beaver dam analogs (BDAs), human made structures inspired by nature鈥檚 busiest builder that efficiently improve the health of aquatic ecosystems.
Historically, Thompson Creek meandered through the lower watershed; but over a century ago, it was straightened to accommodate for agriculture, helping to reduce flooding for farmers. While the straightened channel was beneficial to the farmers, it had less desirable impacts on watershed health. The straighter, less natural flow path increased the speed of the water, led to the erosion of the bank, and transported more sediment and pollutants downstream into Newman Lake. This incision of the creek has also caused a disconnection between the creek and its surrounding floodplains, which has allowed for the dominance of reed canarygrass in the area, a non-native species that outcompetes more diverse and beneficial vegetation.
鈥淥ne of the primary concerns about straightening the channel and disconnecting it from its floodplain is the increased phosphorous levels we are seeing as a result,鈥� explained Brian Walker, a private lands biologist with the U.S. Fish and Wildlife Service (Service). 鈥淧hosphorous travels with the sediment through Thompson Creek and ends up downstream in Newman Lake, which really impacts the water quality in the lake.鈥�
While phosphorus is a naturally occurring and essential nutrient for plants and animals, too much of it can cause explosive growth of aquatic plants and algae. This can lead to a variety of water quality problems, including low dissolved oxygen concentrations, which can cause fish kills and harm other aquatic life. The major concern with phosphorus in Newman Lake is a toxic blue-green algae bloom that can cause the lake to be closed to recreation and private landowners.
鈥淗igh levels of phosphorous are detrimental to both people and wildlife - just a couple licks of contaminated water can be lethal for pets; it鈥檚 pretty bad stuff,鈥� said Walker. 鈥淏ut thankfully, we people are learning how to mimic wildlife to come up with a solution for us all!鈥�
Based at Turnbull National Wildlife Refuge in northeastern Washington, Walker works for the Service鈥檚 Partners for Fish and Wildlife Program, an innovative program that engages private landowners, local organizations, Tribes, and other stakeholders in collaborative conservation.
鈥淭hompson Creek is really a shining example of what the Partners for Fish and Wildlife Program does 鈥� we bring local people and agencies together that have a shared interest in restoring a place like Newman Lake and ensure the on-the-ground work gets done in a scientifically rigorous and environmentally sound way,鈥� said Walker.
According to the Washington State Department of Ecology, Thompson Creek contributes to 43% of the total phosphorous in Newman Lake, making it a logical target for reduction efforts.
鈥淪ince so much of the lake鈥檚 water quality issues arise from Thompson Creek, we get a lot of bang for our buck by focusing on improving the health of that specific waterway,鈥� said Walker.
Improving Thompson Creek has long been a goal, and several time consuming and costly measures have been implemented in the past with varying degrees of success.
鈥淲e weren鈥檛 getting the results we hoped for from other projects and we needed to go in a different direction; we needed to get creative,鈥� said Walker.
Inspiration struck in the form of brown fur and bucked teeth 鈥� beavers. Like ecosystem engineers, beavers manipulate their environment by building dams that slow the passage of water through a river and can act as a natural filter that cleans the water supply. Beaver dam analogs aim to do the same thing through creating roughness 鈥� think speed bumps 鈥� to slow water velocity and allow sediment and pollutants to settle. The beaver dam analogs will also raise the water level of Thompson Creek, reconnecting it to its floodplain and allowing for the growth of more natural vegetation to create a healthier ecosystem.
鈥淭he Partners for Fish and Wildlife Program has had success with at least 20 BDAs in other Washington watersheds and, with the help of our 驶dream team,鈥� we knew our odds of making positive change in Thompson Creek were high,鈥� Walker said.
The 鈥渄ream team,鈥� compromised of partners from every level - The Lands Council, Partners for Fish & Wildlife Program at Turnbull National Wildlife Refuge, Gonzaga University, Spokane Conservation District, Newman Lake Property Owners Association, and Spokane County 鈥� got to work in 2019 and began making the beaver dam analogs in Thompson Creek a reality.
In addition to this collaboration among agencies and organizations, local people also played an essential role in the beaver dam analog project.
鈥淭he on-the-ground part of this project would not have been possible if not for volunteers and students in the community who helped us weave the materials together to create the structures,鈥� said Hall, 鈥淚t鈥檚 been a really inspiring project from start to finish.鈥�
Before this on-the-ground work began, a senior design team of Gonzaga civil engineering students led by professor of civil engineering Dr. Sue Niezgoda got to work in the classroom, conducting an extensive literature review and evaluation of the existing watershed. From there, the students developed a beaver dam analog design that mitigates some of the water quality issues in Thompson Creek.
鈥淚 love working on these collaborative BDA projects 鈥� especially with Brian and Kat 鈥� because they are fairly small scale and have a big impact,鈥� said Niezgoda. 鈥淭hompson Creek is the biggest project we have worked on, and it is a great opportunity for my civil engineering undergraduate students to sink their teeth into a real project 鈥� it teaches them how to apply their water resources knowledge to design and literally get their feet wet.鈥�
After the design phase comes what Niezgoda calls 鈥渢he fun part鈥� 鈥� implementation. Hall describes this step as 鈥減eople, posts, plants, and paperwork鈥�, and her job is to bring together students, landowners, and other volunteers to install the BDA structures.
Implementation of the BDA complex occurs in two phases:
Phase one begins when staff from The Lands Council and the Partners for Fish and Wildlife program spend about a week pounding BDA posts as the 鈥渇ramework鈥� of the structures. Using equipment from Turnbull National Wildlife Refuge, the team pounds 10-foot posts about 5 feet into the stream bed. Each BDA can be 40 to 80 posts depending on location and type.
From there, phase two is comprised of collecting all the weave material - small pine and fir saplings 鈥� and getting it on site. This material is then woven into and through the beaver dam analog posts to create a permeable structure structure
Something temporarily or permanently constructed, built, or placed; and constructed of natural or manufactured parts including, but not limited to, a building, shed, cabin, porch, bridge, walkway, stair steps, sign, landing, platform, dock, rack, fence, telecommunication device, antennae, fish cleaning table, satellite dish/mount, or well head.
Learn more about structure that will slow water flow and copy the ingenious work that beavers do when they bring wood into the water to construct their dams.
鈥淭hink underwater basket weaving,鈥� said Walker. 鈥淣ot only do we get the chance to be creative on this project, we are really exercising excellent environmental sustainability.鈥�
In an impressive example of reduce, reuse, recycle, the material sourced for the 18 beaver dam analogs on the Thompson Creek project used pine saplings from 5 acres of thinning done by a private landowner. Now, material that would have otherwise been burned or chipped, acts as both weave for the BDAs and additional carbon storage, further enhancing ecosystem health. So far, the team has installed 18 BDA structures and has plans to install an additional 13 structures after the floodplains are reactivated.
With implementation complete, Gonzaga University students and faculty have spent the last year monitoring the BDA complex鈥檚 ability to retain water, sediment, and phosphorous using drone captured aerial imagery, on-the-ground field surveys, and water quality testing. Now, after one full year of monitoring, the first results are in.
鈥淭he initial results are very promising for this project,鈥� said Walker.
鈥淥ur monitoring results are showing that the BDAs are inducing ponding and channel widening, which over time will reduce stream energy and allow for sediment and phosphorus retention within the creek,鈥� added Niezgoda.
Hall and Niezgoda are equally optimistic about the future of the BDA projects at Thompson Creek.
鈥淟ike all good things, it takes time and patience to fully realize the benefit; but based on what we have seen so far and other BDAs we鈥檝e worked on, we are definitely on the right track,鈥� said Hall.
鈥淲e have already been able to create improved habitat as evidenced by an increase of diverse macroinvertebrates. Water connects us all, and those little guys are big indicators for watershed health; so if they are healthier, so are we,鈥� said Niezgoda. 鈥淟eave it to beavers to inspire productive and powerful change!鈥�
