Trappers are paid by city and county agencies and private land owners to trap Nevada beavers. This is a lethal solution to a situation that instead can be handled humanely. Almost every time trappers are involved, the beavers are killed. Trappers uphold the deep-rooted, long-lasting rural belief that beavers are nothing but bad guys, causing depredation.
Where conflicts arise, non-lethal solutions can be employed, creating a win -win situation. Locally, Sierra Wildlife Coalition provides these solutions. Modern science now demonstrates the amazing extent to which these “Nature’s engineers” benefit environment and biodiversity. Now they are respected as a vital keystone species.
Let’s start with Beavers 101, courtesy of PBS program Nature
More beaver facts courtesy the Fur-Bearers
Not only has trapping never played a necessary or useful role in wildlife management, it has been actively detrimental to wildlife conservation.
Trapping wiped out beaver populations. . . Many of these beaver populations never recovered, rendering this damage permanent.
Beavers are ecosystem engineers . Their dams and ponds sub-irrigated fertile floodplains, boosting productivity and biodiversity. . . Their activities benefit a variety of wildlife from waterfowl to trout and elk. – Erik Molvar, Executive Director of Western Watersheds Project
What Good Are Beavers?
Mike Callahan , Beaver Solutions
Heidi Perryman, Worth A Dam
Most people only become aware of beavers when they are a nuisance, but did you know that biologists classify beavers as a Keystone species? Beaver ponds create wetlands which are among the most biologically productive ecosystems in the world. They increase plant, bird and wildlife variety, improve water quality, and raise salmon and trout populations. This one species supports thousands.
How is this possible? By opening the tree canopy, sunlight reaches the water and triggers an explosion of biological activity. Algae and aquatic plants grow in the sun drenched, nutrient rich water. This organic material supports microscopic organisms, which are eaten by a variety of invertebrates. These become food for fish, birds and mammals. An entire food chain is created in a beaver pond.
While infamous for killing trees, beaver dams actually create diverse habitats. Grasses, sedges, bushes and saplings grow on the perimeter of the pond. These plants provide food and cover for foraging animals.
Beaver ponds become magnets for a rich variety of wildlife. From important game species like wood duck, mink and otter, to vulnerable anadromous fish like rainbow smelt, steelhead and salmon, biodiversity thrives due to beaver ponds. Beaver dams also protect downstream spawning areas from sedimentation, and create cool, deep pools which increase salmon and trout populations.
How do dams affect water quality? They actually improve flow and quality. By functioning as natural sponges that store runoff water and slowly release it, they reduce downstream flooding and erosion. The algae, plants and sediment in the pond improve water quality by absorbing dissolved nutrients, processing organic wastes, and removing runoff toxins (e.g. heavy metals, pesticides and fertilizers) from the water. These wetlands serve as the “Earth’s Kidneys”.
Beaver ponds also recharge our drinking water aquifers, stabilize the water table, and better maintain stream flows during droughts. Beavers are even being relocated by states throughout the west to improve arid lands.
Beavers are sometimes regarded as pests, but in truth there isn’t a single species that will better benefit your watershed. Although they can present a challenge, by using flow devices you can control problematic flooding and reap countless environmental rewards.
Preventing Unwanted Flooding from Beaver Dams
Simple devices made of plastic pipe and wire fencing provide effective and economical solutions to control water levels to prevent flooding and protect roads, trails, and other infrastructure.
Flexible Pond Levelers keep ponds at acceptable levels and Beaver Deceivers protect culverts
1 U.S. Environmental Protection Agency, Functions and Values of Wetlands, EPA 843-F-01-002c, September 2001.
2 Baker, B. W., and E. P. Hill. 2003. Beaver (Castor canadensis). Pages 288-310 in G. A. Feldhamer, B. C. Thompson, and J. A. Chapman, editors. Wild Mammals of North America: Biology, Management, and Conservation. Second Edition. The Johns Hopkins University Press, Baltimore, Maryland, USA.
3 Cooke, H., Zack, S. (2008) Influence of beaver dam density on riparian areas and riparian birds in shrubsteppe of Wyoming. Western North American Naturalist Vol (6) No 3.
3 P. Collen & R.J. Gibson (2001) The General Ecology of beavers. Reviews in Fish Biology and Fisheries vol. (10) 439-461
4 Langcore, T., Rich, C. & Müller-Schwarze, D. (2006) Management by Assertion: Beavers and Songbirds at Lake Skinner (Riverside County, California) Environmental Management Vol 39 (4).
5 Pollock, M., Pess, G. & Beechie, T. (2004) The Importance of Beaver Ponds to Coho Salmon Production in the Stillaguamish River Basin, Washington, USA, North American Journal of Fisheries Management 24:749–760.00
6 Terry. N & Bañuelos, G.S. (2000) Phytoremediation of contaminated soil and water. CRC Press LLC