Restoration and Management of Aquatic Ecosystems Active
Restoration of aquatic ecosystems involves a broad spectrum of active and passive efforts. Passive efforts rely on natural recovery of ecosystems, such as land use practices that protect riparian zones and sources of wood and sediment that drive the geomorphic and associated biological functions in streams. Active efforts involve more direct intervention, usually applied to specific locations, to treat more specific issues. These range from projects on the scale of dam removals on large rivers to refitting culverts on forest roads for aquatic organism passage.
We are currently involved in monitoring and evaluation of active restoration ranging from removal of large dams on the Elwha River in Olympic National Park to replacements of culverts on national forest roads in the Pacific Northwest. We are also actively engaged in a series of monitoring efforts to track physical and biological (threatened Oregon coast coho salmon and Pacific lamprey) responses to active restoration of large wood in streams on Bureau of Land Management lands in the Umpqua River basin. In 2011, we published a feasibility assessment with partners from U.S. Fish and Wildlife Service and the U.S. Forest Service that led to reintroduction of bull trout into the Clackamas River, Oregon, and we continue to assist in monitoring and evaluation of that effort. Our work on water temperature, water quality criteria, and contemporary forest harvest practices in the Trask River Watershed Study represents major interdisciplinary and interagency collaborations to evaluate the effectiveness of current approaches to passively restoring aquatic ecosystem function across broad extents in the Pacific Northwest.
Below are publications associated with this project.
Large wood and in-stream habitat for juvenile coho salmon and larval lampreys in a Pacific Northwest stream
Factors influencing movement of two migratory fishes within the tailrace of a large neotropical dam and their implications for hydropower impacts
The reintroduction landscape: Finding success at the intersection of ecological, social, and institutional dimensions
Aquatic biodiversity in forests: A weak link in ecosystem services resilience
Instream cover and shade mediate avian predation on trout in semi-natural streams
Breeding site selection by coho salmon (Oncorhynchus kisutch) in relation to large wood additions and factors that influence reproductive success
Region-wide ecological responses of arid Wyoming big sagebrush communities to fuel treatments
Comparison of electrofishing techniques to detect larval lampreys in wadeable streams in the Pacific Northwest
Aquatic organism passage at road-stream crossings—synthesis and guidelines for effectiveness monitoring
Assessing the feasibility of native fish reintroductions: A framework applied to threatened bull trout
Analysis of trade-offs between threats of invasion by nonnative brook trout (Salvelinus fontinalis) and intentional isolation for native westslope cutthroat trout (Oncorhynchus clarkii lewisi)
Assessing the feasibility of native fish reintroductions: a framework and example applied to bull trout in the Clackamas River, Oregon
Restoration of aquatic ecosystems involves a broad spectrum of active and passive efforts. Passive efforts rely on natural recovery of ecosystems, such as land use practices that protect riparian zones and sources of wood and sediment that drive the geomorphic and associated biological functions in streams. Active efforts involve more direct intervention, usually applied to specific locations, to treat more specific issues. These range from projects on the scale of dam removals on large rivers to refitting culverts on forest roads for aquatic organism passage.
We are currently involved in monitoring and evaluation of active restoration ranging from removal of large dams on the Elwha River in Olympic National Park to replacements of culverts on national forest roads in the Pacific Northwest. We are also actively engaged in a series of monitoring efforts to track physical and biological (threatened Oregon coast coho salmon and Pacific lamprey) responses to active restoration of large wood in streams on Bureau of Land Management lands in the Umpqua River basin. In 2011, we published a feasibility assessment with partners from U.S. Fish and Wildlife Service and the U.S. Forest Service that led to reintroduction of bull trout into the Clackamas River, Oregon, and we continue to assist in monitoring and evaluation of that effort. Our work on water temperature, water quality criteria, and contemporary forest harvest practices in the Trask River Watershed Study represents major interdisciplinary and interagency collaborations to evaluate the effectiveness of current approaches to passively restoring aquatic ecosystem function across broad extents in the Pacific Northwest.
Below are publications associated with this project.