In 1939, construction of Grand Coulee Dam blocked anadromous fish from 1,835 linear stream kilometers of spawning and rearing habitat in the upper Columbia River, causing the extinction of upper Columbia River Chinook (Oncorhynchus tshwaytscha), coho (O. kisutch), sockeye (O. nerka), and steelhead (O. mykiss).  Collectively, these fish accounted for approximately 1.1 million adult migrants to the upper Columbia River annually (Scholz et al. 1985).  The completion of Grand Coulee Dam also altered the natural ecology of the area by inundating about 243 river km of the upper Columbia River, creating Franklin D. Roosevelt reservoir.  Inundation of the upper Columbia River and subsequent hydro-operations changed the system from a river to a lentic habitat, leading to resident fish extinctions of redband, cutthroat, and bull trout (Bryant and Parkhurst 1950; Earnest et al. 1966).  The loss of wild, indigenous anadromous and resident fishes combined with major environmental changes resulted in a substantial ecosystem perturbation to the upper Columbia River.  

In the 1980’s, the stakeholders around Lake Roosevelt began requesting a return of a fishery in the reservoir, and began their campaign by starting up the volunteer net pen project.  Today, the Washington Department of Fish and Wildlife (WDFW), Spokane Tribe of Indians (STOI), Colville Confederated Tribes (CCT), and Lake Roosevelt Development Association/Volunteer Net Pen Project are cooperating in a comprehensive artificial production program to produce kokanee salmon and rainbow trout for annual release into the reservoir.  The Lake Roosevelt Fisheries Evaluation Program was developed to assess the effect of the supplementation program on native resident fish and the ecology of the reservoir, and to assess the effect of hydro-operations on the artificial production program, the native fishery, and the Lake Roosevelt ecology as a whole.

The Evaluation Program’s primary objectives are to monitor and evaluate the performance of the Lake Roosevelt artificial production program and to assess the impact of reservoir operations on the fishery and ecology of Lake Roosevelt.  

FY2017 Work:

Limnology and Fisheries Monitoring:  We plan to complete water quality, chlorophyll and zooplankton community surveys to monitor physical, chemical and population indices for lower trophic levels.  Through fish surveys, we plan to collect fish length, weight, identifying markings, origin, species, and diet data to assess wild and hatchery fish population status and age structure, fish condition and growth, production, habitat use, and predation effects.  The primary purpose of these activities is to measure shifts in fish community structure, identify changes in growth rates of fish, and determine fish feeding behaviors.  This data will assist managers in determining whether hatchery fish are interacting with wild fish, if growth has changed over time, and whether food is limiting.  Understanding long-term changes potentially provides insight into how the fish community is evolving.  The information will be used to create informed recommendations regarding hatchery stocking strategies, fish regulations and other management decisions to minimize impacts to wild fish and lower trophic levels while maximizing the success of the hatchery program.   We also plan to estimate population size, age, health and habitat use of predators with tested Walleye and Norhtern Pike indexing techniques (Fall Walleye Index Netting-FWIN; Spring Pike Index Netting-SPIN), and to continue steps towards assessing redband trout populations in Lake Roosevelt and the upper Columbia River.

Creel:  We will assess recruitment to the fishery using a reservoir-wide creel.  One of the primary objectives will be to monitor wild and hatchery rainbow trout and kokanee.  Walleye and smallmouth bass are also monitored due to their potential impacts to the artificial production program and to the wild fishery.  Indices that will be calculated include: annual harvest, catch rates, the economic value of the fishery, the number of wild and hatchery origin fish harvested, and growth and size of fish harvested.  Creel survey protocols were re-designed in 2015 following a secondary review of the 2005 protocol using a creel-specialist biostatistician.  The objective was to further refine both the creel analysis program and the design and protocols for creel data collection based on the assessment of the effectiveness of the survey design.  We will continue to develop the electronic data collection protocols and development with plans to implement a limited field test starting in August 2015 and full implementation in January 2016.

Kettle River: Kettle River and its tributaries will be monitored for native redband trout, hatchery rainbow trout, wild kokanee, hatchery kokanee and burbot.  Individuals will be weighed, measured, pit tagged and fin clips for genetic tissue samples will be collected.  Data will be used to determine 1) the presence of redband trout in the system, 2) determine the proportion of redband trout in the overall wild rainbow population, and 3) determine the genetic "purity" of the redband stock(s), presence of wild vs. triploid kokanee.

Acoustic Study:  We will assess redband rainbow trout reservoir dispersal and movement patterns. We will test the hypothesis: (1) redband rainbow trout <200 mm TL entrain over Grand Coulee Dam at the same rate as rainbow trout > 200 mm TL; and (2) redband rainbow trout return to their original tributaries. Fish tagged will be monitored passively with 26 remote receiver stations placed through the middle and lower sections of the reservoir as well as one below Grand Coulee Dam in Rufus Woods. This array system is complemented by the sturgeon array setup in the middle and upper sections of Lake Roosevelt and Canada. Array downloads will occur monthly.

Public Outreach and Coordination:  We also plan to continue public outreach and coordination efforts through the Kettle Falls Water Festival and the Lake Roosevelt Student Discovery Week.  In September and May we plan to participate in outdoor events teaching students about invertebrates, pollution, the environment and Lake Roosevelt.  Coordination will remain a critical component of the Evaluation Program in order to foster interaction and communication between Lake Roosevelt co-managers, researchers, the net pen coordinator, and hatchery managers and personnel.  We will organize and/or participate in LRFEP meetings, Lake Roosevelt Management Team meetings, Lake Roosevelt Hatchery Coordination Team meetings and other fisheries forums and meetings necessary to the successful implementation of the program.