Category: 2013

2013 Fund Project

Tr’ondëk Hwëch’in First Fish Youth Camp

Video Source:

First Fish Camp is hosted by Tr’ondëk Hwëch’in for youth and families. It is a way for people to learn about the heritage and traditions of the Tr’ondëk Hwëch’in, as well as the importance of the river and modern day environmental pressures on this important part of the culture. It is an opportunity for the community to have fellowship with one another; families, youth and Elders.

CRE-07-18 First Fish Final Report-2018

CRE-07-17 First Fish 2017

CRE-07-16 Tr’ondëk Hwëch’in First Fish 2016

CRE-07-14 Tr’ondëk Hwëch’in First Fish Cultu...

CRE-07-13 First Fish Final Report

CRE-07-12 Tr’ondek Hwech’in First Fish

CRE-07-11 Tr’ondek Hwech’in First Fish Camp

CRE-07-10 First Fish Final Report

CRE-07-09 2009 First Fish Youth Camp Final Report

CRE-07-08 Tr’ondek Hwech’in First Fish Youth C...

CRE-07-06 Tr’ondek Hwech’in First Fish Youth C...

CRE-07-05 Tr’ondek Hwech’in First Fish Youth C...

CRE-07-03 Tr’ondёk Hwёch’in First Fish Camp

CRE-07-02 Tr’ondek Hwech’in First Fish Camp


Yukon River Educational Exchange – Salmon Know No Borders

Video Source:

Video Source:

An educational exchange is a powerful, intensive approach to transferring knowledge and transforming perceptions. Participants have the opportunity to witness, question, and interact with the subject matter first hand, which can foster much deeper understanding than other forms of communication typically provide. As such, the Yukon River Educational Exchange Program is a sound way for fishers and other fisheries stakeholders from the U.S. and Canada to come together to learn about the international agreement, to appreciate the different salmon resource users, and to increase awareness of fishery-related issues.

U.S. and Canadian users of the salmon resource are participants in a world of interdependence. Understanding differences in culture, lifestyle, and opinion proves to strengthen one’s ability to think and act on a cooperative basis. Therefore, a key priority of this project is to enhance contact between upriver and downriver fishers, as one becomes the exchange participant and the other the host community member.

Participants in the Yukon River Educational Exchange are challenged to learn by pursuing issues of interest and concern, to research through observation and personal experience, and to document their experience for further transfer of knowledge with their home communities. The exchange also takes advantage of the participants’ differences in age, motivation, cultural background, and past fisheries experience. The most effective exchange experience requires participants be immersed in the host community to develop and nurture a holistic and mutual view of life on the Yukon River.

CC-02-19. Salmon Know No Borders Ed Ex Report 2019

CC-02-18 Yukon River Exchange: Salmon Know No Bord...

CC-02-17 YRP Educational Exchange

CC-02-15 Education Exchange 2015

CC-02-14 Yukon River Educational Exchange Trip

CC-02-13 Yukon River Educational Exchange

CC-02-12 Yukon River Educational Exchange

CC-02-11 Panel Ed Exchange Final Report


Porcupine River Chum Sonar Report

Salmon migrating up the Porcupine River through the Traditional Territory of the Vuntut Gwitchin First Nation (VGFN) are culturally important to VGFN citizens. Old Crow, the only Canadian community on the Porcupine River, relies on the salmon fishery as a source of traditional food. The subsistence harvest of salmon on the Porcupine River is an important component of local people’s diets.

Three salmon species spawn in the Canadian portion of the Porcupine River: Chinook (Oncorhynchus tshawytscha), chum (Oncorhynchus keta) and coho (Oncorhynchus kisutch). Chinook and chum salmon are managed jointly through the Yukon River Panel’s Joint Technical Committee (JTC) process; there is currently no joint management process for coho salmon. The Yukon River Panel was established to manage “transboundary” salmon stocks (which move through waters subject to both U.S. and Canadian fisheries management processes) in a cooperative forum.

This project focused on the chum salmon run, which passes Old Crow in late summer. A former DFO enumeration weir on the Fishing Branch River (a tributary to the Porcupine River) historically recorded annual passage rates between approximately 5,057 and 186,000 fall chum, with an average annual return of approximately 44,000 (during the period of 1998 to 2011; JTC 2012). Genetic sampling of fall chum salmon at the Pilot Station sonar (in Alaska) provides broad scale information on the chum run in the entire Yukon River; since 1995 fall chum salmon counted at the Fishing Branch River weir have accounted for 4% of the total Yukon River fall chum salmon run (JTC 2012)

The Vuntut Gwitch’in Government (VGG) is committed to improving in-season enumeration and management capacity for fall chum salmon in the Porcupine River. In order to provide an accurate and timely in-season estimate of adult fall chum salmon passage at Old Crow, VGG has pursued the development of a sonar enumeration program.  The goals of this program were to:

  • Enumerate passing fall chum salmon;
  • Conduct test netting (using drift nets) to apportion the sonar counts;
  • Develop local capacity to conduct fisheries work within the community of Old Crow.

CRE-114-13 Porcupine Sonar Report 2013

CRE-114-12 Porcupine River Sonar Program Fall Chum

CRE-114N-11 Porcupine Fall Chum Sonar

CRE-114-10 Porcupine River Sonar Feasibility Study


Rampart Rapids Full Season Video Monitoring

Video source: YouTube (Stan Zuray)

Monitoring of Chinook salmon (Oncorhynchus tshawytscha) passage in the middle Yukon River began in 1999 at Rampart Rapids 730 miles upstream from the Yukon River mouth. Before this time, there were no U.S. run assessment projects for mainstem Yukon River Chinook salmon above Pilot Station, 122 miles from the mouth to the U.S./Canada Border. This unmonitored area covered over 1,000 miles. Numerous subsistence and commercial fishermen harvest salmon along this section of river. In 1999 daily subsistence fish wheel Chinook salmon catch–per-unit-effort (CPUE) was supplied to the Alaska Department of Fish and Game (ADF&G) by satellite phone from the Rapids. Chum salmon (O. keta) monitoring began in 1996 with the United States Fish and Wildlife Service (USFWS) as part of a mark-recapture project. From 2000 to present, daily catch rates of Chinook and chum salmon, sheefish (Stenodus leucichthys), humpback whitefish (Coregonus pidschian), broad whitefish (C. nasus), and cisco species (C. laurettae and C. sardinella) were reported. Data on Chinook salmon and the numerous other fish species that are important subsistence resources caught at Rapids will help build a long-term population trend database that will increase in value as the project continues. The Restoration and Enhancement Fund directed by the Yukon River Panel has been the major source of funding for this project over the years.

The project site at the Rapids has probably been a subsistence fish wheel site since fish wheels came to the Yukon around 1900. The particular bend in the river where this site is located has always been well known for its ability to consistently produce good catches of fish, Chinook as well as chum salmon, whether the water was high or low. Because of the unique currents in the Rapids, fish wheels are capable of being run there even during the spring drift that happens at the same time as the Chinook salmon run. Traditionally, people would travel to the Rapids area to spend their summers because of these qualities. Even today it is one of the most densely populated active fish camp areas on the Yukon River.

Video source: YouTube (Stan Zuray)

Fish wheels are a common capture method for management and research activities in the Yukon River drainage. Specifically, fish wheels have provided CPUE data at various locations to fishery managers. Also, fish wheels are used to capture and hold fish for tagging studies. Most of these fish wheels use live boxes to hold fish until the researchers or contractors process and release them, and crowding and holding times greater than four hours is common. A growing body of data suggests delayed mortality and reduced traveling rates are associated with holding, crowding, and/or repeated re-capture (Bromaghin and Underwood 2003, 2004; Bromaghin et al. 2004; Underwood et al. 2004). The video capture techniques developed and used by this project have less of an impact when counting fish.

URE-09-15 Rapids all-season video monitoring 2015

URE-09-14 Rampart Rapids All Season Video Monitori...

URE-09-13 Rampart Rapids all season video monitori...

URE-09-12 Rampart Rapids Full Season Video Monitor...

URE-09-11 Rampart Rapids Full Season Video Monitor...

URE-09-10 Rampart Rapids Video Monitoring Fishwhee...

URE-09-09 Rampart Rapids Full Season Video Monitor...

URE-09-08 Rampart Rapids Full Season Video Monitor...

URE-09-07 Rampart Rapids Full Season Video Report

URE-09-06 Rampart-Rapids All Species Video Monitor...

URE-09-05 Rampart Rapids Full Season Video Monitor...

URE-09-04 Rampart Rapids Full Season Video Monitor...

URE-09-02 Rampart Rapids Fall Catch per Unit Effor...


Mainstem Teslin River Sonar Project

The Yukon River system encompasses a drainage area of approximately 854,000 km2 and contributes to important aboriginal, subsistence and commercial fisheries in the U.S. and Canada. Approximately 50% of Chinook salmon entering the Yukon River from the Bering Sea is typically destined for spawning grounds in Canada (Eiler et al. 2004, 2006). Chinook salmon that spawn in Canada have contributed up to 67% of the total U.S. commercial and subsistence fisheries in the Yukon River system (Templin et al. 2005; cited in Daum and Flannery 2009) .

Canadian and U.S. fishery managers of the Yukon River Joint Technical Committee (JTC) as well as members of the Yukon River Panel (YRP) recognize that obtaining accurate estimates of abundance is required for the management of Yukon River Chinook stocks. Quantified Chinook escapements along with biological information are important for post-season run reconstruction, pre-season run forecasts and the establishment of biologically based escapement goals. In addition, the accurate enumeration of genetically distinct stocks, coupled with a representative genetic stock identification (GSI) sampling program can be used to obtain independent above border as well as stock specific Chinook escapement estimates1 .

The Teslin River system has been identified as a potential Conservation Unit under the Fisheries and Oceans Canada (DFO) Wild Salmon Policy (DFO 2007). One of the long term goals of the Wild Salmon Policy is the establishment of biologically based escapement goals for all species of salmon within designated conservation units. A sufficiently long time series data set of salmon escapements coupled with stock recruitment modelling is the primary method for the establishment of biologically based escapement goals. Currently, there is no other in-season monitoring specific to Teslin River Chinook. Based on current data the Teslin system is the largest single tributary contributor to upper Yukon River Chinook production.

Teslin River origin Chinook have been an important contributor to aboriginal fisheries in the upper Yukon watershed and are of particular importance to the Teslin Tlingit First Nation. Monitoring of Teslin River Chinook will assist in achieving long term management and escapement objectives for the Teslin Tlingit Council (TTC). Of the five species of salmon entering the Yukon River, adult Chinook salmon travel the farthest upstream and have been documented at the furthest headwaters of the Teslin system in the McNeil River, 3,300 km from the river mouth (Mercer & Eiler 2004).

CRE-01-15 Mainstem Teslin River sonar project - 2...

CRE-01-14 Mainstem Teslin River sonar project

CRE-01-13 Mainstem Teslin River sonar project

CRE-01N-12 2012 Teslin River Chinook Sonar Project

CRE-01N-11 Teslin Sonar


Michie Creek Salmon and Habitat Monitoring Project

Salmon at the source: Kwanlin Dün monitor chinook

The Kwanlin Dün First Nation is keeping an eye on chinook salmon at the spawning grounds: A place where a 3,000km migration begins and ends.Philippe Morin visited the First Nation's salmon monitoring program on the McClintock river.

Posted by CBC Yukon on Sunday, September 6, 2015

Video source: CBC

Michie Creek is a tributary of the M’Clintock River. It is estimated that roughly 35% of the Chinook Salmon that travel through the Whitehorse Fish Ladder end their journey at Michie Creek to spawn.

The Michie Creek spawning population represents one of the longest migrations of Chinook salmon in the Yukon Drainage Basin – over 3,000 kms and, it is upstream of the Whitehorse Rapids Dam. It is also a fish stock subject to the greatest risk of overharvest because it migrates through fisheries on both sides of the Canada/ U.S. border.

The Michie Creek Salmon and Habitat Monitoring Project maintains continued access for migrating Chinook to reach its primary spawning location on upper Michie Creek at the outlet of Michie Lake. For over a decade, many barriers had to be breached such as beaver dams and logjams for migrating salmon to reach their spawning grounds.

The spawning population is monitored each year by counting redds (salmon nests) and the number of adult spawners present at the site.

Hourly temperature and flow data have also been collected over the summer months for the duration of the project. This database represents one of the only Chinook spawning locations in the Yukon where this data has been documented over the long-term.

CRE-51-19. Michie Creek Monitoring Report 2019

CRE-51-18 Michie Creek Monitoring 2018 Final

CRE-51-17 Michie Creek Monitoring 2017 Final

CRE-51-16 KDFN Michie Monitoring Project 2016

CRE-51-15 2015 Michie Creek Salmon and Habitat Mon...

CRE-51-14 2014 Michie Creek Salmon and Habitat Mon...

CRE-51-13 Michie Creek Monitoring 2013

CRE-51-12 KDFN Michie Creek Salmon and Habitat Mon...

CRE-51-12 KDFN Michie Creek Salmon and Habitat Mon...

CRE-51-11 KDFN Michie Creek Monitoring Project

CRE-51-10 Michie Creek Monitoring

CRE-51-09 KDFN Michie Creek Monitoring Project

CRE-51-08 Michie Creek Salmon and Habitat-Monitori...

CRE-51N-07 Michie Creek Supplemental Juvenile Chin...