Featured Publications in 2022

Bateman A., **Teffer A., **Bass A., Ming T., Hunt B., Krkosek M. & Miller K

Atlantic salmon farms are a likely source of Tenacibaculum maritimum infection in migratory Fraser River sockeye salmon

Bateman A., **Teffer A., **Bass A., Ming T., Hunt B., Krkosek M. & Miller K. 2022. Atlantic salmon farms are a likely source of Tenacibaculum maritimum infection in migratory Fraser River sockeye salmon. Canadian Journal of Fisheries and Aquatic Sciences, 79: 1225–1240.92.

*Garzka J., *Forster I., **Godwin S., Johnson B., Krkosek M., Mahara N., Pakhomov E., & Hunt B.P.V.

Dynamic coastal pelagic habitat drives rapid changes in growth and condition of juvenile sockeye salmon during early marine migration.

*Garzka J., *Forster I., **Godwin S., Johnson B., Krkosek M., Mahara N., Pakhomov E., & Hunt B.P.V. 2022. Dynamic coastal pelagic habitat drives rapid changes in growth and condition of juvenile sockeye salmon during early marine migration. FACETS, 7, 1328-1347

*Shea D., Frazer N., Wadhawan K., Bateman A., Li S., Miller K., Short S., & Krkosek M.

Environmental DNA dispersal from Atlantic salmon farms. Canadian Journal of Fisheries and Aquatic Sciences

*Shea D., Frazer N., Wadhawan K., Bateman A., Li S., Miller K., Short S., & Krkosek M. 2022. Environmental DNA dispersal from Atlantic salmon farms. Canadian Journal of Fisheries and Aquatic Sciences, 79, 1377-1388

Complete List of Publications – 2022

Bateman A., **Teffer A., **Bass A., Ming T., Hunt B., Krkosek M. & Miller K

Atlantic salmon farms are a likely source of Tenacibaculum maritimum infection in migratory Fraser River sockeye salmon

Bateman A., **Teffer A., **Bass A., Ming T., Hunt B., Krkosek M. & Miller K. 2022. Atlantic salmon farms are a likely source of Tenacibaculum maritimum infection in migratory Fraser River sockeye salmon. Canadian Journal of Fisheries and Aquatic Sciences, 79: 1225–1240.92.

*Garzka J., *Forster I., **Godwin S., Johnson B., Krkosek M., Mahara N., Pakhomov E., & Hunt B.P.V.

Dynamic coastal pelagic habitat drives rapid changes in growth and condition of juvenile sockeye salmon during early marine migration.

*Garzka J., *Forster I., **Godwin S., Johnson B., Krkosek M., Mahara N., Pakhomov E., & Hunt B.P.V. 2022. Dynamic coastal pelagic habitat drives rapid changes in growth and condition of juvenile sockeye salmon during early marine migration. FACETS, 7, 1328-1347

Godwin S. & Krkosek M.

Pacific Salmon Field Guide

Godwin S. & Krkosek M. 2022. Pacific Salmon Field Guide. Lone Pine Publishing. British Columbia, Canada.

Mordecai G.J., Beardslee K., Glambeck B., Frazer N., Routledge R., and Morton, A.

Detection and phylogenetic assessment of PRV-1 via sampling of biological materials released from salmon farms in British Columbia

Mordecai G.J., Beardslee K., Glambeck B., Frazer N., Routledge R., and Morton, A. 2022. Detection and phylogenetic assessment of PRV-1 via sampling of biological materials released from salmon farms in British Columbia. Canadian Journal of Fisheries and Aquatic Sciences. 80(1): 156-169.

*Shea D., Frazer N., Wadhawan K., Bateman A., Li S., Miller K., Short S., & Krkosek M.

Environmental DNA dispersal from Atlantic salmon farms. Canadian Journal of Fisheries and Aquatic Sciences

*Shea D., Frazer N., Wadhawan K., Bateman A., Li S., Miller K., Short S., & Krkosek M. 2022. Environmental DNA dispersal from Atlantic salmon farms. Canadian Journal of Fisheries and Aquatic Sciences, 79, 1377-1388

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