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2024 DFO Pacific Science Publications

We are pleased to continue to provide Canadians with the Pacific Region's science publications, and to continue the ongoing communication of high quality research with this list of 2024 Pacific Science Publications. Below you will find primary and secondary peer reviewed publications published in 2024 which involve at least one DFO Science Branch author from the Pacific Region. The links provided to this research are hosted by third party publishers, as such journals may only be available in English.

List of publications from 2018 to 2024

List of publications from 2018 to 2024 (XLSX, 573 KB)
Title Keywords
Agbayani, S. and Murray, C.C. (2024). Pacific Marine Habitat Classes for Cumulative Impact Mapping. Can. Tech. Rep. Fish. Aquat. Sci. 3608: vii + 33 p. https://science-catalogue.canada.ca/record=4123930~S6 cumulative impact mapping,  habitat, cumulative effects, benthic,  pelagic, biogenic
Agbayani, S., Nelson, J.C., Schweitzer, C., Vaidyanathan, T. and Murray, C.C., (2024). Stability and reliability of regional cumulative impact mapping: A Canadian Pacific case study. Journal of Environmental Management, 371, p.123105. https://doi.org/10.1016/j.jenvman.2024.123105 marine impacts, human use, stressors, marine habitats, vulnerability, marine spatial planning
Akbarzadeh, A., Ming, T.J., Schulze, A.D., Kaukinen, K.H., Li, S., Günther, O.P., Houde, A.L.S. and Miller, K.M., (2024). Developing molecular classifiers to detect environmental stressors, smolt stages and morbidity in coho salmon, Oncorhynchus kisutch. Science of the Total Environment, 951, p.175626. https://doi.org/10.1016/j.scitotenv.2024.175626 Salmon, Stressors, Biomarker, Random Forest, Fit-Chips, Smolt, De-smolt, Climate Change
Allen, S.E., Soontiens, N.K., Dunphy, M., Olson, E.M. and Latornell, D.J., (2025). Controls on Exchange through a Tidal Mixing Hotspot at an Estuary Constriction. Journal of Physical Oceanography. https://doi.org/10.1175/JPO-D-24-0001.1 Estuaries, Channel flows, Mixing, Transport, Ocean models
Anderson, S.C., Dunic, J.C., Keppel, E.A., and Edwards, A.M. (2024). A data synopsis for British Columbia groundfish: 2022 data update. Can. Tech. Rep. Fish. Aquat. Sci. 3624: viii + 267 p. https://science-catalogue.canada.ca/record=b4125206~S6 groundfish, survey index, data, geostatistical, spatiotemporal, species distribution, Pacific
Bailey, C.J., Stiff, H.W., Thompson, P.L., Judson, B., and Ogden, A.D. (2025). Osoyoos Lake Sockeye Salmon (Oncorhynchus nerka) return abundance (1977-2023), adult age composition (1985-2023), and marine survival (1998-2021). Can. Manuscr. Rep. Fish. Aquat. Sci. 3282: vi + 49 p. https://doi.org/10.60825/v3g8-jw96 Osoyoos Lake, Sockeye Salmon, Annual Returns, Recruitment
Survival
Bailey, L., Shugar, D.H., Tilston, M., Hubbard, S.M., Giesbrecht, I.J., Belluz, J.D.B., Jackson, J.M., Clare, M.A., Cartigny, M.J., Acikalin, S. and Hage, S., (2024). Land-to-Sea Sediment Fluxes from a Major Glacial Lake Outburst Flood Were Stepped Rather Than Instantaneous. Authorea Preprints. https://doi.org/10.22541/essoar.173203990.01952203/v1 Climate change, fjord, land to ocean flux, glacial melt 
Bass, A.L., DiCicco, E., Kaukinen, K.H., Li, S., Johnson, R., Powell, J., Isaac, V., Dedeluk, N.B., Bateman, A.W. and Miller, K.M., (2024). Infectious agent release and Pacific salmon exposure at Atlantic salmon farms revealed by environmental DNA. Scientific Reports, 14(1), p.31488. https://www.nature.com/articles/s41598-024-83250-5 Environmental DNA, Pacific Salmon, Winter, Gulf of Alaska, Pathogens, Stressors
Bianucci, L., Jackson, J.M., Allen, S.E., Krassovski, M.V., Giesbrecht, I.J. and Callendar, W.C., (2024). Fjord circulation permits a persistent subsurface water mass in a long, deep mid-latitude inlet. Ocean Science, 20(2), pp.293-306. https://doi.org/10.5194/os-20-293-2024 Bute Inlet, ocean model, fjord, Arctic outflow winds, marine refuge
Boldt, J.L., Joyce, E., Tucker, S., Gauthier, S., and Dosser, H. (Eds.). (2024). State of the physical, biological and selected fishery resources of Pacific Canadian marine ecosystems in 2023. Can. Tech. Rep. Fish. Aquat. Sci. 3598: viii + 315 p. https://science-catalogue.canada.ca/record=b4126087~S6 Pacific Ocean, oceanographic conditions 2023, biological
conditions in 2023
Boldt, J.L., Tabata, A.M., Dennis-Bohm, H., Zubkowski, T.B., Flynn, K.L., and King, J.R. (2024). Integrated Pelagic Ecosystem Survey on the Vancouver Island Continental Shelf, July 4 - August 2, 2023. Can. Tech. Rep. Fish. Aquat. Sci. 3575: vii + 111 p. https://science-catalogue.canada.ca/record=b4122686~S6 Integrated Pelagic Ecosystem Survey, Vancouver Island, Pacific Herring, Pacific salmon, Distribution, Abundance, Oceanographic sampling, Zooplankton
Braun, D.C., Cunningham, D.S., Herunter, H.E., Naman, S.M. and Martens, A.M., (2025). Long-term trajectories of impacts and recovery of headwater stream temperatures after forest harvest in interior British Columbia. Forest Ecology and Management, 585, p.122613. https://doi.org/10.1016/j.foreco.2025.122613 impact, recovery, riparian management, headwater streams, temperature, thermal sensitivity
Burgers, T.M., Azetsu‐Scott, K., Myers, P.G., Else, B.G., Miller, L.A., Rysgaard, S., Chan, W., Tremblay, J.É. and Papakyriakou, T., (2024). Unraveling the biogeochemical drivers of aragonite saturation state in Baffin Bay: Insights from the west Greenland continental shelf. Journal of Geophysical Research: Oceans, 129(8), p.e(2024)JC021122. https://doi.org/10.1029/2024JC021122 Baffin Bay, ocean acidification, carbon cycling
C.K. Robb, C. McDougall, R. Tingey, K.M. Bodtker, K.S.P. Gale, R.G. Martone, and E. Rubidge. (2024). Sensitivity Analyses to support Marine Protected Area Network Development. Can. Tech. Rep. Fish. Aquat. Sci. 3638: x + 71 p. https://science-catalogue.canada.ca/record=b4126279~S6 Marine protected area, Marine Protected Area network planning, nothern shelf bioregion, Marxan, sensitivity analyses 
Cannizzo, Z. J., Hunter, K. L., Hutto, S., Selgrath, J. C., & Wenzel, L. (2025). Future-proofing the global system of marine protected areas: Integrating climate change into planning and management. Marine Policy, 171, 106420. https://doi.org/10.1016/j.marpol.2024.106420 Marine protected areas (MPAs), climate change, adaptive management, blue carbon, human dimensions, management
Cheeseman, T., Barlow, J., Acebes, J. M., Audley, K., Bejder, L., Birdsall, C., ... & Clapham, P. (2024). Bellwethers of change: population modelling of North Pacific humpback whales from 2002 through 2021 reveals shift from recovery to climate response. Royal Society Open Science, 11(2), 231462. https://doi.org/10.1098/rsos.231462 carrying capacity, marine heatwave, mark-recapture modelling, abundance estimation, climate change, environmental variables 
Chen, H.H., Wang, Y., Li, X., Wan, L., Yuan, Y., Yan, Y., Hannah, C. and Chai, F., (2025). Arctic warming as a potential trigger for the warm blob in the northeast Pacific. npj Climate and Atmospheric Science, 8(1), p.111. https://www.nature.com/articles/s41612-025-00900-9  Marine heatwaves, Northeast Pacific Ocean, Arctic warming. 
Chiba, S., Jhugroo, K., Bograd, S., Schmidt, J., Jackson, J., Lachance, H., Makino, M., Piecho-Santos, M., Saito, H., Satterthwaite, E. and Sena, N., (2025). Knowledge Sharing and Capacity Development to Promote Early Career Ocean Professionals in Small Island Developing States: The SmartNet Approach. https://repository.library.noaa.gov/view/noaa/66914/noaa_66914_DS1.pdf Early Career Ocean Professionals (ECOPs) 
Christensen, K.A., Flores, A.M., Sakhrani, D., Biagi, C.A., Devlin, R.H., Sutherland, B.J., Withler, R.E., Rondeau, E.B. and Koop, B.F., (2024). Revealing the evolutionary history and contemporary population structure of Pacific salmon in the Fraser River through genome resequencing. G3: Genes, Genomes, Genetics, 14(10), p.jkae169. https://doi.org/10.1093/g3journal/jkae169 Whole-genome resequencing; coho salmon, chinook salmon, sockeye salmon, Fraser River, adaptation
Clyde, G., Gartner, H., Herborg, L.-M., Bigg, M., Barrett, P., Stanley, C., Detering, J., Norgard, T., Du Preez, C. (2025). NorthEast Pacific Deep-sea Exploration Project (NEPDEP) Expedition Report (PAC2023-034): Cold Seeps and the MV Zim Kingston Shipping Incident. Can. Tech. Rep. Fish. Aquat. Sci. 3660: x + 121 p. https://doi.org/10.60825/wxw5-d071 marine, deep water, surveying underwater, underwater exploration, surveys, conductivity, temperature, and depth (CTD) observations, wreck location, vessel-source pollution
Connors, B., Ruggerone, G.T. and Irvine, J.R., (2025). Adapting management of Pacific salmon to a warming and more crowded ocean. ICES Journal of Marine Science, 82(1), p.fsae135. https://doi.org/10.1093/icesjms/fsae135 climate change, hatcheries, fisheries, competition, international cooperation
Corelli, V., Boerder, K., Hunter, K. L., Lavoie, I., & Tittensor, D. P. (2024). The biodiversity adaptation gap: Management actions for marine protected areas in the face of climate change. Conservation Letters, 17(2), e13003. https://doi.org/10.1111/conl.13003 Marine protected areas (MPAs), climate change, adaptive management
Cristiani, J., Rubidge, E.M. and O'Connor, M.I.,(2025). Anthropogenic impacts on seagrass habitat connectivity: a model to explore potential links between human activity and marine invertebrate metapopulation persistence. FACETS. https://www.facetsjournal.com/doi/full/10.1139/facets-2024-0152 ecological connectivity, eelgrass, marine invertebrate dispersal, human impacts, metapopulation, cumulative effects
Cunningham, D.S., Braun, D.C., Herunter, H., & Macdonald, J.S. (2024). Environmental datasets from the Stuart-Takla Fish-Forestry Interaction Project: Baptiste watershed from 1995 to 2009. Can. Tech. Rep. Fish. Aquat. Sci. 3585: v + 51 p
https://science-catalogue.canada.ca/record=b4122506~S6		 Forestry, Headwater Streams, Riparian Buffer, Sediment, Nutrients, Stream Temperature, Groundwater Temperature, Right-of-way, Water Quality
Darren L C Y Li Shing Hiung, Jasmin M Schuster, Murray I Duncan, Nicholas L Payne, Brian Helmuth, Jackson W F Chu, Julia K Baum, Viviana Brambilla, John Bruno, Sarah W Davies, Maria Dornelas, Patrick Gagnon, Tamar Guy-Haim, Jennifer M Jackson, James J Leichter, Joshua S Madin, Zachary L Monteith, Ana M Queirós, Eric V C Schneider, Samuel Starko, Brendan S Talwar, Alex S J Wyatt, Hannah E Aichelman, Nathaniel Bensoussan, Carlo Caruso, Karl Castillo, Francis Choi, Yun-Wei Dong, Joaquim Garrabou, Dorian Guillemain, Nicholas Higgs, Yuwu Jiang, Diego K Kersting, David J Kushner, Guilherme O Longo, Christopher Neufeld, Marion Peirache, Tim Smyth, Joshua L Sprague, Gaëlle Urvoy, Frederic Zuberer, Amanda E Bates, Ocean weather, biological rates, and unexplained global ecological patterns, PNAS Nexus, Volume 3, Issue 8, August (2024), pgae260, https://doi.org/10.1093/pnasnexus/pgae260 Ocean weather, biological rates, temperature sensitivity, ecototherms
Davies, S.C., Boutillier, J., Jackson, J., Nephin, J. (2024). A summary of ecological data and fishing activities in the area of the Gwaxdlala/Nalaxdlala (Lull/Hoeya) Marine Refuge. Can. Tech. Rep. Fish. Aquat. Sci. 3594: vi + 30 p. https://science-catalogue.canada.ca/record=b4123425~S6 Knight Inlet, fjord, British Columbia, fishing activities, marine refuge
Deeg, C.M., Saunders, R.G., Tam, C., Kaukinen, K., Li, S., Bass, A.L., Uu‐a‐thluk Fisheries and Miller, K.M., (2025). eDNA sampling systems for salmon ecosystem monitoring. Environmental DNA, 7(1), p.e70059. https://doi.org/10.1002/edn3.70059 Pacific salmon, Pathogens, emerging diseases, novel technologies, precautionary principle
Del Bel Belluz, J., Jackson, J.M., Kellogg, C.T., Peña, M.A., Giesbrecht, I.J. and Hobson, L.A., (2024). Phytoplankton community composition links to environmental drivers across a fjord to shelf gradient on the central coast of British Columbia. Frontiers in Marine Science, 11, p.1458677. https://doi.org/10.3389/fmars.2024.1458677 Phytoplankton, Northern shelf bioregion, fjord, coastal oceanography 
Doherty, B., Johnson, S.D., Benson, A.J., Cox, S.P., Cleary, J.S. and Lane, J., (2024). Predation by marine mammals explains recent trends in natural mortality of Pacific Herring (Clupea pallasii) and changes expectations for future biomass. ICES Journal of Marine Science, p.fsae183. https://doi.org/10.1093/icesjms/fsae183 ecosystem based modelling, bioenergetics, marine mammal predation, predation and natural mortality, multi-species models, small pelagics, forage species reference points
Doherty, B., Lacko, L., Kronlund, A.R., Alexander, K. and Cox, S.P., (2024). Treading lightly: Quantitative estimates of seafloor contact for longline trap and hook fishing gear. bioRxiv, pp.(2024)-11. https://doi.org/10.1101/2024.11.04.621693 Sablefish fishery, benthic habitat, longline fishing gear, bottom impacts, rish assessment, underwater camera, ecosystem based management
Donald M. Van Doornik, Paul Moran, Eric B. Rondeau, Krista M. Nichols, Shawn R. Narum, Matthew R. Campbell, Anthony J. Clemento, John S. Hargrove, Jon E. Hess, Rebekah L. Horn, Lisa W. Seeb, Jeff J. Stephenson, Garrett J. McKinney,(2024)  A new, standardized international Pacific Rim baseline for genetic stock identification (GSI) of Chinook Salmon, North American Journal of Fisheries Management, Volume 44, Issue 4, August (2024), Pages 857–869, https://doi.org/10.1002/nafm.11019 Chinook salmon, GSI, SNP baseline
Duke, P.J., Hamme, R.C., Ianson, D., Landschützer, P., Swart, N.C. and Covert, P.A., (2024). High‐resolution neural network demonstrates strong CO2 source‐sink juxtaposition in the coastal zone. Journal of Geophysical Research: Oceans, 129(7), p.e(2024)JC021134. https://doi.org/10.1029/2024JC021134 air-sea CO2 flux, coastal carbon, neural network, carbon source, carbon sink
Dunic, J.C. and Anderson, S.C. (2025). Assessing the quality of groundfish population indices derived from the Small-mesh Multi-species Bottom Trawl Survey. Can. Tech. Rep. Fish. Aquat. Sci. 3667: v + 40 p. https://doi.org/10.60825/rjyz-8w29 groundfish, survey index, data, geostatistical, spatiotemporal, species distribution, Pacific
Edwards, A.M., Rogers, L.A. and Holt, C.A., (2024). Explaining empirical dynamic modelling using verbal, graphical and mathematical approaches. Ecology and Evolution, 14(5), p.e10903. https://doi.org/10.1002/ece3.10903 population projections, ecological models, model-free forecasting
Evans, W., Campbell, K., Weekes, C., Del Bel Belluz, J., Barrette, J., Jordison, D., Mackenzie, C., Bergshoeff, J., Prentice, C., Savage, R. and Desmarais, I., (2025). Variability in storm season intensity modulates ocean acidification conditions in the northern Strait of Georgia. Scientific Reports, 15(1), p.4505. https://www.nature.com/articles/s41598-025-88241-8 Strait of Georgia, ocean acidification, winter storms, coastal oceanography
Fieldnotes 2024-2025: Pacific Science Field Operations
1) Fieldnotes 2024 to 2025: Map companion
2) Fieldnotes 2024 to 2025: Collaboration visualizer
3) Fieldnotes 2024 to 2025: Spotlight on salmon stock assessment
4) Fieldnotes 2024 to 2025: Fact sheets
https://open.canada.ca/data/en/dataset/d8b840dd-09c9-462b-8b6e-39d17dfac7d1		 Polar Sciences, Operations, Natural Sciences, Environmental Sciences, Environment, Oceanography, Oceans, Biological Diversity, Scientific Research
Fisch, N., (2025). Expected improvements in precision when integrating opportunistic close-kin mark-recapture data into fisheries stock assessments. Fisheries Research, 281, p.107222. https://doi.org/10.1016/j.fishres.2024.107222 Stock assessment; Close-kin mark-recapture; Age structured modeling
Freshwater, C. and J. King. (2024). Seasonal variability in condition and spatial distribution of Chinook Salmon: Implications for ecosystem-based management. Transactions of the American Fisheries Society 153:859-877. https://doi.org/10.1002/tafs.10495 Bathymetry, body size, hatcheries, lipid content, lunar cycle, migration, ontogeny, tides
Friesen, E.R., Long, A.K. and Garver, K.A., (2024). Establishment and characterization of novel spontaneously immortalized larval cell lines from sablefish Anoplopoma fimbria. In Vitro Cellular & Developmental Biology-Animal, pp.1-12. https://link.springer.com/article/10.1007/s11626-024-00975-3 Aquaculture, Cell line, Larva, Sablefish, Pacific Ocean
Ganton, A., Dalton, A., Ashbrook, C. and Bureau, D. (2024). Development of the intertidal clam monitoring program for the south coast of British Columbia. Can. Manuscr. Rep. Fish. Aquat. Sci. 3279: iv + 67 p. https://doi.org/10.60825/0ah6-5c27 fishery management, fishery regulations, clam fisheries, quota regulations, resource availability, monitoring
Gehman, A.L.M., Pontier, O., Froese, T., VanMaanen, D., Blaine, T., Sadlier-Brown, G., Olson, A.M., Monteith, Z.L., Bachen, K., Prentice, C. and Hessing-Lewis, M., (2025). Fjord oceanographic dynamics provide refuge for critically endangered Pycnopodia helianthoides. Proceedings B, 292(2044), p.(2024)2770. https://doi.org/10.1098/rspb.2024.2770 fjords, Northeast Pacific, sea stars, disease
Ginting, K.P., Rooper, C.N., Williams, K. and Huang, W.B., (2024) Use of Inexpensive Stereo-Camera Systems to Collect Length Frequency Data from Under-Sampled Pacific Saury Commercial Fishing Fleets in International Waters. http://dx.doi.org/10.2139/ssrn.4691901 Pacific saury, Body length, Electronic monitoring, Measurement
Graham, B.A., Hipfner, J.M., Wellband, K.W., Ito, M. and Burg, T.M., (2024). Genetic–environment associations explain genetic differentiation and variation between western and eastern North Pacific rhinoceros auklet (Cerorhinca monocerata) breeding colonies. Ecology and Evolution, 14(7), p.e11534. https://doi.org/10.1002/ece3.11534 climate change, genomics, seabirds
Haddon, A., Farnole, P., Monahan, A.H., Sou, T. and Steiner, N., (2024). Environmental controls and phenology of sea ice algal growth in a future Arctic. Elementa: Science of the Anthropocene, 12(1). https://doi.org/10.1525/elementa.2023.00129 Ice algae, Arctic, Model, Future
Hannah, C.G., Johannessen, S.C., Wright, C.A. and Page, S.J., (2024). Oxygen dynamics in a deep‐silled fjord: Tight coupling to the open shelf. Limnology and Oceanography, 69(3), pp.652-666. https://doi.org/10.1002/lno.12522 Fjord, dissolved oxygen, circulation, deep-water renewal, remineralization, organic carbon
Hannah, L.C., Francis, F.T. and Murray, C.C., (2024). The effects of commercial vessel anchorages span ecological, cultural, and socio-economic endpoints. Marine Pollution Bulletin, 208, p.117039. https://doi.org/10.1016/j.marpolbul.2024.117039 anchoring, pathways of effects, cumulative effects, shipping, mitigation, cultural, socio-economic, ecological
Hare, A., Evans, W., Dosser, H.V., Jackson, J.M., Alin, S.R., Hannah, C., Ross, T. and Klymak, J.M., (2025). Regression-based characterization of the marine carbonate system across shelf and nearshore Waters of queen Charlotte sound. Marine Chemistry, p.104511. https://doi.org/10.1016/j.marchem.2025.104511 Ocean acidification, ocean gliders, Queen Charlotte Sound, multiple linear regression
Harley JR, Grinnell MH, Hebert K, Cleary J, Thompson M, Rooper CN (2024) Forecasted changes to the timing of Pacific herring Clupea pallasii spawn in a warming ocean. Mar Ecol Prog Ser 740:95-108. https://doi.org/10.3354/meps14630 Pacific herring, Spawn timing, Climate change, El Niño-Southern Oscillation, Sea surface temperature
Herunter, H.E., Francisco, M., Amuwo, T., and Macdonald, J.S. (2024). Recovered Historic Catch and Weight – Length Data of Nearshore Fish Populations on Sturgeon and Roberts Banks, Fraser River Estuary, British Columbia. Can. Tech. Rep. Fish. Aquat. Sci. 3626: vii + 333 p. https://science-catalogue.canada.ca/record=b4125505~S6 Fraser River, fish survey, weights and lengths
Hillis, D., Barclay, K.M., Foster, E., Kobluk, H.M., Vollman, T., Salomon, A.K., Darimont, C.T. and McKechnie, I., (2024). Estimating size-at-harvest from Indigenous archaeological clamshell assemblages in Coastal British Columbia. FACETS, 9(1), pp.1-15. https://doi.org/10.1139/facets-2023-0128 Archaeology, Bivalves, Historical Ecology, Indigenous Resource Management, Zooarchaeology
Hodgson, E.E., Pemberton-Renaud, V., Brennan, K. and Fernandez, D. (2024). Strontium isoscape for the North Thompson River watershed, British Columbia. Can. Tech. Rep. Fish. Aquat. Sci. 3648: v + 48 p. https://doi.org/10.60825/dr4a-ch47 strontium isotopes, water analysis, otoliths, migration, geochemical surveys
Holdsworth, A.M., Christian, J.R., Davies, S.C. Hunter, K.L. Lyons, D.A., Nephin, J., Park, A.E., Proudfoot, B.E., Rooper, C.N., Thompson, P.L. (2024). Future Habitat Working Group: Summary Report. Can. Tech. Rep. Fish. Aquat. Sci. 3644: vi + 24 p. https://doi.org/10.60825/gf9j-e418 Climate change, species distribution modelling, ocean, biodiversity, multi-disciplinary
Holdsworth, A.M., Shao, A. and Christian, J.R., (2024). Clustering to characterize extreme marine conditions for the benthic region of the Northeastern Pacific continental margin. Authorea Preprints. https://doi.org/10.1029/2024GL112591 extremes, machine learning and ocean modelling
Holt, C.A., Connors, B., Greenberg, D., Wor, C. (2025). Guidance on when and how Science advice for Pacific salmon should account for time-varying population dynamics. Can. Tech. Rep. Fish. Aquat. Sci. 3653: xii + 90 p. https://doi.org/10.60825/002c-as40 Pacific Salmon, time varying, population dynamics, spawner-recruit relationship, benchmarks, harvest control rule
Ian Forster, Brett Glencross, (2025) Chapter 5 - Feed ingredients for aquafeed, Editor(s): Vikas Kumar, Feed and Feeding for Fish and Shellfish, Academic Press, 2025, Pages 131-152,
ISBN 9780443215568. https://doi.org/10.1016/B978-0-443-21556-8.00002-8
 Aquafeeds, Ingredients, Nutrients, quality assessment
Irvine, J.R., Luedke, W., Pearsall, I., Sastri, A., Carson, C., Menendez, C., Hutchinson, J., MillerSaunders, K.M., and Hawkins, T. (2024). Marine Risk Assessment for Natural-Origin West Coast Vancouver Island Chinook Salmon (Oncorhynchus tschawytscha). Can. Tech. Rep. Fish. Aquat. Sci. 3603: ix + 308 p. https://science-catalogue.canada.ca/record=b4123607~S6 equation model | vector autoregressive model
Jackson, J.M., Hare, A., Hannah, C.G., Hilborn, A., Zahner, S.J.V., Page, S., Rosen, S., Timmerman, A.H. and Lee, L., (2025). Why deep‐water dissolved oxygen is higher in G̱andaawuu. ngaay Xyangs (Juan Perez Sound), Haida Gwaii, than other British Columbia fjords. Journal of Geophysical Research: Oceans, 130(3), p.e(2024)JC021826. https://doi.org/10.1029/2024JC021826 Gwaii Haanas, fjord, oxygen, Rivers Inlet, ventilation
Jacquemot, L., Hunt, B.P., Li, S., Schulze, A.D., Deeg, C.M., Sutherland, B.J., Tabata, A., Lovejoy, C. and Miller, K.M., (2024). Mapping Biodiversity Coast‐to‐Coast‐to‐Coast Across Canada's Three Oceans Using eDNA Metabarcoding. Environmental DNA, 6(6), p.e70028. https://doi.org/10.1002/edn3.70028 Biodiversity, Canada, Environmental DNA, Biological monitoring, Endangered species
Jasperse, L., Else, B.G.T., Miller, L.A., Nickoloff, G., Walker, J., Fox, A.E. and Walker, B.D., (2025). Tracing Pan‐Canadian Arctic water masses and dissolved inorganic carbon cycling using stable and radiocarbon isotopes. Global Biogeochemical Cycles, 39(4), p.e(2024)GB008179. https://doi.org/10.1029/2024GB008179 carbon dioxide, Arctic Ocean, climate change
Jeong, J. and McEwan, G., (2024). Wild salmon migration routes influence sea lice infestations: An agent-based model predicting farm-related infestations on juvenile salmon. Plos one, 19(8), p.e0309215. https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0309215 Aquaculture, Agent-based model, Infestation pressure, Salmon conservation, Sea lice, Sockeye salmon
Johnson, D.L., Pearce, C.M., Flaherty, M.S., Cowen, L.L., Black, M.J., Worst, S.V., Greiter Loerzer, R.A., Guitard, K.C., McGoveran, M. and Vornicu, B., (2025). Factors affecting the spatial and temporal distribution of biofouling communities on Atlantic salmon (Salmo salar) farms: insights from the Broughton Archipelago, British Columbia, Canada. Biofouling, 41(1), pp.20-35. https://doi.org/10.1080/08927014.2024.2430353 Atlantic salmon farm, aquaculture, biofouling, environmental variables, hydroids, stingingcapable
species
Jung, Y., Tabata, A.M., Flynn, K.L., Zubkowski, T.B., and King, J.R. (2024). Juvenile Pacific Salmon (Oncorhynchus spp.) Trawl Survey on the South Coast of British Columbia, June 10 - June 14,
2018. Can. Data Rep. Fish. Aquat. Sci. 1404: vi + 29 p. https://science-catalogue.canada.ca/record=b4126469~S6		 salmon, juvenile, marine ecosystem, survey, trawl, British Columbia
Jung, Y., Tabata, A.M., Flynn, K.L., Zubkowski, T.B., and King, J.R. (2024). Juvenile Pacific
Salmon (Oncorhynchus spp.) Trawl Survey on the South Coast of British Columbia, March 1 - March 13,
2012. Can. Data Rep. Fish. Aquat. Sci. 1412: vi + 33 p. https://science-catalogue.canada.ca/record=b4126763~S6		 salmon, juvenile, marine ecosystem, survey, trawl, British Columbia
Kamal, P., Thompson, P.L., Lewis, N. and Fronhofer, E.A., (2024). Dispersal evolution can only rescue a limited set of species from climate change. bioRxiv, pp.(2024)-12. https://doi.org/10.1101/2024.12.05.626982 Climate change, evolutionary rescue, dispersal, theoretical ecology
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