Sélection de la langue

Gouvernement du Canada / Government of Canada

Recherche

Liste des publications du MPO 2024

Avec cette liste des Publications scientifiques de la région du Pacifique en 2024, nous sommes heureux de continuer de poursuivre la diffusion pour le public canadien des publications scientifiques de la région du Pacifique et la communication continue de recherches de grande qualité. Ci-dessous, vous trouverez la liste des publications primaires et secondaires revues par les pairs publiées en 2024 dans laquelle apparait au moins un auteur de la Direction générale des sciences du MPO de la région du Pacifique. Les liens fournis pour accéder à ces recherches sont hébergés par des éditeurs tiers, par conséquent, les revues pourraient n'être disponibles qu'en anglais seulement.

Liste des publications de 2018 à 2024

Liste des publications de 2018 à 2024 (XLSX, 573 Ko)
Titre Mots-clés
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 cartographie des effets cumulatifs; habitat du poisson; effets cumulatifs; benthique; pélagique; biogène
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 Impacts sur le milieu marin, utilisation humaine, facteurs de stress, habitat marin, vulnérabilité, planification spatiale marine
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 Saumon, facteurs de stress, biomarqueur, forêt aléatoire, fit-chips, smolt, saumon « désmoltifié », changements climatiques
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 Estuaires, écoulement en canal, mélange, transport, modèles océaniques
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 poisson de fond, indice de relevé, données, géostatistique, spatio-temporel, répartition des espèces, Pacifique
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 Lac Osoyoos, saumon rouge, remontes annuelles, survie du recrutement
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 Changements climatiques, fjord, flux de la terre vers l’océan, fonte des glaciers 
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 ADN environnemental, saumons du Pacifique, hiver, golfe d’Alaska, agents pathogènes, facteurs de stress
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 Inlet Bute, modèle océanique, fjord, vents sortants de l’Arctique, refuge marin
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 Océan Pacifique, conditions océanographiques 2023, conditions biologiques en 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 Relevé intégré des écosystèmes pélagiques, île de Vancouver, hareng du Pacifique, saumons du Pacifique, répartition, abondance, échantillonnage océanographique, zooplancton
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, rétablissement, gestion riveraine, ruisseau d’amont, température, sensibilité thermique
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 Baie de Baffin, acidification de l’océan, cycle du carbone
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 Aire marine protégée, planification du réseau d’aires marines protégées, biorégion du plateau Nord, Marxan, analyses de sensibilité 
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 Aires marines protégées (AMP), changements climatiques, gestion adaptative, carbone bleu, dimensions humaines, gestion
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 capacité de charge, vague de chaleur marine, modélisation par marquage-recapture, estimation de l’abondance, changements climatiques, variables environnementales 
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  Vagues de chaleur marines, nord-est du Pacifique, réchauffement de l’Arctique. 
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 Professionnels des océans en début de carrière 
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 Séquençage du génome entier; saumon coho, saumon chinook, saumon rouge, fleuve Fraser, 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 mer, eaux profondes, réaliser des relevés sous-marins, exploration sous-marine, relevés, observations de la conductivité, de la température et de la profondeur (CTP), emplacement de l’épave, pollution par les navires
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 changements climatiques, écloseries, pêches, concurrence, coopération internationale
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 Aires marines protégées (AMP), changements climatiques, gestion adaptative
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 connectivité écologique, zostère, dispersion des invertébrés marins, impacts humains, métapopulation, effets cumulatifs
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		 Foresterie, ruisseaux d’amont, zone tampon riveraine, sédiments, nutriments, température du cours d’eau, température des eaux souterraines, emprise, qualité de l’eau
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 Conditions météorologiques océaniques, taux biologiques, sensibilité à la température
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 Inlet Knight, fjord, Colombie-Britannique, activités de pêche, refuge marin
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 Saumons du Pacifique, agents pathogènes, maladies émergentes, nouvelles technologies, principe de précaution
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 Phytoplancton, biorégion du plateau Nord, fjord, océanographie côtière 
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 modélisation écosystémique, bioénergétique, prédation par les mammifères marins, mortalité par la prédation et mortalité naturelle, modèles plurispécifiques, petits pélagiques, points de référence des espèces fourragères
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 Pêche de la morue charbonnière, habitat benthique, engins de pêche à la palangre, impacts sur le fond, évaluation des risques, caméra sous-marine, gestion écosystémique
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 Saumon chinook, identification du stock génétique, base de référence des polymorphismes mononucléotidiques
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 flux de CO2 air-mer, carbone côtier, réseau neuronal, source de carbone, puits de carbone
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 poisson de fond, indice de relevé, données, géostatistique, spatio-temporel, répartition des espèces, Pacifique
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 projections de la population, modèles écologiques, prévisions sans modèle
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 Détroit de Georgia, acidification de l’océan, tempêtes hivernales, océanographie côtière
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		 Sciences polaires, opérations, sciences naturelles, sciences de l’environnement, environnement, océanographie, océans, diversité biologique, recherche scientifique
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 Évaluation des stocks; Marquage-recapture des proches parents; modélisation structurée selon l’âge
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 Bathymétrie, taille du corps, écloseries, teneur en lipides, cycle lunaire, migration, ontogenèse, marées
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, lignée cellulaire, larve, morue charbonnière, océan Pacifique
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 gestion des pêches, règlement sur la pêche, pêche de la palourde, règlement sur les quotas, disponibilité des ressources, surveillance
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, nord-est du Pacifique, étoiles de mer, maladie
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 Balaou japonais, longueur du corps, surveillance électronique, mesure
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 changements climatiques, génomique, oiseaux de mer
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 Algues glaciaires, Arctique, modèle, avenir
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, oxygène dissous, circulation, renouvellement des eaux profondes, reminéralisation, carbone organique
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 ancrage, séquences des effets, effets cumulatifs, navigation, atténuation, culturel, socioéconomique, écologique
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 Acidification de l’océan, planeurs océaniques, bassin de la Reine-Charlotte, régression linéaire multiple
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 Hareng du Pacifique, période de fraie, changements climatiques, El Niño-oscillation australe, température à la surface de la mer
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 Fleuve Fraser, relevé des poissons, poids et longueurs
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 Archéologie, bivalves, écologie historique, gestion des ressources autochtones, zooarchéologie
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 isotopes du strontium, analyse de l’eau, otolithes, migration, relevés géochimiques
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 Changements climatiques, modélisation de la répartition des espèces, océan, biodiversité, multidisciplinaire
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 extrêmes, apprentissage machine et modélisation océanique
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 Saumons du Pacifique, variable dans le temps, dynamique des populations, relation géniteurs-recrues, points de référence, règle de contrôle des prises
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
 Aliments aquacoles, ingrédients, nutriments, évaluation de la qualité
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 Modèle à équations | modèle vectoriel autorégressif 
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, oxygène, inlet Rivers, aération
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 Biodiversité, Canada, ADN environnemental, surveillance biologique, espèces en voie de disparition
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 dioxyde de carbone, océan Arctique, changements climatiques
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, modèle à base d’agents, pression d’infestation, conservation du saumon, pou du poisson, saumon rouge
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 Ferme d’élevage de saumon atlantique, aquaculture, encrassement biologique, variables environnementales, hydroïdes, espèces pouvant piquer
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		 saumon, juvénile, écosystème marin, relevé, chalut, Colombie-Britannique
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		 saumon, juvénile, écosystème marin, relevé, chalut, Colombie-Britannique
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 Changements climatiques, sauvetage évolutif, dispersion, écologie théorique
Kapur, M.S., Haltuch, M.A., Connors, B., Berger, A., Holt, K., Marshall, K. and Punt, A.E., (2024). Range-wide contrast in management outcomes for transboundary Northeast Pacific sablefish. Canadian Journal of Fisheries and Aquatic Sciences, 81(7), pp.810-827. https://doi.org/10.1139/cjfas-2024-0008 évaluation de la stratégie, économie des pêches
Klymus, K.E., Baker, J.D., Abbott, C.L., Brown, R.J., Craine, J.M., Gold, Z., Hunter, M.E., Johnson, M.D., Jones, D.N., Jungbluth, M.J. and Jungbluth, S.P., (2024). The MIEM guidelines: Minimum information for reporting of environmental metabarcoding data. MBMG Metabarcoding and Metagenomics, 8, p.489. https://doi.org/10.3897/mbmg.8.128689 ADN environnemental, mise en œuvre, production de rapports
Lennox, R.J., Eldøy, S.H., Schulze, A.D., Miller, K.M., Isaksen, T.E., Davidsen, J.G., Nilsen, C.I., Dahlmo, L.S. and Vollset, K.W., (2025). Application of Conservation Genomics to Investigate the Role of Pathogens on the Migration of Sea‐Run Brown Trout (Salmo trutta). Journal of Fish Diseases, p.e14045. https://doi.org/10.1111/jfd.14045 Saumons du Pacifique, agent pathogène, modèles spatiaux, répartition des espèces, écologie moléculaire
Lennox, R.J., Miller, K.M., Madhun, A., Schulze, A.D., Eldøy, S.H., Isaksen, T.E., Nilsen, R., Shea, D., Birnie‐Gauvin, K., Davidsen, J.G. and Cooke, S.J., (2024). The Pathobiome of Salmo trutta From the North Sea to the Barents Sea. Journal of Biogeography. https://doi.org/10.1111/jbi.15047 agent pathogène, analyse multidimensionnelle non métrique, salmonidés, aquaculture, biogéographie
Long, A. and Jones, S.R., (2024). Increased survival and reduced bacterial shedding following single but not repeated oral immunizations against Piscirickettsia salmonis in Atlantic salmon Salmo salar. Bulletin of the European Association of Fish Pathologists, 44(3). https://doi.org/10.48045/001c.126207 Aquaculture, saumon atlantique, Salmo salar, Piscirickettsia salmonis, vaccin oral
Mackenzie, C.L., Raap, M.R., Leduc, S., Walker, C.Y.V., Green, T.J., Kim, E., Montgomery, E.M., Gray, S.L., Long, A. and Pearce, C.M., (2024). Development of a nature-based solution for mitigation of Pacific oyster summer mortality: use of the intertidal zone to improve resilience to environmental stressors. Frontiers in Marine Science, 11, p.1345493.  https://doi.org/10.3389/fmars.2024.1345493 sécurité alimentaire, vagues de chaleur, atténuation, huître creuse du Pacifique (Crassostrea gigas), conchyliculture, syndrome de mortalité estivale
Capri Jolliffe, Christine Erbe, Dorian Houser, Carina Juretzek, Jill Lewandowski, Nathan D. Merchant, Brian Miller, Valeria Senigaglia, Thornton, Sheila (2025) Marine mammal acoustics in a noisy ocean. https://link.springer.com/book/9783031770210 Mammifères marins, bruit, répercussions, gestion du bruit
McLaskey, A. K., Forster, I., & Hunt, B. P. (2024). Distinct trophic ecologies of zooplankton size classes are maintained throughout the seasonal cycle. Oecologia, 204(1), 227-239. https://doi.org/10.1007/s00442-023-05501-y Réseau trophique, acides gras, isotopes stables, phytoplancton, voies microbiennes
Milner, B.L., Braun, D., Moore, J.W., Martens, A.M., LoScerbo, D. and Naman, S., (2025). Seasonal dynamics of juvenile coho salmon (Oncorhynchus kisutch) in wetlands of the North Thompson River, British Columbia. Canadian Journal of Fisheries and Aquatic Sciences, 82, pp.1-19. https://doi.org/10.1139/cjfas-2024-0177 saumon coho, milieux humides, plaine inondable, connectivité, dynamique saisonnière, modification des mosaïques d’habitat
Montgomery, E. M., Cannon, B. L., Nomura, M., Leme, R. B., Forster, I. P., & Pearce, C. M. (2025). You Are What You Eat: California Sea Cucumbers Become “Fishier” After Integrated Multi-Trophic Aquaculture with Chinook Salmon. Fishes, 10(4), 154. https://doi.org/10.3390/fishes10040154 acides aminés, Apostichopus californicus, saumon chinook, acides gras, aquaculture multitrophique intégrée, métabolites, holothurie
Mordecai, G., Di Cicco, E., Deeg, C., Bateman, A., Teffer, A. and Miller, K., (2024). Comment on a perspective: Molecular detections of new agents in finfish—Interpreting biological significance for fish health management. Journal of Aquatic Animal Health, 36(3), pp.220-230. https://onlinelibrary.wiley.com/doi/am-pdf/10.1002/aah.10221 Saumons du Pacifique, agents pathogènes, maladies émergentes, nouvelles technologies, principe de précaution
Mouy, X., Archer, S.K., Dosso, S., Dudas, S., English, P., Foord, C., Halliday, W., Juanes, F., Lancaster, D., Van Parijs, S. and Haggarty, D., (2024). Automatic detection of unidentified fish sounds: a comparison of traditional machine learning with deep learning. Frontiers in Remote Sensing, 5, p.1439995. https://doi.org/10.3389/frsen.2024.1439995 acoustique passive, forêt aléatoire, réseaux neuronaux complexes, Colombie-Britannique, Floride
Murray, C.C., Dunham, A., Rubidge, E., Francis, F.T., Hunter, K.L. and Hannah, L.C., (2025). Safeguarding marine protected areas from cumulative effects: a review of methods, best practices, and applications. Environmental Management, pp.1-15. https://doi.org/10.1007/s00267-025-02146-w Impacts cumulatifs, effets cumulatifs, zones de protection marine, gestion, évaluation des effets cumulatifs
Naman, S.M., and Reid, D.A. (2025). Rapid drought response measures: a review of approaches and considerations in salmon bearing streams. Can. Tech. Rep. Fish. Aquat. Sci. 3659: vii + 37 p. https://doi.org/10.60825/dm5y-f867 sécheresse, saumons du Pacifique, restauration, intervention d’urgence
Neville, C.M. (2024). Juvenile Pacific Salmon Survey in the Strait of Georgia and Associated Waters, July 5 to 14, 2016 (SOG Survey 2016-12). Can. Data Rep. Fish. Aquat. Sci. 1400: ix +312 p. https://science-catalogue.canada.ca/record=b4124964~S6 saumon juvénile, détroit de Georgia, série chronologique
Neville, C.M. (2024). Juvenile Pacific Salmon Survey in the Strait of Georgia and Associated Waters, June 19 to July 4, 2017 (SOG Survey 2017-04). Can. Data Rep. Fish. Aquat. Sci. 1399: ix + 312 p. https://science-catalogue.canada.ca/record=b4124963~S6 Saumon du Pacifique juvénile, écologie, relevé annuel
Neville, C.M. (2024). Juvenile Pacific Salmon Survey in the Strait of Georgia and Associated Waters, June 24 to July 9, 2015 (SOG Survey 2015-06). Can. Data Rep. Fish. Aquat. Sci. 1398: ix + 303 p. https://science-catalogue.canada.ca/record=b4124959~S6 marine, juvéniles, saumon, abondance, relevés
Oishi, E. M., Kattler, K. R., Watkins, H. V., Howard, B. R., & Côté, I. M. (2024). Substrate complexity reduces prey consumption in functional response experiments: Implications for extrapolating to the wild. NeoBiota, (91). https://doi.org/10.3897/neobiota.91.111222 Décapodes, prédation dépendante de la densité, complexité environnementale, espèce envahissante, marin, non indigène
Oldford, G., Jarníková, T., Christensen, V. and Dunphy, M., (2024). HOTSSea v1: a NEMO-based physical Hindcast of the Salish Sea (1980–2018) supporting ecosystem model development. Geoscientific Model Development Discussions, (2024), pp.1-58. https://doi.org/10.5194/gmd-18-211-2025 Modèle océanographique, prévision rétrospective, mer des Salish
Pemberton-Renaud, V., Sterling, J., Donald, T., Naman, S. and Hodgson, E., (2024). Co-development of Framework for Prioritizing Culvert Remediation: A Case Study from Simpcw Territory in the North Thompson Watershed, BC. Fisheries and Oceans Canada, Pacific Region, North Thompson Salmon Ecosystems Research Program, Freshwater Ecosystems Section. https://science-catalogue.canada.ca/record=b4124608~S6 Développement conjoint, ponceaux, passage du poisson, restauration, priorisation, saumons du Pacifique
Pon, L.B., and Lidin, G.W. (2024). Population surveys of juvenile Sockeye Salmon (Oncorhynchus nerka) in Bowron Lake, British Columbia between 2017 and 2021 Can. Data. Rep. Fish. Aquat. Sci. 1420: viii + 32 p. https://science-catalogue.canada.ca/record=b4127465~S6 Saumon rouge, lac Bowron, dénombrement, juvéniles, abondance
Pramlall, S., Jackson, J.M., Marchese, C., Suchy, K.D., Hunt, B.P. and Costa, M., (2024). Mapping phenoregions and phytoplankton seasonality in Northeast Pacific marine coastal ecosystems via a satellite-based approach. Progress in Oceanography, 228, p.103336. https://doi.org/10.1016/j.pocean.2024.103336 Couleur de l’océan, télédétection, concentration en chlorophylle, phénologie du phytoplancton, biorégionalisation, nord-est du Pacifique, océans côtiers, régions biogéochimiques, regroupement hiérarchique agglomératif
Proudfoot, B., Thompson, P.L., Vaidyanathan, T. and Robb, C.K. (2024). Spatial estimates of Blue Shark, Salmon Shark, Pacific Sleeper Shark and Bluntnose Sixgill Shark presence in British Columbia. Can. Tech. Rep. Fish. Aquat. Sci. 3600: vi + 27 p. https://science-catalogue.canada.ca/record=b4125159~S6 requin, modèles de répartition des espèces, sdmTMB, palangre, hameçon et ligne
Rooper, C.N., Boldt, J.L., Uriarte, A., Hansen, C., Ward, T. and Gaichas, S., (2024). Small pelagic fish: New frontiers in science and sustainable management. Canadian Journal of Fisheries and Aquatic Sciences, 81(8), pp.984-989. https://doi.org/10.1139/cjfas-2024-0104 petits poissons pélagiques, pêches durables, gestion écosystémique des pêches, changement environnemental, gestion
Rooper, C.N., Somers, K., Goddard, P. and Campbell, G., (2025). Estimating quantitative gear and taxa specific encounter thresholds for commercial fisheries bycatch of vulnerable marine ecosystem indicator taxa. Deep Sea Research Part II: Topical Studies in Oceanography, 219, p.105448. https://doi.org/10.1016/j.dsr2.2024.105448 Écosystèmes marins vulnérables, règles d’évitement, seuils de prises accessoires, coraux et éponges des grands fonds, prises accessoires dans les pêches
Ross, A.R., Ip, B., Mueller, M., Surridge, B., Hartmann, H., Hundal, N., Matthews, N., Shannon, H., Hennekes, M., Sastri, A. and Perry, R.I., (2025). Seasonal monitoring of dissolved and particulate algal biotoxins in the northern Salish Sea using high performance liquid chromatography and tandem mass spectrometry. Harmful Algae, p.102854. https://doi.org/10.1016/j.hal.2025.102854 Mer des Salish, algues nuisibles et toxiques, acide domoïque, saxitoxines, biotoxines lipophiles
Ross, T., Du Preez, C. and Ianson, D.,(2024) Coral and Float-Derived Observations of Flow Around Sg̲ÁAn K̲ÍNghlas-Bowie Seamount in the Northeast Pacific: Revisiting the Taylor Cone. http://dx.doi.org/10.2139/ssrn.5015409 Monts sous-marins, connectivité, débit et transport de l’eau, tourbillons
Ross, T., H.V. Dosser, J.M. Klymak, W. Evans, A. Hare, J.M. Jackson, and S. Waterman. (2025). Ocean gliders for planning and monitoring remote Canadian Pacific marine protected areas. In Frontiers in Ocean Observing: Marine Protected Areas, Western Boundary Currents, and the Deep Sea. E.S. Kappel, V. Cullen, G. Coward, I.C.A. da Silveira, C. Edwards, T. Morris, and M. Roughan, eds, Oceanography 38(Supplement 1):38–40, https://doi.org/10.5670/oceanog.2025e104
 Véhicules autonomes, océanographie, aires marines protégées
Savoca, M., Abreo, N.A., Arias, A.H., Baes, L., Baini, M., Bergami, E., Brander, S., Canals, M., Choy, C.A., Corsi, I. and De Witte, B., (2024). Monitoring plastic pollution using bioindicators: a global review and recommendations for marine environments. Environmental Science: Advances. https://doi.org/10.1039/D4VA00174E Pollution par le plastique, ingestion de plastique, bio-indicateurs, surveillance, sentinelles des écosystèmes, pollution marine, Une seule santé, microplastiques
Schneider, S.R., Collins, D.B., Boyer, M., Chang, R.Y.W., Gosselin, M., Irish, V.E., Miller, L.A. and Abbatt, J.P., (2024). Abiotic Emission of Volatile Organic Compounds from the Ocean Surface: Relationship to Seawater Composition. ACS Earth and Space Chemistry, 8(9), pp.1913-1923. https://pubs.acs.org/doi/abs/10.1021/acsearthspacechem.4c00163 composés organiques volatils, photochimie, oxydation multiphase, océan Arctique, spectromètre de masse de réaction de transfert de protons, microcouche superficielle
Schweigert, J.F. and Herborg, M., (2024). Biological Synopsis of Pacific Herring in Support of Marine Emergency Response to Hydrocarbon Spill Events. Fisheries and Oceans Canada, Science Branch, Pacific Region. https://science-catalogue.canada.ca/record=b4124008~S6 Hareng du Pacifique, déversement d’hydrocarbures, répartition et moment de la fraie, impact de l’exposition aux hydrocarbures
Simpson, E., Ianson, D., Kohfeld, K.E., Franco, A.C., Covert, P.A., Davelaar, M. and Perreault, Y., (2024). Variability and drivers of carbonate chemistry at shellfish aquaculture sites in the Salish Sea, British Columbia. Biogeosciences, 21(5), pp.1323-1353. https://doi.org/10.5194/egusphere-2023-1553 mollusques et crustacés, acidification de l’océan, aquaculture, détroit de Baynes, bras Okeover
Steiner, N., Christian, J., Riche, O., Sou, T. (2024). Arctic Ocean primary production from 1980- 2015: Implications of biogeochemical model parameterizations. Can. Tech. Rep. Fish. Aquat. Sci. 3561: v + 45 p. https://science-catalogue.canada.ca/record=b4122529~S6 Biogéochimie, océan Arctique
Tabata, A.T., Flynn, K.L., Zubkowski, T.B., and King, J.R. (2024). Ecosystem-Based Juvenile
Pacific Salmon (Oncorhynchus spp.) Trawl Survey off North and West Coast Vancouver Island,
British Columbia, October 5 - 14, 2023. Can. Data Rep. Fish. Aquat. Sci. 1394: vi + 34 p. https://science-catalogue.canada.ca/record=b4124269~S6		 saumon, juvénile, écosystème marin, relevé, chalut, Colombie-Britannique
Theroux, S., Sepulveda, A., Abbott, C.L., Gold, Z., Watts, A.W., Hunter, M.E., Klymus, K.E., Hirsch, S.L., Craine, J.M., Jones, D.N. and Brown, R.J., (2025). What is eDNA method standardisation and why do we need it?. Metabarcoding and Metagenomics, 9, p.e132076. https://doi.org/10.3897/mbmg.9.132076 ADN environnemental, mise en œuvre, qualité
Thompson, M., Boldt, J.L., Dennis-Bohm, H., and Grinnell, M. H. (2025). Strait of Georgia juvenile Pacific herring survey, September 2022. Can. Manuscr. Rep. Fish. Aquat. Sci. 3276: vi + 61 p. https://doi.org/10.60825/v4js-bb95 hareng juvénile, détroit de Georgia, relevé, survie, abondance, recrutement, état
Thompson, P.L. and Neville, C.M. (2024). Spatial estimates of juvenile Pacific salmon (Oncorhynchus spp.) abundance in the Strait of Georgia. Can. Tech. Rep. Fish. Aquat. Sci. 3597: v + 30 p. https://science-catalogue.canada.ca/record=b4123408~S6 Saumon juvénile, saumons du Pacifique, début de la vie mer, planification spatiale marine, modèle géostatistique, détroit de Georgia
Thorson, J.T., Anderson, S.C., Goddard, P. and Rooper, C.N., (2024). tinyVAST: R package with an expressive interface to specify lagged and simultaneous effects in multivariate spatio-temporal models. arXiv preprint arXiv:2401.10193. https://doi.org/10.48550/arXiv.2401.10193 Modèle additif généralisé, associations espèce-habitat, modèle conjoint de répartition des espèces, modèle spatio-temporel, modèle causal structurel, modèle à équations structurelles, modèle vectoriel autorégressif 
Troffe, P.M., Levings, C.D., Sutherland, T.F., Chang, H., Piercey, G.E., Petersen, S.A., Keong, V., Poon, P., McDermid, M., and Sunday, J. (2024). Data record on sediment attributes and Infaunal diversity on Beam-Trawl and Trap-Line transects in Clio Channel, British Columbia, Canada. Can. Data Rep. Fish. Aquat. Sci. 1388: viii + 32 p. https://science-catalogue.canada.ca/record=b4123494~S6 naval, perturbation de l’écosystème, facteurs anthropiques, échantillonnage, échantillonnage des sédiments, échantillonnage biologique, endofaune benthique, chalutage, pêche au casier, rapports de données, perturbation de l’écosystème, endofaune benthique
Troffe, P.M., Sutherland, T.F., Levings, C.D., Keong, V., Chang, H., and Piercey, G.E. (2024). Epifauna and Fish Abundance Observed by a Towed-Video Camera Along Trawling Transects in Clio Channel, British Columbia, Canada. Can. Data Rep. Fish. Aquat. Sci. 1404: vii + 32 p. https://science-catalogue.canada.ca/record=b4126129~S6 Marine, équipement photographique, manipulation des engins, perturbation de l’écosystème, lignes de remorquage, relevés, matériel d’engin, pêche de la crevette, taxons, collecte de données, tableaux statistiques, habitat, poisson, faune, sélection des sites, chalutage, benthos, Colombie-Britannique, chenal Clio, archipel Broughton, baie Bones, projets, épifaune, vidéos
Melica, V. and Thornton, S.J. (2024) Killer whale fecal samples: How to get the most out of a single extraction,
General and Comparative Endocrinology, Volume 354,
(2024), 114544, ISSN 0016-6480.  https://doi.org/10.1016/j.ygcen.2024.114544		 Hormones fécales, lipides fécaux, extraction d’hormones, épaulard, extraction de lipides
van Nes, S., Imsland, A. K. D., & Jones, S. R. (2025). Salmon lice biology, environmental factors, and smolt behaviour with implications for the Norwegian salmon farming management system: A critical review. Reviews in Aquaculture, 17(1), e12953. https://doi.org/10.1111/raq.12953 Aquaculture, gestion, système de feux de circulation, pou du saumon, Lepeophtheirus salmonis, conservation du saumon
Wade, J., Grant, P., Ennis, T., and Stephen, C. (2024). Piloting a health program evaluation tool to close the implementation gap for species recovery plans. Can. Manuscr. Rep. Fish. Aquat. Sci. 3275: v + 14 p. https://science-catalogue.canada.ca/record=b4123019~S6 Gestion de la conservation, déterminants, espèce en voie de disparition, dommages, santé, lamproie, promotion
Wade, J., Grant, P., Gilmore S.R., Westfall K.M., Stenhouse, L., and Abbott, C.L. (2024). Summary of Freshwater Fish Trapping Activities in Interior British Columbia (2020– 2021) with a focus on Speckled Dace (Rhinichthys osculus). Can. Data Rep. Fish. Aquat. Sci. 1386: iv + 6 p. https://science-catalogue.canada.ca/record=b4123133~S6 Échantillonnage de poissons, ADN environnemental, spécimens de référence, espèces en péril
Walker, L.C. and Haggarty, D.R. (2024). Lingcod (Ophiodon elongatus) eggs to adult mass conversion factor for harvest allocation in the Strait of Georgia. Can. Tech. Rep. Fish. Aquat. Sci. 3604: v + 15 p. https://science-catalogue.canada.ca/record=b4124279~S6 Œufs de morue-lingue, masse d’œufs, facteur de conversion, allocation des prises
Walton, L.N., Quindazzi, M., Gauthier, S. and Stevens, C., (2025). Fish ID face-off: A comparison of genetic barcoding and otolith shape analysis for streamlining species identification of mesopelagic fishes. Fisheries Research, 281, p.107254. https://doi.org/10.1016/j.fishres.2024.107254 Morphométrie géométrique, analyse de la forme des otolithes, codage à barres de l’ADN, sagittae, poissons mésopélagiques
Wang, L., Pawlowicz, R., Ai, W. and Covert, P., (2024). Wind and river effects on a coastal current in Chatham Sound, British Columbia. Estuarine, Coastal and Shelf Science, 309, p.108966. https://doi.org/10.1016/j.ecss.2024.108966 Fleuve Skeena, courants de surface, vents, eau douce, radar à haute fréquence
Westfall, K.M., Singer, G.A., Kaushal, M., Gilmore, S.R., Fahner, N., Hajibabaei, M. and Abbott, C.L., (2023). NAMERS: a purpose-built reference DNA sequence database to support applied eDNA metabarcoding. bioRxiv, pp.2023-10. https://doi.org/10.1101/2023.10.06.561210 biodiversité, ADN environnemental, poisson, eau douce, espèce en péril, normalisation
Williams, D.C., Cornthwaite, A.M. (2024). Pacific Spiny Dogfish (Squalus suckleyi) Longline Survey in the Strait of Georgia, October 2-13, 2019. Can. Manuscr. Rep. Fish. Aquat. Sci. 3285: v + 19 p. https://science-catalogue.canada.ca/record=b4124721~S6 Aiguillat du Pacifique, détroit de Georgia, Squalus suckleyi, palangre
Dunham, A., Iacarella, J.C., Hunter, K.L., Davies, S.C., Dudas, S., Gale, K.S., Rubidge, E. and Archer, S.K., (2024. Conserving ecosystem integrity: ecological theory as a guide for marine protected area monitoring. Ecological Applications, 34(6), p.e3005. https://doi.org/10.1002/eap.3005 biodiversité, intégrité écologique, indicateurs écologique, Gestion des aires marines protégées (AMP), résistance, résilience, persistance
Iacarella, J.C., Chea, R., Patterson, D.A. and Weller, J.D., (2024). Projecting exceedance of juvenile salmonid thermal maxima in streams under climate change: A crosswalk from lab experiments to riparian restoration. Freshwater Biology, 69(9), pp.1218-1231. https://doi.org/10.1111/fwb.14300 maxima thermiques, tolérance à la température, température du flux, restauration des rives, ombrage du flux
Bryce, K. and Hunter, K.L., (2024). Enhancing climate change planning and adaptive management in marine protected areas through targets, thresholds, and social-ecological objectives. Frontiers in Marine Science, 11, p.1339871. https://doi.org/10.3389/fmars.2024.1339871 repères, déclencheurs, surveillance, critères de décision quantitatifs, adaptation
Nickoloff, G., Else, B.G.T., Ahmed, M., Burgers, T.M., Miller, L.A. and Papakyriakou, T., (2024). Strong pCO2 undersaturation in an Arctic sea: A decade of spatial and temporal variability in Baffin Bay. Journal of Geophysical Research: Oceans, 129(8), p.e2023JC020595. https://doi.org/10.1029/2023JC020595 dioxyde de carbone, océan Arctique, séries chronologiques
Williams, W.J., Brown, K.A., Rotermund, L.M., Bluhm, B.A., Danielson, S.L., Dempsey, M., McLaughlin, F.A., Vagle, S. and Carmack, E.C., (2025). Processes in the Kitikmeot Sea estuary constraining marine life. Elementa: Science of the Anthropocene, 13(1). https://doi.org/10.1525/elementa.2024.00031 Océan Arctique, circulation estuarienne, mélange maréal, écosystème
Lagasse, C.R., Fraser, K.A., Braithwaite, E., Komick, N. 2025. Salmon Bycatch Monitoring and Sampling Results for the Pacific Region 2023/24 Groundfish Trawl Fishery. Can. Manuscr. Rep. Fish. Aquat. Sci. 3298: vi + 41 p. https://doi.org/10.60825/d0e4-pp46 capture accessoire, pêcherie de saumon, pêche démersale, chalutage, répartition des âges, statistiques de débarquements
Lagasse, C.R., Czembor, C.A., Huang, A.-M., Dobson, D. (2024). DFO Pacific SalmonScience Workshop 2022: Addressing conservation and management challenges now and into the future. Can. Manuscr. Rep. Fish. Aquat. Sci. 3267: v + 43 p. https://science-catalogue.canada.ca/record=b4122273~S6 gestion des pêches, conservation des ressources, cycle de développement, changement climatique
Lagasse, C.R., Fraser, K.A., Houtman, R., Grundmann, E., Komick, N., O’Brien, M., Braithwaite, E., Cornthwaite, A. M. (2024). Review of Salmon Bycatch in the Pacific Region 2022/23 Groundfish Trawl Fishery and Preliminary Results of an Enhanced Monitoring Program. Can. Manuscr. Rep. Fish. Aquat. Sci. 3273: v + 35 p. https://science-catalogue.canada.ca/record=b4122161~S6 capture accessoire, chalutage, échantillonnage, évaluation de l'impact
Trzcinski MK, Majewski S, Nordstrom CA, Schulze AD, Miller KM, Tucker S (2024) DNA analysis of scats reveals spatial and temporal structure in the diversity of harbour seal diet from local haulouts to oceanographic bioregions. Mar Ecol Prog Ser 743:113-138 https://doi.org/10.3354/meps14655 phoque commun, méta-codage à barres d’ADN, analyse du régime alimentaire, diversité alimentaire, cooccurrences d'espèces
Josephine C. Iacarella and J. Daniel Weller. (2024). Predicting favourable streams for anadromous salmon spawning and natal rearing under climate change. Canadian Journal of Fisheries and Aquatic Sciences. 81(1): 1-13. https://doi.org/10.1139/cjfas-2023-0096 Modèles de niche environnementale, conditions climatiques futures, adéquation de l'habitat, habitat de frai et d'élevage natal
Weller, J.D., Moore, R.D. and Iacarella, J.C., (2024). Stream thermalscape scenarios for British Columbia, Canada. Canadian Water Resources Journal/Revue canadienne des ressources hydriques, 49(2), pp.233-252. https://doi.org/10.1080/07011784.2023.2267028 Température du flux, projections climatiques, geospatial modeling
Date de modification :