{"id":5763,"date":"2021-03-09T14:26:38","date_gmt":"2021-03-09T13:26:38","guid":{"rendered":"https:\/\/seapop.no\/?page_id=5763"},"modified":"2021-10-19T16:50:29","modified_gmt":"2021-10-19T14:50:29","slug":"published-2021","status":"publish","type":"page","link":"https:\/\/seapop.no\/en\/seatrack\/seatrack-publications-2\/published-2021\/","title":{"rendered":"Published 2021"},"content":{"rendered":"\n

Albert C., Br\u00e5then V.S., Descamps S., Anker-Nilssen T., Cherenkov A., Christensen-Dalsgaard S., Danielsen J., Erikstad K.E., Gavrilo M., Hanssen S.A., Helgason H.H., J\u00f3nsson J.E., Kolbeinsson Y., Krasnov Y., Langset M., Lorentzen E., Olsen B., Reiertsen T.K., Str\u00f8m H., Systad G.H., Tertitski G., Thompson P.M., Th\u00f3rarinsson T.L., Bustamante P., Moe B., Fort J. 2021 Inter-annual variation in winter distribution affects individual seabird contamination with mercury.<\/a> Mar Ecol Prog Ser :SEAav6. DOI: https:\/\/doi.org\/10.3354\/meps13793<\/a><\/p>\n\n\n\n

Albert C., Helgasson H.H., Brault-Favrou, M. et al. 2021 Seasonal variation of mercury contamination in Arctic seabirds: A pan-Arctic assessment.<\/a> Science of The Total Environment 750:142201 DOI: https:\/\/doi.org\/10.1016\/j.scitotenv.2020.142201<\/a><\/p>\n\n\n\n

Am\u00e9lineau F, Merkel B, Tarroux A, Descamps S and others. 2021 Six pelagic seabird species of the North Atlantic engage in a fly-and-forage strategy during their migratory movements.<\/a> Mar Ecol Prog Ser 676:127-144.\u00a0DOI: https:\/\/doi.org\/10.3354\/meps13872<\/a><\/p>\n\n\n\n

Clairbaux M., Mathewson P., Porter W., Fort J., Str\u00f8m H., Moe B., Fauchald P., Descamps S., Helgason H.H., Br\u00e5then V.S., Merkel B., Anker-Nilssen T., Bringsvor I.S., Chastel O., Christensen-Dalsgaard S., Danielsen J., Daunt F., Dehnhard N.,\u2026Gr\u00e9millet D. 2021 North Atlantic winter cyclones starve seabirds<\/a>. Current Biology 31:3964-3971.e3963 DOI: https:\/\/doi.org\/10.1016\/j.cub.2021.06.059<\/a><\/p>\n\n\n\n

Clairbaux, M., Cheung, W.W.L., Mathewson, P., Porter, W., Courbin, N., Fort, J., Str\u00f8m, H., Moe, B., Fauchald, P., Descamps, S., Helgason, H., Br\u00e5then, V.S., Merkel, B., Anker-Nilssen, T., Bringsvor, I.S., Chastel, O., Christensen-Dalsgaard, S., Danielsen, J., Daunt, F., Dehnhard, N., Erikstad, K.-E., Ezhov, A., Gavrilo, M., Krasnov, Y., Langset, M., Lorentsen, S.-H., Newell, M., Olsen, B., Reiertsen, T.K., Systad, G., \u00de\u00f3rarinsson, \u00de.L., Baran, M., Diamond, T., Fayet, A.L., Fitzsimmons, M.G., Frederiksen, M., Gilchrist, G.H., Guilford, T., Huffeldt, N.P., Jessopp, M., Johansen, K.L., Kouwenberg, A.L., Linnebjerg, J.F., McFarlane Tranquilla, L., Mallory, M., Merkel, F.R., Montevecchi, W., Mosbech, A., Petersen, A. and Gr\u00e9millet, D. 2021 Meeting Paris agreement objectives will temper seabird winter distribution shifts in the North Atlantic Ocean.<\/a> Glob. Change Biol., 27: 1457-1469.\u00a0DOI: https:\/\/doi.org\/10.1111\/gcb.15497<\/a><\/p>\n\n\n\n

Ezhov A.V., Gavrilo M.V., Krasnov Y.V., Br\u00e5then V.S., Moe B., Baranskaya A.V., Str\u00f8m H. 2021 Transpolar and bi-directional migration strategies of black-legged kittiwakes\u00a0Rissa tridactyla<\/em>\u00a0from a colony in Novaya Zemlya, Barents Sea, Russia.<\/a> Mar Ecol Prog Ser 676:189-203.\u00a0DOI: https:\/\/doi.org\/10.3354\/meps13889<\/a><\/p>\n\n\n\n

Davies, TE., Carneiro, APB., Tarzia, M., et al. 2021 Multispecies tracking reveals a major seabird hotspot in the North Atlantic.<\/a> Conservation Letters.;e12824. DOI: https:\/\/doi.org\/10.1111\/conl.12824<\/a><\/p>\n\n\n\n

Descamps S., Merkel B., Str\u00f8m H., Choquet R., Steen H., Fort J., Gavrilo M., Gr\u00e9millet D., Jakubas D., Jerstad K., Karnovsky N.J., Krasnov Y.V., Moe B., Welcker J., Wojczulanis-Jakubas K. 2021
Sharing wintering grounds does not synchronize annual survival in a high Arctic seabird, the little auk<\/a>. Mar Ecol Prog Ser :SEAav1. DOI: https:\/\/doi.org\/10.3354\/meps13400<\/a><\/p>\n\n\n\n

Dufour P., Wojczulanis-Jakubas K., Lavergne S., Renaud J., Jakubas D., Descamps S. 2021 A two-fold increase in migration distance does not have breeding consequences in a long-distance migratory seabird with high flight costs.<\/a> <\/em>Mar Ecol Prog Ser :SEAav2. DOI: https:\/\/doi.org\/10.3354\/meps13535<\/a><\/p>\n\n\n\n

Dupuis B., Am\u00e9lineau F., Tarroux A., Bj\u00f8rnstad O., Br\u00e5then V.S., Danielsen J., Descamps S., Fauchald P., Hallgrimsson G.T., Hansen E.S., Helberg M., Helgason H.H., J\u00f3nsson J.E., Kolbeinsson Y., Lorentzen E., Thompson P., Th\u00f3rarinsson T.L., Str\u00f8m H. 2021 Light-level geolocators reveal spatial variations in interactions between northern fulmars and fisheries.<\/a> Mar Ecol Prog Ser :SEAav4.\u00a0DOI: https:\/\/doi.org\/10.3354\/meps13673<\/a><\/p>\n\n\n\n

Fauchald P, Tarroux A, Am\u00e9lineau F, Br\u00e5then VS and others 2021 Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning.<\/a> Mar Ecol Prog Ser 676:255-276.\u00a0DOI: https:\/\/doi.org\/10.3354\/meps13854<\/a><\/p>\n\n\n\n

L\u00e9andri-Breton DJ, Tarroux A, Elliott KH, Legagneux P and others 2021 Long-term tracking of an Arctic-breeding seabird indicates high fidelity to pelagic wintering areas.<\/a> Mar Ecol Prog Ser 676:205-218.\u00a0DOI: https:\/\/doi.org\/10.3354\/meps13798<\/a><\/p>\n\n\n\n

Merkel B., Descamps S., Yoccoz N.G., Gr\u00e9millet D., Fauchald P., Danielsen J., Daunt F., Erikstad K.E., Ezhov A.V., Harris M.P., Gavrilo M., Lorentsen S.H., Reiertsen T.K., Systad G.H., Lindberg Th\u00f3rarinsson T., Wanless S., Str\u00f8m H. 2021 Strong migratory connectivity across meta-populations of sympatric North Atlantic seabirds.<\/a> Mar Ecol Prog Ser :SEAav3.<\/em> DOI: https:\/\/doi.org\/10.3354\/meps13580<\/a><\/p>\n\n\n\n

Moe B., Daunt F., Br\u00e5then V.S., Barrett R.T., Ballesteros M., Bj\u00f8rnstad O., Bogdanova M.I., Dehnhard N., Erikstad K.E., Follestad A., G\u00edslason S., Hallgrimsson G.T., Lorentsen S.H., Newell M., Petersen A., Phillips R.A., Ragnarsd\u00f3ttir S.B., Reiertsen T.K., \u00c5str\u00f6m J., Wanless S., Anker-Nilssen T. 2021 Twilight foraging enables European shags to survive the winter across their latitudinal range.<\/a> Mar Ecol Prog Ser :SEAav5. DOI: https:\/\/doi.org\/10.3354\/meps13697<\/a><\/p>\n\n\n\n

Reiertsen T.K., Layton-Matthews K., Erikstad K.E., Hodges K., Ballesteros M., Anker-Nilssen T., Barrett R.T., Benjaminsen S., Bogdanova M., Christensen-Dalsgaard S., Daunt F., Dehnhard N., Harris M.P., Langset M., Lorentsen S.H., Newell M., Br\u00e5then V.S., St\u00f8yle-Bringsvor I., Systad G.H., Wanless S. 2021 Inter-population synchrony in adult survival and effects of climate and extreme weather in non-breeding areas of Atlantic puffins.<\/a> Mar Ecol Prog Ser :SEAav7. DOI:\u00a0https:\/\/doi.org\/10.3354\/meps13809<\/a><\/p>\n\n\n\n

Str\u00f8m H., Descamps S., Ekker M., Fauchald P., Moe B. 2021 Tracking the movements of North Atlantic seabirds: steps towards a better understanding of population dynamics and marine ecosystem conservation.<\/a> Mar Ecol Prog Ser 676:97-116.\u00a0DOI: https:\/\/doi.org\/10.3354\/meps13801<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

Albert C., Br\u00e5then V.S., Descamps S., Anker-Nilssen T., Cherenkov A., Christensen-Dalsgaard S., Danielsen J., Erikstad … <\/p>\n

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