Your search keyword '"Amélineau, F."' showing total 19 results

1. Six pelagic seabird species of the North Atlantic engage in a fly-and-forage strategy during their migratory movements

Author

Amélineau, F., Merkel, B., Tarroux, A., Descamps, S., Anker-Nilssen, T., Bjørnstad, O., Bråthen, V. S., Chastel, O., Christensen-Dalsgaard, S., Danielsen, J., Daunt, F., Dehnhard, N., Ekker, M., Erikstad, K. E., Ezhov, A., Fauchald, P., Gavrilo, M., Hallgrimsson, G. T., Hansen, E. S., Harris, M. P., Helberg, M., Helgason, H. H., Johansen, M. K., Jónsson, J. E., Kolbeinsson, Y., Krasnov, Y., Langset, M., Lorentsen, S. H., Lorentzen, E., Melnikov, M. V., Moe, B., Newell, M. A., Olsen, B., Reiertsen, T., Systad, G. H., Thompson, P., Thórarinsson, T. L., Tolmacheva, E., Wanless, S., Wojczulanis-Jakubas, K., Åström, J., and Strøm, H.

Published

2021

2. Microplastic pollution in the Greenland Sea: Background levels and selective contamination of planktivorous diving seabirds

Author

Amélineau, F., Bonnet, D., Heitz, O., Mortreux, V., Harding, A.M.A., Karnovsky, N., Walkusz, W., Fort, J., and Grémillet, D.

Published

2016

3. Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning

Author

Fauchald, P, primary, Tarroux, A, additional, Amélineau, F, additional, Bråthen, VS, additional, Descamps, S, additional, Ekker, M, additional, Helgason, HH, additional, Johansen, MK, additional, Merkel, B, additional, Moe, B, additional, Åström, J, additional, Anker-Nilssen, T, additional, Bjørnstad, O, additional, Chastel, O, additional, Christensen-Dalsgaard, S, additional, Danielsen, J, additional, Daunt, F, additional, Dehnhard, N, additional, Erikstad, KE, additional, Ezhov, A, additional, Gavrilo, M, additional, Hallgrimsson, GT, additional, Hansen, ES, additional, Harris, M, additional, Helberg, M, additional, Jónsson, JE, additional, Kolbeinsson, Y, additional, Krasnov, Y, additional, Langset, M, additional, Lorentsen, SH, additional, Lorentzen, E, additional, Newell, M, additional, Olsen, B, additional, Reiertsen, TK, additional, Systad, GH, additional, Thompson, P, additional, Thórarinsson, TL, additional, Wanless, S, additional, Wojczulanis-Jakubas, K, additional, and Strøm, H, additional

Published

2021

4. Light-level geolocators reveal spatial variations in interactions between northern fulmars and fisheries

Author

Dupuis, B, primary, Amélineau, F, additional, Tarroux, A, additional, Bjørnstad, O, additional, Bråthen, VS, additional, Danielsen, J, additional, Descamps, S, additional, Fauchald, P, additional, Hallgrimsson, GT, additional, Hansen, ES, additional, Helberg, M, additional, Helgason, HH, additional, Jónsson, JE, additional, Kolbeinsson, Y, additional, Lorentzen, E, additional, Thompson, P, additional, Thórarinsson, TL, additional, and Strøm, H, additional

Published

2021

5. Characterisation of the Hamamatsu photomultipliers for the KM3NeT Neutrino Telescope

Author

Aiello, S., Akrame, S.E., Amélineau, F., Anassontzis, E.G., Andre, M., Androulakis, G., Anghinolfi, Anton, G., Ardid, M., Aublin, J., Avgitas, T., Baars, M., Bagatelas, C., Barbarino, G., Baret, B., Barrios-Martí, J., Belias, A., Berbee, E., van den Berg, A., Bertin, V., Biagi, S., Biagioni, A., Biernoth, C., Bormuth, R., Boumaaza, J., Bourret, S., Bouwhuis, M., Bozza, C., Brânzas, H., Briukhanova, N., Bruijn, R., Brunner, J., Buis, E., Buompane, R, Busto, J., Calvo, D., Capone, A., Caramete, L., Celli, S., Chabab, M., Cherubini, S., Chiarella, V., Chiarusi, T., Circella, M., Cocimano, R., Coelho, J.A.B., Coleiro, A., Molla, M.C., Coniglione, R., Coyle, P., Creusot, A., Cuttone, G., D’Onofrio, A., Dallier, R., De Sio, C., Di Palma, I., Díaz, A.F., Distefano, C., Domi, A., Donà, R., Donzaud, C., Dornic, D., Dörr, M., Durocher, M., Eberl, T., Van Eijk, D., El Bojaddaini, I., Elsaesser, D., Enzenhöfer, A., Ferrara, G., Fusco, L.A., Gal, T., Garufi, F., Gauchery, S., Geißelsöder, S., Gialanella, L., Giorgio, E., Giuliante, A., Gozzini, S.R., Gracia-Ruiz, R., Graf, K., Grasso, D., Grégoire, T., Grella, G., Hallmann, S., van Haren, H., Heid, T., Heijboer, A., Hekalo, A., Hernandez-Rey, J.J., Hofestädt, J., Illuminati, G., James, C.W., Jongen, M., Jongewaard, B., de Jong, M., de Jong, P., Kadler, M., Kalaczynski, P., Kalekin, O., Katz, U.F., Khan Chowdhury, N.R., Kieft, G., Kießling, D., Koffeman, E.N., Kooijman, P., Kouchner, A., Kreter, M., Kulikovskiy, V., Lahmann, R., Le Breton, A., Leone, F., Leonora, E., Levi, G., Lincetto, M., Lonardo, A., Longhitano, F., Lotze, M., Loucatos, S., Maggi, G., Manczak, J., Mannheim, K., Margiotta, A., Marinelli, A., Markou, C., Martin, L., Martínez-Mora, J.A., Martini, A., Marzaioli, F., Mele, R., Melis, K.W., Migliozzi, P., Migneco, E., Mijakowski, P., Mollo, C.M., Morganti, M., Moser, M., Moussa, A., Muller, R., Musumeci, M., Nauta, L., Navas, S., Nicolau, C.A., Nielsen, C., Organokov, M., Orlando, A., Panagopoulos, V., Papalashvili, G., Papaleo, R., Pavalas, G.E., Pellegrini, G., Pellegrino, C., Pérez Romero, J., Perrin-Terrin, M., Piattelli, P., Pikounis, K., Pisanti, O., Poirè, C., Polydefki, G., Poma, G.E., Popa, V., Post, M., Pradier, T., Pühlhofer, G., Pulvirenti, S., Quinn, L., Raffaelli, F., Randazzo, N., Razzaque, S., Real, D., Resvanis, L., Reubelt, J., Riccobene, G., Richer, M., Rovelli, A., Salvadori, I., Samtleben, D.F.E., Sánchez-Losa, A., Sanguineti, M., Santangelo, A., Sapienza, P., Schermer, B., Sciacca, V., Seneca, J., Sgura, I., Shanidze, R., Sharma, A., Simeone, F., Sinopoulou, A., Spisso, B., Spurio, M., Stavropoulos, D., Steijger, J., Stellacci, S.M., Strandberg, B., Stransky, D., Stüven, T., Taiuti, M., Tatone, F., Tayalati, Y., Tenllado, E., Thakore, T., Timmer, P., Trovato, A., Tsagkli, S., Tzamariudaki, E., Tzanetatos, D., Valieri, C., Vallage, B., Van Elewyck, V., Versari, F., Viola, S., Vivolo, D., Volkert, M., de Waardt, L., Wilms, J., de Wolf, E., Zaborov, D., Zornoza, J.D., Zúñiga, J., Aiello, S., Akrame, S.E., Amélineau, F., Anassontzis, E.G., Andre, M., Androulakis, G., Anghinolfi, Anton, G., Ardid, M., Aublin, J., Avgitas, T., Baars, M., Bagatelas, C., Barbarino, G., Baret, B., Barrios-Martí, J., Belias, A., Berbee, E., van den Berg, A., Bertin, V., Biagi, S., Biagioni, A., Biernoth, C., Bormuth, R., Boumaaza, J., Bourret, S., Bouwhuis, M., Bozza, C., Brânzas, H., Briukhanova, N., Bruijn, R., Brunner, J., Buis, E., Buompane, R, Busto, J., Calvo, D., Capone, A., Caramete, L., Celli, S., Chabab, M., Cherubini, S., Chiarella, V., Chiarusi, T., Circella, M., Cocimano, R., Coelho, J.A.B., Coleiro, A., Molla, M.C., Coniglione, R., Coyle, P., Creusot, A., Cuttone, G., D’Onofrio, A., Dallier, R., De Sio, C., Di Palma, I., Díaz, A.F., Distefano, C., Domi, A., Donà, R., Donzaud, C., Dornic, D., Dörr, M., Durocher, M., Eberl, T., Van Eijk, D., El Bojaddaini, I., Elsaesser, D., Enzenhöfer, A., Ferrara, G., Fusco, L.A., Gal, T., Garufi, F., Gauchery, S., Geißelsöder, S., Gialanella, L., Giorgio, E., Giuliante, A., Gozzini, S.R., Gracia-Ruiz, R., Graf, K., Grasso, D., Grégoire, T., Grella, G., Hallmann, S., van Haren, H., Heid, T., Heijboer, A., Hekalo, A., Hernandez-Rey, J.J., Hofestädt, J., Illuminati, G., James, C.W., Jongen, M., Jongewaard, B., de Jong, M., de Jong, P., Kadler, M., Kalaczynski, P., Kalekin, O., Katz, U.F., Khan Chowdhury, N.R., Kieft, G., Kießling, D., Koffeman, E.N., Kooijman, P., Kouchner, A., Kreter, M., Kulikovskiy, V., Lahmann, R., Le Breton, A., Leone, F., Leonora, E., Levi, G., Lincetto, M., Lonardo, A., Longhitano, F., Lotze, M., Loucatos, S., Maggi, G., Manczak, J., Mannheim, K., Margiotta, A., Marinelli, A., Markou, C., Martin, L., Martínez-Mora, J.A., Martini, A., Marzaioli, F., Mele, R., Melis, K.W., Migliozzi, P., Migneco, E., Mijakowski, P., Mollo, C.M., Morganti, M., Moser, M., Moussa, A., Muller, R., Musumeci, M., Nauta, L., Navas, S., Nicolau, C.A., Nielsen, C., Organokov, M., Orlando, A., Panagopoulos, V., Papalashvili, G., Papaleo, R., Pavalas, G.E., Pellegrini, G., Pellegrino, C., Pérez Romero, J., Perrin-Terrin, M., Piattelli, P., Pikounis, K., Pisanti, O., Poirè, C., Polydefki, G., Poma, G.E., Popa, V., Post, M., Pradier, T., Pühlhofer, G., Pulvirenti, S., Quinn, L., Raffaelli, F., Randazzo, N., Razzaque, S., Real, D., Resvanis, L., Reubelt, J., Riccobene, G., Richer, M., Rovelli, A., Salvadori, I., Samtleben, D.F.E., Sánchez-Losa, A., Sanguineti, M., Santangelo, A., Sapienza, P., Schermer, B., Sciacca, V., Seneca, J., Sgura, I., Shanidze, R., Sharma, A., Simeone, F., Sinopoulou, A., Spisso, B., Spurio, M., Stavropoulos, D., Steijger, J., Stellacci, S.M., Strandberg, B., Stransky, D., Stüven, T., Taiuti, M., Tatone, F., Tayalati, Y., Tenllado, E., Thakore, T., Timmer, P., Trovato, A., Tsagkli, S., Tzamariudaki, E., Tzanetatos, D., Valieri, C., Vallage, B., Van Elewyck, V., Versari, F., Viola, S., Vivolo, D., Volkert, M., de Waardt, L., Wilms, J., de Wolf, E., Zaborov, D., Zornoza, J.D., and Zúñiga, J.

Abstract

The Hamamatsu R12199-02 3-inch photomultiplier tube is the photodetector chosen for the first phase of the KM3NeT neutrino telescope. About 7000 photomultipliers have been characterised for dark count rate, timing spread and spurious pulses. The quantum efficiency, the gain and the peak-to-valley ratio have also been measured for a sub-sample in order to determine parameter values needed as input to numerical simulations of the detector.

Published

2018

6. Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change

Author

Amélineau, F., primary, Fort, J., additional, Mathewson, P. D., additional, Speirs, D. C., additional, Courbin, N., additional, Perret, S., additional, Porter, W. P., additional, Wilson, R. J., additional, and Grémillet, D., additional

Published

2018

7. Intrinsic limits on resolutions in muon- and electron-neutrino charged-current events in the KM3NeT/ORCA detector

Author

Adrián-Martínez, S., Ageron, M., Aiello, S., Albert, A., Amélineau, F., Anassontzis, E.G., André, M., Androulakis, G., Anghinolfi, M., Anton, G., Ardid, M., Avgitas, T., Barbarino, G., Barbarito, E., Baret, B., Barrios-Martí, J., Belias, A., Berbee, E., van den Berg, A., Bertin, V., Beurthey, S., van Beveren, V., Beverini, N., Biagi, S., Biagioni, A., Billault, M., Bondì, M., Bormuth, R., Bouhadef, B., Bourlis, G., Bourret, S., Boutonnet, C., Bouwhuis, M., Bozza, C., Bruijn, R., Brunner, J., Buis, E., Buompane, R., Busto, J., Cacopardo, G., Caillat, L., Calamai, M., Calvo, D., Capone, A., Caramete, L., Cecchini, S., Celli, S., Champion, C., Cherubini, S., Chiarella, V., Chiarelli, L., Chiarusi, T., Circella, M., Classen, L., Cobas, D., Cocimano, R., Coelho, J.A.B., Coleiro, A., Colonges, S., Coniglione, R., Cordelli, M., Cosquer, A., Coyle, P., Creusot, A., Cuttone, G., D’Amato, C., D’Amico, A., D’Onofrio, A., De Bonis, G., De Sio, C., Di Palma, I., Díaz, A.F., Distefano, C., Donzaud, C., Dornic, D., Dorosti-Hasankiadeh, Q., Drakopoulou, E., Drouhin, D., Durocher, M., Eberl, T., Eichie, S., van Eijk, D., El Bojaddaini, I., Elsaesser, D., Enzenhöfer, A., Favaro, M., Fermani, P., Ferrara, G., Frascadore, G., Furini, M., Fusco, L.A., Gal, T., Galatà, S., Garufi, F., Gay, P., Gebyehu, M., Giacomini, F., Gialanella, L., Giordano, V., Gizani, N., Gracia, R., Graf, K., Grégoire, T., Grella, G., Grmek, A., Guerzoni, M., Habel, R., Hallmann, S., van Haren, H., Harissopulos, S., Heid, T., Heijboer, A., Heine, E., Henrys, S., Hernandez-Rey, J.J., Hevinga, M., Hofestädt, J., Hugon, C.M.F., Illuminati, G., James, C.W., Jansweijerf, P., Jongen, M., de Jong, M., Kadler, M., Kalekin, O., Kappes, A., Katz, U.F., Keller, P., Kieft, G., Kießling, D., Koffeman, E.N., Kooijman, P., Kouchner, A., Kreter, M., Kulikovskiy, V., Lahmann, R., Lamare, P., Larosa, G., Leisos, A., Leone, F., Leonora, E., Lindsey Clark, M., Liolios, A., Llorens Alvarez, C.D., Lo Presti, D., Löhner, H., Lonardo, A., Lotze, M., Loucatos, S., Maccioni, E., Mannheim, K., Manzali, M., Margiotta, A., Margotti, A., Marinelli, A., Maris, O., Markou, C., Martínez-Mora, J.A., Martini, A., Marzaioli, F., Mele, R., Melis, K.W., Michael, T., Migliozzi, P., Migneco, E., Mijakowski, P., Miraglia, A., Mollo, C.M., Mongelli, M., Morganti, M., Moussa, A., Musico, P., Musumeci, M., Navas, S., Nicolau, C.A., Olcina, I., Olivetto, C., Orlando, A., Orzelli, A., Pancaldi, G., Papaikonomou, A., Papaleo, R., Pavalas, G.E., Peek, H., Pellegrini, G., Pellegrino, C., Perrina, C., Pfutzner, M., Piattelli, P., Pikounis, K., Pleinert, M.-O., Poma, G.E., Popa, V., Pradier, T., Pratolongo, F., Pühlhofer, G., Pulvirenti, S., Quinn, L., Racca, C., Raffaelli, F., Randazzo, N., Rauch, T., Real, D., Resvanis, L., Reubelt, J., Riccobene, G., Rossi, C., Rovelli, A., Saldaña, M., Salvadori, I., Samtleben, D.F.E., Sánchez García, A., Sánchez-Losa, A., Sanguineti, M., Santangelo, A., Santonocito, D., Sapienza, P., Schimmel, F., Schmelling, J., Schnabel, J., Sciacca, V., Sedita, M., Seitz, T., Sgura, I., Simeone, F., Sipala, V., Spisso, B., Spurio, M., Stavropoulos, G., Steijger, J., Stellacci, S.M., Stransky, D., Taiuti, M., Tayalati, Y., Terrasi, F., Tézier, D., Theraube, S., Timmer, P., Tönnis, C., Trasatti, L., Travaglini, R., Trovato, A., Tsirigotis, A., Tzamarias, S., Tzamariudaki, E., Vallage, B., Van Elewyck, V., Vermeulen, J., Versari, F., Vicini, P., Viola, S., Vivolo, D., Volkert, M., Wiggers, L., Wilms, J., de Wolf, E., Zachariadou, K., Zani, S., Zornoza, J.D., Zúñiga, J., Adrián-Martínez, S., Ageron, M., Aiello, S., Albert, A., Amélineau, F., Anassontzis, E.G., André, M., Androulakis, G., Anghinolfi, M., Anton, G., Ardid, M., Avgitas, T., Barbarino, G., Barbarito, E., Baret, B., Barrios-Martí, J., Belias, A., Berbee, E., van den Berg, A., Bertin, V., Beurthey, S., van Beveren, V., Beverini, N., Biagi, S., Biagioni, A., Billault, M., Bondì, M., Bormuth, R., Bouhadef, B., Bourlis, G., Bourret, S., Boutonnet, C., Bouwhuis, M., Bozza, C., Bruijn, R., Brunner, J., Buis, E., Buompane, R., Busto, J., Cacopardo, G., Caillat, L., Calamai, M., Calvo, D., Capone, A., Caramete, L., Cecchini, S., Celli, S., Champion, C., Cherubini, S., Chiarella, V., Chiarelli, L., Chiarusi, T., Circella, M., Classen, L., Cobas, D., Cocimano, R., Coelho, J.A.B., Coleiro, A., Colonges, S., Coniglione, R., Cordelli, M., Cosquer, A., Coyle, P., Creusot, A., Cuttone, G., D’Amato, C., D’Amico, A., D’Onofrio, A., De Bonis, G., De Sio, C., Di Palma, I., Díaz, A.F., Distefano, C., Donzaud, C., Dornic, D., Dorosti-Hasankiadeh, Q., Drakopoulou, E., Drouhin, D., Durocher, M., Eberl, T., Eichie, S., van Eijk, D., El Bojaddaini, I., Elsaesser, D., Enzenhöfer, A., Favaro, M., Fermani, P., Ferrara, G., Frascadore, G., Furini, M., Fusco, L.A., Gal, T., Galatà, S., Garufi, F., Gay, P., Gebyehu, M., Giacomini, F., Gialanella, L., Giordano, V., Gizani, N., Gracia, R., Graf, K., Grégoire, T., Grella, G., Grmek, A., Guerzoni, M., Habel, R., Hallmann, S., van Haren, H., Harissopulos, S., Heid, T., Heijboer, A., Heine, E., Henrys, S., Hernandez-Rey, J.J., Hevinga, M., Hofestädt, J., Hugon, C.M.F., Illuminati, G., James, C.W., Jansweijerf, P., Jongen, M., de Jong, M., Kadler, M., Kalekin, O., Kappes, A., Katz, U.F., Keller, P., Kieft, G., Kießling, D., Koffeman, E.N., Kooijman, P., Kouchner, A., Kreter, M., Kulikovskiy, V., Lahmann, R., Lamare, P., Larosa, G., Leisos, A., Leone, F., Leonora, E., Lindsey Clark, M., Liolios, A., Llorens Alvarez, C.D., Lo Presti, D., Löhner, H., Lonardo, A., Lotze, M., Loucatos, S., Maccioni, E., Mannheim, K., Manzali, M., Margiotta, A., Margotti, A., Marinelli, A., Maris, O., Markou, C., Martínez-Mora, J.A., Martini, A., Marzaioli, F., Mele, R., Melis, K.W., Michael, T., Migliozzi, P., Migneco, E., Mijakowski, P., Miraglia, A., Mollo, C.M., Mongelli, M., Morganti, M., Moussa, A., Musico, P., Musumeci, M., Navas, S., Nicolau, C.A., Olcina, I., Olivetto, C., Orlando, A., Orzelli, A., Pancaldi, G., Papaikonomou, A., Papaleo, R., Pavalas, G.E., Peek, H., Pellegrini, G., Pellegrino, C., Perrina, C., Pfutzner, M., Piattelli, P., Pikounis, K., Pleinert, M.-O., Poma, G.E., Popa, V., Pradier, T., Pratolongo, F., Pühlhofer, G., Pulvirenti, S., Quinn, L., Racca, C., Raffaelli, F., Randazzo, N., Rauch, T., Real, D., Resvanis, L., Reubelt, J., Riccobene, G., Rossi, C., Rovelli, A., Saldaña, M., Salvadori, I., Samtleben, D.F.E., Sánchez García, A., Sánchez-Losa, A., Sanguineti, M., Santangelo, A., Santonocito, D., Sapienza, P., Schimmel, F., Schmelling, J., Schnabel, J., Sciacca, V., Sedita, M., Seitz, T., Sgura, I., Simeone, F., Sipala, V., Spisso, B., Spurio, M., Stavropoulos, G., Steijger, J., Stellacci, S.M., Stransky, D., Taiuti, M., Tayalati, Y., Terrasi, F., Tézier, D., Theraube, S., Timmer, P., Tönnis, C., Trasatti, L., Travaglini, R., Trovato, A., Tsirigotis, A., Tzamarias, S., Tzamariudaki, E., Vallage, B., Van Elewyck, V., Vermeulen, J., Versari, F., Vicini, P., Viola, S., Vivolo, D., Volkert, M., Wiggers, L., Wilms, J., de Wolf, E., Zachariadou, K., Zani, S., Zornoza, J.D., and Zúñiga, J.

Abstract

Studying atmospheric neutrino oscillations in the few-GeV range with a multi-megaton detector promises to determine the neutrino mass hierarchy. This is the main science goal pursued by the future KM3NeT/ORCA water Cherenkov detector in the Mediterranean Sea. In this paper, the processes that limit the obtainable resolution in both energy and direction in charged-current neutrino events in the ORCA detector are investigated. These processes include the composition of the hadronic fragmentation products, the subsequent particle propagation and the photon-sampling fraction of the detector. GEANT simulations of neutrino interactions in seawater produced by GENIE are used to study the effects in the 1-20 GeV range. It is found that fluctuations in the hadronic cascade in conjunction with the variation of the inelasticity y are most detrimental to the resolutions. The effect of limited photon sampling in the detector is of significantly less importance. These results will therefore also be applicable to similar detectors/media, such as those in ice.

Published

2017

8. Report of the Working Group on Zooplankton Ecology 2014. Reykiavik (Iceland), 24-27/03/2014.

Author

ICES, Antajan, E. (Elvire), Bouch, P., Bucklin, A. (Ann), Castellani, C. (Claudia), Chicharo, A. (Alexandra), Cook, K. (Kathryn), Falkenhaug, T. (Tone), Fileman, E. (Elaine), Gaard, E., Gislason, A. (Astthor), Gorokhova, E. (Elena), Harris, R.P. (Roger), Head, E. (Erica), Iriarte, A., Jonásdóttir, S. (Sigrún), Kalaus, M., Kobari, T. (Toru), Lehtiniemi, M. (Maiju), Margonski, P. (Piotr), O'Brien, T. (Todd), Peters, J. (Jana), Petursdottir, H., Pitois, S. (Sophie), Postel, L. (Lutz), Rubene-Aispure, G. (Gunta), dos-Santos, A. (Antonina), Strömberg, P., Wiebe, P. (Peter), Amélineau, F., Melle, W., Ove-Möller, K. (Klas), Yebra, L. (Lidia), ICES, Antajan, E. (Elvire), Bouch, P., Bucklin, A. (Ann), Castellani, C. (Claudia), Chicharo, A. (Alexandra), Cook, K. (Kathryn), Falkenhaug, T. (Tone), Fileman, E. (Elaine), Gaard, E., Gislason, A. (Astthor), Gorokhova, E. (Elena), Harris, R.P. (Roger), Head, E. (Erica), Iriarte, A., Jonásdóttir, S. (Sigrún), Kalaus, M., Kobari, T. (Toru), Lehtiniemi, M. (Maiju), Margonski, P. (Piotr), O'Brien, T. (Todd), Peters, J. (Jana), Petursdottir, H., Pitois, S. (Sophie), Postel, L. (Lutz), Rubene-Aispure, G. (Gunta), dos-Santos, A. (Antonina), Strömberg, P., Wiebe, P. (Peter), Amélineau, F., Melle, W., Ove-Möller, K. (Klas), and Yebra, L. (Lidia)

Published

2014

9. Pseudo-tumeur inflammatoire médiastinale : Une observation

Author

Agard, C., Sagan, C., Gaillard, F., Capron, F., Amelineau, F., Guesnier, B., Hamidou, M., Léauté, F., and Barrier, J.H.

Published

2003

10. Le centre Jean Guillon du CHU de Nantesexemple d'une permanence d'accès aux soins de santé rattachée à un service de médecine interne

Author

Agard, C., Rouiller, B., Fillaudeau, S., Bacha, D., Amelineau, F., Plaçais, C., Coutant, A., Pasquier, V., Arnould, M., Saupin, C., Lombrail, P., and Barrier, J.

Published

2002

11. Individual quality overwrites carry-over effects across the annual cycle of a long-distance migrant.

Author

Léandri-Breton DJ, Elliott KH, Tarroux A, Moe B, Jouanneau W, Amélineau F, Angelier F, Blévin P, Sandøy Bråthen V, Fauchald P, Gabrielsen GW, Goutte A, Parenteau C, Tartu S, Legagneux P, and Chastel O

Subjects

Animals, Female, Male, Energy Metabolism, Animal Migration, Charadriiformes physiology, Seasons, Reproduction

Abstract

In seasonal environments, the fitness of animals depends upon the successful integration of life-history stages throughout their annual cycle. Failing to do so can lead to negative carry-over effects where individuals are transitioning into the next season in different states, consequently affecting their future performance. However, carry-over effects can be masked by individual quality when individuals vary in their efficiency at acquiring resources year after year (i.e. 'quality'), leading to cross-seasonal consistency in individual performance. Here we investigated the relative importance of carry-over effects and individual quality in determining cross-seasonal interactions and consequences for breeding success over the full annual cycle of a migratory seabird (black-legged kittiwake Rissa tridactyla). We monitored the reproduction and annual movement of kittiwakes over 13 years using geolocators to estimate their breeding success, distribution and winter energy expenditure. We combined this with an experimental approach (clutch removal experiment, 2 years) to manipulate the reproductive effort irrespective of individual quality. Piecewise path analyses showed that successful breeders reproduced earlier and were more likely to breed successfully again the following year. This positive interaction among consecutive breeding stages disappeared after controlling for individual quality, suggesting that quality was dominant in determining seasonal interactions. Moreover, controlling experimentally for individual quality revealed underlying carry-over effects that were otherwise masked by quality, with breeding costs paid in higher energy expenditure and delayed onset of reproduction. We highlight the need to combine an experimental approach along with long-term data while assessing apparent carry-over effects in wild animals, and their potential impact on fitness and population demography., (© 2024 The Author(s). Journal of Animal Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.)

Published

2024

12. Seabirds reveal mercury distribution across the North Atlantic.

Author

Albert C, Moe B, Strøm H, Grémillet D, Brault-Favrou M, Tarroux A, Descamps S, Bråthen VS, Merkel B, Åström J, Amélineau F, Angelier F, Anker-Nilssen T, Chastel O, Christensen-Dalsgaard S, Danielsen J, Elliott K, Erikstad KE, Ezhov A, Fauchald P, Gabrielsen GW, Gavrilo M, Hanssen SA, Helgason HH, Johansen MK, Kolbeinsson Y, Krasnov Y, Langset M, Lemaire J, Lorentsen SH, Olsen B, Patterson A, Plumejeaud-Perreau C, Reiertsen TK, Systad GH, Thompson PM, Lindberg Thórarinsson T, Bustamante P, and Fort J

Subjects

Animals, Atlantic Ocean, Arctic Regions, Greenland, Environmental Monitoring methods, Birds, Food Chain, Water Pollutants, Chemical analysis, Ecosystem, Mercury analysis, Feathers chemistry

Abstract

Mercury (Hg) is a heterogeneously distributed toxicant affecting wildlife and human health. Yet, the spatial distribution of Hg remains poorly documented, especially in food webs, even though this knowledge is essential to assess large-scale risk of toxicity for the biota and human populations. Here, we used seabirds to assess, at an unprecedented population and geographic magnitude and high resolution, the spatial distribution of Hg in North Atlantic marine food webs. To this end, we combined tracking data of 837 seabirds from seven different species and 27 breeding colonies located across the North Atlantic and Atlantic Arctic together with Hg analyses in feathers representing individual seabird contamination based on their winter distribution. Our results highlight an east-west gradient in Hg concentrations with hot spots around southern Greenland and the east coast of Canada and a cold spot in the Barents and Kara Seas. We hypothesize that those gradients are influenced by eastern (Norwegian Atlantic Current and West Spitsbergen Current) and western (East Greenland Current) oceanic currents and melting of the Greenland Ice Sheet. By tracking spatial Hg contamination in marine ecosystems and through the identification of areas at risk of Hg toxicity, this study provides essential knowledge for international decisions about where the regulation of pollutants should be prioritized., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

13. Timing of spring departure of long distance migrants correlates with previous year's conditions at their breeding site.

Author

Amélineau F, Delbart N, Schwemmer P, Marja R, Fort J, Garthe S, Elts J, Delaporte P, Rousseau P, Duraffour F, and Bocher P

Subjects

Animals, Movement, Seasons, Animal Migration, Climate Change

Abstract

Precise timing of migration is crucial for animals targeting seasonal resources at locations encountered across their annual cycle. Upon departure, long-distance migrants need to anticipate unknown environmental conditions at their arrival site, and they do so with their internal annual clock. Here, we tested the hypothesis that long-distance migrants synchronize their circannual clock according to the phenology of their environment during the breeding season and therefore adjust their spring departure date according to the conditions encountered at their breeding site the year before. To this end, we used tracking data of Eurasian curlews from different locations and combined movement data with satellite-extracted green-up dates at their breeding site. The spring departure date was better explained by green-up date of the previous year, while arrival date at the breeding site was better explained by latitude and longitude of the breeding site, suggesting that other factors impacted migration timing en route . On a broader temporal scale, our results suggest that long-distance migrants may be able to adjust their migration timing to advancing spring dates in the context of climate change.

Published

2021

14. Seasonal variation of mercury contamination in Arctic seabirds: A pan-Arctic assessment.

Author

Albert C, Helgason HH, Brault-Favrou M, Robertson GJ, Descamps S, Amélineau F, Danielsen J, Dietz R, Elliott K, Erikstad KE, Eulaers I, Ezhov A, Fitzsimmons MG, Gavrilo M, Golubova E, Grémillet D, Hatch S, Huffeldt NP, Jakubas D, Kitaysky A, Kolbeinsson Y, Krasnov Y, Lorentsen SH, Lorentzen E, Mallory ML, Merkel B, Merkel FR, Montevecchi W, Mosbech A, Olsen B, Orben RA, Patterson A, Provencher J, Plumejeaud C, Pratte I, Reiertsen TK, Renner H, Rojek N, Romano M, Strøm H, Systad GH, Takahashi A, Thiebot JB, Thórarinsson TL, Will AP, Wojczulanis-Jakubas K, Bustamante P, and Fort J

Subjects

Animals, Arctic Regions, Birds, Environmental Monitoring, Feathers chemistry, Seasons, Mercury analysis

Abstract

Mercury (Hg) is a natural trace element found in high concentrations in top predators, including Arctic seabirds. Most current knowledge about Hg concentrations in Arctic seabirds relates to exposure during the summer breeding period when researchers can easily access seabirds at colonies. However, the few studies focused on winter have shown higher Hg concentrations during the non-breeding period than breeding period in several tissues. Hence, improving knowledge about Hg exposure during the non-breeding period is crucial to understanding the threats and risks encountered by these species year-round. We used feathers of nine migratory alcid species occurring at high latitudes to study bird Hg exposure during both the breeding and non-breeding periods. Overall, Hg concentrations during the non-breeding period were ~3 times higher than during the breeding period. In addition, spatial differences were apparent within and between the Atlantic and Pacific regions. While Hg concentrations during the non-breeding period were ~9 times and ~3 times higher than during the breeding period for the West and East Atlantic respectively, Hg concentrations in the Pacific during the non-breeding period were only ~1.7 times higher than during the breeding period. In addition, individual Hg concentrations during the non-breeding period for most of the seabird colonies were above 5 μg g -1 dry weight (dw), which is considered to be the threshold at which deleterious effects are observed, suggesting that some breeding populations might be vulnerable to non-breeding Hg exposure. Since wintering area locations, and migration routes may influence seasonal Hg concentrations, it is crucial to improve our knowledge about spatial ecotoxicology to fully understand the risks associated with Hg contamination in Arctic seabirds., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2020. Published by Elsevier B.V. All rights reserved.)

Published

2021

15. Arctic climate change and pollution impact little auk foraging and fitness across a decade.

Author

Amélineau F, Grémillet D, Harding AMA, Walkusz W, Choquet R, and Fort J

Abstract

Ongoing global changes apply drastic environmental forcing onto Arctic marine ecosystems, particularly through ocean warming, sea-ice shrinkage and enhanced pollution. To test impacts on arctic marine ecological functioning, we used a 12-year integrative study of little auks (Alle alle), the most abundant seabird in the Atlantic Arctic. We monitored the foraging ecology, reproduction, survival and body condition of breeding birds, and we tested linkages between these biological variables and a set of environmental parameters including sea-ice concentration (SIC) and mercury contamination. Little auks showed substantial plasticity in response to SIC, with deeper and longer dives but less time spent underwater and more time flying when SIC decreased. Their diet also contained less lipid-rich ice-associated prey when SIC decreased. Further, in contrast to former studies conducted at the annual scale, little auk fitness proxies were impacted by environmental changes: Adult body condition and chick growth rate were negatively linked to SIC and mercury contamination. However, no trend was found for adult survival despite high inter-annual variability. Our results suggest that potential benefits of milder climatic conditions in East Greenland may be offset by increasing pollution in the Arctic. Overall, our study stresses the importance of long-term studies integrating ecology and ecotoxicology.

Published

2019

16. Where to Forage in the Absence of Sea Ice? Bathymetry As a Key Factor for an Arctic Seabird.

Author

Amélineau F, Grémillet D, Bonnet D, Le Bot T, and Fort J

Subjects

Animals, Arctic Regions, Climate Change, Greenland, Ice Cover, Seawater, Zooplankton, Charadriiformes physiology, Ecosystem, Global Warming

Abstract

The earth is warming at an alarming rate, especially in the Arctic, where a marked decline in sea ice cover may have far-ranging consequences for endemic species. Little auks, endemic Arctic seabirds, are key bioindicators as they forage in the marginal ice zone and feed preferentially on lipid-rich Arctic copepods and ice-associated amphipods sensitive to the consequences of global warming. We tested how little auks cope with an ice-free foraging environment during the breeding season. To this end, we took advantage of natural variation in sea ice concentration along the east coast of Greenland. We compared foraging and diving behaviour, chick diet and growth and adult body condition between two years, in the presence versus nearby absence of sea ice in the vicinity of their breeding site. Moreover, we sampled zooplankton at sea when sea ice was absent to evaluate prey location and little auk dietary preferences. Little auks foraged in the same areas both years, irrespective of sea ice presence/concentration, and targeted the shelf break and the continental shelf. We confirmed that breeding little auks showed a clear preference for larger copepod species to feed their chick, but caught smaller copepods and nearly no ice-associated amphipod when sea ice was absent. Nevertheless, these dietary changes had no impact on chick growth and adult body condition. Our findings demonstrate the importance of bathymetry for profitable little auk foraging, whatever the sea-ice conditions. Our investigations, along with recent studies, also confirm more flexibility than previously predicted for this key species in a warming Arctic.

Published

2016

17. Does temporal variation of mercury levels in Arctic seabirds reflect changes in global environmental contamination, or a modification of Arctic marine food web functioning?

Author

Fort J, Grémillet D, Traisnel G, Amélineau F, and Bustamante P

Subjects

Animals, Arctic Regions, Charadriiformes metabolism, Climate Change, Copepoda, Ecology, Ecosystem, Environmental Pollution analysis, Environmental Pollution statistics & numerical data, Feathers chemistry, Greenland, Mercury analysis, Seasons, Zooplankton metabolism, Birds metabolism, Environmental Monitoring, Environmental Pollutants metabolism, Food Chain, Mercury metabolism

Abstract

Studying long-term trends of contaminants in Arctic biota is essential to better understand impacts of anthropogenic activities and climate change on the exposure of sensitive species and marine ecosystems. We concurrently measured temporal changes (2006-2014) in mercury (Hg) contamination of little auks (Alle alle; the most abundant Arctic seabird) and in their major zooplankton prey species (Calanoid copepods, Themisto libellula, Gammarus spp.). We found an increasing contamination of the food-chain in East Greenland during summer over the last decade. More specifically, bird contamination (determined by body feather analyses) has increased at a rate of 3.4% per year. Conversely, bird exposure to Hg during winter in the northwest Atlantic (determined by head feather analyses) decreased over the study period (at a rate of 1.5% per year), although winter concentrations remained consistently higher than during summer. By combining mercury levels measured in birds and zooplankton to isotopic analyses, our results demonstrate that inter-annual variations of Hg levels in little auks reflect changes in food-chain contamination, rather than a reorganization of the food web and a modification of seabird trophic ecology. They therefore underline the value of little auks, and Arctic seabirds in general, as bio-indicators of long-term changes in environmental contamination., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

18. Arctic warming: nonlinear impacts of sea-ice and glacier melt on seabird foraging.

Author

Grémillet D, Fort J, Amélineau F, Zakharova E, Le Bot T, Sala E, and Gavrilo M

Subjects

Animals, Arctic Regions, Charadriiformes anatomy & histology, Charadriiformes growth & development, Ice Cover, Models, Biological, Nonlinear Dynamics, Remote Sensing Technology, Russia, Charadriiformes physiology, Climate Change, Feeding Behavior

Abstract

Arctic climate change has profound impacts on the cryosphere, notably via shrinking sea-ice cover and retreating glaciers, and it is essential to evaluate and forecast the ecological consequences of such changes. We studied zooplankton-feeding little auks (Alle alle), a key sentinel species of the Arctic, at their northernmost breeding site in Franz-Josef Land (80°N), Russian Arctic. We tested the hypothesis that little auks still benefit from pristine arctic environmental conditions in this remote area. To this end, we analysed remote sensing data on sea-ice and coastal glacier dynamics collected in our study area across 1979-2013. Further, we recorded little auk foraging behaviour using miniature electronic tags attached to the birds in the summer of 2013, and compared it with similar data collected at three localities across the Atlantic Arctic. We also compared current and historical data on Franz-Josef Land little auk diet, morphometrics and chick growth curves. Our analyses reveal that summer sea-ice retreated markedly during the last decade, leaving the Franz-Josef Land archipelago virtually sea-ice free each summer since 2005. This had a profound impact on little auk foraging, which lost their sea-ice-associated prey. Concomitantly, large coastal glaciers retreated rapidly, releasing large volumes of melt water. Zooplankton is stunned by cold and osmotic shock at the boundary between glacier melt and coastal waters, creating new foraging hotspots for little auks. Birds therefore switched from foraging at distant ice-edge localities, to highly profitable feeding at glacier melt-water fronts within <5 km of their breeding site. Through this behavioural plasticity, little auks maintained their chick growth rates, but showed a 4% decrease in adult body mass. Our study demonstrates that arctic cryosphere changes may have antagonistic ecological consequences on coastal trophic flow. Such nonlinear responses complicate modelling exercises of current and future polar ecosystem dynamics., (© 2015 John Wiley & Sons Ltd.)

Published

2015

19. Windscape and tortuosity shape the flight costs of northern gannets.

Author

Amélineau F, Péron C, Lescroël A, Authier M, Provost P, and Grémillet D

Subjects

Acceleration, Animals, Appetitive Behavior, Diving, Feeding Behavior, Female, Male, Wind, Birds physiology, Energy Metabolism, Flight, Animal

Abstract

When animals move across a landscape, they alternate between active searching phases in areas with high prey density and commuting phases towards and in-between profitable feeding patches. Such active searching movements are more sinuous than travelling movements, and supposedly more costly in energy. Here we provide an empirical validation of this long-lasting assumption. To this end, we evaluated simultaneously energy expenditure and trajectory in northern gannets (Morus bassanus) using GPS loggers, dive recorders and three-dimensional accelerometers. Three behavioural states were determined from GPS data: foraging, when birds actively searched for prey (high tortuosity, medium speed); travelling, when birds were commuting (straight trajectory, high speed); and resting (straight trajectory, low speed). Overall dynamic body acceleration, calculated from acceleration data, was used as a proxy for energy expenditure during flight. The impact of windscape characteristics (wind force and direction) upon flight costs was also tested. Energy expenditure of northern gannets was higher during sinuous foraging flight than during more rectilinear travelling flight, demonstrating that turns are indeed costly. Yet wind force and direction also strongly shaped flight energy expenditure; within any behavioural state it was less costly to fly with the wind than against it, and less costly to fly with strong winds. Despite the major flight costs of wind action, birds did not fully optimize their flight track relative to wind direction, probably because of prey distributions relative to the coastline and wind predictability. Our study illustrates how both tortuosity and windscape shape the foraging costs of marine predators such as northern gannets.

Published

2014