Your search keyword '"Metzger, Benjamin"' showing total 140 results

1. Methods to detect spatial biases in tracking studies caused by differential representativeness of individuals, populations and time

Author

Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Péron, Clara, Reyes-González, José Manuel, Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, and Ramos, Raül

Published

2023

2. The effects of temporally distinct light pollution from ships on nocturnal colony attendance in a threatened seabird

Author

Austad, Martin, Oppel, Steffen, Crymble, James, Greetham, Hannah R., Sahin, Dilek, Lago, Paulo, Metzger, Benjamin J., and Quillfeldt, Petra

Published

2023

3. Correction to: Feather stable isotopes (δ2 Hf and δ13Cf) identify the Sub-Saharan wintering grounds of turtle doves from Europe

Author

Marx, Melanie, Schumm, Yvonne R., Kardynal, Kevin J., Hobson, Keith A., Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitris, Metzger, Benjamin, Cecere, Jacopo G., Spina, Fernando, Cianchetti-Benedetti, Marco, Frahnert, Sylke, Voigt, Christian C., Lormée, Hervé, Eraud, Cyril, and Quillfeldt, Petra

Published

2023

4. Year-round behavioural time budgets of common woodpigeons inferred from acceleration data using machine learning

Author

Masello, Juan F., Rast, Wanja, Schumm, Yvonne R., Metzger, Benjamin, and Quillfeldt, Petra

Published

2023

5. Should I stay or should I fly? Migration phenology, individual-based migration decision and seasonal changes in foraging behaviour of Common Woodpigeons

Author

Schumm, Yvonne R., Masello, Juan F., Cohou, Valerie, Mourguiart, Philippe, Metzger, Benjamin, Rösner, Sascha, and Quillfeldt, Petra

Published

2022

6. Prevalence and genetic diversity of avian haemosporidian parasites in wild bird species of the order Columbiformes

Author

Schumm, Yvonne R., Bakaloudis, Dimitris, Barboutis, Christos, Cecere, Jacopo G., Eraud, Cyril, Fischer, Dominik, Hering, Jens, Hillerich, Klaus, Lormée, Hervé, Mader, Viktoria, Masello, Juan F., Metzger, Benjamin, Rocha, Gregorio, Spina, Fernando, and Quillfeldt, Petra

Published

2021

7. Feather stable isotopes (δ2Hf and δ13Cf) identify the Sub-Saharan wintering grounds of turtle doves from Europe

Author

Marx, Melanie, Schumm, Yvonne R., Kardynal, Kevin J., Hobson, Keith A., Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitris, Metzger, Benjamin, Cecere, Jacopo G., Spina, Fernando, Cianchetti-Benedetti, Marco, Frahnert, Sylke, Voigt, Christian C., Lormée, Hervé, Eraud, Cyril, and Quillfeldt, Petra

Published

2022

8. Year-round spatial distribution and migration phenology of a rapidly declining trans-Saharan migrant—evidence of winter movements and breeding site fidelity in European turtle doves

Author

Schumm, Yvonne R., Metzger, Benjamin, Neuling, Eric, Austad, Martin, Galea, Nicholas, Barbara, Nicholas, and Quillfeldt, Petra

Published

2021

9. Spatial scales of marine conservation management for breeding seabirds

Author

Oppel, Steffen, Bolton, Mark, Carneiro, Ana P.B., Dias, Maria P., Green, Jonathan A., Masello, Juan F., Phillips, Richard A., Owen, Ellie, Quillfeldt, Petra, Beard, Annalea, Bertrand, Sophie, Blackburn, Jez, Boersma, P. Dee, Borges, Alder, Broderick, Annette C., Catry, Paulo, Cleasby, Ian, Clingham, Elizabeth, Creuwels, Jeroen, Crofts, Sarah, Cuthbert, Richard J., Dallmeijer, Hanneke, Davies, Delia, Davies, Rachel, Dilley, Ben J., Dinis, Herculano Andrade, Dossa, Justine, Dunn, Michael J., Efe, Marcio A., Fayet, Annette L., Figueiredo, Leila, Frederico, Adelcides Pereira, Gjerdrum, Carina, Godley, Brendan J., Granadeiro, José Pedro, Guilford, Tim, Hamer, Keith C., Hazin, Carolina, Hedd, April, Henry, Leeann, Hernández-Montero, Marcos, Hinke, Jefferson, Kokubun, Nobuo, Leat, Eliza, Tranquilla, Laura McFarlane, Metzger, Benjamin, Militão, Teresa, Montrond, Gilson, Mullié, Wim, Padget, Oliver, Pearmain, Elizabeth J., Pollet, Ingrid L., Pütz, Klemens, Quintana, Flavio, Ratcliffe, Norman, Ronconi, Robert A., Ryan, Peter G., Saldanha, Sarah, Shoji, Akiko, Sim, Jolene, Small, Cleo, Soanes, Louise, Takahashi, Akinori, Trathan, Phil, Trivelpiece, Wayne, Veen, Jan, Wakefield, Ewan, Weber, Nicola, Weber, Sam, Zango, Laura, Daunt, Francis, Ito, Motohiro, Harris, Michael P., Newell, Mark A., Wanless, Sarah, González-Solís, Jacob, and Croxall, John

Published

2018

10. Pre-laying movements of Yelkouan Shearwaters (Puffinus yelkouan) in the Central Mediterranean

Author

Gatt, Marie Claire, Lago, Paulo, Austad, Martin, Bonnet-Lebrun, Anne-Sophie, and Metzger, Benjamin J.

Published

2019

11. Seabird mortality induced by land-based artificial lights

Author

Rodríguez, Airam, Holmes, Nick D., Ryan, Peter G., Wilson, Kerry-Jayne, Faulquier, Lucie, Murillo, Yovana, Raine, André F., Penniman, Jay F., Neves, Verónica, Rodríguez, Beneharo, Negro, Juan J., Chiaradia, André, Dann, Peter, Anderson, Tracy, Metzger, Benjamin, Shirai, Masaki, Deppe, Lorna, Wheeler, Jennifer, Hodum, Peter, Gouveia, Catia, Carmo, Vanda, Carreira, Gilberto P., Delgado-Alburqueque, Luis, Guerra-Correa, Carlos, Couzi, François-Xavier, Travers, Marc, and Le Corre, Matthieu

Published

2017

12. Global assessment of marine plastic exposure risk for oceanic birds

Author

Clark, Bethany L., primary, Carneiro, Ana P. B., additional, Pearmain, Elizabeth J., additional, Rouyer, Marie-Morgane, additional, Clay, Thomas A., additional, Cowger, Win, additional, Phillips, Richard A., additional, Manica, Andrea, additional, Hazin, Carolina, additional, Eriksen, Marcus, additional, González-Solís, Jacob, additional, Adams, Josh, additional, Albores-Barajas, Yuri V., additional, Alfaro-Shigueto, Joanna, additional, Alho, Maria Saldanha, additional, Araujo, Deusa Teixeira, additional, Arcos, José Manuel, additional, Arnould, John P. Y., additional, Barbosa, Nadito J. P., additional, Barbraud, Christophe, additional, Beard, Annalea M., additional, Beck, Jessie, additional, Bell, Elizabeth A., additional, Bennet, Della G., additional, Berlincourt, Maud, additional, Biscoito, Manuel, additional, Bjørnstad, Oskar K., additional, Bolton, Mark, additional, Booth Jones, Katherine A., additional, Borg, John J., additional, Bourgeois, Karen, additional, Bretagnolle, Vincent, additional, Bried, Joël, additional, Briskie, James V., additional, Brooke, M. de L., additional, Brownlie, Katherine C., additional, Bugoni, Leandro, additional, Calabrese, Licia, additional, Campioni, Letizia, additional, Carey, Mark J., additional, Carle, Ryan D., additional, Carlile, Nicholas, additional, Carreiro, Ana R., additional, Catry, Paulo, additional, Catry, Teresa, additional, Cecere, Jacopo G., additional, Ceia, Filipe R., additional, Cherel, Yves, additional, Choi, Chang-Yong, additional, Cianchetti-Benedetti, Marco, additional, Clarke, Rohan H., additional, Cleeland, Jaimie B., additional, Colodro, Valentina, additional, Congdon, Bradley C., additional, Danielsen, Jóhannis, additional, De Pascalis, Federico, additional, Deakin, Zoe, additional, Dehnhard, Nina, additional, Dell’Omo, Giacomo, additional, Delord, Karine, additional, Descamps, Sébastien, additional, Dilley, Ben J., additional, Dinis, Herculano A., additional, Dubos, Jerome, additional, Dunphy, Brendon J., additional, Emmerson, Louise M., additional, Fagundes, Ana Isabel, additional, Fayet, Annette L., additional, Felis, Jonathan J., additional, Fischer, Johannes H., additional, Freeman, Amanda N. D., additional, Fromant, Aymeric, additional, Gaibani, Giorgia, additional, García, David, additional, Gjerdrum, Carina, additional, Gomes, Ivandra Soeli Gonçalves Correia, additional, Forero, Manuela G., additional, Granadeiro, José P., additional, Grecian, W. James, additional, Grémillet, David, additional, Guilford, Tim, additional, Hallgrimsson, Gunnar Thor, additional, Halpin, Luke R., additional, Hansen, Erpur Snær, additional, Hedd, April, additional, Helberg, Morten, additional, Helgason, Halfdan H., additional, Henry, Leeann M., additional, Hereward, Hannah F. R., additional, Hernandez-Montero, Marcos, additional, Hindell, Mark A., additional, Hodum, Peter J., additional, Imperio, Simona, additional, Jaeger, Audrey, additional, Jessopp, Mark, additional, Jodice, Patrick G. R., additional, Jones, Carl G., additional, Jones, Christopher W., additional, Jónsson, Jón Einar, additional, Kane, Adam, additional, Kapelj, Sven, additional, Kim, Yuna, additional, Kirk, Holly, additional, Kolbeinsson, Yann, additional, Kraemer, Philipp L., additional, Krüger, Lucas, additional, Lago, Paulo, additional, Landers, Todd J., additional, Lavers, Jennifer L., additional, Le Corre, Matthieu, additional, Leal, Andreia, additional, Louzao, Maite, additional, Madeiros, Jeremy, additional, Magalhães, Maria, additional, Mallory, Mark L., additional, Masello, Juan F., additional, Massa, Bruno, additional, Matsumoto, Sakiko, additional, McDuie, Fiona, additional, McFarlane Tranquilla, Laura, additional, Medrano, Fernando, additional, Metzger, Benjamin J., additional, Militão, Teresa, additional, Montevecchi, William A., additional, Montone, Rosalinda C., additional, Navarro-Herrero, Leia, additional, Neves, Verónica C., additional, Nicholls, David G., additional, Nicoll, Malcolm A. C., additional, Norris, Ken, additional, Oppel, Steffen, additional, Oro, Daniel, additional, Owen, Ellie, additional, Padget, Oliver, additional, Paiva, Vítor H., additional, Pala, David, additional, Pereira, Jorge M., additional, Péron, Clara, additional, Petry, Maria V., additional, de Pina, Admilton, additional, Pina, Ariete T. Moreira, additional, Pinet, Patrick, additional, Pistorius, Pierre A., additional, Pollet, Ingrid L., additional, Porter, Benjamin J., additional, Poupart, Timothée A., additional, Powell, Christopher D. L., additional, Proaño, Carolina B., additional, Pujol-Casado, Júlia, additional, Quillfeldt, Petra, additional, Quinn, John L., additional, Raine, Andre F., additional, Raine, Helen, additional, Ramírez, Iván, additional, Ramos, Jaime A., additional, Ramos, Raül, additional, Ravache, Andreas, additional, Rayner, Matt J., additional, Reid, Timothy A., additional, Robertson, Gregory J., additional, Rocamora, Gerard J., additional, Rollinson, Dominic P., additional, Ronconi, Robert A., additional, Rotger, Andreu, additional, Rubolini, Diego, additional, Ruhomaun, Kevin, additional, Ruiz, Asunción, additional, Russell, James C., additional, Ryan, Peter G., additional, Saldanha, Sarah, additional, Sanz-Aguilar, Ana, additional, Sardà-Serra, Mariona, additional, Satgé, Yvan G., additional, Sato, Katsufumi, additional, Schäfer, Wiebke C., additional, Schoombie, Stefan, additional, Shaffer, Scott A., additional, Shah, Nirmal, additional, Shoji, Akiko, additional, Shutler, Dave, additional, Sigurðsson, Ingvar A., additional, Silva, Mónica C., additional, Small, Alison E., additional, Soldatini, Cecilia, additional, Strøm, Hallvard, additional, Surman, Christopher A., additional, Takahashi, Akinori, additional, Tatayah, Vikash R. V., additional, Taylor, Graeme A., additional, Thomas, Robert J., additional, Thompson, David R., additional, Thompson, Paul M., additional, Thórarinsson, Thorkell L., additional, Vicente-Sastre, Diego, additional, Vidal, Eric, additional, Wakefield, Ewan D., additional, Waugh, Susan M., additional, Weimerskirch, Henri, additional, Wittmer, Heiko U., additional, Yamamoto, Takashi, additional, Yoda, Ken, additional, Zavalaga, Carlos B., additional, Zino, Francis J., additional, and Dias, Maria P., additional

Published

2023

13. Global assessment of marine plastic exposure risk for oceanic birds

Author

Clark, Bethany L., Carneiro, Ana P. B., Pearmain, Elizabeth J., Rouyer, Marie-morgane, Clay, Thomas A., Cowger, Win, Phillips, Richard A., Manica, Andrea, Hazin, Carolina, Eriksen, Marcus, González-solís, Jacob, Adams, Josh, Albores-barajas, Yuri V., Alfaro-shigueto, Joanna, Alho, Maria Saldanha, Araujo, Deusa Teixeira, Arcos, José Manuel, Arnould, John P. Y., Barbosa, Nadito J. P., Barbraud, Christophe, Beard, Annalea M., Beck, Jessie, Bell, Elizabeth A., Bennet, Della G., Berlincourt, Maud, Biscoito, Manuel, Bjørnstad, Oskar K., Bolton, Mark, Booth Jones, Katherine A., Borg, John J., Bourgeois, Karen, Bretagnolle, Vincent, Bried, Joël, Briskie, James V., Brooke, M. De L., Brownlie, Katherine C., Bugoni, Leandro, Calabrese, Licia, Campioni, Letizia, Carey, Mark J., Carle, Ryan D., Carlile, Nicholas, Carreiro, Ana R., Catry, Paulo, Catry, Teresa, Cecere, Jacopo G., Ceia, Filipe R., Cherel, Yves, Choi, Chang-yong, Cianchetti-benedetti, Marco, Clarke, Rohan H., Cleeland, Jaimie B., Colodro, Valentina, Congdon, Bradley C., Danielsen, Jóhannis, De Pascalis, Federico, Deakin, Zoe, Dehnhard, Nina, Dell’omo, Giacomo, Delord, Karine, Descamps, Sébastien, Dilley, Ben J., Dinis, Herculano A., Dubos, Jerome, Dunphy, Brendon J., Emmerson, Louise M., Fagundes, Ana Isabel, Fayet, Annette L., Felis, Jonathan J., Fischer, Johannes H., Freeman, Amanda N. D., Fromant, Aymeric, Gaibani, Giorgia, García, David, Gjerdrum, Carina, Gomes, Ivandra Soeli Gonçalves Correia, Forero, Manuela G., Granadeiro, José P., Grecian, W. James, Grémillet, David, Guilford, Tim, Hallgrimsson, Gunnar Thor, Halpin, Luke R., Hansen, Erpur Snær, Hedd, April, Helberg, Morten, Helgason, Halfdan H., Henry, Leeann M., Hereward, Hannah F. R., Hernandez-montero, Marcos, Hindell, Mark A., Hodum, Peter J., Imperio, Simona, Jaeger, Audrey, Jessopp, Mark, Jodice, Patrick G. R., Jones, Carl G., Jones, Christopher W., Jónsson, Jón Einar, Kane, Adam, Kapelj, Sven, Kim, Yuna, Kirk, Holly, Kolbeinsson, Yann, Kraemer, Philipp L., Krüger, Lucas, Lago, Paulo, Landers, Todd J., Lavers, Jennifer L., Le Corre, Matthieu, Leal, Andreia, Louzao, Maite, Madeiros, Jeremy, Magalhães, Maria, Mallory, Mark L., Masello, Juan F., Massa, Bruno, Matsumoto, Sakiko, Mcduie, Fiona, Mcfarlane Tranquilla, Laura, Medrano, Fernando, Metzger, Benjamin J., Militão, Teresa, Montevecchi, William A., Montone, Rosalinda C., Navarro-herrero, Leia, Neves, Verónica C., Nicholls, David G., Nicoll, Malcolm A. C., Norris, Ken, Oppel, Steffen, Oro, Daniel, Owen, Ellie, Padget, Oliver, Paiva, Vítor H., Pala, David, Pereira, Jorge M., Péron, Clara, Petry, Maria V., De Pina, Admilton, Pina, Ariete T. Moreira, Pinet, Patrick, Pistorius, Pierre A., Pollet, Ingrid L., Porter, Benjamin J., Poupart, Timothée A., Powell, Christopher D. L., Proaño, Carolina B., Pujol-casado, Júlia, Quillfeldt, Petra, Quinn, John L., Raine, Andre F., Raine, Helen, Ramírez, Iván, Ramos, Jaime A., Ramos, Raül, Ravache, Andreas, Rayner, Matt J., Reid, Timothy A., Robertson, Gregory J., Rocamora, Gerard J., Rollinson, Dominic P., Ronconi, Robert A., Rotger, Andreu, Rubolini, Diego, Ruhomaun, Kevin, Ruiz, Asunción, Russell, James C., Ryan, Peter G., Saldanha, Sarah, Sanz-aguilar, Ana, Sardà-serra, Mariona, Satgé, Yvan G., Sato, Katsufumi, Schäfer, Wiebke C., Schoombie, Stefan, Shaffer, Scott A., Shah, Nirmal, Shoji, Akiko, Shutler, Dave, Sigurðsson, Ingvar A., Silva, Mónica C., Small, Alison E., Soldatini, Cecilia, Strøm, Hallvard, Surman, Christopher A., Takahashi, Akinori, Tatayah, Vikash R. V., Taylor, Graeme A., Thomas, Robert J., Thompson, David R., Thompson, Paul M., Thórarinsson, Thorkell L., Vicente-sastre, Diego, Vidal, Eric, Wakefield, Ewan D., Waugh, Susan M., Weimerskirch, Henri, Wittmer, Heiko U., Yamamoto, Takashi, Yoda, Ken, Zavalaga, Carlos B., Zino, Francis J., Dias, Maria P., Clark, Bethany L., Carneiro, Ana P. B., Pearmain, Elizabeth J., Rouyer, Marie-morgane, Clay, Thomas A., Cowger, Win, Phillips, Richard A., Manica, Andrea, Hazin, Carolina, Eriksen, Marcus, González-solís, Jacob, Adams, Josh, Albores-barajas, Yuri V., Alfaro-shigueto, Joanna, Alho, Maria Saldanha, Araujo, Deusa Teixeira, Arcos, José Manuel, Arnould, John P. Y., Barbosa, Nadito J. P., Barbraud, Christophe, Beard, Annalea M., Beck, Jessie, Bell, Elizabeth A., Bennet, Della G., Berlincourt, Maud, Biscoito, Manuel, Bjørnstad, Oskar K., Bolton, Mark, Booth Jones, Katherine A., Borg, John J., Bourgeois, Karen, Bretagnolle, Vincent, Bried, Joël, Briskie, James V., Brooke, M. De L., Brownlie, Katherine C., Bugoni, Leandro, Calabrese, Licia, Campioni, Letizia, Carey, Mark J., Carle, Ryan D., Carlile, Nicholas, Carreiro, Ana R., Catry, Paulo, Catry, Teresa, Cecere, Jacopo G., Ceia, Filipe R., Cherel, Yves, Choi, Chang-yong, Cianchetti-benedetti, Marco, Clarke, Rohan H., Cleeland, Jaimie B., Colodro, Valentina, Congdon, Bradley C., Danielsen, Jóhannis, De Pascalis, Federico, Deakin, Zoe, Dehnhard, Nina, Dell’omo, Giacomo, Delord, Karine, Descamps, Sébastien, Dilley, Ben J., Dinis, Herculano A., Dubos, Jerome, Dunphy, Brendon J., Emmerson, Louise M., Fagundes, Ana Isabel, Fayet, Annette L., Felis, Jonathan J., Fischer, Johannes H., Freeman, Amanda N. D., Fromant, Aymeric, Gaibani, Giorgia, García, David, Gjerdrum, Carina, Gomes, Ivandra Soeli Gonçalves Correia, Forero, Manuela G., Granadeiro, José P., Grecian, W. James, Grémillet, David, Guilford, Tim, Hallgrimsson, Gunnar Thor, Halpin, Luke R., Hansen, Erpur Snær, Hedd, April, Helberg, Morten, Helgason, Halfdan H., Henry, Leeann M., Hereward, Hannah F. R., Hernandez-montero, Marcos, Hindell, Mark A., Hodum, Peter J., Imperio, Simona, Jaeger, Audrey, Jessopp, Mark, Jodice, Patrick G. R., Jones, Carl G., Jones, Christopher W., Jónsson, Jón Einar, Kane, Adam, Kapelj, Sven, Kim, Yuna, Kirk, Holly, Kolbeinsson, Yann, Kraemer, Philipp L., Krüger, Lucas, Lago, Paulo, Landers, Todd J., Lavers, Jennifer L., Le Corre, Matthieu, Leal, Andreia, Louzao, Maite, Madeiros, Jeremy, Magalhães, Maria, Mallory, Mark L., Masello, Juan F., Massa, Bruno, Matsumoto, Sakiko, Mcduie, Fiona, Mcfarlane Tranquilla, Laura, Medrano, Fernando, Metzger, Benjamin J., Militão, Teresa, Montevecchi, William A., Montone, Rosalinda C., Navarro-herrero, Leia, Neves, Verónica C., Nicholls, David G., Nicoll, Malcolm A. C., Norris, Ken, Oppel, Steffen, Oro, Daniel, Owen, Ellie, Padget, Oliver, Paiva, Vítor H., Pala, David, Pereira, Jorge M., Péron, Clara, Petry, Maria V., De Pina, Admilton, Pina, Ariete T. Moreira, Pinet, Patrick, Pistorius, Pierre A., Pollet, Ingrid L., Porter, Benjamin J., Poupart, Timothée A., Powell, Christopher D. L., Proaño, Carolina B., Pujol-casado, Júlia, Quillfeldt, Petra, Quinn, John L., Raine, Andre F., Raine, Helen, Ramírez, Iván, Ramos, Jaime A., Ramos, Raül, Ravache, Andreas, Rayner, Matt J., Reid, Timothy A., Robertson, Gregory J., Rocamora, Gerard J., Rollinson, Dominic P., Ronconi, Robert A., Rotger, Andreu, Rubolini, Diego, Ruhomaun, Kevin, Ruiz, Asunción, Russell, James C., Ryan, Peter G., Saldanha, Sarah, Sanz-aguilar, Ana, Sardà-serra, Mariona, Satgé, Yvan G., Sato, Katsufumi, Schäfer, Wiebke C., Schoombie, Stefan, Shaffer, Scott A., Shah, Nirmal, Shoji, Akiko, Shutler, Dave, Sigurðsson, Ingvar A., Silva, Mónica C., Small, Alison E., Soldatini, Cecilia, Strøm, Hallvard, Surman, Christopher A., Takahashi, Akinori, Tatayah, Vikash R. V., Taylor, Graeme A., Thomas, Robert J., Thompson, David R., Thompson, Paul M., Thórarinsson, Thorkell L., Vicente-sastre, Diego, Vidal, Eric, Wakefield, Ewan D., Waugh, Susan M., Weimerskirch, Henri, Wittmer, Heiko U., Yamamoto, Takashi, Yoda, Ken, Zavalaga, Carlos B., Zino, Francis J., and Dias, Maria P.

Abstract

Plastic pollution is distributed patchily around the world’s oceans. Likewise, marine organisms that are vulnerable to plastic ingestion or entanglement have uneven distributions. Understanding where wildlife encounters plastic is crucial for targeting research and mitigation. Oceanic seabirds, particularly petrels, frequently ingest plastic, are highly threatened, and cover vast distances during foraging and migration. However, the spatial overlap between petrels and plastics is poorly understood. Here we combine marine plastic density estimates with individual movement data for 7137 birds of 77 petrel species to estimate relative exposure risk. We identify high exposure risk areas in the Mediterranean and Black seas, and the northeast Pacific, northwest Pacific, South Atlantic and southwest Indian oceans. Plastic exposure risk varies greatly among species and populations, and between breeding and non-breeding seasons. Exposure risk is disproportionately high for Threatened species. Outside the Mediterranean and Black seas, exposure risk is highest in the high seas and Exclusive Economic Zones (EEZs) of the USA, Japan, and the UK. Birds generally had higher plastic exposure risk outside the EEZ of the country where they breed. We identify conservation and research priorities, and highlight that international collaboration is key to addressing the impacts of marine plastic on wide-ranging species.

Published

2023

14. Supporting information S1 to “Methods to detect spatial biases in tracking studies caused by differential representativeness of individuals, populations, and time”

Author

Morera-Pujol, Virgin [morera.virginia@gmail.com], Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, Ramos, Raül, Morera-Pujol, Virgin [morera.virginia@gmail.com], Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, and Ramos, Raül

Published

2023

15. Supporting information S2 to “Methods to detect spatial biases in tracking studies caused by differential representativeness of individuals, populations, and time”

Author

Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, Ramos, Raül, Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, and Ramos, Raül

Published

2023

16. Methods to detect spatial biases in tracking studies caused by differential representativeness of individuals, populations and time

Author

Agencia Estatal de Investigación (España), European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, Ramos, Raül, Agencia Estatal de Investigación (España), European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, and Ramos, Raül

Abstract

Aim: Over the last decades, the study of movement through tracking data has grown exceeding the expectations of movement ecologists. This has posed new challenges, specifically when using individual tracking data to infer higher- level distributions (e.g. population and species). Sources of variability such as individual site fidelity (ISF), en-vironmental stochasticity over time, and space-use variability across species ranges must be considered, and their effects identified and corrected, to produce accurate estimates of spatial distribution using tracking data. Innovation: We developed R functions to detect the effect of these sources of vari-ability in the distribution of animal groups when inferred from individual tracking data. These procedures can be adapted for their use in most tracking datasets and tracking techniques. We demonstrated our procedures with simulated datasets and showed their applicability on a real-world dataset containing 1346 year- round migratory trips from 805 individuals of three closely related seabird species breeding in 34 colonies in the Mediterranean Sea and the Atlantic Ocean, spanning 10 years. We detected an effect of ISF in one of the colonies, but no effect of the environmental stochasticity on the distribution of birds for any of the species. We also identified among-colony variability in nonbreeding space use for one species, with significant effects of popu-lation size and longitude. Main conclusions: This work provides a useful, much- needed tool for researchers using animal tracking data to model species distributions or establish conservation measures. This methodology may be applied in studies using individual tracking data to accurately infer the distribution of a population or species and support the deline-ation of important areas for conservation based on tracking data. This step, designed to precede any analysis, has become increasingly relevant with the proliferation of studies using large tracking datasets that h

Published

2023

17. Global assessment of marine plastic exposure risk for oceanic birds

Author

Cambridge Conservation Initiative, Fondation Prince Albert II de Monaco, Natural Environment Research Council (UK), Clark, Bethany L., Carneiro, Ana P. B., Pearmain, Elizabeth J., Rouyer, Marie-Morgane, Clay, Thomas A., Cowger, Win, Phillips, Richard A., Manica, Andrea, Hazin, Carolina, Eriksen, Marcus, González-Solís, Jacob, Adams, Josh, Albores-Barajas, Yuri V., Alfaro-Shigueto, Joanna, Alho, Maria Saldanha, Araujo, Deusa Teixeira, Arcos, José Manuel, Arnould, John P. Y., Barbosa, Nadito J. P., Barbraud, Christophe, Beard, Annalea M., Beck, Jessie, Bell, Elizabeth A., Bennet, Della G., Berlincourt, Maud, Biscoito, Manuel, Bjørnstad, Oskar K., Bolton, Mark, Booth Jones, Katherine A., Borg, John J., Bourgeois, Karen, Bretagnolle, Vincent, Bried, Joël, Briskie, James V., Brooke, M de L., Brownlie, Katherine C., Bugoni, Leandro, Calabrese, Licia, Campioni, Letizia, Carey, Mark J., Carle, Ryan D., Carlile, Nicholas, Carreiro, Ana R., Catry, Paulo, Catry, Teresa, Cecere, Jacopo G., Ceia, Filipe R., Cherel, Yves, Choi, Chang-Yong, Cianchetti-Benedetti, Marco, Clarke, Rohan H., Cleeland, Jaimie B., Colodro, Valentina, Congdon, Bradley C., Danielsen, Jóhannis, De Pascalis, Federico, Deakin, Zoe, Dehnhard, Nina, Dell'Omo, Giacomo, Delord, Karine, Descamps, Sébastien, Dilley, Ben J., Dinis, Herculano A., Dubos, Jerome, Dunphy, Brendon J., Emmerson, Louise M., Fagundes, Ana Isabel, Fayet, Annette L., Felis, Jonathan J., Fischer, Johannes H., Freeman, Amanda N. D., Fromant, Aymeric, Gaibani, Giorgia, García, David, Gjerdrum, Carina, Gomes, Ivandra Soeli Gonçalves Correia, Forero, Manuela G., Granadeiro, José P., Grecian, W James, Grémillet, David, Guilford, Tim, Hallgrimsson, Gunnar Thor, Halpin, Luke R., Hansen, Erpur Snær, Hedd, April, Helberg, Morten, Helgason, Halfdan H., Henry, Leeann M., Hereward, Hannah F. R., Hernandez-Montero, Marcos, Hindell, Mark A., Hodum, Peter J., Imperio, Simona, Jaeger, Audrey, Jessopp, Mark, Jodice, Patrick G. R., Jones, Carl G, Jones, Christopher W., Jónsson, Jón Einar, Kane, Adam, Kapelj, Sven, Kim, Yuna, Kirk, Holly, Kolbeinsson, Yann, Kraemer, Philipp L., Krüger, Lucas, Lago, Paulo, Landers, Todd J., Lavers, Jennifer L., Le Corre, Matthieu, Leal, Andreia, Louzao, Maite, Madeiros, Jeremy, Magalhães, Maria, Mallory, Mark L., Masello, Juan F., Massa, Bruno, Matsumoto, Sakiko, McDuie, Fiona, McFarlane Tranquilla, Laura, Medrano, Fernando, Metzger, Benjamin J., Militão, Teresa, Montevecchi, William A., Montone, Rosalinda C., Navarro-Herrero, Leia, Neves, Verónica C., Nicholls, David G., Nicoll, Malcolm A .C., Norris, Ken, Oppel, Steffen, Oro, Daniel, Owen, Ellie, Padget, Oliver, Paiva, Vítor H., Pala, David, Pereira, Jorge M., Péron, Clara, Petry, Maria V., de Pina, Admilton, Pina, Ariete T Moreira, Pinet, Patrick, Pistorius, Pierre A., Pollet, Ingrid L., Porter, Benjamin J., Poupart, Timothée A., Powell, Christopher D. L., Proaño, Carolina B., Pujol-Casado, Júlia, Quillfeldt, Petra, Quinn, John L., Raine, Andre F., Raine, Helen, Ramírez, Iván, Ramos, Jaime A., Ramos, Raül, Ravache, Andreas, Rayner, Matt J., Reid, Timothy A., Robertson, Gregory J., Rocamora, Gerard J., Rollinson, Dominic P., Ronconi, Robert A., Rotger, Andreu, Rubolini, Diego, Ruhomaun, Kevin, Ruiz, Asunción, Russell, James C., Ryan, Peter G., Saldanha, Sarah, Sanz-Aguilar, Ana, Sardà-Serra, Mariona, Satgé, Yvan G., Sato, Katsufumi, Schäfer, Wiebke C., Schoombie, Stefan, Shaffer, Scott A., Shah, Nirmal, Shoji, Akiko, Shutler, Dave, Sigurðsson, Ingvar A., Silva, Mónica C., Small, Alison E., Soldatini, Cecilia, Strøm, Hallvard, Surman, Christopher A., Takahashi, Akinori, Tatayah, Vikash R. V., Taylor, Graeme A., Thomas, Robert J., Thompson, David R., Thompson, Paul M., Thórarinsson, Thorkell L., Vicente-Sastre, Diego, Vidal, Eric, Wakefield, Ewan D., Waugh, Susan M., Weimerskirch, Henri, Wittmer, Heiko U., Yamamoto, Takashi, Yoda, Ken, Zavalaga, Carlos B., Zino, Francis J., Dias, Maria P., Cambridge Conservation Initiative, Fondation Prince Albert II de Monaco, Natural Environment Research Council (UK), Clark, Bethany L., Carneiro, Ana P. B., Pearmain, Elizabeth J., Rouyer, Marie-Morgane, Clay, Thomas A., Cowger, Win, Phillips, Richard A., Manica, Andrea, Hazin, Carolina, Eriksen, Marcus, González-Solís, Jacob, Adams, Josh, Albores-Barajas, Yuri V., Alfaro-Shigueto, Joanna, Alho, Maria Saldanha, Araujo, Deusa Teixeira, Arcos, José Manuel, Arnould, John P. Y., Barbosa, Nadito J. P., Barbraud, Christophe, Beard, Annalea M., Beck, Jessie, Bell, Elizabeth A., Bennet, Della G., Berlincourt, Maud, Biscoito, Manuel, Bjørnstad, Oskar K., Bolton, Mark, Booth Jones, Katherine A., Borg, John J., Bourgeois, Karen, Bretagnolle, Vincent, Bried, Joël, Briskie, James V., Brooke, M de L., Brownlie, Katherine C., Bugoni, Leandro, Calabrese, Licia, Campioni, Letizia, Carey, Mark J., Carle, Ryan D., Carlile, Nicholas, Carreiro, Ana R., Catry, Paulo, Catry, Teresa, Cecere, Jacopo G., Ceia, Filipe R., Cherel, Yves, Choi, Chang-Yong, Cianchetti-Benedetti, Marco, Clarke, Rohan H., Cleeland, Jaimie B., Colodro, Valentina, Congdon, Bradley C., Danielsen, Jóhannis, De Pascalis, Federico, Deakin, Zoe, Dehnhard, Nina, Dell'Omo, Giacomo, Delord, Karine, Descamps, Sébastien, Dilley, Ben J., Dinis, Herculano A., Dubos, Jerome, Dunphy, Brendon J., Emmerson, Louise M., Fagundes, Ana Isabel, Fayet, Annette L., Felis, Jonathan J., Fischer, Johannes H., Freeman, Amanda N. D., Fromant, Aymeric, Gaibani, Giorgia, García, David, Gjerdrum, Carina, Gomes, Ivandra Soeli Gonçalves Correia, Forero, Manuela G., Granadeiro, José P., Grecian, W James, Grémillet, David, Guilford, Tim, Hallgrimsson, Gunnar Thor, Halpin, Luke R., Hansen, Erpur Snær, Hedd, April, Helberg, Morten, Helgason, Halfdan H., Henry, Leeann M., Hereward, Hannah F. R., Hernandez-Montero, Marcos, Hindell, Mark A., Hodum, Peter J., Imperio, Simona, Jaeger, Audrey, Jessopp, Mark, Jodice, Patrick G. R., Jones, Carl G, Jones, Christopher W., Jónsson, Jón Einar, Kane, Adam, Kapelj, Sven, Kim, Yuna, Kirk, Holly, Kolbeinsson, Yann, Kraemer, Philipp L., Krüger, Lucas, Lago, Paulo, Landers, Todd J., Lavers, Jennifer L., Le Corre, Matthieu, Leal, Andreia, Louzao, Maite, Madeiros, Jeremy, Magalhães, Maria, Mallory, Mark L., Masello, Juan F., Massa, Bruno, Matsumoto, Sakiko, McDuie, Fiona, McFarlane Tranquilla, Laura, Medrano, Fernando, Metzger, Benjamin J., Militão, Teresa, Montevecchi, William A., Montone, Rosalinda C., Navarro-Herrero, Leia, Neves, Verónica C., Nicholls, David G., Nicoll, Malcolm A .C., Norris, Ken, Oppel, Steffen, Oro, Daniel, Owen, Ellie, Padget, Oliver, Paiva, Vítor H., Pala, David, Pereira, Jorge M., Péron, Clara, Petry, Maria V., de Pina, Admilton, Pina, Ariete T Moreira, Pinet, Patrick, Pistorius, Pierre A., Pollet, Ingrid L., Porter, Benjamin J., Poupart, Timothée A., Powell, Christopher D. L., Proaño, Carolina B., Pujol-Casado, Júlia, Quillfeldt, Petra, Quinn, John L., Raine, Andre F., Raine, Helen, Ramírez, Iván, Ramos, Jaime A., Ramos, Raül, Ravache, Andreas, Rayner, Matt J., Reid, Timothy A., Robertson, Gregory J., Rocamora, Gerard J., Rollinson, Dominic P., Ronconi, Robert A., Rotger, Andreu, Rubolini, Diego, Ruhomaun, Kevin, Ruiz, Asunción, Russell, James C., Ryan, Peter G., Saldanha, Sarah, Sanz-Aguilar, Ana, Sardà-Serra, Mariona, Satgé, Yvan G., Sato, Katsufumi, Schäfer, Wiebke C., Schoombie, Stefan, Shaffer, Scott A., Shah, Nirmal, Shoji, Akiko, Shutler, Dave, Sigurðsson, Ingvar A., Silva, Mónica C., Small, Alison E., Soldatini, Cecilia, Strøm, Hallvard, Surman, Christopher A., Takahashi, Akinori, Tatayah, Vikash R. V., Taylor, Graeme A., Thomas, Robert J., Thompson, David R., Thompson, Paul M., Thórarinsson, Thorkell L., Vicente-Sastre, Diego, Vidal, Eric, Wakefield, Ewan D., Waugh, Susan M., Weimerskirch, Henri, Wittmer, Heiko U., Yamamoto, Takashi, Yoda, Ken, Zavalaga, Carlos B., Zino, Francis J., and Dias, Maria P.

Abstract

Plastic pollution is distributed patchily around the world's oceans. Likewise, marine organisms that are vulnerable to plastic ingestion or entanglement have uneven distributions. Understanding where wildlife encounters plastic is crucial for targeting research and mitigation. Oceanic seabirds, particularly petrels, frequently ingest plastic, are highly threatened, and cover vast distances during foraging and migration. However, the spatial overlap between petrels and plastics is poorly understood. Here we combine marine plastic density estimates with individual movement data for 7137 birds of 77 petrel species to estimate relative exposure risk. We identify high exposure risk areas in the Mediterranean and Black seas, and the northeast Pacific, northwest Pacific, South Atlantic and southwest Indian oceans. Plastic exposure risk varies greatly among species and populations, and between breeding and non-breeding seasons. Exposure risk is disproportionately high for Threatened species. Outside the Mediterranean and Black seas, exposure risk is highest in the high seas and Exclusive Economic Zones (EEZs) of the USA, Japan, and the UK. Birds generally had higher plastic exposure risk outside the EEZ of the country where they breed. We identify conservation and research priorities, and highlight that international collaboration is key to addressing the impacts of marine plastic on wide-ranging species.

Published

2023

18. Methods to detect spatial biases in tracking studies caused by differential representativeness of individuals, populations and time

Author

Morera‐Pujol, Virginia, primary, Catry, Paulo, additional, Magalhães, Maria, additional, Péron, Clara, additional, Reyes‐González, José Manuel, additional, Granadeiro, José Pedro, additional, Militão, Teresa, additional, Dias, Maria P., additional, Oro, Daniel, additional, Dell'Omo, Giacomo, additional, Müller, Martina, additional, Paiva, Vitor H., additional, Metzger, Benjamin, additional, Neves, Verónica, additional, Navarro, Joan, additional, Karris, Georgios, additional, Xirouchakis, Stavros, additional, Cecere, Jacopo G., additional, Zamora‐López, Antonio, additional, Forero, Manuela G., additional, Ouni, Ridha, additional, Romdhane, Mohamed Salah, additional, De Felipe, Fernanda, additional, Zajková, Zuzana, additional, Cruz‐Flores, Marta, additional, Grémillet, David, additional, González‐Solís, Jacob, additional, and Ramos, Raül, additional

Published

2022

19. Cory’s, Scopoli’s, and Cabo Verde shearwaters non-breeding locations [Dataset]

Author

Ramos, Raül [ramos@ub.edu], Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, Ramos, Raül, Ramos, Raül [ramos@ub.edu], Morera-Pujol, Virginia, Catry, Paulo, Magalhães, Maria, Perón, Clara, Reyes-González, José M., Granadeiro, José Pedro, Militão, Teresa, Dias, Maria P., Oro, Daniel, Dell'Omo, Giacomo, Müller, Martina, Paiva, Vitor H., Metzger, Benjamin, Neves, Verónica, Navarro, Joan, Karris, Georgios, Xirouchakis, Stavros, Cecere, Jacopo G., Zamora-López, Antonio, Forero, Manuela G., Ouni, Ridha, Romdhane, Mohamed Salah, De Felipe, Fernanda, Zajková, Zuzana, Cruz-Flores, Marta, Grémillet, David, González-Solís, Jacob, and Ramos, Raül

Abstract

on-breeding locations of Cory’s shearwaters (Calonectris borealis), Scopoli’s shearwaters (C. diomedea), and Cabo Verde shearwaters (C. edwardsii) tracked from the colonies of Berlenga, Chafarinas, Corvo, Faial, Graciosa, Montaña Clara, Pico, Selvagem, Sisargas, Terreros, Timanfaya, Veneguera, and Vila for Cory’s shearwaters; Cala Morell, Chafarinas, Filfla, Frioul, Giraglia, Gozo, Lavezzi, Linosa, Malta, Na Foradada, Na Pobra, Palomas, Pantaleu, Paximada, Porquerolles, Riou, Strofades, Tremiti, and Zembra for Scopoli’s shearwaters; and Curral Velho and Raso for Cabo Verde’s shearwaters. Animals were tracked between the years of 2006 and 2016, and data includes species, colony, unique identifiers for each bird and trip, latitude, longitude, year of tracking (1st year, 2nd year, etc.), and an ordering column that allows the positions to be ordered to form a track.

Published

2022

20. Feather stable isotopes (d2Hf and d13Cf) identify the Sub-Saharan wintering grounds of turtle doves from Europe

Author

Marx, Melanie, Schumm, Yvonne R., Kardynal, Kevin J., Hobson, Keith A., Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitris, Metzger, Benjamin, Cecere, Jacopo G., Spina, Fernando, Cianchetti-Benedetti, Marco, Frahnert, Sylke, Voigt, Christian C., Lormée, Hervé, Eraud, Cyril, Quillfeldt, Petra, and Justus Liebig University Giessen

Subjects

ddc:570

Published

2022

21. Global political responsibility for the conservation of albatrosses and large petrels

Author

Beal, Martin, Dias, Maria P., Phillips, Richard A., Oppel, Steffen, Hazin, Carolina, Pearmain, Elizabeth J., Adams, Josh, Anderson, David J., Antolos, Michelle, Arata, Javier A., Arcos, José Manuel, Arnould, John P. Y., Awkerman, Jill, Bell, Elizabeth, Bell, Mike, Carey, Mark, Carle, Ryan, Clay, Thomas A., Cleeland, Jaimie, Colodro, Valentina, Conners, Melinda, Cruz-flores, Marta, Cuthbert, Richard, Delord, Karine, Deppe, Lorna, Dilley, Ben J., Dinis, Herculano, Elliott, Graeme, De Felipe, Fernanda, Felis, Jonathan, Forero, Manuela G., Freeman, Amanda, Fukuda, Akira, González-solís, Jacob, Granadeiro, José Pedro, Hedd, April, Hodum, Peter, Igual, José Manuel, Jaeger, Audrey, Landers, Todd J., Le Corre, Mathieu, Makhado, Azwianewi, Metzger, Benjamin, Militão, Teresa, Montevecchi, William A., Morera-pujol, Virginia, Navarro-herrero, Leia, Nel, Deon, Nicholls, David, Oro, Daniel, Ouni, Ridha, Ozaki, Kiyoaki, Quintana, Flavio, Ramos, Raül, Reid, Tim, Reyes-gonzález, José Manuel, Robertson, Christopher, Robertson, Graham, Romdhane, Mohamed Salah, Ryan, Peter G., Sagar, Paul, Sato, Fumio, Schoombie, Stefan, Scofield, R. Paul, Shaffer, Scott A., Shah, Nirmal Jivan, Stevens, Kim L., Surman, Christopher, Suryan, Robert M., Takahashi, Akinori, Tatayah, Vikash, Taylor, Graeme, Thompson, David R., Torres, Leigh, Walker, Kath, Wanless, Ross, Waugh, Susan M., Weimerskirch, Henri, Yamamoto, Takashi, Zajkova, Zuzana, Zango, Laura, Catry, Paulo, Beal, Martin, Dias, Maria P., Phillips, Richard A., Oppel, Steffen, Hazin, Carolina, Pearmain, Elizabeth J., Adams, Josh, Anderson, David J., Antolos, Michelle, Arata, Javier A., Arcos, José Manuel, Arnould, John P. Y., Awkerman, Jill, Bell, Elizabeth, Bell, Mike, Carey, Mark, Carle, Ryan, Clay, Thomas A., Cleeland, Jaimie, Colodro, Valentina, Conners, Melinda, Cruz-flores, Marta, Cuthbert, Richard, Delord, Karine, Deppe, Lorna, Dilley, Ben J., Dinis, Herculano, Elliott, Graeme, De Felipe, Fernanda, Felis, Jonathan, Forero, Manuela G., Freeman, Amanda, Fukuda, Akira, González-solís, Jacob, Granadeiro, José Pedro, Hedd, April, Hodum, Peter, Igual, José Manuel, Jaeger, Audrey, Landers, Todd J., Le Corre, Mathieu, Makhado, Azwianewi, Metzger, Benjamin, Militão, Teresa, Montevecchi, William A., Morera-pujol, Virginia, Navarro-herrero, Leia, Nel, Deon, Nicholls, David, Oro, Daniel, Ouni, Ridha, Ozaki, Kiyoaki, Quintana, Flavio, Ramos, Raül, Reid, Tim, Reyes-gonzález, José Manuel, Robertson, Christopher, Robertson, Graham, Romdhane, Mohamed Salah, Ryan, Peter G., Sagar, Paul, Sato, Fumio, Schoombie, Stefan, Scofield, R. Paul, Shaffer, Scott A., Shah, Nirmal Jivan, Stevens, Kim L., Surman, Christopher, Suryan, Robert M., Takahashi, Akinori, Tatayah, Vikash, Taylor, Graeme, Thompson, David R., Torres, Leigh, Walker, Kath, Wanless, Ross, Waugh, Susan M., Weimerskirch, Henri, Yamamoto, Takashi, Zajkova, Zuzana, Zango, Laura, and Catry, Paulo

Abstract

Migratory marine species cross political borders and enter the high seas, where the lack of an effective global management framework for biodiversity leaves them vulnerable to threats. Here, we combine 10,108 tracks from 5775 individual birds at 87 sites with data on breeding population sizes to estimate the relative year-round importance of national jurisdictions and high seas areas for 39 species of albatrosses and large petrels. Populations from every country made extensive use of the high seas, indicating the stake each country has in the management of biodiversity in international waters. We quantified the links among national populations of these threatened seabirds and the regional fisheries management organizations (RFMOs) which regulate fishing in the high seas. This work makes explicit the relative responsibilities that each country and RFMO has for the management of shared biodiversity, providing invaluable information for the conservation and management of migratory species in the marine realm.

Published

2021

22. The Indo-European flyway : Opportunities and constraints reflected by Common Rosefinches breeding across Europe

Author

Lisovski, Simeon, Neumann, Roland, Albrecht, Tomas, Munclinger, Pavel, Ahola, Markus P., Bauer, Silke, Cepak, Jaroslav, Fransson, Thord, Jakobsson, Sven, Jaakkonen, Tuomo, Klvana, Petr, Kullberg, Cecilia, Laaksonen, Toni, Metzger, Benjamin, Piha, Markus, Shurulinkov, Peter, Stach, Robert, Ström, Kåre, Velmala, William, Briedis, Martins, Lisovski, Simeon, Neumann, Roland, Albrecht, Tomas, Munclinger, Pavel, Ahola, Markus P., Bauer, Silke, Cepak, Jaroslav, Fransson, Thord, Jakobsson, Sven, Jaakkonen, Tuomo, Klvana, Petr, Kullberg, Cecilia, Laaksonen, Toni, Metzger, Benjamin, Piha, Markus, Shurulinkov, Peter, Stach, Robert, Ström, Kåre, Velmala, William, and Briedis, Martins

Abstract

Aim: The configuration of the earth's landmasses influences global weather systems and spatiotemporal resource availability, thereby shaping biogeographical patterns and migratory routes of animals. Here, we aim to identify potential migratory barriers and corridors, as well as general migration strategies within the understudied Indo-European flyway. Location Europe, Central Asia. Major taxon studied Common rosefinches. Methods: We used a combination of theoretical optimization modelling and empirical tracking of Common Rosefinches (Carpodacus erythrinus) breeding across a large latitudinal gradient in Europe. First, we identified optimal migration routes driven by wind and resource availability along the Indo-European flyway. Second, we tracked rosefinches from five breeding populations using light-level geolocators. Finally, we compared to what extent empirical tracks overlapped with the modelled optimal routes. Results: In autumn, theoretical wind driven migration routes formed a broad-front corridor connecting Europe and the Indian Subcontinent while the theoretical resource driven routes formed a distinct north-south divide. The latter pattern also reflected the rosefinch tracks with all but the most southerly breeding birds making a northern detour towards non-breeding sites in Pakistan and India. In spring, the resource availability model predicted a similar migratory divide, however, the southern route seemed relatively more favourable and closely matched with the optimal wind driven migration routes. Spring tracking data showed larger overlap with the modelled wind driven migration routes compared to the resource driven routes. Main conclusions: Optimal wind and resource driven migration routes along the Indo-European flyway are seasonally specific and to a large extend do not overlap with one another. Under these conditions, migratory birds adopt seasonally distinct migration strategies following energy minimization strategy in autumn, driven by resource

Published

2021

23. Global political responsibility for the conservation of albatrosses and large petrels

Author

European Commission, National Science Foundation (US), Universidad de Barcelona, Ministerio de Educación y Ciencia (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Beal, Martin, Dias, Maria P., Phillips, Richard A., Oppel, Steffen, Hazin, Carolina, Pearmain, Elizabeth J., Adams, Josh, Anderson, David J., Antolos, Michelle, Arata, Javier A., Arcos, José Manuel, Arnould, John P. Y., Awkerman, Jill, Bell, Elizabeth, Bell, Mike, Carey, Mark, Carle, Ryan, Clay, Thomas A., Cleeland, Jaimie, Colodro, Valentina, Conners, Melinda, Cruz-Flores, Marta, Cuthbert, Richard, Delord, Karine, Deppe, Lorna, Dilley, Ben J., Dinis, Herculano, Elliott, Graeme, De Felipe, Fernanda, Felis, Jonathan, Forero, Manuela G., Freeman, Amanda, Fukuda, Akira, González-Solís, Jacob, Granadeiro, José Pedro, Hedd, April, Hodum, Peter, Igual, José Manuel, Jaeger, Audrey, Landers, Todd J., Le Corre, Matthieu, Makhado, Azwianewi, Metzger, Benjamin, Militão, Teresa, Montevecchi, William A., Morera-Pujol, Virginia, Navarro-Herrero, Leia, Nel, Deon, Nicholls, David, Oro, Daniel, Ouni, Ridha, Ozaki, Kiyoaki, Quintana, Flavio, Ramos, Raül, Reid, Tim, Reyes-González, José M., Robertson, Christopher, Robertson, Graham, Romdhane, Mohamed Salah, Ryan, Peter G., Sagar, Paul, Sato, Fumio, Schoombie, Stefan, Scofield, R. Paul, Shaffer, Scott A., Shah, Nirmal Jivan, Stevens, Kim L., Surman, Christopher, Suryan, Robert M., Takahashi, Akinori, Tatayah, Vikash, Taylor, Graeme, Thompson, David R., Torres, Leigh, Walker, Kath, Wanless, Ross M., Waugh, Susan M., Weimerskirch, Henri, Yamamoto, Takashi, Zajková, Zuzana, Zango, Laura, Catry, Paulo, European Commission, National Science Foundation (US), Universidad de Barcelona, Ministerio de Educación y Ciencia (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Beal, Martin, Dias, Maria P., Phillips, Richard A., Oppel, Steffen, Hazin, Carolina, Pearmain, Elizabeth J., Adams, Josh, Anderson, David J., Antolos, Michelle, Arata, Javier A., Arcos, José Manuel, Arnould, John P. Y., Awkerman, Jill, Bell, Elizabeth, Bell, Mike, Carey, Mark, Carle, Ryan, Clay, Thomas A., Cleeland, Jaimie, Colodro, Valentina, Conners, Melinda, Cruz-Flores, Marta, Cuthbert, Richard, Delord, Karine, Deppe, Lorna, Dilley, Ben J., Dinis, Herculano, Elliott, Graeme, De Felipe, Fernanda, Felis, Jonathan, Forero, Manuela G., Freeman, Amanda, Fukuda, Akira, González-Solís, Jacob, Granadeiro, José Pedro, Hedd, April, Hodum, Peter, Igual, José Manuel, Jaeger, Audrey, Landers, Todd J., Le Corre, Matthieu, Makhado, Azwianewi, Metzger, Benjamin, Militão, Teresa, Montevecchi, William A., Morera-Pujol, Virginia, Navarro-Herrero, Leia, Nel, Deon, Nicholls, David, Oro, Daniel, Ouni, Ridha, Ozaki, Kiyoaki, Quintana, Flavio, Ramos, Raül, Reid, Tim, Reyes-González, José M., Robertson, Christopher, Robertson, Graham, Romdhane, Mohamed Salah, Ryan, Peter G., Sagar, Paul, Sato, Fumio, Schoombie, Stefan, Scofield, R. Paul, Shaffer, Scott A., Shah, Nirmal Jivan, Stevens, Kim L., Surman, Christopher, Suryan, Robert M., Takahashi, Akinori, Tatayah, Vikash, Taylor, Graeme, Thompson, David R., Torres, Leigh, Walker, Kath, Wanless, Ross M., Waugh, Susan M., Weimerskirch, Henri, Yamamoto, Takashi, Zajková, Zuzana, Zango, Laura, and Catry, Paulo

Abstract

Migratory marine species cross political borders and enter the high seas, where the lack of an effective global management framework for biodiversity leaves them vulnerable to threats. Here, we combine 10,108 tracks from 5775 individual birds at 87 sites with data on breeding population sizes to estimate the relative year-round importance of national jurisdictions and high seas areas for 39 species of albatrosses and large petrels. Populations from every country made extensive use of the high seas, indicating the stake each country has in the management of biodiversity in international waters. We quantified the links among national populations of these threatened seabirds and the regional fisheries management organizations (RFMOs) which regulate fishing in the high seas. This work makes explicit the relative responsibilities that each country and RFMO has for the management of shared biodiversity, providing invaluable information for the conservation and management of migratory species in the marine realm.

Published

2021

24. Fat stores in a migratory bird: a reservoir of carotenoid pigments for times of need?

Author

Metzger, Benjamin J. and Bairlein, Franz

Published

2011

25. Garden Warbler, Sylvia borin, detect carotenoids in food but differ strongly in individual food choice

Author

Catoni, Carlo, Metzger, Benjamin, Schaefer, H. Martin, and Bairlein, Franz

Published

2011

26. Ungewöhnliche Fangmethoden Eissturmvogelberingung auf der Nordsee.

Author

Gottschling, Martin, Buchheim, Andreas, and Metzger, Benjamin

Subjects

OFFSHORE wind power plants, BIRD surveys, SEA birds, HYDROGRAPHIC surveying, TERNS, MARINE mammals

Abstract

The article informs about the revival of an uncommon capture method for ringing Northern Fulmars Fulmarus glacialis at sea. Topics include Bird trapping for scientific bird ringing can take place in all sorts of places, on different occasions and involve a wide variety of species; and the trapping method that has been proven to be safe for hardy seabirds when all guidelines are observed for acquired knowledge of "fishing" for fulmars on an undated Atlantic voyage.

Published

2022

27. Observations regarding the use of the aquaretic agent conivaptan for treatment of hyponatremia

Author

Metzger, Benjamin L., DeVita, Maria V., and Michelis, Michael F.

Published

2008

28. Global political responsibility for the conservation of albatrosses and large petrels

Author

Beal, Martin, primary, Dias, Maria P., additional, Phillips, Richard A., additional, Oppel, Steffen, additional, Hazin, Carolina, additional, Pearmain, Elizabeth J., additional, Adams, Josh, additional, Anderson, David J., additional, Antolos, Michelle, additional, Arata, Javier A., additional, Arcos, José Manuel, additional, Arnould, John P. Y., additional, Awkerman, Jill, additional, Bell, Elizabeth, additional, Bell, Mike, additional, Carey, Mark, additional, Carle, Ryan, additional, Clay, Thomas A., additional, Cleeland, Jaimie, additional, Colodro, Valentina, additional, Conners, Melinda, additional, Cruz-Flores, Marta, additional, Cuthbert, Richard, additional, Delord, Karine, additional, Deppe, Lorna, additional, Dilley, Ben J., additional, Dinis, Herculano, additional, Elliott, Graeme, additional, De Felipe, Fernanda, additional, Felis, Jonathan, additional, Forero, Manuela G., additional, Freeman, Amanda, additional, Fukuda, Akira, additional, González-Solís, Jacob, additional, Granadeiro, José Pedro, additional, Hedd, April, additional, Hodum, Peter, additional, Igual, José Manuel, additional, Jaeger, Audrey, additional, Landers, Todd J., additional, Le Corre, Matthieu, additional, Makhado, Azwianewi, additional, Metzger, Benjamin, additional, Militão, Teresa, additional, Montevecchi, William A., additional, Morera-Pujol, Virginia, additional, Navarro-Herrero, Leia, additional, Nel, Deon, additional, Nicholls, David, additional, Oro, Daniel, additional, Ouni, Ridha, additional, Ozaki, Kiyoaki, additional, Quintana, Flavio, additional, Ramos, Raül, additional, Reid, Tim, additional, Reyes-González, José Manuel, additional, Robertson, Christopher, additional, Robertson, Graham, additional, Romdhane, Mohamed Salah, additional, Ryan, Peter G., additional, Sagar, Paul, additional, Sato, Fumio, additional, Schoombie, Stefan, additional, Scofield, R. Paul, additional, Shaffer, Scott A., additional, Shah, Nirmal Jivan, additional, Stevens, Kim L., additional, Surman, Christopher, additional, Suryan, Robert M., additional, Takahashi, Akinori, additional, Tatayah, Vikash, additional, Taylor, Graeme, additional, Thompson, David R., additional, Torres, Leigh, additional, Walker, Kath, additional, Wanless, Ross, additional, Waugh, Susan M., additional, Weimerskirch, Henri, additional, Yamamoto, Takashi, additional, Zajkova, Zuzana, additional, Zango, Laura, additional, and Catry, Paulo, additional

Published

2021

29. The Indo‐European flyway: Opportunities and constraints reflected by Common Rosefinches breeding across Europe

Author

Lisovski, Simeon, primary, Neumann, Roland, additional, Albrecht, Tomas, additional, Munclinger, Pavel, additional, Ahola, Markus P., additional, Bauer, Silke, additional, Cepak, Jaroslav, additional, Fransson, Thord, additional, Jakobsson, Sven, additional, Jaakkonen, Tuomo, additional, Klvana, Petr, additional, Kullberg, Cecilia, additional, Laaksonen, Toni, additional, Metzger, Benjamin, additional, Piha, Markus, additional, Shurulinkov, Peter, additional, Stach, Robert, additional, Ström, Kåre, additional, Velmala, William, additional, and Briedis, Martins, additional

Published

2021

30. Using stable isotopes to assess population connectivity in the declining European Turtle Dove (Streptopelia turtur)

Author

Marx, Melanie, Rocha, Gregorio, Zehtindjiev, Pavel, Peev, Strahil, Bakaloudis, Dimitris, Metzger, Benjamin, Cecere, Jacopo G., Spina, Fernando, Cianchetti-Benedetti, Marco, Frahnert, Sylke, Gamauf, Anita, Voigt, Christian, and Quillfeldt, Petra

Subjects

IsoriX, feather samples, δ2H, breeding origins, lcsh:QH1-199.5, lcsh:QH540-549.5, lcsh:Ecology, lcsh:General. Including nature conservation, geographical distribution

Abstract

European Turtle Doves (Streptopelia turtur) are long‐distance migrants and have experienced a population decline of more than 78% since 1980. Their conservation depends on refined knowledge of breeding origins and population connectivity. Feathers collected at stopover sites, but molted at breeding grounds, provide an opportunity to assign birds to potential regions of origin using tissue stable hydrogen isotope values and relate those to a European feather hydrogen isoscape. Here, 101 feather samples from 13 different breeding countries were analyzed to calibrate the European hydrogen isoscape and 101 feather samples from Spanish, Italian, Maltese, Greek, and Bulgarian stopovers were assigned to potential regions of origin. The assigned range of origin for all 101 individuals grouped together agreed with known distribution patterns. Bulgarian samples were mostly assigned to Russian areas. Possible origins of Greek, Italian, Maltese, and Spanish samples ranged from central to southern Europe. Individual assignments highlighted four broad regions of origin, corresponding to a cool/humid to hot/dry temperature gradient. Proportions of birds assigned to these regions varied among birds sampled at different stopover sites. Therefore, our results provide important information about population connectivity and may be useful to evaluate possible influences of hunting on Turtle Dove populations.

Published

2020

31. Weak effects of geolocators on small birds: A meta‐analysis controlled for phylogeny and publication bias

Author

Brlík, Vojtěch, Koleček, Jaroslav, Burgess, Malcolm, Hahn, Steffen, Humple, Diana, Krist, Miloš, Ouwehand, Janne, Weiser, Emily L., Adamík, Peter, Alves, José A., Arlt, Debora, Barišić, Sanja, Becker, Detlef, Belda, Eduardo J., Beran, Václav, Both, Christiaan, Bravo, Susana P., Briedis, Martins, Chutný, Bohumír, Ćiković, Davor, Cooper, Nathan W., Costa, Joana S., Cueto, Víctor R., Emmenegger, Tamara, Fraser, Kevin, Gilg, Olivier, Guerrero, Marina, Hallworth, Michael T., Hewson, Chris, Jiguet, Frédéric, Johnson, James A., Kelly, Tosha, Kishkinev, Dmitry, Leconte, Michel, Lislevand, Terje, Lisovski, Simeon, López, Cosme, McFarland, Kent P., Marra, Peter P., Matsuoka, Steven M., Matyjasiak, Piotr, Meier, Christoph M., Metzger, Benjamin, Monrós, Juan S., Neumann, Roland, Newman, Amy, Norris, Ryan, Pärt, Tomas, Pavel, Václav, Perlut, Noah, Piha, Markus, Reneerkens, Jeroen, Rimmer, Christopher C., Roberto‐Charron, Amélie, Scandolara, Chiara, Sokolova, Natalia, Takenaka, Makiko, Tolkmitt, Dirk, Oosten, Herman, Wellbrock, Arndt H. J., Wheeler, Hazel, der Winden, Jan, Witte, Klaudia, Woodworth, Bradley K., Procházka, Petr, Dunn, Jenny, Brlík, Vojtěch, Koleček, Jaroslav, Burgess, Malcolm, Hahn, Steffen, Humple, Diana, Krist, Miloš, Ouwehand, Janne, Weiser, Emily L., Adamík, Peter, Alves, José A., Arlt, Debora, Barišić, Sanja, Becker, Detlef, Belda, Eduardo J., Beran, Václav, Both, Christiaan, Bravo, Susana P., Briedis, Martins, Chutný, Bohumír, Ćiković, Davor, Cooper, Nathan W., Costa, Joana S., Cueto, Víctor R., Emmenegger, Tamara, Fraser, Kevin, Gilg, Olivier, Guerrero, Marina, Hallworth, Michael T., Hewson, Chris, Jiguet, Frédéric, Johnson, James A., Kelly, Tosha, Kishkinev, Dmitry, Leconte, Michel, Lislevand, Terje, Lisovski, Simeon, López, Cosme, McFarland, Kent P., Marra, Peter P., Matsuoka, Steven M., Matyjasiak, Piotr, Meier, Christoph M., Metzger, Benjamin, Monrós, Juan S., Neumann, Roland, Newman, Amy, Norris, Ryan, Pärt, Tomas, Pavel, Václav, Perlut, Noah, Piha, Markus, Reneerkens, Jeroen, Rimmer, Christopher C., Roberto‐Charron, Amélie, Scandolara, Chiara, Sokolova, Natalia, Takenaka, Makiko, Tolkmitt, Dirk, Oosten, Herman, Wellbrock, Arndt H. J., Wheeler, Hazel, der Winden, Jan, Witte, Klaudia, Woodworth, Bradley K., Procházka, Petr, and Dunn, Jenny

Published

2020

32. Feather stable isotopes (δ2Hf and δ13Cf) identify the Sub-Saharan wintering grounds of turtle doves from Europe.

Author

Marx, Melanie, Schumm, Yvonne R., Kardynal, Kevin J., Hobson, Keith A., Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitris, Metzger, Benjamin, Cecere, Jacopo G., Spina, Fernando, Cianchetti-Benedetti, Marco, Frahnert, Sylke, Voigt, Christian C., Lormée, Hervé, Eraud, Cyril, and Quillfeldt, Petra

Subjects

STABLE isotopes, TURTLEDOVE, COLUMBIDAE, BIRD conservation, TURTLE conservation

Abstract

Conservation of migratory birds requires knowledge of breeding and nonbreeding ranges and the connections between them. European turtle doves (Streptopelia turtur) are Palearctic-African long-distance migrants with wintering areas in the Sub-Saharan belt that are classed as vulnerable due to strong population declines. However, detailed non-breeding locations of individuals from different migratory flyways are unknown. To identify wintering regions of turtle doves, we measured stable isotopes of feathers grown on the wintering grounds and used a dual-isotope (hydrogen (δ2Hf) and carbon (δ13Cf)) probabilistic assignment to analyse origins of individuals migrating through the western and central/eastern flyways. The most probable wintering areas for turtle dove samples from both flyways were in the western and central Sub-Sahara. However, we found differences in δ2Hf and δ13Cf values between turtle doves following different migratory routes (western vs central/eastern flyway). This result suggests a higher likelihood of origins in the central Sub-Sahara for central and eastern migrants, while turtle doves using the western flyway originated primarily in the western Sub-Sahara, highlighting the importance of both regions for the future conservation of turtle doves from European breeding populations. The establishment of migratory connectivity of populations requires sampling from birds from the European as well as Asian continent; however, we provide important results that can be used to test hypotheses regarding population declines resulting from factors experienced over the full annual cycle for some populations. [ABSTRACT FROM AUTHOR]

Published

2022

33. Keeping the clock set under the midnight sun: diurnal periodicity and synchrony of avian Isospora parasites cycle in the High Arctic

Author

DOLNIK, OLGA V., METZGER, BENJAMIN J., and LOONEN, MAARTEN J. J. E.

Published

2011

34. Weak effects of geolocators on small birds: A meta‐analysis controlled for phylogeny and publication bias

Author

Brlík, Vojtěch, primary, Koleček, Jaroslav, additional, Burgess, Malcolm, additional, Hahn, Steffen, additional, Humple, Diana, additional, Krist, Miloš, additional, Ouwehand, Janne, additional, Weiser, Emily L., additional, Adamík, Peter, additional, Alves, José A., additional, Arlt, Debora, additional, Barišić, Sanja, additional, Becker, Detlef, additional, Belda, Eduardo J., additional, Beran, Václav, additional, Both, Christiaan, additional, Bravo, Susana P., additional, Briedis, Martins, additional, Chutný, Bohumír, additional, Ćiković, Davor, additional, Cooper, Nathan W., additional, Costa, Joana S., additional, Cueto, Víctor R., additional, Emmenegger, Tamara, additional, Fraser, Kevin, additional, Gilg, Olivier, additional, Guerrero, Marina, additional, Hallworth, Michael T., additional, Hewson, Chris, additional, Jiguet, Frédéric, additional, Johnson, James A., additional, Kelly, Tosha, additional, Kishkinev, Dmitry, additional, Leconte, Michel, additional, Lislevand, Terje, additional, Lisovski, Simeon, additional, López, Cosme, additional, McFarland, Kent P., additional, Marra, Peter P., additional, Matsuoka, Steven M., additional, Matyjasiak, Piotr, additional, Meier, Christoph M., additional, Metzger, Benjamin, additional, Monrós, Juan S., additional, Neumann, Roland, additional, Newman, Amy, additional, Norris, Ryan, additional, Pärt, Tomas, additional, Pavel, Václav, additional, Perlut, Noah, additional, Piha, Markus, additional, Reneerkens, Jeroen, additional, Rimmer, Christopher C., additional, Roberto‐Charron, Amélie, additional, Scandolara, Chiara, additional, Sokolova, Natalia, additional, Takenaka, Makiko, additional, Tolkmitt, Dirk, additional, van Oosten, Herman, additional, Wellbrock, Arndt H. J., additional, Wheeler, Hazel, additional, van der Winden, Jan, additional, Witte, Klaudia, additional, Woodworth, Bradley K., additional, and Procházka, Petr, additional

Published

2019

35. Mortalidad de aves marinas producida por luces artificiales terrestres

Author

Rodríguez, Airam, Holmes, Nick, Ryan, Peter, Wilson, Jay, Faulquier, Lucie, Murillo, Yovana, Raine, André, Penniman, Jay, Neves, Verónica, Rodriguez, Beneharo, Negro, Juan, Chiaradia, André, Dann, Peter, Anderson, Tracy, Metzger, Benjamin, Shirai, Masaki, Deppe, Lorna, Wheeler, Jennifer, Hodum, Peter, Gouveia, Catia, Carmo, Vanda, Carreira, Gilberto, Delgado-Alburqueque, Luis, Corre, Carlos, Couzi, François-Xavier, Travers, Marc, Le Corre, Matthieu, University of Luxembourg [Luxembourg], Société d'Ornithologie de Polynésie, SEO/BirdLife, Delegacion de Canarias, Research Department, Phillip Island Nature Parks, Société d'études ornithologiques de la Réunion (SEOR), Ecologie marine tropicale dans les Océans Pacifique et Indien (ENTROPIE [Réunion]), and Centre National de la Recherche Scientifique (CNRS)-Université de La Réunion (UR)-Institut de Recherche pour le Développement (IRD)

Subjects

Conservation of Natural Resources, contaminación lumínica, Light, [SDV]Life Sciences [q-bio], Oceans and Seas, Rescue Campaign, orientation, Birds, Disorientation, Orientation, iluminación, petrel, Animals, Mortality, Islands, Light Pollution, Petrel, illumination, light pollution, desorientación, Illumination, campaña de rescate, orientación, disorientation, Environment Design, Environmental Pollution, rescue campaign

Abstract

Artificial lights at night cause high mortality of seabirds, one of the most endangered groups of birds globally. Fledglings of burrow-nesting seabirds, and to a lesser extent adults, are attracted to and then grounded (i.e., forced to land) by lights when they fly at night. We reviewed the current state of knowledge of seabird attraction to light to identify information gaps and propose measures to address the problem. Although species in families such as Alcidae and Anatidae can be grounded by artificial light, the most affected seabirds are petrels and shearwaters (Procellariiformes). At least 56 species of Procellariiformes, more than one-third of them (24) threatened, are subject to grounding by lights. Seabirds grounded by lights have been found worldwide, mainly on oceanic islands but also at some continental locations. Petrel breeding grounds confined to formerly uninhabited islands are particularly at risk from light pollution due to tourism and urban sprawl. Where it is impractical to ban external lights, rescue programs of grounded birds offer the most immediate and employed mitigation to reduce the rate of light-induced mortality and save thousands of birds every year. These programs also provide useful information for seabird management. However, these data are typically fragmentary, biased, and uncertain and can lead to inaccurate impact estimates and poor understanding of the phenomenon of seabird attraction to lights. We believe the most urgently needed actions to mitigate and understand light-induced mortality of seabirds are estimation of mortality and effects on populations; determination of threshold light levels and safe distances from light sources; documentation of the fate of rescued birds; improvement of rescue campaigns, particularly in terms of increasing recovery rates and level of care; and research on seabird-friendly lights to reduce attraction., [ES] Las luces artificiales nocturnas causan una mortalidad alta de aves marinas, uno de los grupos de aves en mayor peligro de extinción a nivel mundial. Los polluelos de aves marinas que anidan en madrigueras, y en menor medida los adultos, son atraídos y forzados a aterrizar por las luces cuando vuelan de noche. Revisamos el estado actual del conocimiento sobre la atracción de las aves marinas por la luz para identificar vacíos de información y proponer medidas para resolver el problema. Aunque las especies de familias como Alcidae y Anatidae pueden ser forzadas a aterrizar por la luz artificial, las aves marinas más afectadas son los petreles y las pardelas (Procellariiformes). Por lo menos 56 especies de Procellariiformes, más de un tercio (24) de ellas amenazadas, son propensas al aterrizaje atraídas por las luces. Las aves marinas forzadas a aterrizar han sido halladas en todo el mundo, principalmente en islas oceánicas, pero también en algunas localidades continentales. Los sitios de anidación de los petreles confinados anteriormente a islas deshabitadas están particularmente en riesgo de sufrir contaminación lumínica debido al turismo y al crecimiento urbano. En donde no es práctico prohibir las luces externas, los programas de rescate de las aves accidentadas ofrecen la mitigación más inmediata y empleada para reducir la tasa de mortalidad inducida por la luz y salvar a miles de aves cada año. Estos programas también proporcionan información útil para el manejo de aves marinas. Sin embargo, estos datos están típicamente fragmentados, sesgados y son inciertos, y pueden llevar a estimaciones inexactas del impacto y a un entendimiento pobre del fenómeno de la atracción de las aves marinas por la luz. Creemos que las acciones necesarias de mayor urgencia para mitigar y entender la mortalidad de aves marinas producida por la luz son: la estimación de la mortalidad y los efectos sobre la población; la determinación de umbrales de niveles de luz y de distancias seguras a las fuentes de luz; el estudio del destino de las aves rescatadas; la mejora de las campañas de rescate, particularmente en términos de incrementar las tasas de recogida y el nivel de cuidado; y la investigación sobre las características de la luz para reducir la atracción de las aves marinas.

Published

2017

36. Additional file 1: Table S1. of High prevalence of Trichomonas gallinae in wild columbids across western and southern Europe

Author

Marx, Melanie, Reiner, Gerald, Willems, Hermann, Rocha, Gregorio, Hillerich, Klaus, Masello, Juan, Mayr, Sylvia, Moussa, Sarah, Dunn, Jenny, Thomas, Rebecca, Goodman, Simon, Hamer, Keith, Metzger, Benjamin, Cecere, Jacopo, Spina, Fernando, Koschkar, Steffen, CalderĂłn, Luciano, Romeike, Tanja, and Quillfeldt, Petra

Abstract

Sample names from different columbid hosts with their closest GenBank match for the ITS1-5.8S-ITS2 region, maximum identity and query coverage in % as well as the Trichomonas species of the GenBank match, the lineage, host and country in which the reference was found. (DOCX 25Â kb)

Published

2017

37. Additional file 4: Figure S1. of High prevalence of Trichomonas gallinae in wild columbids across western and southern Europe

Author

Marx, Melanie, Reiner, Gerald, Willems, Hermann, Rocha, Gregorio, Hillerich, Klaus, Masello, Juan, Mayr, Sylvia, Moussa, Sarah, Dunn, Jenny, Thomas, Rebecca, Goodman, Simon, Hamer, Keith, Metzger, Benjamin, Cecere, Jacopo, Spina, Fernando, Koschkar, Steffen, CalderĂłn, Luciano, Romeike, Tanja, and Quillfeldt, Petra

Abstract

Expanded phylogenetic tree including information about Trichomonas species and origin countries of reference sequences. Furthermore, the host species and sample ID of studied sequences are shown. (PDF 7856Â kb)

Published

2017

38. Additional file 3: Table S2. of High prevalence of Trichomonas gallinae in wild columbids across western and southern Europe

Author

Marx, Melanie, Reiner, Gerald, Willems, Hermann, Rocha, Gregorio, Hillerich, Klaus, Masello, Juan, Mayr, Sylvia, Moussa, Sarah, Dunn, Jenny, Thomas, Rebecca, Goodman, Simon, Hamer, Keith, Metzger, Benjamin, Cecere, Jacopo, Spina, Fernando, Koschkar, Steffen, CalderĂłn, Luciano, Romeike, Tanja, and Quillfeldt, Petra

Abstract

Sample names from different columbid hosts with their closest GenBank match for the Fe-hydrogenase region, maximum identity and query coverage in % as well as the parasite species of the reference. (DOCX 16Â kb)

Published

2017

39. Additional file 2: Table S3. of High prevalence of Trichomonas gallinae in wild columbids across western and southern Europe

Author

Marx, Melanie, Reiner, Gerald, Willems, Hermann, Rocha, Gregorio, Hillerich, Klaus, Masello, Juan, Mayr, Sylvia, Moussa, Sarah, Dunn, Jenny, Thomas, Rebecca, Goodman, Simon, Hamer, Keith, Metzger, Benjamin, Cecere, Jacopo, Spina, Fernando, Koschkar, Steffen, CalderĂłn, Luciano, Romeike, Tanja, and Quillfeldt, Petra

Abstract

The GenBank accession numbers (KX459439â KY675299) of the study sequences are listed in the table below. (DOCX 14Â kb)

Published

2017

40. High prevalence of Trichomonas gallinae in wild columbids across western and southern Europe

Author

Marx, Melanie, Reiner, Gerald, Willems, Hermann, Rocha, Gregorio, Hillerich, Klaus, Masello, Juan F., Mayr, Sylvia L., Moussa, Sarah, Dunn, Jenny C., Thomas, Rebecca C., Goodman, Simon J., Hamer, Keith C., Metzger, Benjamin, Cecere, Jacopo G., Spina, Fernando, Koschkar, Steffen, Calderón, Luciano, Romeike, Tanja, Quillfeldt, Petra, and Justus Liebig University Giessen

Subjects

Trichomonas gallinae, stock dove, phylogenetic analysis, Columbiformes, genetic lineage, ddc:570

Abstract

Background: Avian trichomonosis is known as a widespread disease in columbids and passerines, and recent findings have highlighted the pathogenic character of some lineages found in wild birds. Trichomonosis can affect wild bird populations including endangered species, as has been shown for Mauritian pink pigeons Nesoenas mayeri in Mauritius and suggested for European turtle doves Streptopelia turtur in the UK. However, the disease trichomonosis is caused only by pathogenic lineages of the parasite Trichomonas gallinae. Therefore, understanding the prevalence and distribution of both potentially pathogenic and non-pathogenic T. gallinae lineages in turtle doves and other columbids across Europe is relevant to estimate the potential impact of the disease on a continental scale.Results: We examined 281 samples from four wild columbid species for Trichomonas infection and determined the genetic lineages. The overall prevalence was 74%. There were significant differences between the species (P = 0.007). The highest prevalence was found in stock doves Columba oenas (86%, n = 79) followed by wood pigeons Columba palumbus (70%, n = 61) and turtle doves (67%, n = 65), while three of five collared doves Streptopelia decaocto (60%) were infected. We found seven different lineages, including four lineages present in columbids in the UK, one lineage already described from Spain and three new lineages, one of those found in a single turtle dove migrating through Italy and another one found in a breeding stock dove. Stock doves from Germany and collared doves from Malta were infected with a potentially pathogenic lineage (lineage A/B), which is known to cause lesions and mortality in columbids, raptors and finches.Conclusions: Generally, turtle doves showed high prevalence of Trichomonas infection. Furthermore, the potentially pathogenic lineage A/B (or genotype B according to previous literature) was found in a recovering stock dove population. Both findings are worrying for these columbid species due to the occasional epidemic character of trichomonosis, which can have severe negative effects on populations.

Published

2017

41. Involvement of institutions and local communities in turtles and cetacean monitoring and conservation in Maltese waters through networking

Author

Mifsud, Carmen, Cassar, Nikolas, Grixti, James, Stevens, Darrin T., Tabone, Mark, Metzger, Benjamin, and 4th International Congress on Biodiversity 'Man, Natural Habitats and Euro-Mediterranean Biodiversity'

Subjects

Loggerhead turtle -- Conservation -- Malta, Turtle populations -- Malta, Bottlenose dolphin -- Conservation -- Malta, Wildlife conservation -- Citizen participation -- Malta, Cetacea populations -- Malta

Abstract

The loggerhead turtle (Caretta caretta) and the bottlenose dolphin (Tursiops truncatus) are regularly found around Maltese waters, especially the former. However, until recently, information on the populations and conservation status of both species in the area was lacking. The EU LIFE+ project MIGRATE (LIFE11 NAT/MT/1070) was carried out to address these information gaps by aiming to obtain more biotic data on these species and to identify areas essential for the life cycle and reproduction of these protected species in Maltese waters. To achieve these aims, amongst others, a citizen science approach was chosen, with the involvement of a number of institutes like the Maritime Squadron of the Armed Forces of Malta (AFM) and that of the Civil Protection Department (CPD) as well as local non-governmental organisations (NGOs) and other sea-user communities such as divers., peer-reviewed

Published

2017

42. Additional file 3: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

CalderĂłn, Luciano, Campagna, Leonardo, Wilke, Thomas, HervĂŠ Lormee, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

Analysis of molecular variance (AMOVAs). Results of the AMOVAs performed, testing for significant genetic differences among the three main flyways (using mitochondrial and nuclear DNA data). (DOC 41 kb)

Published

2016

43. Additional file 6: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

Calderón, Luciano, Campagna, Leonardo, Wilke, Thomas, Lormee, Hervé, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

Posterior probability of scenario choice in DIYABC. Direct estimation approach that uses 0.1 % of the closest simulations to the observed data. (b) The logistic regression uses 1 % of the closest simulations. (DOC 211 kb)

Published

2016

44. Additional file 7: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

CalderĂłn, Luciano, Campagna, Leonardo, Wilke, Thomas, HervĂŠ Lormee, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

MaxEnt habitat suitability models for European Turtle doves. Niche modelling analysis based on additional climate models: CC (CCSM4), MR (MIROC-ESM) and MI (MPI-ESM-P). Models available on http://www.worldclim.org/ . (DOC 729 kb)

Published

2016

45. Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

Calderón, Luciano, Campagna, Leonardo, Wilke, Thomas, Lormee, Hervé, Eraud, Cyril, Dunn, Jenny C., Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios E., Metzger, Benjamin, Cecere, Jacopo G., Marx, Melanie, Quillfeldt, Petra, and Justus Liebig University Giessen

Subjects

Migratory birds, Population genetic structure, Genomics, Conservation, ddc:570, Demography, FOS: Sociology

Abstract

Background: Understanding how past climatic oscillations have affected organismic evolution will help predict the impact that current climate change has on living organisms. The European turtle dove, Streptopelia turtur, is a warm-temperature adapted species and a long distance migrant that uses multiple flyways to move between Europe and Africa. Despite being abundant, it is categorized as vulnerable because of a long-term demographic decline. We studied the demographic history and population genetic structure of the European turtle dove using genomic data and mitochondrial DNA sequences from individuals sampled across Europe, and performing paleoclimatic niche modelling simulations. Results: Overall our data suggest that this species is panmictic across Europe, and is not genetically structured across flyways. We found the genetic signatures of demographic fluctuations, inferring an effective population size (Ne) expansion that occurred between the late Pleistocene and early Holocene, followed by a decrease in the Ne that started between the mid Holocene and the present. Our niche modelling analyses suggest that the variations in the Ne are coincident with recent changes in the availability of suitable habitat. Conclusions: We argue that the European turtle dove is prone to undergo demographic fluctuations, a trait that makes it sensitive to anthropogenic impacts, especially when its numbers are decreasing. Also, considering the lack of genetic structure, we suggest all populations across Europe are equally relevant for conservation.

Published

2016

46. Additional file 4: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

Calderón, Luciano, Campagna, Leonardo, Wilke, Thomas, Lormee, Hervé, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

fastSTRUCTURE analysis indicating the number of genetic clusters suggested for the turtle dove, K = 1. Barplot graphics representing K = 1 and 3 are shown. (DOC 393 kb)

Published

2016

47. Additional file 1: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

CalderĂłn, Luciano, Campagna, Leonardo, Wilke, Thomas, HervĂŠ Lormee, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

Details of the samples used. A table with additional information on the blood and tissue samples obtained for our work. (DOC 143 kb)

Published

2016

48. Additional file 2: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

CalderĂłn, Luciano, Campagna, Leonardo, Wilke, Thomas, HervĂŠ Lormee, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

Further details on materials and methods. Additional information on the laboratory methods related to the RAD-seq procedures and mtDNA sequencing. Also, further details on the demographic history modeling performed with DIYABC, and the niche modeling analysis conducted in MAXENT. (DOC 30 kb)

Published

2016

49. Additional file 5: of Genomic evidence of demographic fluctuations and lack of genetic structure across flyways in a long distance migrant, the European turtle dove

Author

CalderĂłn, Luciano, Campagna, Leonardo, Wilke, Thomas, HervĂŠ Lormee, Eraud, Cyril, Dunn, Jenny, Rocha, Gregorio, Zehtindjiev, Pavel, Bakaloudis, Dimitrios, Metzger, Benjamin, Cecere, Jacopo, Marx, Melanie, and Quillfeldt, Petra

Abstract

Principal components analysis to test the goodness-of-fit of each evaluated scenario against the simulated data in DIYABC. PCA plots show that Scenario 4 had the best goodness-of-fit among all tested scenarios. (DOC 630 kb)

Published

2016

50. Undersea LiDAR imager for unobtrusive and eye safe marine wildlife detection and classification

Author

Dalgleish, Fraser, primary, Ouyang, Bing, additional, Vuorenkoski, Anni, additional, Ramos, Brian, additional, Alsenas, Gabriel, additional, Metzger, Benjamin, additional, Cao, Zheng, additional, and Principe, Jose, additional

Published

2017