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1. Active breeding seabirds prospect alternative breeding colonies

Author

Kralj, Jelena, Ponchon, Aurore, Oro, Daniel, Amadesi, Barbara, Arizaga, Juan, Baccetti, Nicola, Boulinier, Thierry, Cecere, Jacopo G., Corcoran, Robin M., Corman, Anna-Marie, Enners, Leonie, Fleishman, Abram, Garthe, Stefan, Grémillet, David, Harding, Ann, Igual, José Manuel, Jurinović, Luka, Kubetzki, Ulrike, Lyons, Donald E., Orben, Rachael, Paredes, Rosana, Pirrello, Simone, Recorbet, Bernard, Shaffer, Scott, Schwemmer, Philipp, Serra, Lorenzo, Spelt, Anouk, Tavecchia, Giacomo, Tengeres, Jill, Tome, Davorin, Williamson, Cara, Windsor, Shane, Young, Hillary, Zenatello, Marco, and Fijn, Ruben

Published
2023
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2. Anticipating the effects of climate warming and natural habitat conversion on waterbird communities to address protection gaps

Author

Verniest, Fabien, Le Viol, Isabelle, Julliard, Romain, Dami, Laura, Guelmami, Anis, Suet, Marie, Abdou, Wed, Azafzaf, Hichem, Bendjedda, Nadjiba, Bino, Taulant, Borg, John J., Božič, Luka, Dakki, Mohamed, El Hamoumi, Rhimou, Encarnação, Vitor, Erciyas-Yavuz, Kiraz, Etayeb, Khaled, Georgiev, Valeri, Hamada, Ayman, Hatzofe, Ohad, Ieronymidou, Christina, Langendoen, Tom, Mikuska, Tibor, Molina, Blas, Moniz, Filipe, Moussy, Caroline, Ouassou, Asmaâ, Petkov, Nicky, Portolou, Danae, Qaneer, Tareq, Sayoud, Samir, Šćiban, Marko, Topić, Goran, Uzunova, Danka, Vine, Gal, Vizi, Andrej, Xeka, Erald, Zenatello, Marco, Gaget, Elie, and Galewski, Thomas

Published
2023
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3. Gap analysis of the Ramsar site network at 50: over 150 important Mediterranean sites for wintering waterbirds omitted

Author

Popoff, Nadège, Gaget, Elie, Béchet, Arnaud, Dami, Laura, du Rau, Pierre Defos, Geijzendorffer, Ilse, Guelmami, Anis, Mondain-Monval, Jean-Yves, Perennou, Christian, Suet, Marie, Verniest, Fabien, Deschamps, Clémence, Taylor, Nigel G., Azafzaf, Hichem, Bendjedda, Nadjiba, Bino, Taulant, Borg, John J., Božič, Luka, Dakki, Mohamed, Encarnação, Vitor, Erciyas-Yavuz, Kiraz, Etayeb, Khaled, Gaudard, Clemence, Hatzofe, Ohad, Langendoen, Tom, Ieronymidou, Christina, Mikuska, Tibor, Molina, Blas, Petkov, Nicky, Portolou, Danae, Qaneer, Tareq, Sayoud, Samir, Šćiban, Marko, Topić, Goran, Uzunova, Danka, Vine, Gal, Vizi, Andrej, Zenatello, Marco, Abdou, Wed, and Galewski, Thomas

Published
2021
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4. Habitat- and species-mediated short- and long-term distributional changes in waterbird abundance linked to variation in European winter weather

Author

Pavón-Jordán, Diego, Clausen, Preben, Dagys, Mindaugas, Devos, Koen, Encarnaçao, Vitor, Fox, Anthony David, Frost, Teresa, Gaudard, Clemence, Hornman, Menno, Keller, Verena, Langendoen, Tom, Ławicki, Łukasz, Lewis, Lesley J., Lorentsen, Svein-Håkon, Luigujoe, Leho, Meissner, Wlodzimierz, Molina, Blas, Musil, Petr, Musilova, Zuzana, Nilsson, Leif, Paquet, Jean-Yves, Ridzon, Josef, Stipniece, Antra, Teufelbauer, Norbert, Wahl, Johannes, Zenatello, Marco, and Lehikoinen, Aleksi

Published
2019

6. Effectiveness of the European Natura 2000 network to sustain a specialist wintering waterbird population in the face of climate change

Author

Marchowski, Dominik, Ławicki, Łukasz, Fox, Anthony D., Nielsen, Rasmus D., Petersen, Ib K., Hornman, Menno, Nilsson, Leif, Haas, Fredrik, Wahl, Johannes, Kieckbusch, Jan, Nehls, Hans W., Calbrade, Neil, Hearn, Richard, Meissner, Włodzimierz, Fitzgerald, Niamh, Luigujoe, Leho, Zenatello, Marco, Gaudard, Clemence, and Koschinski, Sven

Published
2020
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7. Active breeding seabirds prospect alternative breeding colonies

Author

Institut Polaire Français Paul Emile Victor, Office français de la biodiversité (France), North Pacific Research Board, Istituto Superiore per la Protezione e la Ricerca Ambientale, Ministero della Transizione Ecologica, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministère de la Transition écologique et de la Cohésion des territoires (France), European Commission, Bureau of Ocean Energy Management (US), Diputación Foral de Gipuzkoa, Federal Institute for Geosciences and Natural Resources (Germany), Federal Ministry of Education and Research (Germany), Bristol Robotics Laboratory, Interreg, National Fish and Wildlife Foundation, Wildlife Services (US), Oregon State University, Kralj, Jelena [0000-0002-1500-5897], Kralj, Jelena, Ponchon, Aurore, Oro, Daniel, Amadesi, Barbara, Arizaga, Juan, Baccetti, Nicola, Boulinier, Thierry, Cecere, Jacopo G., Corcoran, Robin M., Corman, Anna-Marie, Enners, Leonie, Fleishman, Abram, Garthe, Stefan, Grémillet, David, Harding, Ann, Igual, José Manuel, Jurinović, Luka, Kubetzki, Ulrike, Lyons, Donald E, Orben, Rachael, Paredes, Rosana, Pirrello, Simone, Recorbet, Bernard, Shaffer, Scott A., Schwemmer, Philipp, Serra, Lorenzo, Spelt, Anouk, Tavecchia, Giacomo, Tengeres, Jill, Tome, Davorin, Williamson, Cara, Windsor, Shane, Young, Hillary, Zenatello, Marco, Fijn, Ruben, Institut Polaire Français Paul Emile Victor, Office français de la biodiversité (France), North Pacific Research Board, Istituto Superiore per la Protezione e la Ricerca Ambientale, Ministero della Transizione Ecologica, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministère de la Transition écologique et de la Cohésion des territoires (France), European Commission, Bureau of Ocean Energy Management (US), Diputación Foral de Gipuzkoa, Federal Institute for Geosciences and Natural Resources (Germany), Federal Ministry of Education and Research (Germany), Bristol Robotics Laboratory, Interreg, National Fish and Wildlife Foundation, Wildlife Services (US), Oregon State University, Kralj, Jelena [0000-0002-1500-5897], Kralj, Jelena, Ponchon, Aurore, Oro, Daniel, Amadesi, Barbara, Arizaga, Juan, Baccetti, Nicola, Boulinier, Thierry, Cecere, Jacopo G., Corcoran, Robin M., Corman, Anna-Marie, Enners, Leonie, Fleishman, Abram, Garthe, Stefan, Grémillet, David, Harding, Ann, Igual, José Manuel, Jurinović, Luka, Kubetzki, Ulrike, Lyons, Donald E, Orben, Rachael, Paredes, Rosana, Pirrello, Simone, Recorbet, Bernard, Shaffer, Scott A., Schwemmer, Philipp, Serra, Lorenzo, Spelt, Anouk, Tavecchia, Giacomo, Tengeres, Jill, Tome, Davorin, Williamson, Cara, Windsor, Shane, Young, Hillary, Zenatello, Marco, and Fijn, Ruben

Abstract

Compared to other animal movements, prospecting by adult individuals for a future breeding site is commonly overlooked. Prospecting influences the decision of where to breed and has consequences on fitness and lifetime reproductive success. By analysing movements of 31 satellite- and GPS-tracked gull and tern populations belonging to 14 species in Europe and North America, we examined the occurrence and factors explaining prospecting by actively breeding birds. Prospecting in active breeders occurred in 85.7% of studied species, across 61.3% of sampled populations. Prospecting was more common in populations with frequent inter-annual changes of breeding sites and among females. These results contradict theoretical models which predict that prospecting is expected to evolve in relatively predictable and stable environments. More long-term tracking studies are needed to identify factors affecting patterns of prospecting in different environments and understand the consequences of prospecting on fitness at the individual and population level.

Published
2023

8. Climate-driven changes in winter abundance of a migratory waterbird in relation to EU protected areas

Author

Pavón-Jordán, Diego, Fox, Anthony D., Clausen, Preben, Dagys, Mindaugas, Deceuninck, Bernard, Devos, Koen, Hearn, Richard D., Holt, Chas A., Hornman, Menno, Keller, Verena, Langendoen, Tom, Ławicki, Łukasz, Lorentsen, Svein H., Luigujõe, Leho, Meissner, Włodzimierz, Musil, Petr, Nilsson, Leif, Paquet, Jean-Yves, Stipniece, Antra, Stroud, David A., Wahl, Johannes, Zenatello, Marco, and Lehikoinen, Aleksi

Published
2015

9. Nest Change and Individual Fitness in a Scopoli's Shearwater Population: A Capture-Recapture Multistate Analysis.

Author

Sacchi, Massimo, Zenatello, Marco, Pezzo, Francesco, Cozzo, Mario, Pollonara, Enrica, Gotti, Camilla, De Faveri, Adriano, and Baccetti, Nicola

Subjects
*BIRD nests, *GENITALIA, *COMPETITION (Biology), *BIOLOGICAL fitness, *REPRODUCTION, *CHICKS, *MONOGAMOUS relationships
Abstract

Seabirds are compelled to nest on land, away from their feeding areas, which they can only reach by leaving eggs or chicks in the nest, often for long periods of time. For this reason, almost all of them have evolved social monogamy as a reproductive system, cooperation between partners for incubation and chick rearing, and long-lasting pair bonds. Additionally, nesting conditions are essential for successful reproduction, and the nest can be considered a resource if it provides more guarantees in this aspect. As a result, the nest may be a source of contention and intraspecific competition, especially among males. In this work, we analyze long-term data of the Scopoli's shearwater (Calonectris diomedea) population to address the fitness consequences of nest change regarding survival and reproductive success. We used capture–recapture multistate models and the AICc model selection approach to test three hypotheses: breeding failure triggers nest change; nest change affects breeding success probability; nest change affects survival. Each year, about 5% of the breeders move to a new nest. For males, it was mainly a way to improve their breeding conditions and was observed in their early years as a breeder. Conversely, for females, it was a way to improve their reproductive performance by trying with a new mate after a failure. Males that changed nests improved their breeding success probability. Instead, in females, there was no causal relation between nest change and breeding success, the latter having been more influenced by the intrinsic quality of the female as a breeder. We did not even find a link between nest change and survival. Instead, we demonstrated that reproductive failure could affect the apparent survival of females, probably because it induces breeding dispersal. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Article 8 MSFD Assessment Guidance

Author

Acangeli, Antonella, Authier, Matthieu, Baccetti, Nicola, Borsani, Junio Fabrizio, Cachera, Marie, Cariou, Valerie, Canals, Miquel, Casier, Maud, Cavenne, Elise, Claro, Françoise, Coatu, Valentina, Connor, David, Consalvo, Ivan, Cardoso, Ana, Dalu, Massimo, Dierschke, Volker, Ducommun, Laure, Fleming, Vivi, Fortibuoni, Tomaso, Galgani, François, Gonzalez-Pola, Cesar, Gaudin, François, Gerigny, Olivia, Gilles, Anita, Giorgi, Giordano, Girard, Fanny, Häubner, Norbert, Hauswirth, Mirko, Hatzianestis, Ioannis, Hernández Sánchez, Maria Teresa, Heyden, Birgit, Kennouche, Paul, Korpinen, Samuli, Koschniski, Sven, Kreutle, Axel, Lacroix, Camille, Lamesa, Gabriele, Lauriano, Giancarlo, Courtois, Florent Le, Lefkaditou, Evgenia, Maggi, Chiara, García-Denche, Lucía Martínez, Matiddi, Marco, Mihail, Otilia, Mo, Giulia, Muller, Heloise, Nyström Sandman, Antonia, Ocadhla, Oliver, Otero Matias, Joana, Palialexis, Andreas, Papdopoulou, Nadia, Peterlin, Monika, Pettersson, Karin, Pezzo, Francesco, Pulcini, Marina, Punzon, Antonio, Raabe, Thomas, Raicevich, Sasa, Rindorf, Anna, Rivet, Jehanne, Ronchini, Francesca, Salvany, Lara, Schilder, Jos, Schroeder, Alexander, Sigray, Peter, Silvestri, Cecilia, Spitz, Jérôme, Strand, Jakob, Tixier, Celine, Tornero, Victoria, Tunesi, Leonardo, Valanko, Sebastian, van Hoey, Gert, van Lancker, Vera, Van, Willem, Varenius, Kerstin, Vaz, Sandrine, Weiß, Andrea, Zenatello, Marco, and Lacalle, Martine

Subjects
[SDE] Environmental Sciences
Published
2022

11. Protected area characteristics that help waterbirds respond to climate warming

Author

Gaget, Elie, primary, Johnston, Alison, additional, Pavón‐Jordán, Diego, additional, Lehikoinen, Aleksi S., additional, Sandercock, Brett K., additional, Soultan, Alaaeldin, additional, Božič, Luka, additional, Clausen, Preben, additional, Devos, Koen, additional, Domsa, Cristi, additional, Encarnação, Vitor, additional, Faragó, Sándor, additional, Fitzgerald, Niamh, additional, Frost, Teresa, additional, Gaudard, Clemence, additional, Gosztonyi, Lívia, additional, Haas, Fredrik, additional, Hornman, Menno, additional, Langendoen, Tom, additional, Ieronymidou, Christina, additional, Luigujõe, Leho, additional, Meissner, Włodzimierz, additional, Mikuska, Tibor, additional, Molina, Blas, additional, Musilová, Zuzana, additional, Paquet, Jean‐Yves, additional, Petkov, Nicky, additional, Portolou, Danae, additional, Ridzoň, Jozef, additional, Sniauksta, Laimonas, additional, Stīpniece, Antra, additional, Teufelbauer, Norbert, additional, Wahl, Johannes, additional, Zenatello, Marco, additional, and Brommer, Jon E., additional

Published
2022
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12. Survey of waterbirds wintering in Tunisia, January 2003

Author

ROUAG Rachid, GRETTON Adam, KISS J. Botond, ETAYEB Khaled S, AZAFZAF Hichem, SMART Mike, and ZENATELLO Marco

Subjects
waterbirds, census, Tunis, Ethnology. Social and cultural anthropology, GN301-674, Science, Science (General), Q1-390
Abstract

During a joint international expedition, there have been recorded between 18-31 January 2003 a total number of 83,653 water birds(belonging to 76 species) in 58 wetlands of Tunisia.

Published
2007

13. Productivity changes in the Mediterranean Sea drive foraging movements of yelkouan shearwaterPuffinus yelkouanfrom the core of its global breeding range

Author

Pezzo, Francesco, primary, Zenatello, Marco, additional, Cerritelli, Giulia, additional, Navone, Augusto, additional, Giunchi, Dimitri, additional, Spano, Giovanna, additional, Pollonara, Enrica, additional, Massolo, Alessandro, additional, Gagliardo, Anna, additional, and Baccetti, Nicola, additional

Published
2021
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15. Non-breeding waterbirds benefit from protected areas when adjusting their distribution to climate warming

Author

Gaget, Elie, primary, Pavón-Jordán, Diego, additional, Johnston, Alison, additional, Lehikoinen, Aleksi, additional, Hochachka, Wesley M., additional, Sandercock, Brett K., additional, Soultan, Alaaeldin, additional, Azafzaf, Hichem, additional, Bendjedda, Nadjiba, additional, Bino, Taulant, additional, Božič, Luca, additional, Clausen, Preben, additional, Dakki, Mohamed, additional, Devos, Koen, additional, Domsa, Cristi, additional, Encarnação, Vitor, additional, Erciyas-Yavuz, Kiraz, additional, Faragó, Sándor, additional, Frost, Teresa, additional, Gaudard, Clemence, additional, Gosztonyi, Lívia, additional, Haas, Fredrik, additional, Hornman, Menno, additional, Langendoen, Tom, additional, Ieronymidou, Christina, additional, Kostyushin, Vasiliy A., additional, Lewis, Lesley J., additional, Lorentsen, Svein-Håkon, additional, Luiujoe, Leho, additional, Meissner, Włodzimierz, additional, Mikuska, Tibor, additional, Molina, Blas, additional, Musilová, Zuzana, additional, Natykanets, Viktor, additional, Paquet, Jean-Yves, additional, Petkov, Nicky, additional, Portolou, Danae, additional, Ridzoň, Jozef, additional, Sayoud, Samir, additional, Šćiban, Marko, additional, Sniauksta, Laimonas, additional, Stīpniece, Antra, additional, Strebel, Nicolas, additional, Teufelbauer, Norbert, additional, Topić, Goran, additional, Uzunova, Danka, additional, Vizi, Andrej, additional, Wahl, Johannes, additional, Zenatello, Marco, additional, and Brommer, Jon E., additional

Published
2021
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16. Benefits of protected areas for nonbreeding waterbirds adjusting their distributions under climate warming

Author

Gaget, Elie, primary, Pavón‐Jordán, Diego, additional, Johnston, Alison, additional, Lehikoinen, Aleksi, additional, Hochachka, Wesley M., additional, Sandercock, Brett K., additional, Soultan, Alaaeldin, additional, Azafzaf, Hichem, additional, Bendjedda, Nadjiba, additional, Bino, Taulant, additional, Božič, Luka, additional, Clausen, Preben, additional, Dakki, Mohamed, additional, Devos, Koen, additional, Domsa, Cristi, additional, Encarnação, Vitor, additional, Erciyas‐Yavuz, Kiraz, additional, Faragó, Sándor, additional, Frost, Teresa, additional, Gaudard, Clemence, additional, Gosztonyi, Lívia, additional, Haas, Fredrik, additional, Hornman, Menno, additional, Langendoen, Tom, additional, Ieronymidou, Christina, additional, Kostyushin, Vasiliy A., additional, Lewis, Lesley J., additional, Lorentsen, Svein‐Håkon, additional, Luigujõe, Leho, additional, Meissner, Włodzimierz, additional, Mikuska, Tibor, additional, Molina, Blas, additional, Musilová, Zuzana, additional, Natykanets, Viktor, additional, Paquet, Jean‐Yves, additional, Petkov, Nicky, additional, Portolou, Danae, additional, Ridzoň, Jozef, additional, Sayoud, Samir, additional, Šćiban, Marko, additional, Sniauksta, Laimonas, additional, Stīpniece, Antra, additional, Strebel, Nicolas, additional, Teufelbauer, Norbert, additional, Topić, Goran, additional, Uzunova, Danka, additional, Vizi, Andrej, additional, Wahl, Johannes, additional, Zenatello, Marco, additional, and Brommer, Jon E., additional

Published
2021
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17. Corrigendum to “Positive impacts of important bird and biodiversity areas on wintering waterbirds under changing temperatures throughout Europe and North Africa” [Biol. Conserv. 246 (2020) 108549]

Author

Jordán, Diego Pavón, primary, Abdou, Web, additional, Azafzaf, Hichem, additional, Balaž, Michal, additional, Bino, Taulant, additional, Borg, John J., additional, Božič, Luca, additional, Butchart, Stuart H.M., additional, Clausen, Preben, additional, Sniauksta, Laimonas, additional, Dakki, Mohamed, additional, Devos, Koen, additional, Domsa, Cristi, additional, Encarnaçao, Vitor, additional, Etayeb, Khaled, additional, Faragó, Sándor, additional, Fox, Anthony D., additional, Frost, Teresa, additional, Gaudard, Clemence, additional, Georgiev, Valeri, additional, Goradze, Irakli, additional, Hornman, Menno, additional, Keller, Verena, additional, Kostiushyn, Vasiliy, additional, Langendoen, Tom, additional, Ławicki, Łukasz, additional, Ieronymidou, Christina, additional, Lewis, Lesley J., additional, Lorentsen, Svein Håkon, additional, Luigujoe, Leho, additional, Meissner, Wlodzimierz, additional, Mikuska, Tibor, additional, Molina, Blas, additional, Musil, Petr, additional, Musilova, Zuzana, additional, Nagy, Szabolcs, additional, Natykanets, Viktor, additional, Nilsson, Leif, additional, Paquet, Jean Yves, additional, Portolou, Danae, additional, Ridzon, Josef, additional, Santangeli, Andrea, additional, Sayoud, Samir, additional, Šćiban, Marko, additional, Stipniece, Antra, additional, Teufelbauer, Norbert, additional, Topić, Goran, additional, Uzunova, Danka, additional, Vizi, Andrej, additional, Wahl, Johannes, additional, Yavuz, Kiraz E., additional, Zenatello, Marco, additional, and Lehikoinen, Aleksi, additional

Published
2020
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18. Positive impacts of important bird and biodiversity areas on wintering waterbirds under changing temperatures throughout Europe and North Africa

Author

Pavón-Jordán, Diego, primary, Abdou, Web, additional, Azafzaf, Hichem, additional, Balaž, Michal, additional, Bino, Taulant, additional, Borg, John J., additional, Božič, Luca, additional, Butchart, Stuart H.M., additional, Clausen, Preben, additional, Sniauksta, Laimonas, additional, Dakki, Mohamed, additional, Devos, Koen, additional, Domsa, Cristi, additional, Encarnaçao, Vitor, additional, Etayeb, Khaled, additional, Faragó, Sándor, additional, Fox, Anthony D., additional, Frost, Teresa, additional, Gaudard, Clemence, additional, Georgiev, Valeri, additional, Goratze, Irakli, additional, Hornman, Menno, additional, Keller, Verena, additional, Kostiushyn, Vasiliy, additional, Langendoen, Tom, additional, Ławicki, Łukasz, additional, Ieronymidou, Christina, additional, Lewis, Lesley J., additional, Lorentsen, Svein-Håkon, additional, Luigujoe, Leho, additional, Meissner, Wlodzimierz, additional, Mikuska, Tibor, additional, Molina, Blas, additional, Musil, Petr, additional, Musilova, Zuzana, additional, Nagy, Szabolcs, additional, Natykanets, Viktor, additional, Nilsson, Leif, additional, Paquet, Jean-Yves, additional, Portolou, Danae, additional, Ridzon, Josef, additional, Santangeli, Andrea, additional, Sayoud, Samir, additional, Šćiban, Marko, additional, Stipniece, Antra, additional, Teufelbauer, Norbert, additional, Topić, Goran, additional, Uzunova, Danka, additional, Vizi, Andrej, additional, Wahl, Johannes, additional, Yavuz, Kiraz E., additional, Zenatello, Marco, additional, and Lehikoinen, Aleksi, additional

Published
2020
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20. Productivity changes in the Mediterranean Sea drive foraging movements of yelkouan shearwater Puffinus yelkouan from the core of its global breeding range.

Author

Pezzo, Francesco, Zenatello, Marco, Cerritelli, Giulia, Navone, Augusto, Giunchi, Dimitri, Spano, Giovanna, Pollonara, Enrica, Massolo, Alessandro, Gagliardo, Anna, and Baccetti, Nicola

Subjects
*COLONIES (Biology), *CLIMATE change, *PREY availability, *ADULTS
Abstract

Pelagic seabirds are tied to their breeding colonies throughout their long‐lasting breeding season, but at the same time, they have to feed in a highly dynamic marine environment where prey abundance and availability rapidly change across space and seasons. Here, we describe the foraging movements of yelkouan shearwater Puffinus yelkouan, a seabird endemic to the Mediterranean Sea that spends its entire life cycle within this enclosed basin and whose future conservation is intimately linked to human‐driven and climatic changes affecting the sea. The aim was to understand the main factors underlying the choice of foraging locations during the reproductive phases. A total of 34 foraging trips were obtained from 21 breeding adults tagged and tracked on Tavolara Archipelago (N Sardinia, Italy). This is the largest and most important breeding area for the species, accounting for more than 50% of the world population. The relationships between foraging movements during two different breeding stages and the seasonal changes of primary productivity at sea were modeled. Movements appeared to be addressed toward inshore (<20 km), highly productive, and relatively shallow (<200 m) foraging areas, often in front of river mouths and at great distances from the colony. During incubation, the Bonifacio Strait and other coastal areas close to North and West Sardinia were the most preferred locations (up to 247 km from the colony). During the chick‐rearing phase, some individuals reached areas placed at greater distances from the colony (up to 579 km), aiming at food‐rich hotspots placed as far north as the Gulf of Lion (France). The need for such long distance and long‐lasting foraging trips is hypothesized to be related to unfavorable conditions on the less productive (and already depleted) Sardinian waters. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Habitat- and species-mediated short- and long-term distributional changes in waterbird abundance linked to variation in European winter weather

Author

Pavón-Jordán, Diego, primary, Clausen, Preben, additional, Dagys, Mindaugas, additional, Devos, Koen, additional, Encarnaçao, Vitor, additional, Fox, Anthony David, additional, Frost, Teresa, additional, Gaudard, Clemence, additional, Hornman, Menno, additional, Keller, Verena, additional, Langendoen, Tom, additional, Ławicki, Łukasz, additional, Lewis, Lesley J., additional, Lorentsen, Svein-Håkon, additional, Luigujoe, Leho, additional, Meissner, Wlodzimierz, additional, Molina, Blas, additional, Musil, Petr, additional, Musilova, Zuzana, additional, Nilsson, Leif, additional, Paquet, Jean-Yves, additional, Ridzon, Josef, additional, Stipniece, Antra, additional, Teufelbauer, Norbert, additional, Wahl, Johannes, additional, Zenatello, Marco, additional, and Lehikoinen, Aleksi, additional

Published
2018
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26. Benefits of protected areas for nonbreeding waterbirds adjusting their distributions under climate warming

Author

Gaget, Elie, Pavón-Jordán, Diego, Johnston, Aliston, Lehikoinen, Aleksi, Hochachka, Wesley M., Sandercock, Brett K., Soultan, Alaaeldin, Azafzaf, Hichem, Bendjedda, Nadjiba, Bino, Taulant, Božič, Luka, Clausen, Preben, Dakki, Mohamed, Devos, Koen, Domsa, Cristi, Encarnação, Vitor, Erciyas-Yavuz, Kiraz, Faragó, Sándor, Frost, Teresa, Gaudard, Clemence, Gosztonyi, Lívia, Haas, Fredrik, Hornman, Menno, Langendoen, Tom, Ieronymidou, Christina, Kostyushin, Vasiliy A., Lewis, Lesley J., Lorentsen, Svein-Håkon, Luigujõe, Leho, Meissner, Włodzimierz, Mikuska, Tibor, Molina, Blas, Musilová, Zuzana, Natykanets, Viktor, Paquet, Jean-Yves, Petkov, Nicky, Portolou, Danae, Ridzoň, Jozef, Sayoud, Samir, Šćiban, Marko, Sniauksta, Laimonas, Stīpniece, Antra, Strebel, Nicolas, Teufelbauer, Norbert, Topić, Goran, Uzunova, Danka, Vizi, Andrey, Wahl, Johannes, Zenatello, Marco, and Brommer, Jon E.

Subjects
community temperature index, 13. Climate action, extinction, 15. Life on land, colonization, community adjustment, range shift, wetlands
Abstract

Climate warming is driving changes in species distributions and community composition. Many species have a so-called climatic debt, that is, shifts in range lag behind shifts in temperature isoclines. Inside protected areas (PAs), community changes in response to climate warming can be facilitated by greater colonization rates by warm-dwelling species, but also mitigated by lowering extirpation rates of cold-dwelling species. An evaluation of the relative importance of colonization-extirpation processes is important to inform conservation strategies that aim for both climate debt reduction and species conservation. We assessed the colonization-extirpation dynamics involved in community changes in response to climate inside and outside PAs. To do so, we used 25 years of occurrence data of nonbreeding waterbirds in the western Palearctic (97 species, 7071 sites, 39 countries, 1993–2017). We used a community temperature index (CTI) framework based on species thermal affinities to investigate species turnover induced by temperature increase. We determined whether thermal community adjustment was associated with colonization by warm-dwelling species or extirpation of cold-dwelling species by modeling change in standard deviation of the CTI (CTISD). Using linear mixed-effects models, we investigated whether communities in PAs had lower climatic debt and different patterns of community change than communities outside PAs. For CTI and CTISD combined, communities inside PAs had more species, higher colonization, lower extirpation, and lower climatic debt (16%) than communities outside PAs. Thus, our results suggest that PAs facilitate 2 independent processes that shape community dynamics and maintain biodiversity. The community adjustment was, however, not sufficiently fast to keep pace with the large temperature increases in the central and northeastern western Palearctic. Our results underline the potential of combining CTI and CTISD metrics to improve understanding of the colonization-extirpation patterns driven by climate warming. Resumen El calentamiento climático está generando cambios en la distribución y en la composición comunitaria de las especies. Muchas de ellas tienen una deuda climática, es decir, los cambios en la distribución se atrasan con respecto a los cambios en las isoclinas térmicas. Dentro de las áreas protegidas (APs), los cambios comunitarios como respuesta al calentamiento climático pueden facilitarse mediante tasas mayores de colonización por especies de climas cálidos, pero también pueden mitigarse al reducir las tasas de extirpación de las especies de climas fríos. Se requiere una evaluación de la importancia relativa de los procesos de colonización-extirpación para orientar las estrategias de conservación que buscan la reducción de la deuda climática y la conservación de las especies. Analizamos las dinámicas de colonización-extirpación que participan en los cambios comunitarios como respuesta al clima dentro y fuera de las APs. Para realizar lo anterior, usamos datos tomados durante 25 años de la presencia de aves acuáticas no reproductoras en el Paleártico occidental (97 especies, 7,071 sitios, 39 países, 1993–2017). Usamos un marco de trabajo del índice de temperatura comunitaria (ITC) basado en las afinidades térmicas de las especies para así investigar la rotación de especies inducida por el incremento en la temperatura. Determinamos si el ajuste térmico en la comunidad estuvo asociado con la colonización por especies de climas cálidos o con la extirpación de especies de climas fríos al modelar el cambio mediante una desviación estándar del ITC (ITCDS). Con los modelos lineales de efectos mixtos investigamos si las comunidades dentro de las APs tenían una deuda climática más baja y patrones diferentes de cambio comunitario que las comunidades localizadas fuera de las APs. Con la combinación del ITC y deL ITCDS, las comunidades dentro de las APs tuvieron más especies, una mayor colonización, una menor extirpación y una deuda climática más baja (16%) que las comunidades fuera de las APs. Por lo tanto, nuestros resultados sugieren que las APs facilitan dos procesos independientes que moldean las dinámicas comunitarias y mantienen la biodiversidad. Sin embargo, el ajuste comunitario no fue lo suficientemente rápido para mantener el paso de los grandes incrementos en la temperatura de las regiones central y noreste del Paleártico occidental. Nuestros resultados resaltan el potencial que tiene la combinación de las medidas del ITC y del ICTDS para mejorar el entendimiento de los patrones de colonización-extirpación causados por el calentamiento climático.

27. Benefits of protected areas for nonbreeding waterbirds adjusting their distributions under climate warming

Author

Gaget, Elie, Pavón-Jordán, Diego, Johnston, Alison, Lehikoinen, Aleksi, Hochachka, Wesley M, Sandercock, Brett K, Soultan, Alaaeldin, Azafzaf, Hichem, Bendjedda, Nadjiba, Bino, Taulant, Božič, Luka, Clausen, Preben, Dakki, Mohamed, Devos, Koen, Domsa, Cristi, Encarnação, Vitor, Erciyas-Yavuz, Kiraz, Faragó, Sándor, Frost, Teresa, Gaudard, Clemence, Gosztonyi, Lívia, Haas, Fredrik, Hornman, Menno, Langendoen, Tom, Ieronymidou, Christina, Kostyushin, Vasiliy A, Lewis, Lesley J, Lorentsen, Svein-Håkon, Luigujõe, Leho, Meissner, Włodzimierz, Mikuska, Tibor, Molina, Blas, Musilová, Zuzana, Natykanets, Viktor, Paquet, Jean-Yves, Petkov, Nicky, Portolou, Danae, Ridzoň, Jozef, Sayoud, Samir, Šćiban, Marko, Sniauksta, Laimonas, Stīpniece, Antra, Strebel, Nicolas, Teufelbauer, Norbert, Topić, Goran, Uzunova, Danka, Vizi, Andrej, Wahl, Johannes, Zenatello, Marco, and Brommer, Jon E

Subjects
cambio de distribución, Conservation of Natural Resources, ajuste comunitario, Climate Change, 湿地, 灭绝, wetlands, Birds, community temperature index, índice de temperatura comunitaria, 定殖, Animals, Ecosystem, colonización, extinción, extinction, Temperature, 范围变化, 群落调整, Biodiversity, 15. Life on land, colonization, range shift, 群落温度指数, 13. Climate action, humedales, community adjustment
Abstract

Climate warming is driving changes in species distributions and community composition. Many species have a so-called climatic debt, that is, shifts in range lag behind shifts in temperature isoclines. Inside protected areas (PAs), community changes in response to climate warming can be facilitated by greater colonization rates by warm-dwelling species, but also mitigated by lowering extirpation rates of cold-dwelling species. An evaluation of the relative importance of colonization-extirpation processes is important to inform conservation strategies that aim for both climate debt reduction and species conservation. We assessed the colonization-extirpation dynamics involved in community changes in response to climate inside and outside PAs. To do so, we used 25 years of occurrence data of nonbreeding waterbirds in the western Palearctic (97 species, 7071 sites, 39 countries, 1993-2017). We used a community temperature index (CTI) framework based on species thermal affinities to investigate species turnover induced by temperature increase. We determined whether thermal community adjustment was associated with colonization by warm-dwelling species or extirpation of cold-dwelling species by modeling change in standard deviation of the CTI (CTISD ). Using linear mixed-effects models, we investigated whether communities in PAs had lower climatic debt and different patterns of community change than communities outside PAs. For CTI and CTISD combined, communities inside PAs had more species, higher colonization, lower extirpation, and lower climatic debt (16%) than communities outside PAs. Thus, our results suggest that PAs facilitate 2 independent processes that shape community dynamics and maintain biodiversity. The community adjustment was, however, not sufficiently fast to keep pace with the large temperature increases in the central and northeastern western Palearctic. Our results underline the potential of combining CTI and CTISD metrics to improve understanding of the colonization-extirpation patterns driven by climate warming.

28. Exposure of wetlands important for nonbreeding waterbirds to sea-level rise in the Mediterranean.

Author

Verniest F, Galewski T, Boutron O, Dami L, Defos du Rau P, Guelmami A, Julliard R, Popoff N, Suet M, Willm L, Abdou W, Azafzaf H, Bendjedda N, Bino T, Borg JJ, Božič L, Dakki M, Hamoumi RE, Encarnação V, Erciyas-Yavuz K, Etayeb K, Georgiev V, Hamada A, Hatzofe O, Ieronymidou C, Langendoen T, Mikuska T, Molina B, Moniz F, Moussy C, Ouassou A, Petkov N, Portolou D, Qaneer T, Sayoud S, Šćiban M, Topić G, Uzunova D, Vine G, Vizi A, Xeka E, Zenatello M, Gaget E, and Viol IL

Abstract

Sea-level rise (SLR) is expected to cause major changes to coastal wetlands, which are among the world's most vulnerable ecosystems and are critical for nonbreeding waterbirds. Because strategies for adaptation to SLR, such as nature-based solutions and designation of protected areas, can locally reduce the negative effects of coastal flooding under SLR on coastal wetlands, it is crucial to prioritize adaptation efforts, especially for wetlands of international importance for biodiversity. We assessed the exposure of coastal wetlands important for nonbreeding waterbirds to projected SLR along the Mediterranean coasts of 8 countries by modeling future coastal flooding under 7 scenarios of SLR by 2100 (from 44- to 161-cm rise) with a static inundation approach. Exposure to coastal flooding under future SLR was assessed for 938 Mediterranean coastal sites (≤30 km from the coastline) where 145 species of nonbreeding birds were monitored as part of the International Waterbird Census and for which the monitoring area was delineated by a polygon (64.3% of the coastal sites monitored in the Mediterranean region). Thirty-four percent of sites were threatened by future SLR, even under the most optimistic scenarios. Protected study sites and study sites of international importance for waterbirds were, respectively, 1.5 and 2 times more exposed to SLR than the other sites under the most optimistic scenario. Accordingly, we advocate for the development of a prioritization scheme to be applied to these wetlands for the implementation of strategies for adaptation to SLR to anticipate the effects of coastal flooding. Our study provides major guidance for conservation planning under global change in several countries of the Mediterranean region., (© 2024 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published
2024
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