Search

Your search keyword '"Pistorius, Pierre"' showing total 423 results
Start Over Author "Pistorius, Pierre"
423 results on '"Pistorius, Pierre"'

3. Contributors

Author

Allard, Karel A., primary, Ballance, Lisa T., additional, Bonnaud, Elsa, additional, Borrelle, Stephanie, additional, Buxton, Rachel T., additional, Crawford, Rory, additional, Dias, Maria P., additional, Duffy, D.C., additional, Elliott, Linda, additional, Fort, Jérôme, additional, Gilman, Eric, additional, Gilmour, Morgan, additional, Gummer, Helen, additional, Guzmán, Yuliana Bedolla, additional, Harrison, Craig S., additional, Holmes, Nick D., additional, Jones, Holly P., additional, Kappes, Peter, additional, Kim, Mi Ae, additional, Kress, Stephen, additional, Lyver, Phil O’B., additional, Melvin, Edward F., additional, Miskelly, Colin M., additional, Montevecchi, William A., additional, Naves, Liliana C., additional, Okawa, Rae, additional, Oppel, Steffen, additional, Orgeret, Florian, additional, Peschko, V., additional, Phillips, Richard A., additional, Pistorius, Pierre A., additional, Rodríguez, Airam, additional, Ronconi, Robert A., additional, Rothe, Thomas C., additional, Russell, James C., additional, Samaniego, Araceli, additional, Sánchez, Federico Méndez, additional, Smith, Joanna L., additional, Spatz, Dena R., additional, Suazo, Cristián G., additional, Sydeman, William J., additional, Tasker, Mark L., additional, Taylor, Graeme, additional, Thompson, Sarah Ann, additional, Travers, Marc S., additional, Uhart, Marcela M., additional, VanderWerf, Eric A., additional, Vanstreels, Ralph E.T., additional, Watanuki, Yutaka, additional, Winter, Kawika B., additional, Wolfaardt, Anton, additional, Work, Thierry M., additional, Young, Lindsay C., additional, and Young, Rebecca C., additional

Published
2023
Full Text
View/download PDF

4. Habitat model forecasts suggest potential redistribution of marine predators in the southern Indian Ocean

Author

Reisinger, Ryan R., Corney, Stuart, Raymond, Ben, Lombard, Amanda T., Bester, Marthán N., Crawford, Robert J. M., Davies, Delia, de Bruyn, P. J. Nico, Dilley, Ben J., Kirkman, Stephen P., Makhado, Azwianewi B., Ryan, Peter G., Schoombie, Stefan, Stevens, Kim L., Tosh, Cheryl A., Wege, Mia, Whitehead, T. Otto, Sumner, Michael D., Wotherspoon, Simon, Friedlaender, Ari S., Cotté, Cedric, Hindell, Mark A., Ropert-Coudert, Yan, and Pistorius, Pierre A.

Published
2022

5. Growth rate and projected age at sexual maturity for immature hawksbill turtles and green turtles foraging in the remote marine protected area of Aldabra Atoll, Seychelles

Author

Sanchez, Cheryl L., Bunbury, Nancy, Mortimer, Jeanne A., A’Bear, Luke, Betts, Michael, von Brandis, Rainer, Burt, April J., Cooke, Lorraine, van de Crommenacker, Janske, Currie, Jock C., Doak, Naomi, Fleischer-Dogley, Frauke, Mederic, Emma, Mels, Bruno, Pistorius, Pierre, Richards, Heather, and Casale, Paolo

Published
2023
Full Text
View/download PDF

6. Genome-wide analyses reveal drivers of penguin diversification

Author

Vianna, Juliana A, Fernandes, Flávia AN, Frugone, María José, Figueiró, Henrique V, Pertierra, Luis R, Noll, Daly, Bi, Ke, Wang-Claypool, Cynthia Y, Lowther, Andrew, Parker, Patricia, Le Bohec, Celine, Bonadonna, Francesco, Wienecke, Barbara, Pistorius, Pierre, Steinfurth, Antje, Burridge, Christopher P, Dantas, Gisele PM, Poulin, Elie, Simison, W Brian, Henderson, Jim, Eizirik, Eduardo, Nery, Mariana F, and Bowie, Rauri CK

Subjects
Climate Action, Animals, Antarctic Regions, Australia, Climate Change, Ecosystem, Evolution, Molecular, Genome, Genome-Wide Association Study, New Zealand, Phylogeny, Selection, Genetic, Spheniscidae, penguin, Antarctica, genome, ancestral niche, ancestral distribution
Abstract

Penguins are the only extant family of flightless diving birds. They currently comprise at least 18 species, distributed from polar to tropical environments in the Southern Hemisphere. The history of their diversification and adaptation to these diverse environments remains controversial. We used 22 new genomes from 18 penguin species to reconstruct the order, timing, and location of their diversification, to track changes in their thermal niches through time, and to test for associated adaptation across the genome. Our results indicate that the penguin crown-group originated during the Miocene in New Zealand and Australia, not in Antarctica as previously thought, and that Aptenodytes is the sister group to all other extant penguin species. We show that lineage diversification in penguins was largely driven by changing climatic conditions and by the opening of the Drake Passage and associated intensification of the Antarctic Circumpolar Current (ACC). Penguin species have introgressed throughout much of their evolutionary history, following the direction of the ACC, which might have promoted dispersal and admixture. Changes in thermal niches were accompanied by adaptations in genes that govern thermoregulation and oxygen metabolism. Estimates of ancestral effective population sizes (N e ) confirm that penguins are sensitive to climate shifts, as represented by three different demographic trajectories in deeper time, the most common (in 11 of 18 penguin species) being an increased N e between 40 and 70 kya, followed by a precipitous decline during the Last Glacial Maximum. The latter effect is most likely a consequence of the overall decline in marine productivity following the last glaciation.

Published
2020

7. Tracking of marine predators to protect Southern Ocean ecosystems

Author

Hindell, Mark A, Reisinger, Ryan R, Ropert-Coudert, Yan, Hückstädt, Luis A, Trathan, Philip N, Bornemann, Horst, Charrassin, Jean-Benoît, Chown, Steven L, Costa, Daniel P, Danis, Bruno, Lea, Mary-Anne, Thompson, David, Torres, Leigh G, Van de Putte, Anton P, Alderman, Rachael, Andrews-Goff, Virginia, Arthur, Ben, Ballard, Grant, Bengtson, John, Bester, Marthán N, Blix, Arnoldus Schytte, Boehme, Lars, Bost, Charles-André, Boveng, Peter, Cleeland, Jaimie, Constantine, Rochelle, Corney, Stuart, Crawford, Robert JM, Dalla Rosa, Luciano, de Bruyn, PJ Nico, Delord, Karine, Descamps, Sébastien, Double, Mike, Emmerson, Louise, Fedak, Mike, Friedlaender, Ari, Gales, Nick, Goebel, Michael E, Goetz, Kimberly T, Guinet, Christophe, Goldsworthy, Simon D, Harcourt, Rob, Hinke, Jefferson T, Jerosch, Kerstin, Kato, Akiko, Kerry, Knowles R, Kirkwood, Roger, Kooyman, Gerald L, Kovacs, Kit M, Lawton, Kieran, Lowther, Andrew D, Lydersen, Christian, Lyver, Phil O’B, Makhado, Azwianewi B, Márquez, Maria EI, McDonald, Birgitte I, McMahon, Clive R, Muelbert, Monica, Nachtsheim, Dominik, Nicholls, Keith W, Nordøy, Erling S, Olmastroni, Silvia, Phillips, Richard A, Pistorius, Pierre, Plötz, Joachim, Pütz, Klemens, Ratcliffe, Norman, Ryan, Peter G, Santos, Mercedes, Southwell, Colin, Staniland, Iain, Takahashi, Akinori, Tarroux, Arnaud, Trivelpiece, Wayne, Wakefield, Ewan, Weimerskirch, Henri, Wienecke, Barbara, Xavier, José C, Wotherspoon, Simon, Jonsen, Ian D, and Raymond, Ben

Subjects
Life Below Water, Climate Action, Animal Identification Systems, Animals, Antarctic Regions, Aquatic Organisms, Biodiversity, Birds, Climate Change, Conservation of Natural Resources, Ecosystem, Fishes, Food Chain, Ice Cover, Mammals, Oceans and Seas, Population Dynamics, Predatory Behavior, General Science & Technology
Abstract

Southern Ocean ecosystems are under pressure from resource exploitation and climate change1,2. Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems.

Published
2020

8. The retrospective analysis of Antarctic tracking data project.

Author

Ropert-Coudert, Yan, Van de Putte, Anton P, Reisinger, Ryan R, Bornemann, Horst, Charrassin, Jean-Benoît, Costa, Daniel P, Danis, Bruno, Hückstädt, Luis A, Jonsen, Ian D, Lea, Mary-Anne, Thompson, David, Torres, Leigh G, Trathan, Philip N, Wotherspoon, Simon, Ainley, David G, Alderman, Rachael, Andrews-Goff, Virginia, Arthur, Ben, Ballard, Grant, Bengtson, John, Bester, Marthán N, Blix, Arnoldus Schytte, Boehme, Lars, Bost, Charles-André, Boveng, Peter, Cleeland, Jaimie, Constantine, Rochelle, Crawford, Robert JM, Dalla Rosa, Luciano, Nico de Bruyn, PJ, Delord, Karine, Descamps, Sébastien, Double, Mike, Emmerson, Louise, Fedak, Mike, Friedlaender, Ari, Gales, Nick, Goebel, Mike, Goetz, Kimberly T, Guinet, Christophe, Goldsworthy, Simon D, Harcourt, Rob, Hinke, Jefferson T, Jerosch, Kerstin, Kato, Akiko, Kerry, Knowles R, Kirkwood, Roger, Kooyman, Gerald L, Kovacs, Kit M, Lawton, Kieran, Lowther, Andrew D, Lydersen, Christian, Lyver, Phil O'B, Makhado, Azwianewi B, Márquez, Maria EI, McDonald, Birgitte I, McMahon, Clive R, Muelbert, Monica, Nachtsheim, Dominik, Nicholls, Keith W, Nordøy, Erling S, Olmastroni, Silvia, Phillips, Richard A, Pistorius, Pierre, Plötz, Joachim, Pütz, Klemens, Ratcliffe, Norman, Ryan, Peter G, Santos, Mercedes, Southwell, Colin, Staniland, Iain, Takahashi, Akinori, Tarroux, Arnaud, Trivelpiece, Wayne, Wakefield, Ewan, Weimerskirch, Henri, Wienecke, Barbara, Xavier, José C, Raymond, Ben, and Hindell, Mark A

Abstract

The Retrospective Analysis of Antarctic Tracking Data (RAATD) is a Scientific Committee for Antarctic Research project led jointly by the Expert Groups on Birds and Marine Mammals and Antarctic Biodiversity Informatics, and endorsed by the Commission for the Conservation of Antarctic Marine Living Resources. RAATD consolidated tracking data for multiple species of Antarctic meso- and top-predators to identify Areas of Ecological Significance. These datasets and accompanying syntheses provide a greater understanding of fundamental ecosystem processes in the Southern Ocean, support modelling of predator distributions under future climate scenarios and create inputs that can be incorporated into decision making processes by management authorities. In this data paper, we present the compiled tracking data from research groups that have worked in the Antarctic since the 1990s. The data are publicly available through biodiversity.aq and the Ocean Biogeographic Information System. The archive includes tracking data from over 70 contributors across 12 national Antarctic programs, and includes data from 17 predator species, 4060 individual animals, and over 2.9 million observed locations.

Published
2020

9. Taxonomy based on limited genomic markers may underestimate species diversity of rockhopper penguins and threaten their conservation

Author

Frugone, María José, Cole, Theresa L., López, María Eugenia, Clucas, Gemma, Matos-Maraví, Pável, Lois, Nicolás A., Pistorius, Pierre, Bonadonna, Francesco, Trathan, Phil, Polanowski, Andrea, Wienecke, Barbara, Raya-Rey, Andrea, Pütz, Klemens, Steinfurth, Antje, Bi, Ke, Wang-Claypool, Cynthia Y., Waters, Jonathan M., Bowie, Rauri C. K., Poulin, Elie, and Vianna, Juliana A.

Published
2021

11. Long-term changes in adult size of green turtles at Aldabra Atoll and implications for clutch size, sexual dimorphism and growth rates

Author

Mortimer, Jeanne A., Appoo, Jennifer, Bautil, Bruno, Betts, Michael, Burt, April J., Chapman, Roselle, Currie, Jock C., Doak, Naomi, Esteban, Nicole, Liljevik, Anna, Mahoune, Jourdan Terence, Onezia, Catherina, Pistorius, Pierre, Richards, Heather, Samedi, Uzice, Sanchez, Cheryl L., Seabrook, Wendy, Underwood, Alex, van de Crommenacker, Janske, von Brandis, Rainer, and Hays, Graeme C.

Published
2022
Full Text
View/download PDF

12. Habitat preferences of Phoebetria albatrosses in sympatry and allopatry

Author

Bentley, Lily K., Phillips, Richard A., Carpenter‐Kling, Tegan, Crawford, Robert J. M., Cuthbert, Richard J., Delord, Karine, Dilley, Ben J., Makhado, Azwianewi B., Miller, Peter I., Oppel, Steffen, Pistorius, Pierre A., Ryan, Peter G., Schoombie, Stefan, Weimerskirch, Henri, Manica, Andrea, Bentley, Lily K., Phillips, Richard A., Carpenter‐Kling, Tegan, Crawford, Robert J. M., Cuthbert, Richard J., Delord, Karine, Dilley, Ben J., Makhado, Azwianewi B., Miller, Peter I., Oppel, Steffen, Pistorius, Pierre A., Ryan, Peter G., Schoombie, Stefan, Weimerskirch, Henri, and Manica, Andrea

Abstract

Aim: Competition is often proposed to drive niche segregation along multiple axes in speciose communities. Understanding spatial partitioning of foraging areas is particularly important in species that are constrained to a central place. We present a natural experiment examining variation in habitat preferences of congeneric Southern Ocean predators in sympatry and allopatry. Our aim was to ascertain consistency of habitat preferences within species, and to test whether preferences changed in the presence of the congener. Location: Southern Hemisphere. Taxon: Multiple colonies of both species within the genus Phoebetria (sooty albatrosses). Methods: The two Phoebetria albatrosses breed on islands located from ~37–55°S – sooty albatrosses (P. fusca) in the north and light-mantled albatrosses (P. palpebrata) in the south – with sympatric overlap at locations ~46–49°S. We analysed GPS and PTT tracks from 87 individuals and multiple remotely sensed environmental variables using GAMs, to determine and compare the key factors influencing habitat preference for each species at each breeding colony. Results While foraging habitat preferences are consistent in light-mantled albatrosses, there is divergence of preferences in sooty albatrosses depending on whether they are in sympatry with their congener or in allopatry. Main Conclusions This study represents the most comprehensive work on this genus to date and highlights how habitat preferences and behavioural plasticity may influence species distributions under different competitive conditions.

Published
2024

13. Cross-continental analysis of coastal biodiversity change

Author

Rishworth, Gavin M., Adams, Janine B., Bird, Matthew S., Carrasco, Nicola K., Dänhardt, Andreas, Dannheim, Jennifer, Lemley, Daniel A., Pistorius, Pierre A., Scheiffarth, Gregor, and Hillebrand, Helmut

Published
2020

14. Cryptic speciation in gentoo penguins is driven by geographic isolation and regional marine conditions : Unforeseen vulnerabilities to global change

Author

Pertierra, Luis R., Segovia, Nicolás I., Noll, Daly, Martinez, Pablo A., Pliscoff, Patricio, Barbosa, Andrés, Aragón, Pedro, Rey, Andrea Raya, Pistorius, Pierre, Trathan, Phil, Polanowski, Andrea, Bonadonna, Francesco, Le Bohec, Céline, Bi, Ke, Wang-Claypool, Cynthia Y., González-Acuña, Daniel, Dantas, Gisele P. M., Bowie, Rauri C. K., Poulin, Elie, and Vianna, Juliana A.

Published
2020

15. RAPID INCREASE IN SIZE OF WEDGE-TAILED SHEARWATER ARDENNA PACIFICA COLONY FOLLOWING RAT ERADICATION.

Author

KEYS, DANIELLE Z., BULLOCK, ROBERT W., KEATING, CLARE, and PISTORIUS, PIERRE A.

Subjects
COLONIES (Biology), COLONIAL birds, RATS, SHEARWATERS, CONFIDENCE intervals, CENSUS
Abstract

Invasive mammalian predators have devastating effects on seabird nesting colonies. A census was conducted on breeding Wedge-tailed Shearwaters Ardenna pacifica in 2016 and 2021 on D'Arros Island, Seychelles, which has been rat-free since 2003. Results were compared with an earlier population estimate to assess population growth following the rat eradication. Compared to counts in 2009, we estimated a 10-fold increase in breeding population size, with 2768 (95% confidence interval (CI) 2424-3112) and 2406 (95% CI 2143-2667) breeding pairs in 2016 and 2021, respectively. While the estimated increase is partly attributable to differences in the timing of the conducted census between the two studies, we also observed an increase in the areal extent of the population, from 3.00 to 3.85 ha (0.0300-0.0385 km2), and an increase in nesting density. Cumulatively, this indicates a true population increase. [ABSTRACT FROM AUTHOR]

Published
2024

19. The first assessment of social organisation of the Indian Ocean humpback dolphin (Sousa plumbea) along the south coast of South Africa

Author

Bouveroux, Thibaut, Kirkman, Stephen P., Conry, Danielle, Vargas-Fonseca, O. Alejandra, and Pistorius, Pierre A.

Subjects
Marine mammals -- Analysis -- Social aspects, Delphinidae -- Analysis -- Social aspects, Endangered species -- Analysis -- Social aspects, Dolphins -- Analysis -- Social aspects, Ocean -- Analysis -- Social aspects, Social networks -- Analysis -- Social aspects, Zoology and wildlife conservation
Abstract

The Indian Ocean humpback dolphin (Sousa plumbea(G. Cuvier, 1829)) is the most endangered marine mammal species in South Africa, and the overall decline of its abundance and group size may affect the social organisation of the species, potentially accentuating its vulnerability. Understanding the social organisation is therefore particularly relevant to conservation efforts. From photo-identification surveys along the south coast of South Africa from March 2014 to June 2015, we quantified association patterns and investigated the social organisation of Indian Ocean humpback dolphins using the half-weight index, social cluster, and network analyses. During the 101 surveys conducted and 553 h of survey effort, 98 sightings of dolphins were recorded and 65 individuals identified. Using individuals seen at least three times, this study reveals that the social network is well differentiated, as strong social divisions exist between individuals that seem to be split into four distinctive social clusters. Network strength was low; approximately half of the associations were low to moderate, whereas some individuals were strongly associated, especially between four pairs of individuals. Although this study is based on a limited number of individuals, our study nevertheless suggests that the atypical strong social bonds recorded here could result from behavioural responses following the decline in group size and abundance. Key words: Indian Ocean humpback dolphin, Sousa plumbea, cetacean, social structure, endangered species, association patterns, half-weight index, social cluster, population decline. Le dauphin à bosse de l'océan Indien (Sousa plumbea (G. Cuvier, 1829)) est l'espèce de mammifère marin la plus menacée en Afrique du Sud, et la baisse globale de son abondance et de la taille de ses groupes pourrait avoir une incidence sur l'organisation sociale de l'espèce, accentuant potentiellement sa vulnérabilité. La compréhension de son organisation sociale revêt donc une importance particulière pour les efforts de conservation. À la lumière de levés de photo-identification le long du littoral sud de l'Afrique du Sud menés de mars 2014 à juin 2015, nous avons quantifié les motifs d'association et étudié l'organisation sociale de dauphins à bosse de l'océan Indien en utilisant des analyses du << half-weight index >>, des groupements sociaux et des réseaux. Au cours des 101 levés réalisés et des 553 h d'effort de levé, 98 observations de dauphins ont été enregistrées et 65 individus ont été identifiés. Sur la base des individus observés au moins trois fois, l'étude révèle que le réseau social est bien différencié, puisque de fortes divisions sociales existent entre les individus, qui semblent être séparés en quatre groupements sociaux distincts. La force du réseau était faible; environ la moitié des associations étaient faibles à modérées, alors que certains individus étaient fortement associés, particulièrement entre quatre pairs d'individus. Bien que l'étude repose sur un nombre limité d'individus, elle donne néanmoins à penser que les forts liens sociaux atypiques relevés pourraient résulter de réactions comportementales découlant de la diminution de l'abondance et de la taille des groupes. [Traduit par la Rédaction] Mots-clés : dauphin à bosse de l'océan Indien, Sousa plumbea, cétacé, structure sociale, espèce menacée, motifs d'association, << half-weight index >>, groupement social, déclin de la population., Introduction In the animal kingdom, group-living strategies vary considerably between species and even within the same species (Whitehead 1997). Within groups, social interactions between members are not random, as individuals [...]

Published
2019
Full Text
View/download PDF

21. Gauging the threat: exposure and attraction of sooty albatrosses and white-chinned petrels to fisheries activities in the Southern Indian Ocean.

Author

Banda, Shamiso, Pistorius, Pierre, Collet, Julien, Corbeau, Alexandre, Weimerskirch, Henri, Pajot, Adrien, Keys, Danielle Z, and Orgeret, Florian

Subjects
*PETRELS, *ALBATROSSES, *AUTOMATIC identification, *MARINE habitats, *OCEAN
Abstract

Bycatch risk assessments typically rely on spatial overlaps between seabirds and fishing vessels but should also consider seabirds' position in the attraction spectrum. Investigating seabird-fishery interactions in relation to habitat use is vital for species-specific risk assessments. To address this, we studied interactions between sooty albatrosses (SA) and white-chinned petrels (WCP) with fisheries. GPS data from 20 SA and 18 WCP individuals from Marion Island were analysed alongside Automatic Identification System-derived boat locations over two breeding seasons. We calculated encounter and attraction rates and correlated them with marine habitat characteristics. SA interactions occurred in deeper, warmer waters compared to their foraging habitat when vessels were absent, with 20% of individuals encountering and only 5% being attracted to boats. In contrast, WCP interactions occurred in shallow, warm South African shelf waters, consistent with their typical foraging habitats, with 72% encountering and 56% attracted to boats. These results highlight the need for continued reinforcement of mitigation measures for WCP. Despite the low attraction rates for SA, ongoing vigilance is required due to their smaller population size, which heightens the potential impact of illegal fisheries. The comparison of species along an attraction spectrum contributes to refining risk assessments and informs species-specific conservation strategies. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

22. 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
Full Text
View/download PDF

23. Habitat modelling of tracking data from multiple marine predators identifies important areas in the Southern Indian Ocean

Author

Reisinger, Ryan R., Raymond, Ben, Hindell, Mark A., Bester, Marthán N., Crawford, Robert J. M., Davies, Delia, de Bruyn, P.J. Nico, Dilley, Ben J., Kirkman, Stephen P., Makhado, Azwianewi B., Ryan, Peter G., Schoombie, Stefan, Stevens, Kim, Sumner, Michael D., Tosh, Cheryl A., Wege, Mia, Whitehead, Thomas Otto, Wotherspoon, Simon, and Pistorius, Pierre A.

Published
2018

27. 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
Full Text
View/download PDF

28. 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

33. Haemoproteus jenniae (Haemoproteidae, Haemosporida) infects gulls (Larus spp.) in South Africa, with redescription of Haemoproteus skuae

Author

Vanstreels, Ralph E. T., primary, Chagas, Carolina R. F., additional, Valkiūnas, Gediminas, additional, dos Anjos, Carolina C., additional, Parsons, Nola J., additional, Roberts, David G., additional, Snyman, Albert, additional, Hurtado, Renata, additional, Kirchgatter, Karin, additional, Ludynia, Katrin, additional, and Pistorius, Pierre A., additional

Published
2023
Full Text
View/download PDF

36. Growth rate and projected age at sexual maturity for immature hawksbill turtles and green turtles foraging in the remote marine protected area of Aldabra Atoll

Author

Sanchez, Cheryl, primary, Bunbury, Nancy, additional, Mortimer, Jeanne A, additional, A'Bear, Luke, additional, Betts, Michael, additional, von Brandis, Rainer, additional, Burt, April J, additional, Cooke, Lorraine, additional, de Crommenacker, Janske van, additional, Currie, Jock C, additional, Doak, Naomi, additional, Fleischer-Dogley, Frauke, additional, Mederic, Emma, additional, Mels, Bruno, additional, Pistorius, Pierre, additional, Richards, Heather, additional, and Casale, Paolo, additional

Published
2022
Full Text
View/download PDF

43. Using systematic conservation planning to align priority areas for biodiversity and nature-based activities in marine spatial planning: A real-world application in contested marine space

Author

Holness, Stephen D., primary, Harris, Linda R., additional, Chalmers, Russell, additional, De Vos, Deidre, additional, Goodall, Victoria, additional, Truter, Hannah, additional, Oosthuizen, Ané, additional, Bernard, Anthony T.F., additional, Cowley, Paul D., additional, da Silva, Charlene, additional, Dicken, Matthew, additional, Edwards, Lloyd, additional, Marchand, Gordon, additional, Martin, Paul, additional, Murray, Taryn S., additional, Parkinson, Matthew C., additional, Pattrick, Paula, additional, Pichegru, Lorien, additional, Pistorius, Pierre, additional, Sauer, Warwick H.H., additional, Smale, Malcolme, additional, Thiebault, Andréa, additional, and Lombard, Amanda T., additional

Published
2022
Full Text
View/download PDF

49. Winter foraging site fidelity of king penguins breeding at the Falkland Islands

Author

Baylis, Alastair M.M., Orben, Rachael A., Pistorius, Pierre, Brickie, Paul, Staniland, Iain, and Ratcliffe, Norman

Subjects
Wildlife conservation -- Protection and preservation -- Methods, King penguin -- Protection and preservation, Biological sciences
Abstract

Foraging site fidelity has profound consequences for individual fitness, population processes and the effectiveness of species conservation measures. Accordingly, quantifying site fidelity has become increasingly important in animal movement and habitat selection studies. To assess foraging site fidelity in king penguins (Aptenodytes patagonicus) breeding at the Falkland Islands (51.48°S, 57.83°W), we measured overlap in time spent in foraging areas (at a 0.1° x 0.1° grid resolution) between successive foraging trips and foraging route consistency during the citche period. In total, 30 complete foraging trips from seven king penguins were recorded between April and October 2010. King penguins predominantly foraged on the highly productive Patagonian slope, to the north of the Falkland Islands [median foraging trip distance 213 km (SD = 215 km) and duration 12.8 days (SD = 14.7 days)]. Overlap in time spent in an area on consecutive foraging trips ranged between 2 and 73 % (mean 27 %, SD = 22 %). Bearing during the outbound portion of foraging trips was typically highly repeatable for individual birds, but foraging trip duration and distance were not. Travel during the outbound phase of foraging trips was consistent with the direction of the northward-flowing Falkland Current that may act as a directional cue or facilitate rapid transit to foraging areas. Flexibility in foraging trip distances and durations may be a response to changes in resource availability and changes in the energetic requirements of adults and chicks over an extended breeding cycle., Introduction Foraging site fidelity (the return to a previously occupied foraging area) has profound consequences for individual fitness, population dynamics, ecological processes and the efficiency of species' conservation measures (Bradshaw [...]

Published
2015
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results