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

Author

Clark, Bethany, Carneiro, Ana, Pearmain, Elizabeth, Rouyer, Marie-Morgane, Clay, Thomas, Cowger, Win, Phillips, Richard, Manica, Andrea, Hazin, Carolina, Eriksen, Marcus, González-Solís, Jacob, Adams, Josh, Albores-Barajas, Yuri, Alfaro-Shigueto, Joanna, Alho, Maria, Araujo, Deusa, Arcos, José, Arnould, John, Barbosa, Nadito, Barbraud, Christophe, Beard, Annalea, Beck, Jessie, Bell, Elizabeth, Bennet, Della, Berlincourt, Maud, Biscoito, Manuel, Bjørnstad, Oskar, Bolton, Mark, Booth Jones, Katherine, Borg, John, Bourgeois, Karen, Bretagnolle, Vincent, Bried, Joël, Briskie, James, Brooke, M, Brownlie, Katherine, Bugoni, Leandro, Calabrese, Licia, Campioni, Letizia, Carey, Mark, Carle, Ryan, Carlile, Nicholas, Carreiro, Ana, Catry, Paulo, Catry, Teresa, Cecere, Jacopo, Ceia, Filipe, Cherel, Yves, Choi, Chang-Yong, Cianchetti-Benedetti, Marco, Clarke, Rohan, Cleeland, Jaimie, Colodro, Valentina, Congdon, Bradley, Danielsen, Jóhannis, De Pascalis, Federico, Deakin, Zoe, Dehnhard, Nina, DellOmo, Giacomo, Delord, Karine, Descamps, Sébastien, Dilley, Ben, Dinis, Herculano, Dubos, Jerome, Dunphy, Brendon, Emmerson, Louise, Fagundes, Ana, Fayet, Annette, Felis, Jonathan, Fischer, Johannes, Freeman, Amanda, Fromant, Aymeric, Gaibani, Giorgia, García, David, Gjerdrum, Carina, Gomes, Ivandra, Forero, Manuela, Granadeiro, José, Grecian, W, Grémillet, David, Guilford, Tim, Hallgrimsson, Gunnar, Halpin, Luke, Hansen, Erpur, Hedd, April, Helberg, Morten, Helgason, Halfdan, Henry, Leeann, Hereward, Hannah, Hernandez-Montero, Marcos, Hindell, Mark, Hodum, Peter, Imperio, Simona, Jaeger, Audrey, Jessopp, Mark, Jodice, Patrick, Jones, Carl, Jones, Christopher, Jónsson, Jón, and Kane, Adam

Subjects
Animals, Plastics, Waste Products, Environmental Monitoring, Oceans and Seas, Birds, Indian Ocean
Abstract

Plastic pollution is distributed patchily around the worlds 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

5. Biochemical and molecular biomarkers and their association with anthropogenic chemicals in wintering Manx shearwaters (Puffinus puffinus)

Author

Serafini, Patricia P., Righetti, Bárbara P.H., Vanstreels, Ralph E.T., Bugoni, Leandro, Piazza, Clei E., Lima, Daína, Mattos, Jacó J., Kolesnikovas, Cristiane K.M., Pereira, Alice, Maraschin, Marcelo, Piccinin, Isadora, Guilford, Tim, Gallo, Luciana, Uhart, Marcela M., Lourenço, Rafael A., Bainy, Afonso C.D., and Lüchmann, Karim H.

Published
2024
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16. Population estimates of shorebirds on the Atlantic Coast of southern South America generated from large-scale, simultaneous, volunteer-led surveys

Author

Faria, Fernando A., primary, Aldabe, Joaquín, additional, Almeida, Juliana B., additional, Bonanno, Juan J., additional, Bugoni, Leandro, additional, Clay, Robert, additional, Garcia-Walther, Julian, additional, González, Agustina M., additional, Lesterhuis, Arne, additional, Nunes, Guilherme T., additional, and Senner, Nathan R., additional

Published
2024
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20. ATLANTIC BIRD TRAITS : a data set of bird morphological traits from the Atlantic forests of South America

Author

Rodrigues, Rodolpho Credo, Hasui, Érica, Assis, Julia Camara, Pena, João Carlos Castro, Muylaert, Renata L., Tonetti, Vinicius Rodrigues, Martello, Felipe, Regolin, André Luis, da Costa, Thiago Vernaschi Vieira, Pichorim, Mauro, Carrano, Eduardo, Lopes, Leonardo Esteves, de Vasconcelos, Marcelo Ferreira, Fontana, Carla Suertegaray, Roos, Andrei Langeloh, Gonçalves, Fernando, Banks-Leite, Cristina, Cavarzere, Vagner, Efe, Marcio Amorim, Alves, Maria Alice S., Uezu, Alexandre, Metzger, Jean Paul, de Tarso Zuquim de Antas, Paulo, de Barros Ferraz, Katia Maria Paschoaletto Micchi, Calsavara, Larissa Corsini, Bispo, Arthur Angelo, Araujo, Helder F. P., Duca, Charles, Piratelli, Augusto João, Naka, Luciano N., Dias, Rafael Antunes, Gatto, Cassiano A. F. R., Vallejos, Marcelo Alejandro Villegas, dos Reis Menezes, Gregório, Bugoni, Leandro, Rajão, Henrique, Zocche, Jairo José, Willrich, Guilherme, da Silva, Elsimar Silveira, Manica, Lilian Tonelli, de Camargo Guaraldo, André, Althmann, Giulyana, Serafini, Patricia Pereira, Francisco, Mercival Roberto, Lugarini, Camile, Machado, Caio Graco, Marques-Santos, Fernando, Bobato, Rafaela, de Souza, Elivan Arantes, Donatelli, Reginaldo José, Ferreira, Carolina Demetrio, Morante-Filho, José Carlos, Paes-Macarrão, Natalia Dantas, Macarrão, Arthur, Lima, Marcos Robalinho, Jacoboski, Lucilene Inês, Candia-Gallardo, Carlos, Alegre, Vanesa Bejarano, Jahn, Alex E., de Camargo Barbosa, Karlla Vanessa, Cestari, Cesar, da Silva, José Nilton, Da Silveira, Natalia Stefanini, Crestani, Ana Cristina Vara, Petronetto, Adeliane Peterle, Bovo, Alex Augusto Abreu, Viana, Anderson Durão, Araujo, Andrea Cardoso, dos Santos, Andressa Hartuiq, do Amaral, Andreza Clarinda Araújo, Ferreira, Ariane, Vieira-Filho, Arnaldo Honorato, Ribeiro, Bianca Costa, Missagia, Caio C. C., Bosenbecker, Camila, Medolago, Cesar Augusto Bronzato, Espínola, Cid Rodrigo Rodriguez, Faxina, Claudenice, Nunes, Cristiane Estrela Campodonio, Prates, Cristine, da Luz, Daniela Tomasio Apolinario, Moreno, Daniele Janina, Mariz, Daniele, Faria, Deborah, Meyer, Douglas, Doná, Eder Afonso, Alexandrino, Eduardo Roberto, Fischer, Erich, Girardi, Fabiane, Giese, Felipe Borba, Shibuya, Felipe Leonardo Santos, Faria, Fernando Azevedo, de Farias, Fernando Bittencourt, de Lima Favaro, Fernando, Freitas, Fernando José Ferneda, Chaves, Flávia G., Las-Casas, Flor Maria Guedes, Rosa, Gabriel L. M., De La Torre, Gabriel Massaccesi, Bochio, Gabriela Menezes, Bonetti, Giselle Evelise, Kohler, Glauco, Toledo-Lima, Guilherme Santos, Plucenio, Gustavo Piletti, Menezes, Ícaro, Torres, Ingrid Maria Denóbile, Provinciato, Ivan Celso Carvalho, Viana, Ivan Réus, Roper, James Joseph, Persegona, Jaqueline Evelyn, Barcik, Jean Júnior, Martins-Silva, Jimi, Just, João Paulo Gava, Tavares-Damasceno, João Paulo, de Almeida Ferreira, João Ricardo, Rosoni, Jonas Rafael Rodrigues, Falcon, José Eduardo Teixeira, Schaedler, Laura Maria, Mathias, Leonardo Brioschi, Deconto, Leonardo Rafael, da Cruz Rodrigues, Licléia, Meyer, Marcela Afonso P., Repenning, Márcio, Melo, Marcos Antônio, de Carvalho, Maria Amélia Santos, Rodrigues, Marcos, Nunes, Maria Flavia Conti, Ogrzewalska, Maria Halina, Gonçalves, Mariana Lopes, Vecchi, Maurício B., Bettio, Maurício, da Matta Baptista, Michelle Noronha, Arantes, Murilo Sérgio, Ruiz, Nicolás Luciano, de Andrade, Paulo Guilherme Bisetto, Ribeiro, Pedro Henrique Lima, Junior, Pedro Manoel Galetti, Macario, Phoeve, de Oliveira Fratoni, Rafael, Meurer, Rafael, Saint-Clair, Rafael S., Romagna, Rafael Spilere, Lacerda, Raquel Caroline Alves, Cerboncini, Ricardo Augusto Serpa, Lyra, Ricardo Brioschi, Lau, Ricardo, Rodrigues, Roberta Costa, Faria, Rogério Rodrigues, Laps, Rudi Ricardo, Althoff, Sérgio Luiz, de Jesus, Shayana, Namba, Sumiko, Braga, Talita Vieira, Molin, Tamara, Câmara, Thanyria P. França, Enedino, Thayz Rodrigues, Wischhoff, Uschi, de Oliveira, Vanessa Cristina, Leandro-Silva, Victor, Araújo-Lima, Vitor, de Oliveira Lunardi, Vitor, de Gusmão, Reginaldo Farias, de Souza Correia, Jozélia Maria, Gaspar, Lucas P., Fonseca, Renata Cristina Batista, Neto, Paulo Affonso Fonseca Pires, de Aquino, Ana Carla Medeiros Morato, de Camargo, Bruna Betagni, Cezila, Beatriz Azevedo, Costa, Leonardo Marques, Paolino, Roberta Montanheiro, Kanda, Claudia Zukeran, Monteiro, Erison C. S., Oshima, Júlia Emi F., Alves-Eigenheer, Milene, Pizo, Marco Aurelio, Silveira, Luís F., Galetti, Mauro, and Ribeiro, Milton Cezar

Published
2019

31. Ecology and conservation of albatrosses and petrels at sea off Brazil

Author

Bugoni, Leandro

Subjects
598.4, QL Zoology, GE Environmental Sciences
Abstract

In this study I investigated Procellariiformes (albatrosses, petrels and shearwaters) at sea in the southwestern Atlantic Ocean. Fourteen species and 301 individuals were sampled non-destructively using a cast net method described here. A method is described for ageing Atlantic Yellow-nosed (Thalassarche chlororhynchos) and Black-browed (T. melanophris) Albatrosses based on bill colour and moult. Procellariiformes appear to have two distinct moulting strategies: petrels and shearwaters have complete annual moult, start to moult during the breeding period, and replace several primaries and tail feathers at one time, whereas albatrosses undergo long moulting cycles, replace less feathers at once, and suspend the wing moult during breeding periods. Primary moult starting at P2 rather than P1 was demonstrated to be a common feature in this taxon, with important implications for studies of stable isotopes, trace elements and pollutants in feathers. Overlap between moulting and breeding is demonstrated to be common with tail and contour feathers, but limited in wing, which suggests that flight constraint in long distance foragers rather than nutritional and energetic limitations is the ultimate factor determining primary moult timing. Based on molecular sexing and linear measurements, sexual size dimorphism was shown to vary according to species, with females in general smaller than males, more pronounced in bill measurements than in other traits, and more conspicuous in Giant Petrels (Macronectes spp.) and Diomedea albatrosses. Closely related species pairs of Thallassarche albatrosses and Procellaria petrels had differing levels of sexual dimorphism. The pelagic seabird community sampled comprises birds from different ages and breeding status according to species. Skewed Adult Sex Ratio (ASR) has been proposed as a common pattern in birds, frequently biased towards males and with larger biases in globally threatened species. In albatrosses and petrels, differential mortality of one gender in fisheries is suggested to be caused by sexual size dimorphism giving males a competitive advantage, which allows more access of the larger sex to discards and baits, or to at sea segregation of sexes. These hypotheses were tested by sampling birds at sea and reviewing ASR of birds incidentally captured in fisheries. Skewed ASR is common in albatrosses and petrels from the community attending vessels, but there was no correlation between skewed ASR and conservation status, both in terms of population size or global level of threat, or between ASR and sexual size dimorphism. Thus, sexual dimorphism in size does not explain skewed ASR in the community sampled or in incidental captures in fisheries reported in the review. Differential at sea distributions of males and females appear to explain better the patterns found in the community sampled at sea, as well as skewed ASR in seabird fatalities. Kernel density analysis of satellite tracked Spectacled Petrels (Procellaria conspicillata) in 2006 and 2007 demonstrated intense use of waters in the Brazilian Exclusive Economic Zone, from 26 to 31S, mainly over the continental shelf break and offshore waters. The marine habitats used by Spectacled Petrel and described by bathymetry, SST and productivity are remarkably different from those of the sister species White-chinned Petrel (Procellaria aequinoctialis), which occurs in the area during the winter, but remains over the continental shelf, on Sub-Antarctic and oligotrophic waters. A close association between birds and pelagic longline fishery was demonstrated through comparison of the main kernel areas used by Spectacled Petrels and the pelagic longline fleet. Stable isotopes of nitrogen (δ15N) and carbon (δ13C) in blood preserved in different ways and simultaneously growing feathers were analysed in Spectacled Petrel. Mean δ13C and δ15N values in growing feathers were higher than in blood, suggesting tissue-specific fractionation. Different methods of preserving tissues such as blood may bias stable isotope values. Air drying is proposed as a practical and unbiased method for blood preservation in field situations where freezing is not a practical option, and a mathematical approach is suggested to permit comparison between studies using different preservation methods or tissues. By analysing stable isotopes in blood of all species of Procellariiformes sampled it is demonstrated that availability of discard, mainly the preferred shark liver, which is shared among species with contrasting body masses and feeding techniques, is the ultimate cause of overlapping in trophic levels. Carbon isotopic signature overlapped among the species and was typical of subtropical and offshore region. Early migrant individuals from Antarctica and sub-Antarctic (e.g. Cape Petrel Daption capense, White-chinned Petrel, Wilson’s Storm-petrel Oceanites oceanicus) and species still rearing chicks when sampled (Wandering Albatross Diomedea exulans) had clear carbon isotopic signatures from the austral region. All southern latitude species underwent a clear shift in carbon and nitrogen isotope signatures, increasing in trophic level after arriving in the SW Atlantic. Cory’s Shearwater (Calonectris diomedea), the only species not attending vessels, has low nitrogen values resulting from a diet of flyingfish and squids naturally occurring in the area. While some abundant and widespread petrels and shearwaters, particularly those small in size, benefit from discards from pelagic longline vessels, the balance between benefits and the incidental mortality in hooks is negative for albatrosses and some petrels. Information on bycatch rates of seabirds in the Brazilian domestic pelagic longline fishery from 2001 to 2007 in the Exclusive Economic Zone and adjacent international waters of the southwestern Atlantic Ocean is presented, and bycatch rates for the area are reviewed. Overall, seabird capture rate for the Brazilian pelagic longline fleet was 0.229 birds/1000 hooks, varying from zero to 0.542 birds/1000 according to season. Capture rates were higher between June and November (cold season) and affected mainly the Black-browed Albatross (55% of birds captured), the White-chinned Petrel, the Spectacled Petrel and the Atlantic Yellow-nosed Albatross. Capture rates previously reported in the SW Atlantic varied from 0 to 5.03 birds/1000 hooks, with those based on logbooks or fishermen interviews tending to underestimate capture rates, whereas those based on small numbers of hooks or short time periods tend to greatly overestimate rates in both pelagic and demersal longline fisheries. A range of poorly-known hook-and-line commercial fisheries carried out by the Itaipava fleet, southeastern Brazil, composed by 497 vessels, was described with seven fisheries defined. Capture rates were higher for the surface longline for Dolphinfish (0.15 birds/1000 hooks and 1.08 turtles/1000 hooks), slow trolling for Bigeye Tuna (0.41 birds/day) and handlining targeting Yellowfin Tuna (0.61 birds/day). Bycatch of 47 seabirds, mainly the endangered Spectacled Petrel, Atlantic Yellow-nosed, and Black-browed Albatrosses, and 45 turtles of four species were recorded. Longline and other hook-and-line fisheries are the major threat for albatrosses and petrels from different origins when foraging in the SW Atlantic Ocean, and require urgent conservation measures.

Published
2008

38. Rhinonyssus nenecoi Gastal & Mascarenhas & Bugoni 2023, sp. nov

Author

Gastal, Silvia Bainy, Mascarenhas, Carolina Silveira, and Bugoni, Leandro

Subjects
Arthropoda, Rhinonyssus nenecoi, Rhinonyssidae, Arachnida, Mesostigmata, Animalia, Biodiversity, Rhinonyssus, Taxonomy
Abstract

Rhinonyssus nenecoi sp. nov. (Figs. 1–4) Type material. Holotype (IBSP 18863) and paratypes (IBSP 18864–18868) (females) from Brazil: Praia do Cassino (Cassino Beach), Rio Grande municipality, Rio Grande do Sul State, 27 May 2020. Diagnosis. Oval body shape with a strongly sclerotised podosomal shield covering more than half of the dorsal idiosoma; shield with four pairs of minute setae; podosomal shield with gradually tapering posteromedial projection forming a V-like shape; sternal shield sclerotised and irregular in shape; ventral opisthosoma with 7–8 setae. Description Female (holotype and five paratypes) Measurements: Length of body including palps (LID) 710 (610−860); width of idiosoma (WID) 504 (460−600); length of podosomal shield 490 (460−530); width of podosomal shield 388 (370−400); length of gnathosoma 203 (188−233); width of gnathosoma 143 (130−153); length of palps 142 (130−150); length of chelicerae 122 (115−125); width of chelicerae 29 (28−33); length of chelicera mobile digit 25 (1 specimen measured); length of genital shield 161 (128−225); width of genital shield 165 (120−235); length of sternal shield 129 (120−148); width of sternal shield 119 (103−125); length of legs: leg I 532 (500−560); leg II 512 (500−530); leg III 512 (500−530); leg IV 508 (500−520). Dorsal idiosoma: Idiosoma elliptical, podosomal shield reticulated, covering more than half of anterior idiosoma. Podosomal shield strongly sclerotised, with four pairs of minute setae, with prominent posteromedial projection tapering gradually forming a V-like shape. Mesosomal shieldlets absent. Dorsal idiosoma without setae. Stigmata without peritremes, located dorsolaterally at level of coxae IV (Figs. 2 and 4A). Anus situated dorsoterminally, flanked by a pair of para-anal setae (Fig. 4B). Ventral idiosoma: Reticulate sternal shield sclerotised, irregular in shape and variable in size. Sternal setae strongly reduced and represented by alveoli, one pair of sternal setae on the shield, another pair of setae in soft cuticle posterior to sternal shield. Genital shield wider than long, rounded posteriorly, surface reticulate and devoid of setae. Ventral opisthosoma with 3–4 pairs of setae (Figs. 3 and 4C). Gnathosoma (Fig. 4D): Gnathosoma ventral in position. Hypostomal setae and deutosternal teeth absent. Palps four-segmented, chaetotaxy of palps 0–2–1–7. Two apical pairs of setae noticeably longer than other setae of apical palpal segment. Chelicerae widest proximally, tapering distally. Legs (Figs. 2 and 3): Chaetotaxy of legs I–IV: coxae 2–2–2–1; trochanters 3–5–4–4; femurs 7–8–6–6; genua 6–5–7–4; tibiae 6–5–5–5; tarsi 24–14–14–11. Leg segments with three types of setae: short and thickened; medium length and sharply tipped; and longer filamentous. Short and thickened and medium length and sharply tipped setae situated on trochanters, tibiae and tarsi. Longer filamentous setae situated on ventrolateral portion of coxae and in apical portion of the tarsi. Ambulacrum present in all tarsi, noticeably elongated on leg I. Claws of all legs simply curved, hook-like. Empodium covers bases of claws. Male and immatures. Unknown. Parasitological indices. One out of three D. capense (33.3%) was parasitised by R. nenecoi. Mean abundance was three and the mean intensity was nine mites/host. Etymology. The specific name, nenecoi, is in honour of Rodolfo Pinho da Silva-Filho (Neneco) in recognition of years of work with wildlife rehabilitation including seabirds, and for encouragement with our studies on nasal mites. Remarks. Rhinonyssus nenecoi is most similar to R. procellaricus Gastal, Mascarenhas & Bugoni, 2022, described from Manx Puffinus puffinus and great Ardenna gravis shearwaters (Procellariiformes: Procellariidae). The new species also resembles R. pluvialis Fain & Johnston, 1966 found in the golden plover Pluvialis dominica Statius Müller, 1776 (Charadriiformes: Charadriidae) (Fain & Johnston 1966), a common shorebird in southern Brazil. The three species are similar in terms of body shape, sternal shield, genital plate and dorsal podosomal plate size and shape. Rhinonyssus nenecoi differs from the species mentioned above in the podosomal shield size, number of setae and the posteromedial projection shape. The new species is similar in size with R. procellaricus (LID: 650−975; WID: 450−625) (Gastal et al. 2022) and smaller than R. pluvialis (LID: 804–900; WID: 530–600) (Fain & Johnston 1966). Rhinonyssus nenecoi has four pairs of setae on the podosomal shield while R. procellaricus and R. pluvialis podosomal shields are devoid of setae. The posteromedial projection of the podosomal shield gradually tapered forming a “V” shape in R. nenecoi, while in R. procellaricus the posteromedial projection is relatively narrower and finger-like, and R. pluvialis has a dorsal shield similar to a lozenge (sensu Fain & Johnston 1966). Rhinonyssus nenecoi and R. procellaricus have a trapezoidal sternal plate, however, in the later species it is smaller in size. The sternal shield in R. pluvialis is square. Rhinonyssus nenecoi and R. pluvialis have two pairs of sternal setae and R. procellaricus has three pairs. Rhinonyssus nenecoi has three or four pairs of ventral opisthosomal setae, while R. procellaricus and R. pluvialis have a single pair. Additionally, leg chaetotaxy also differs in the number of setae from the three similar species., Published as part of Gastal, Silvia Bainy, Mascarenhas, Carolina Silveira & Bugoni, Leandro, 2023, Rhinonyssus nenecoi sp. nov. (Mesostigmata: Rhinonyssidae); a new nasal mite from Daption capense (Procellariiformes: Procellariidae), pp. 269-276 in Zootaxa 5301 (2) on pages 271-274, DOI: 10.11646/zootaxa.5301.2.7, http://zenodo.org/record/8030371, {"references":["Gastal, S. B., Mascarenhas, C. S. & Bugoni, L. (2022) Two new species of nasal mites of the genus Rhinonyssus (Acari, Mesostigmata, Rhinonyssidae) from shearwaters. Systematic and Applied Acarology, 27, 9 - 23. https: // doi. org / 10.11158 / saa. 27.1.2","Fain, A. & Johnston, D. E. (1966) Nouveaux acariens nasicoles d'oiseaux Nord-Americains (Acari: Rhinonyssidae). Bulletin de la Societe Royale de Zoologie d'Anvers, 99, 375 - 386.","Statius Muller, P. L. (1776) Des Ritters Carl von Linne K ˆ niglich Schwedischen Leibarztes & c. & c. vollstandigen Natursystems Supplements - und Register - Band ¸ ber alle sechs Theile oder Classen des Thierreichs. Mit einer ausf ¸ hrlichen Erklarung. Nebst drey Kupfertafeln. bey Gabriel Nicolaus Raspe, Nurnberg, 536 pp."]}

Published
2023
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39. Rhinonyssus nenecoi sp. nov. (Mesostigmata: Rhinonyssidae); a new nasal mite from Daption capense (Procellariiformes: Procellariidae)

Author

Gastal, Silvia Bainy, Mascarenhas, Carolina Silveira, and Bugoni, Leandro

Subjects
Arthropoda, Rhinonyssidae, Arachnida, Mesostigmata, Animalia, Biodiversity, Taxonomy
Abstract

Gastal, Silvia Bainy, Mascarenhas, Carolina Silveira, Bugoni, Leandro (2023): Rhinonyssus nenecoi sp. nov. (Mesostigmata: Rhinonyssidae); a new nasal mite from Daption capense (Procellariiformes: Procellariidae). Zootaxa 5301 (2): 269-276, DOI: 10.11646/zootaxa.5301.2.7, URL: http://dx.doi.org/10.11646/zootaxa.5301.2.7

Published
2023

41. 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
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42. A waterfowl seed-dispersal network from the Neotropical region is nested and modular

Author

Universidad de Alicante. Departamento de Ecología, Silva, Giliandro G., Pizo, Marco Aurélio, Green, Andy J., Sebastián-González, Esther, Bugoni, Leandro, Maltchik, Leonardo, Universidad de Alicante. Departamento de Ecología, Silva, Giliandro G., Pizo, Marco Aurélio, Green, Andy J., Sebastián-González, Esther, Bugoni, Leandro, and Maltchik, Leonardo

Abstract

Seed dispersal by vertebrates is fundamental for the persistence of plant species, forming networks of interactions that are often nested and modular. Networks involving angiosperms and frugivorous birds are relatively well-studied in the Neotropical region, but there are no previous studies of networks involving waterbirds. Here, we describe the structure of a Neotropical waterfowl seed-dispersal network and identify the species that have an important role for the network structure. We used information on 40 plant taxa found in fecal samples of five common waterfowl species to calculate the nestedness (NODF), weighted nestedness (WNODF), modularity, and weighted modularity of the network. We found that the network was nested, with yellow-billed teal showing the highest contribution both to nestedness and weighted nestedness. Twenty-four plant species contributed positively to weighted nestedness, with Salzmann's mille graines presenting the highest influence both to nestedness and weighted nestedness. The network was modular, but the weighted modularity was not significant. These results need to be considered with caution due to incomplete interaction sampling for two species. Ringed teal, Brazilian teal, and yellow-billed teal were considered hub modular species. Among plants, beak sedges and water snowflake were considered modular hub species, while Salzmann's mille graines and spikerush were network connectors. The structure of this Neotropical waterbird seed-dispersal network differed from the only previous waterfowl network study, from Europe, which found similar level of nestedness but no significant modularity. We include several possible explanations for this discrepancy and identified priorities for future research into waterbird–plant interaction networks.

Published
2023

43. Environmental assessment of proposed areas for offshore wind farms off southern Brazil based on ecological niche modeling and a species richness index for albatrosses and petrels

Author

Lemos, Carolina Alves, Hernández, Mauricio, Vilardo, Cristiano, Phillips, Richard A., Bugoni, Leandro, Sousa-Pinto, Isabel, Lemos, Carolina Alves, Hernández, Mauricio, Vilardo, Cristiano, Phillips, Richard A., Bugoni, Leandro, and Sousa-Pinto, Isabel

Abstract

The increasing number of offshore wind farms (OWFs) proposed off the Brazilian coast is a biodiversity management challenge that needs to be addressed with strategic and targeted environmental impact assessments. The effects of OWFs on birds are much better studied in the northern than southern hemisphere. Knowledge of species distributions is key to developing effective conservation strategies. Ecological niche modeling can support strategic siting decisions and identify the target species for which mitigation of the impacts of OWFs may be required. We used the maximum entropy algorithm (MaxEnt) for modeling species niche suitability, incorporating environmental variables and presence-only data from tracking and at-sea surveys for seven albatrosses and petrels, of which five are threatened by extinction. We used the predicted niche suitability index (NSI) to calculate niche overlaps, assess distribution patterns and generate spatial prioritizations across seasons based on a species richness index (RI). Atlantic Yellow-nosed Albatross Thalassarche chlororhynchos, Atlantic Petrel Pterodroma incerta, and Great Shearwater Ardenna gravis were selected as target species for monitoring in Brazilian shallow waters (0–200 m depth) in the warm season, and Atlantic Yellow-nosed Albatross and White-chinned Petrel Procellaria aequinoctialis in the cold season. The RI was higher in waters between 200 m and 1000 m depth, a preferred area for OWFs with floating foundations. We advocate for the incorporation of niche models in environmental impact studies, as a tool for improving conservation, environmental planning, and impact assessment.

Published
2023

44. 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

49. How to include and recognize the work of ornithologists based in the Neotropics: Fourteen actions for Ornithological Applications, Ornithology, and other global-scope journals

Author

Ruelas Inzunza, Ernesto, primary, Cockle, Kristina L, additional, Núñez Montellano, María Gabriela, additional, Fontana, Carla S, additional, Cuatianquiz Lima, Cecilia, additional, Echeverry-Galvis, María A, additional, Fernández-Gómez, Ronald A, additional, Montaño-Centellas, Flavia A, additional, Bonaccorso, Elisa, additional, Lambertucci, Sergio A, additional, Cornelius, Cintia, additional, Bosque, Carlos, additional, Bugoni, Leandro, additional, Salinas-Melgoza, Alejandro, additional, Renton, Katherine, additional, Freile, Juan F, additional, Angulo, Fernando, additional, Mugica Valdés, Lourdes, additional, Velarde, Enriqueta, additional, Cuadros, Sandra, additional, and Miño, Carolina Isabel, additional

Published
2023
Full Text
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50. Neotropical ornithology: Reckoning with historical assumptions, removing systemic barriers, and reimagining the future

Author

Soares, Letícia, primary, Cockle, Kristina L, additional, Ruelas Inzunza, Ernesto, additional, Ibarra, José Tomás, additional, Miño, Carolina Isabel, additional, Zuluaga, Santiago, additional, Bonaccorso, Elisa, additional, Ríos-Orjuela, Juan Camilo, additional, Montaño-Centellas, Flavia A, additional, Freile, Juan F, additional, Echeverry-Galvis, María A, additional, Bonaparte, Eugenia Bianca, additional, Diele-Viegas, Luisa Maria, additional, Speziale, Karina, additional, Cabrera-Cruz, Sergio A, additional, Acevedo-Charry, Orlando, additional, Velarde, Enriqueta, additional, Cuatianquiz Lima, Cecilia, additional, Ojeda, Valeria S, additional, Fontana, Carla S, additional, Echeverri, Alejandra, additional, Lambertucci, Sergio A, additional, Macedo, Regina H, additional, Esquivel, Alberto, additional, Latta, Steven C, additional, Ruvalcaba-Ortega, Irene, additional, Alves, Maria Alice S, additional, Santiago-Alarcon, Diego, additional, Bodrati, Alejandro, additional, González-García, Fernando, additional, Fariña, Nestor, additional, Martínez-Gómez, Juan Esteban, additional, Ortega-Álvarez, Rubén, additional, Núñez Montellano, María Gabriela, additional, Ribas, Camila C, additional, Bosque, Carlos, additional, Di Giacomo, Adrián S, additional, Areta, Juan I, additional, Emer, Carine, additional, Mugica Valdés, Lourdes, additional, González, Clementina, additional, Rebollo, María Emilia, additional, Mangini, Giselle, additional, Lara, Carlos, additional, Pizarro, José Cristóbal, additional, Cueto, Victor R, additional, Bolaños-Sittler, Pablo Rafael, additional, Ornelas, Juan Francisco, additional, Acosta, Martín, additional, Cenizo, Marcos, additional, Marini, Miguel Ângelo, additional, Vázquez-Reyes, Leopoldo D, additional, González-Oreja, José Antonio, additional, Bugoni, Leandro, additional, Quiroga, Martin, additional, Ferretti, Valentina, additional, Manica, Lilian T, additional, Grande, Juan M, additional, Rodríguez-Gómez, Flor, additional, Diaz, Soledad, additional, Büttner, Nicole, additional, Mentesana, Lucia, additional, Campos-Cerqueira, Marconi, additional, López, Fernando Gabriel, additional, Guaraldo, André C, additional, MacGregor-Fors, Ian, additional, Aguiar-Silva, Francisca Helena, additional, Miyaki, Cristina Y, additional, Ippi, Silvina, additional, Mérida, Emilse, additional, Kopuchian, Cecilia, additional, Cornelius, Cintia, additional, Enríquez, Paula L, additional, Ocampo-Peñuela, Natalia, additional, Renton, Katherine, additional, Salazar, Jhan C, additional, Sandoval, Luis, additional, Correa Sandoval, Jorge, additional, Astudillo, Pedro X, additional, Davis, Ancilleno O, additional, Cantero, Nicolás, additional, Ocampo, David, additional, Marin Gomez, Oscar Humberto, additional, Borges, Sérgio Henrique, additional, Cordoba-Cordoba, Sergio, additional, Pietrek, Alejandro G, additional, de Araújo, Carlos B, additional, Fernández, Guillermo, additional, de la Cueva, Horacio, additional, Guimarães Capurucho, João Marcos, additional, Gutiérrez-Ramos, Nicole A, additional, Ferreira, Ariane, additional, Costa, Lílian Mariana, additional, Soldatini, Cecilia, additional, Madden, Hannah M, additional, Santillán, Miguel Angel, additional, Jiménez-Uzcátegui, Gustavo, additional, Jordan, Emilio A, additional, Freitas, Guilherme Henrique Silva, additional, Pulgarin-R, Paulo C, additional, Almazán-Núñez, Roberto Carlos, additional, Altamirano, Tomás, additional, Gomez, Milka R, additional, Velazquez, Myriam C, additional, Irala, Rebeca, additional, Gandoy, Facundo A, additional, Trigueros, Andrea C, additional, Ferreyra, Carlos A, additional, Albores-Barajas, Yuri Vladimir, additional, Tellkamp, Markus, additional, Oliveira, Carine Dantas, additional, Weiler, Andrea, additional, Arizmendi, Ma del Coro, additional, Tossas, Adrianne G, additional, Zarza, Rebecca, additional, Serra, Gabriel, additional, Villegas-Patraca, Rafael, additional, Di Sallo, Facundo Gabriel, additional, Valentim, Cleiton, additional, Noriega, Jorge Ignacio, additional, Alayon García, Giraldo, additional, de la Peña, Martín R, additional, Fraga, Rosendo M, additional, and Martins, Pedro Vitor Ribeiro, additional

Published
2023
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