In Brazil, the number of animals killed by vehicle collision surpasses 475 millions/year, but the actual number may be even higher since roadkill data in the country is scarce and punctual. Using a ...standard protocol, the project Caminhos da Fauna monitored since 2006 the avifauna roadkill in the BR-040 (RJ/MG) highway, southeastern Brazil. Here, we present a checklist of the avifauna registered during the 10-year monitoring program, including the list of roadkills, indicating threatening status at regional, national, and global levels, and the number of records/species. We registered 1,317 individuals belonging to 180 species, 21 orders, and 48 families. Another 247 individuals could not be identified. For seven families roadkills were higher than 50 individuals: Thraupidae, Cuculidae, Strigidae, Tyrannidae, Psittacidae, Columbidae, and Turdidae. The most collected species were Crotophaga ani (n = 106; Cuculidae), followed by Psittacara leucophthalmus (n = 61; Psittacidae), Piaya cayana (n = 56; Cuculidae), and Asio clamator (n = 44; Strigidae). Five species were under threat: Penelope obscura, Primolius maracana, Pteroglossus bailloni, Ramphastos vitellinus, and Sicalis flaveola. Most species were geographically widespread, while other 13 (7.2%) were endemic. Given the considerable amount of data obtained, further efforts of the same motivation in other Brazilian roads and express transportation systems should be encouraged.
The Saffron-billed Sparrow (Arremon flavirostris) complex occurs in the undergrowth of deciduous woodlands and forests from the Andes of Bolivia and northern Argentina to Paraguay and southern, ...mid-western and interior eastern Brazil. Currently four subspecies are recognized: A. f. flavirostris, A. f. polionotus, A. f. devillii and A. f. dorbignii. We review the taxonomy of this complex by analyzing coloration and morphometrics of a series of 234 skins, and by comparing 101 sound recordings. Our results suggest that under both the Phylogenetic and Biological Species Concept, three species should be recognized in this complex: A. flavirostris, A. polionotus and A. dorbignii. On the other hand, A. devillii should be considered a junior synonym of A. polionotus since these two have no constant differences in morphology and vocalization. These species are diagnosable by their coloration characters, but not by morphometrics. Vocalizations are useful in diagnosing A. flavirostris from A. dorbignii, but do not diagnose A. polionotus from the others. We show that part of the previous taxonomic confusion can be attributed to variation in back color of adult and immature A. polionotus. Finally, we comment on the recently located holotype of A. flavirostris, which was believed to be lost, and its type locality.
The White-crowned Manakin Pipra pipra was long considered congeneric with other members of the genus Pipra, until Prum (1990, 1992, 1994) demonstrated that its display repertoire and syringeal ...morphology differ considerably from all other members of that genus. Subsequently, three different molecular phylogenies have all indicated that this manakin is more closely related to the genus Machaeropterus than to Pipra. Prum (1992) considered that the name Dixiphia Reichenbach, 1850, was available, and thus the combination Dixiphia pipra has since been in widespread use for this species. However, as first recognized more than 150 years ago, Dixiphia is a junior synonym of Arundinicola d'Orbigny, 1840. We show that no genus-group name is available for the manakin originally described as Parus pipra Linnaeus, 1758, and for which we therefore provide a new genus name.
A posição sistemática da família Cathartidae (abutres do Novo Mundo) sempre foi motivo de muita discussão e apresenta divergências entre os sistematas, sendo debatida a proximidade dos representantes ...dos abutres do Novo Mundo entre as ordens Falconiformes e/ou Ciconiiformes. Muitos dos caracteres diagnósticos do grupo provêm de adaptações ao conspícuo hábito alimentar dessas aves, como bicos e pés fortes utilizados na dilaceração de carcaças; cabeça e pescoço desprovidos de penas que evitam o acúmulo de matéria orgânica em decomposição nestas regiões; e espesso colar de penas no pescoço que evita a passagem de líquidos provenientes da dieta às outras partes do corpo. Devido às similaridades na dieta, muitas dessas adaptações morfológicas são compartilhadas entre os catartídeos e os abutres do Velho Mundo (Gypaetinae e Aegypiinae; Accipitridae), gerando historicamente muita confusão na taxonomia dos grupos em questão. Visando contribuir com o conhecimento osteológico da família Cathartidae, bem como dos grupos historicamente relacionados, foram realizados: a) estudo de uma estrutura anatômica craniana (forâmen do nervo olfativo), criando subsídios para inferências acerca do comportamento alimentar dos representantes da família Cathartidae; e b) análises filogenéticas com base em uma ampla amostragem taxonômica (inclusive com táxons fósseis de Cathartidae), lançando hipóteses que elucidem problemas tanto em níveis intragenérico e intraespecífico da família Cathartidae. Além disso, foram feitas inferências acerca do posicionamento mais inclusivo do grupo em questão, sugerindo mudanças no sistema classificatório para que este seja filogeneticamente mais informativo. Da análise da anatomia do forâmen e sulco olfativos de Cathartidae, foi possível inferir que aves do gênero Cathartes possuem uma grande capacidade olfativa, indicando que a morfologia do forâmen do nervo olfativo e do sulco a ele associado são adaptações que promovem um melhor desempenho do olfato neste gênero. Dentre os resultados da análise cladística de 207 caracteres osteológicos (cranianos e pós-cranianos), foi recuperado o monofiletismo da família indicando a existência de duas linhagens distintas dentro do grupo. Quanto às relações mais inclusivas do grupo, a família mostrou-se como a divergência mais basal do componente que inclui Cathartidae e os demais Falconiformes. Foram feitas considerações acerca de algumas das relações entre os táxons historicamente relacionados a Cathartidae e recuperadas pela presente análise: Sagittarius serpentarius, aparentemente, é uma linhagem com divergência antiga dentro dos Falconiformes; confirmou-se o relacionamento adjacente de Pandion haliaetus à família Accipitridae; a separação do grupo de abutres do Velho Mundo em duas subfamílias não relacionadas (Aegypiinae e Gypaetinae) foi corroborada, indicando que o hábito de alimentação saprófago surgiu independentemente três vezes dentro da linhagem \"falconiforme\"; a relação próxima entre Scopidae e Balaeniciptidae foi corroborada; relações de Ardeidae aqui apresentadas corroboram as hipóteses de relacionamento mais recentes. Foram propostas atualizações nomenclaturais e hierárquicas, assim como uma nova proposta classificatória do grupo, onde se incluem os abutres do Novo Mundo: a elevação da categoria hierárquica deste grupo, sendo considerada a ordem Cathartiformes Seehbohm, 1890; dentro desta ordem foi proposta a criação de duas famílias, Cathartidae Lafresnaye, 1839 (incluindo os gêneros de \"urubus verdadeiros\" - Cathartes e Coragyps) e Vulturidae Illiger, 1811 (incluindo os gêneros de condores e o urubu-rei - Vultur, Gymnogyps, Breagyps+ e Sarcoramphus).
The systematic position of the family Cathartidae (New World Vultures) has always been a motive for debate, and presents divergences among sistematists, the proximity of New World Vultures representatives between the orders Falconiformes and Ciconiiformes always being discussed. Most of the diagnosable characters of the group come from adaptations related to the conspicuous feeding behavior of these birds, such as strong beaks and claws used to dilacerate carcasses, featherless heads and necks to avoid carrion accumulation in these regions and a thick feather necklace that prevents the passage of liquids from food to other parts of the body. Due to these similarities in diets, most morphological adaptations are shared with the cathartid vultures and Old World Vultures (Gypaetinae and Aegypiinae; Accipitridae), historically causing much confusion in the taxonomy of these groups. With the aim of contributing to osteological knowledge of the family Cathartidae and historically related groups the following tasks were carried out: a) a study on anatomic cranial structure (olfactory nerve foramen), thus creating subsidies for inferences on the feeding behavior of Cathartidae representatives; and b) phylogenetic analyses based on an extensive taxonomic sample (including fossils of the Cathartidae), thereby launching hypotheses that elucidate problems up to the intrageneric and intraspecific levels, as inferences for the most inclusive systematic positioning of the group, and suggestions of changes in the classificatory system for this to become more phylogenetically informative. From the anatomic study of the foramen and olfactory sulcus of Cathartidae, it was possible to infer that birds of the Cathartes genus have great olfactory capacity, indicating that the morphology of the olfactory nerve and the furrow associated to it, are adaptations that promote better performance of olfaction in this genus. In the results on the cladistic analysis of 207 osteological characters (cranial and post-cranial) the monophyly of the family was recovered, this indicating the existence of two distinct lineages within the group. As to the most inclusive relationships of the group, the family appears as the basal divergence of the component that includes Cathartidae and the other Falconiformes. Considerations on certain of the relationships between the Cathartidae historically related taxa recovered by the present analysis: Sagittarius serpentarius is apparently a lineage with an ancient divergence inside the Falconiformes; the adjacent relationship of Pandion haliaetus to the Accipitridae was confirmed; the separation of the Old World Vultures assemblage into two non-related subfamilies was corroborated, indicating that the carrion eating habit appeared independently three times in the \"falconiform\" lineage; the close relationship between Scopidae and Balaenicipitidae was corroborated; relationships of Ardeidae presented here corroborate the most recent published hypotheses. Nomenclatural and hierarchical updating was put forward, as a new classificatory proposal of the group that includes the New World Vultures: the elevation of the hierarchical rank of the group, on considering the order Cathartiformes Seehbohm, 1890; in this order, the creation of two families, Cathartidae Lafresnaye, 1839 (including the \"true vultures\" genus - Cathartes and Coragyps) and Vulturidae Illiger, 1811 (including the condors and King Vultures genus - Vultur, Gymnogyps, Breagyps+ and Sarcoramphus),was proposed.
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