ABSTRACT

Even though nest architecture has been useful for phylogenetic inferences among the Thamnophilidae (Aves: Passeriformes), the nests of only three out of five species of Myrmoderus (Ridgway, 1909) are known to science. Here we describe the nests, eggs, and nestling of the Squamate Antbird Myrmoderus squamosus (Pelzeln, 1868). Two nests were bulky bottom-supported cups, measuring 7.3 and 12 cm in maximum outside diameter, with a noticeably smaller egg cup, and they were placed within the crown of short, broad-leafed plants. Eggs were short-oval, with chalky white background color, and purple blotches and streaks more concentrated in the large end. One nestling was dark reddish grey, with bluish white feet, pinkish gray tarsi, and a blackish bill with bright yellow rictal flanges. In face of the great diversity of nest types found among the Thamnophilidae, we concluded that the nest of M. squamosus was similar to those of other congeners, giving support to this currently phylogenetically-defined genus.

KEY WORDS:
Myrmeciza; nest type; phylogeny; taxonomy

INTRODUCTION

The typical “antbirds,” Thamnophilidae Swainson, 1824, are a diverse group of insectivorous passerines that inhabit the understory and subcanopy of Neotropical forests and woodlands (Ridgely and Tudor 1994Ridgely RS, Tudor G (1994) The birds of South America: Volume II: The Suboscine Passerines. University of Texas Press, Austin, 940 pp., Zimmer and Isler 2003Zimmer K, Isler M (2003) Family Thamnophilidae (typical antbirds). In: del Hoyo J, Elliott A, Christie DA (Eds) Handbook of the birds of the world: Volume 8: Broadbills to tapaculos. Lynx Edicions, Barcelona, pp 448-681.). Within this family, some genera have been long recognized as non- monophyletic and have been reviewed (Isler et al. 2013Isler ML, Bravo GA, Brumfield RT (2013) Taxonomic revision of Myrmeciza (Aves: Passeriformes: Tamnophilidae) into 12 genera based on phylogenetic, morphological, behavioral, and ecological data. Zootaxa 3717: 469-497. https://doi.org/10.11646/zootaxa.3717.4.3
https://doi.org/10.11646/zootaxa.3717.4.... ). Together with morphological, molecular, and ecological data, nest architecture has contributed to the elucidation of phylogenetic divergences, especially at the level of genera. Despite of that, the nests of many species are still undescribed, or have been only roughly described (Greeney et al. 2013Greeney HF, Sánchez C, Sánchez JE, Carman E (2013) A review of nest and egg descriptions for the genus Myrmeciza, with the first description of nests and eggs of the Dull-mantled Antbird (M. laemosticta). Journal fur Ornithologie 154: 1049-1056. https://doi.org/10.1007/s10336-013-0973-0
https://doi.org/10.1007/s10336-013-0973-... , Isler et al. 2013Isler ML, Bravo GA, Brumfield RT (2013) Taxonomic revision of Myrmeciza (Aves: Passeriformes: Tamnophilidae) into 12 genera based on phylogenetic, morphological, behavioral, and ecological data. Zootaxa 3717: 469-497. https://doi.org/10.11646/zootaxa.3717.4.3
https://doi.org/10.11646/zootaxa.3717.4.... ). Myrmoderus Ridgway, 1909 was recently resurrected based on a work that combined multiple characters, including nest types (Isler et al. 2013Isler ML, Bravo GA, Brumfield RT (2013) Taxonomic revision of Myrmeciza (Aves: Passeriformes: Tamnophilidae) into 12 genera based on phylogenetic, morphological, behavioral, and ecological data. Zootaxa 3717: 469-497. https://doi.org/10.11646/zootaxa.3717.4.3
https://doi.org/10.11646/zootaxa.3717.4.... ). The nests of three of the five included species have been described in detail: the White-bibbed Antbird M. loricatus (Lichtenstein, 1823), the Ferruginous-backed Antbird M. ferrugineus (Statius Muller, 1776), and the Scalloped Antbird M. ruficauda (Wied, 1831), while nesting information is scarce for the Squamate Antbird Myrmoderus squamosus (Pelzeln, 1868) (formerly Myrmeciza squamosa), and totally unavailable for the recently described Cordillera Azul Antbird M. eowilsoni (Moncrieff et al. 2018Moncrieff AE, Johnson O, Lane DF, Beck JR, Angulo F, Fagan J (2018). A new species of antbird (Passeriformes: Thamnophilidae) from the Cordillera Azul, San Martín, Peru. The Auk 135: 114-126. https://doi.org/10.1642/AUK-17-97.1
https://doi.org/10.1642/AUK-17-97.1... ). For M. squamosus, the description of a single nest is partial: “built near ground level; in it the female lays two eggs, white in color but with a violet tinge at one end and a scattering of tiny red spots” (Höfling et al. 1986Höfling E, Camargo HFA, Imperatriz-Fonseca VL (1986) Aves na Mantiqueira. ICI Brasil, São Paulo, 87 pp.). Based on the description and drawing provided by Höfling et al. (1986Höfling E, Camargo HFA, Imperatriz-Fonseca VL (1986) Aves na Mantiqueira. ICI Brasil, São Paulo, 87 pp.), Greeney et al. (2013Greeney HF, Sánchez C, Sánchez JE, Carman E (2013) A review of nest and egg descriptions for the genus Myrmeciza, with the first description of nests and eggs of the Dull-mantled Antbird (M. laemosticta). Journal fur Ornithologie 154: 1049-1056. https://doi.org/10.1007/s10336-013-0973-0
https://doi.org/10.1007/s10336-013-0973-... ) interpreted the nest of this species as being “an open cup built low to the ground, and (most likely) supported from below,” suggesting that a proper description of its architectural details was needed. Although Von Ihering (1900Von Ihering H (1900) Catalogo critico-comparativo dos ninhos e ovos das aves do Brasil. Revista do Museu Paulista 4:191-300.), Nehrkorn (1910Nehrkorn A (1910) Katalog der eiersammlung, nebst Beschreibungeh der aussereuropäischen Eier. Verlag Von R. Friedländer & Sohn, Berlin, 466 pp.), and Schönwetter and Meise (1967Schönwetter M, Meise W (1967) Handbuch der Oologie: Volume 2: Part 14. Akademie-Verlag, Berlin, 192 pp.) presented egg descriptions for M. squamosus, they did not provide any information on nest characteristics.

Here we provide the first detailed description of nests, eggs, and nestling of M. squamosus, and we address whether nest characteristics correspond to this currently phylogenetically-defined genus.

MATERIAL AND METHODS

The Squamate Antbird M. squamosus is an Atlantic Forest endemic, found in the understory of humid forests and second-growth woodlands from the states of Rio de Janeiro to Rio Grande do Sul, Brazil (Ridgely and Tudor 1994Ridgely RS, Tudor G (1994) The birds of South America: Volume II: The Suboscine Passerines. University of Texas Press, Austin, 940 pp.), at altitudes from sea level to 1,000 m (Bencke and Kindel 1999Bencke GA, Kindel A (1999) Bird counts along an altitudinal gradient of Atlantic forest in northeastern Rio Grande do Sul, Brazil. Ararajuba 7: 91-107.). It is a medium-sized (14-15 cm), sexually dimorphic antbird, with throat coloration varying from totally black in males to white with faint grey barring in females (Zimmer and Isler 2003Zimmer K, Isler M (2003) Family Thamnophilidae (typical antbirds). In: del Hoyo J, Elliott A, Christie DA (Eds) Handbook of the birds of the world: Volume 8: Broadbills to tapaculos. Lynx Edicions, Barcelona, pp 448-681.).

The first nest of M. squamosus (hereafter nest 1) was found in lowland forest at Reserva Natural Salto Morato (RNSM), Guaraqueçaba, Paraná state, southern Brazil, near the headquarters of the reserve (25°11’ S, 48°17’ W, ca. 25 m asl). Recognized as a Natural Heritage Site by UNESCO in 1999, the reserve has an area of 2,340 ha and ranges from 15 m to 918 m asl. Following the Koppen-Geiger climate classification (Kottek et al. 2006Kottek M, Grieser J, Beck C, Rudolf B, Rubel F (2006) World map of the Köppen-Geiger climate classification updated. Meteorologische Zeitschrift 15: 259-263. https://doi.org/10.1127/0941-2948/2006/0130
https://doi.org/10.1127/0941-2948/2006/0... ), the climate of the region is Cfa - warm temperate and fully humid with hot summer - with a mean annual temperature of 21 °C and monthly means ranging between 25 and 17 °C (Piacentini and Varassin 2007Piacentini VQ, Varassin IG (2007) Interaction network and the relationships between bromeliads and hummingbirds in an area of secondary Atlantic rain forest in southern Brazil. Journal of Tropical Ecology 23: 663-671. http://dx.doi.org/10.1017/S026646740700449X
http://dx.doi.org/10.1017/S0266467407004... ). The second nest (nest 2) was found at Carlos Botelho State Park (PECB), located at São Miguel Arcanjo municipality, São Paulo state, southeastern Brazil (24°04’S, 47°58’W). This park protects a total area of 37,644 ha, includes altitudes from 20 to 1000 m, and has an annual rainfall of 777-2,264 mm (average 1,676 mm, Beisiegel and Mantovani 2006Beisiegel BM, Mantovani W (2006) Habitat use, home range and foraging preferences of the coati Nasua nasua in a pluvial tropical Atlantic forest area. Journal of Zoology 269: 77-87. https://doi.org/10.1111/j.1469-7998.2006.00083.x
https://doi.org/10.1111/j.1469-7998.2006... ). Average temperatures vary from 18 to 20 °C (Ferraz and Varjabedian 1999Ferraz LPM, Varjabedian R (1999) Evolução histórica da implantação e síntese das informações disponíveis sobre o Parque Estadual Carlos Botelho. Instituto Florestal, São Paulo.). Together with other adjacent reserves, the PECB comprises one of the largest Atlantic Forest remnant that is continuous from southeastern Brazil. The vegetation at the reserve is dominated by submontane rain forest (Oliveira-Filho and Fontes 2000Oliveira-Filho AT, Fontes MAL (2000) Patterns of floristic differentiation among Atlantic forests in southeastern Brazil and the influence of climate. Biotropica 32: 793-810.) and the climate is classified as warm temperate and fully humid with hot summer, belong to type Cfa of Koppen-Geiger climate classification (Kottek et al. 2006Kottek M, Grieser J, Beck C, Rudolf B, Rubel F (2006) World map of the Köppen-Geiger climate classification updated. Meteorologische Zeitschrift 15: 259-263. https://doi.org/10.1127/0941-2948/2006/0130
https://doi.org/10.1127/0941-2948/2006/0... ).

Nest 1 was found opportunistically during field work at RNSM. Nest 2 was part of broader study, in which nests were searched for during periodical visits to PECB, and were located by following adult birds exhibiting territorial defense behaviors (Martin and Geupel 1993Martin TE, Geupel GR (1993) Nest-monitoring plots: methods for locating nests and monitoring success. Journal of Field Ornithology 64: 507-519.). Measurements of nests and eggs were obtained with metal calipers to the nearest 0.1 mm, and eggs were weighed with spring scales to the nearest 0.1 g. Egg shape and nest type classification followed Winkler (2004Winkler DW (2004) Nests, eggs, and young: breeding biology of birds. In: Podulka S, Rohrbaugh Jr RW, Bonney R (Eds) Cornell Lab of Ornithology Handbook of Bird Biology. Princeton University Press, Princeton, pp 8.1-8.152.).

RESULTS

Nest 1 was found on 24 September 2004 in a secondary forest that was contiguous with a large area of primary forest. Nest 2 was located on 22 January 2014 in primary forest. Both nests were bulky bottom-supported cups, noticeably larger than the size of the bird, but with a small and well-formed egg cup (Figs 1, 2). Both nests were embedded within the crown of short, broad-leafed plants (a fern Blechnum brasiliense Desv (Fig. 3), and an unidentified bromeliad, respectively). Externally, the nests were slightly oval or ellipsoid, filling the shape of the inner parts of the plants that supported them. The nest walls consisted of a variety of dead vegetative materials, including leaves (many reduced to skeletons), petioles, rachides, long twigs, flexible rootlets, as well as small amounts of green moss (Fig. 2). The egg cups were lined with fine, black fungal rhizomorphs (Fig. 1). Nest 1 measured 7.3 cm in maximum outer diameter and 6.1 cm in inner diameter. Nest 2 measured 12 cm in maximum outer diameter, 6.6 cm in inner diameter, 8.2 cm in height, and 5.2 cm in depth, and they were 30 and 44 cm above ground, respectively. Nest 2 was placed 96 cm from the edge of a small creek, but nest one was not close to water. Generally, the nests could be confounded with the decaying vegetal material that often accumulates in the interior of the supporting plants.

Figures 1-4
Nests, eggs and nestling of Squamate Antbird Myrmoderus squamosus: (1) details of the nest and eggs at Reserva Natural Salto Morato, Paraná; (2) details of the nest and egg on a bromeliad at Parque Estadual Carlos Botelho, São Paulo; (3) incubating Female in a nest built on a tree fern; (4) details of a nestling. Photos: DF Perrella and VQ Piacentini.

When found, nest 1 contained two eggs (Fig. 1) and nest 2 only one egg (Fig. 2). Eggs were short-oval, with chalky white background color, and purple blotches and streaks more concentrated in the large end (Figs 1, 2). They measured 22 x 16, 23 x 16 (nest 1), and 21.6 x 16.8 mm, and weighed 2.7 g (nest 2). Seven days after its discovery, nest 2 held a single nestling. It was dark reddish grey, with bluish white feet, pinkish gray tarsi, and a blackish bill with inflated, bright yellow rictal flanges (Fig. 4). Male and female of both nests shared incubation (Fig. 3), and in nest 2 we observed the parents also sharing brooding. The fate of the nests is uncertain.

DISCUSSION

Our findings confirmed the bottom-supported open-cup pattern previously predicted for the nest of the Squamate Antbird (Greeney et al. 2013Greeney HF, Sánchez C, Sánchez JE, Carman E (2013) A review of nest and egg descriptions for the genus Myrmeciza, with the first description of nests and eggs of the Dull-mantled Antbird (M. laemosticta). Journal fur Ornithologie 154: 1049-1056. https://doi.org/10.1007/s10336-013-0973-0
https://doi.org/10.1007/s10336-013-0973-... ). Further support of our observations on the architecture of the nest of M. squamosus comes from a photograph in the WikiAves database (L. Breves, www.wikiaves.com, WA2773587) of a nest with two eggs, built about 20 cm above the ground, amid the newly grown stems of a cut tree. Nests of M. loricatus, M. ferrugineus, and M. ruficauda follow the same general pattern (bottom-supported cup nests) but show some interspecific variation with respect to the materials used at the bottom portion of the nest and its means of support. Nests of M. ruficauda and M. ferrugineus are quite similar, being placed directly on the leaf litter, or slightly above it, on a platform of dead leaves (Buzzetti and Barnett 2003Buzzetti DRC, Barnett JM (2003) Description of the nest and eggs of two Myrmeciza antbirds endemic to the Atlantic Forest of Brazil. Cotinga 20: 89-93., Studer et al. 2017Studer A, Sousa MC, Barcena-Goyena B (2017) Reproduction and nest success of the Scalloped Antbird, Myrmoderus ruficauda (Passeriformes: Thamnophilidae), in an Atlantic rainforest of northeastern Brazil. Atualidades Ornitológicas 199: 33-37.). The nest of M. loricatus described by Buzzetti and Barnett (2003Buzzetti DRC, Barnett JM (2003) Description of the nest and eggs of two Myrmeciza antbirds endemic to the Atlantic Forest of Brazil. Cotinga 20: 89-93.), however, though also placed directly on the leaf litter, had its base consisting of a noticeable platform of sticks. The nests of M. squamosus described here were all situated off the ground and supported only by their substrate plants. Also, based on a visual comparison of our nests with the photographs and data available for M. ruficauda and M. loricatus (Buzzetti and Barnett 2003Buzzetti DRC, Barnett JM (2003) Description of the nest and eggs of two Myrmeciza antbirds endemic to the Atlantic Forest of Brazil. Cotinga 20: 89-93., Studer et al. 2017Studer A, Sousa MC, Barcena-Goyena B (2017) Reproduction and nest success of the Scalloped Antbird, Myrmoderus ruficauda (Passeriformes: Thamnophilidae), in an Atlantic rainforest of northeastern Brazil. Atualidades Ornitológicas 199: 33-37.), M. squamosus seems to use a greater amount of fine fibers (e.g. Marasmius rhizomorphs) in the inner lining of the nest cup. Despite treating the “ferruginea clade” as a single genus (Myrmoderus), Isler et al. (2013Isler ML, Bravo GA, Brumfield RT (2013) Taxonomic revision of Myrmeciza (Aves: Passeriformes: Tamnophilidae) into 12 genera based on phylogenetic, morphological, behavioral, and ecological data. Zootaxa 3717: 469-497. https://doi.org/10.11646/zootaxa.3717.4.3
https://doi.org/10.11646/zootaxa.3717.4.... ) discussed the possibility of further dividing it into two or even three genera. Although the existence of three identifiable nest patterns might give support to subdivisions, nest characteristics seem not to corroborate other features. For instance, Moncrieff et al. (2018Moncrieff AE, Johnson O, Lane DF, Beck JR, Angulo F, Fagan J (2018). A new species of antbird (Passeriformes: Thamnophilidae) from the Cordillera Azul, San Martín, Peru. The Auk 135: 114-126. https://doi.org/10.1642/AUK-17-97.1
https://doi.org/10.1642/AUK-17-97.1... ) suggested that M. ferrugineus and the newly described Cordillera Azul Antbird M. eowilsoni should be separated in a different subgenus, Myrmedestes Todd, 1927, based on behavioral, vocal and morphological synapomorphies, but in the available nest parameters M. ferrugineus cannot be distinguished from M. ruficauda which, in turn, is closer to M. loricatus and M. squamosus in plumage (Moncrieff et al. 2018Moncrieff AE, Johnson O, Lane DF, Beck JR, Angulo F, Fagan J (2018). A new species of antbird (Passeriformes: Thamnophilidae) from the Cordillera Azul, San Martín, Peru. The Auk 135: 114-126. https://doi.org/10.1642/AUK-17-97.1
https://doi.org/10.1642/AUK-17-97.1... ). It is worth noting, however, that the nest of M. eowilsoni remains to be described.

Clutch sizes consisted of two eggs in the previous nests reported for the Squamate Antbird (Von Ihering 1900Von Ihering H (1900) Catalogo critico-comparativo dos ninhos e ovos das aves do Brasil. Revista do Museu Paulista 4:191-300., Nehrkorn 1910Nehrkorn A (1910) Katalog der eiersammlung, nebst Beschreibungeh der aussereuropäischen Eier. Verlag Von R. Friedländer & Sohn, Berlin, 466 pp., Schönwetter and Meise 1967Schönwetter M, Meise W (1967) Handbuch der Oologie: Volume 2: Part 14. Akademie-Verlag, Berlin, 192 pp.), and also in all of the nests reported for the other Myrmoderus: M. ferrugineus (n = 1 nest), M. ruficauda (n = 42 nests), and M. loricata (n = 1 nest) (Stratford 2000Stratford JA (2000) A ferruginous-backed antbird, Myrmeciza ferruginea, nest from central Amazonas, Brazil. Ararajuba 8: 43-44., Buzzetti and Barnett 2003Buzzetti DRC, Barnett JM (2003) Description of the nest and eggs of two Myrmeciza antbirds endemic to the Atlantic Forest of Brazil. Cotinga 20: 89-93., Studer et al. 2017Studer A, Sousa MC, Barcena-Goyena B (2017) Reproduction and nest success of the Scalloped Antbird, Myrmoderus ruficauda (Passeriformes: Thamnophilidae), in an Atlantic rainforest of northeastern Brazil. Atualidades Ornitológicas 199: 33-37.), matching the general pattern found for tropical forest passerines (Jetz et al. 2008Jetz W, Sekercioglu CH, Böhning-gaese K (2008) The worldwide variation in avian clutch size across species and space. Plos Biology 6: 2650-2657. https://doi.org/10.1371/journal.pbio.0060303
https://doi.org/10.1371/journal.pbio.006... ), including other Thamnophilidae found at similar latitudes (Roper 2005Roper JJ (2005) Try and try again: nest predation favors persistence in a Neotropical bird. Ornitologia Neotropical 16: 253-262., Perrella et al. 2017Perrella DF, Biagolini Junior CH, Ribeiro-Silva L, Zima PVQ, Francisco MR (2017) Reproduction of the Atlantic Forest endemic star-throated antwren, Rhopias gularis (Aves: Thamnophilidae). Brazilian Journal of Biology 77: 356-360. http://dx.doi.org/10.1590/1519-6984.14715.
http://dx.doi.org/10.1590/1519-6984.1471... ). The clutch of a single egg found for one of our nests should be viewed with caution, as we were unable to confirm if only one egg was laid or if it could have resulted from a partial nest predation. Eggs also followed the same pattern in all of the Myrmoderus species, with whitish background color and purple blotches and streaks. The only other congener for which nestlings are described is M. ruficauda (Studer et al. 2017Studer A, Sousa MC, Barcena-Goyena B (2017) Reproduction and nest success of the Scalloped Antbird, Myrmoderus ruficauda (Passeriformes: Thamnophilidae), in an Atlantic rainforest of northeastern Brazil. Atualidades Ornitológicas 199: 33-37.), and they were very similar to Squamate Antbird in skin, bill, and rictal flange coloration, including the noticeably whitish feet.

Biparental sharing of the duties incubation and nestling attendance is pervasive among the typical antbirds (Skutch 1969Skutch AF (1969) Life Histories of Central America Birds III (families Cotingidae, Pipridae, Formicariidae, Furnariidae, Dendrocolaptidae and Picidae): Pacific Coast Avifauna: n 35. Cooper Ornithological Society, Berkeley, 580 pp., Greenberg and Gradwohl 1983Greenberg R, Gradwohl J (1983) Sexual roles in the Dot-winged Antwren (Microrhopias quixensis), a Tropical Forest Passerine. The Auk 100: 920-925., Zimmer and Isler 2003Zimmer K, Isler M (2003) Family Thamnophilidae (typical antbirds). In: del Hoyo J, Elliott A, Christie DA (Eds) Handbook of the birds of the world: Volume 8: Broadbills to tapaculos. Lynx Edicions, Barcelona, pp 448-681.), although it has been properly quantified only a few times (Perrella et al. 2017Perrella DF, Biagolini Junior CH, Ribeiro-Silva L, Zima PVQ, Francisco MR (2017) Reproduction of the Atlantic Forest endemic star-throated antwren, Rhopias gularis (Aves: Thamnophilidae). Brazilian Journal of Biology 77: 356-360. http://dx.doi.org/10.1590/1519-6984.14715.
http://dx.doi.org/10.1590/1519-6984.1471... ). During our observations we confirmed biparental attendance in the Squamate Antbird for both incubation and brooding, a behavior also observed in M. loricatus and M. ruficauda (Buzzetti and Barnett 2003Buzzetti DRC, Barnett JM (2003) Description of the nest and eggs of two Myrmeciza antbirds endemic to the Atlantic Forest of Brazil. Cotinga 20: 89-93., Studer et al. 2017Studer A, Sousa MC, Barcena-Goyena B (2017) Reproduction and nest success of the Scalloped Antbird, Myrmoderus ruficauda (Passeriformes: Thamnophilidae), in an Atlantic rainforest of northeastern Brazil. Atualidades Ornitológicas 199: 33-37.). Stratford (2000Stratford JA (2000) A ferruginous-backed antbird, Myrmeciza ferruginea, nest from central Amazonas, Brazil. Ararajuba 8: 43-44.), however, suggested that incubation in M. ferrugineus may be restricted to females, an assertion which needs confirmation.

Nest types among the Thamnophilidae are variable, and involve bottom-supported open cups; rim suspended open cups; domed nests placed on the ground (Greeney et al. 2013Greeney HF, Sánchez C, Sánchez JE, Carman E (2013) A review of nest and egg descriptions for the genus Myrmeciza, with the first description of nests and eggs of the Dull-mantled Antbird (M. laemosticta). Journal fur Ornithologie 154: 1049-1056. https://doi.org/10.1007/s10336-013-0973-0
https://doi.org/10.1007/s10336-013-0973-... ), and pendulous rim-suspended nests with a top or lateralized entrance (Isler et al. 2013Isler ML, Bravo GA, Brumfield RT (2013) Taxonomic revision of Myrmeciza (Aves: Passeriformes: Tamnophilidae) into 12 genera based on phylogenetic, morphological, behavioral, and ecological data. Zootaxa 3717: 469-497. https://doi.org/10.11646/zootaxa.3717.4.3
https://doi.org/10.11646/zootaxa.3717.4.... ), and they can indicate phylogenetic divergence, e.g. between tribes and genera (Isler et al. 2013Isler ML, Bravo GA, Brumfield RT (2013) Taxonomic revision of Myrmeciza (Aves: Passeriformes: Tamnophilidae) into 12 genera based on phylogenetic, morphological, behavioral, and ecological data. Zootaxa 3717: 469-497. https://doi.org/10.11646/zootaxa.3717.4.3
https://doi.org/10.11646/zootaxa.3717.4.... ). Here, despite the differences found mainly in nest placement and nest material, nests of all species of Myrmoderus known to science followed the same general pattern (open cups-bottom supported), and we conclude that they corroborate other characters that led these species to be included in this genus.

ACKNOWLEDGMENTS

The authors are grateful to the Brazilian agencies Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP, 2010/52315-7), Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), and Fundação o Boticário de Proteção à Natureza (FBPN) for financial support; Isabela G. Varassin, Programa de Pós-Graduação em Ecologia & Conservação da Universidade Federal do Paraná, FBPN, and the staff of RNSM for all logistic support during V.Q. Piacentini’s field work at RNSM; and Instituto Florestal do Estado de São Paulo (IF), and ICMBio for permits for field work at Carlos Botelho State Park (permits ICMBio 41026-1/COTEC 71/2014 D 184/2013 AP). C. Biagolini-Jr received a fellowship from FAPESP (2013/21209-5). V.Q. Piacentini receives a scholarship from Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES PNPD). We are also grateful Danilo da Costa Silva for the preparation of the images, and to Harold Greeney and an anonymous referee for important corrections on the manuscript.

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