zootaxa
Transcrição
zootaxa
Zootaxa 3507: 79–83 (2012) www.mapress.com / zootaxa/ Copyright © 2012 · Magnolia Press ISSN 1175-5326 (print edition) Article ZOOTAXA ISSN 1175-5334 (online edition) urn:lsid:zoobank.org:pub:47AC4761-EF05-47C9-AC63-DA19246AFD25 A proposal for the common names for species of Chiropotes (Pitheciinae: Primates) ADRIAN. A. BARNETT1,2,16, LILIAM P. PINTO3,4, JÚLIO CÉSAR BICCA-MARQUES5, STEPHEN F. FERRARI6, MARCELO GORDO7, PATRICIA G. GUEDES8, MARIA APARECIDA LOPES9, JUAN C. OPAZO10, MARCIO PORT-CARVALHO11, RICARDO RODRIGUES DOS SANTOS12, RAFAELA F. SOARES13, WILSON R. SPIRONELLO2, LIZA M. VEIGA13, TATIANA MARTINS VIEIRA14 & SARAH A. BOYLE15 1 Centre for Research in Evolutionary and Environmental Anthropology, Roehampton University, London, England Coordenação de Biodiversidade, Instituto Nacional de Pesquisas da Amazônia, Manaus, AM, Brazil 3 Curso de Pós-Graduação em Ecologia, Instituto de Biologia, Universidade Estadual de Campinas, Campinas, SP, Brazil 4 Centro Nacional de Pesquisa e Conservação da Biodiversidade Amazônica, Instituto Chico Mendes de Conservação da Biodiversidade, Manaus, AM, Brazil 5 Faculdade de Biociências, Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre, RS, Brazil 6 Dept. Biologia, Universidade Federal de Sergipe, São Cristóvão, SE, Brazil 7 Dept. Biologia, Universidade Federal do Amazonas, Manaus, AM, Brazil 8 Dept. Mastozoologia, Museu Nacional, Rio de Janeiro, RJ, Brasil 9 Instituto de Ciências Biológicas, Universidade Federal do Pará, Belém, PA, Brazil 10 Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, Casilla 567, Valdivia, Chile 11 Instituto Florestal de São Paulo, Estação Experimental de Bauru, SP, Brazil 12 Centro de Ciências Agrárias e Ambientais, Universidade Federal de Maranhão, Chapadinha, MA, Brazil 13 Dept. Zoologia, Museu Paraense Emílio Goeldi, Belém, PA, Brazil 14 Programa de Pós Graduação em Zoologia do Museu Paraense Emílio Goeldi, Belém, PA, Brazil 15 Dept. Biology, Rhodes College, Memphis, Tennessee, USA 16 Corresponding author. E-mail: [email protected] 2 Abstract The common English name for the genus Chiropotes is currently bearded saki. We propose the use of “cuxiú” as the common name for Chiropotes species, arguing that this term not only has deeper cultural and historical roots, but would mesh with the common name currently in use over the vast majority of the genus range. Cuxiú (pronounced “coosh-e-oo”) would be phylogenetically and taxonomically more appropriate, and less ambiguous, than the currently used term, and remove the implied close affiliation between Pithecia and Chiropotes. Finally, as an indigenously-derived name, it would fit with the common names in use for the other two genera in the sub-family Pitheciinae (uacari, Cacajao; saki, Pithecia), both of which also have indigenous origins. Key words: Bearded saki, Chiropotes, Cuxiú, Pithecidae Pitheciin systematics Together with Cacajao Lesson 1840 and Pithecia Desmarest 1804, the genus Chiropotes Lesson 1840 forms the Pitheciinae, a sub-family of the Pithecidae (Groves 2005). In current English usage (e.g. IUCN 2011), monkeys of the three genera are generally referred to as sakis (Pithecia), uacaris (Cacajao), and bearded sakis (Chiropotes). The terms for the former two genera are derived from indigenous names for the monkeys (Barnett 2004), whereas the latter is the English form of the equivalent name in German, “Bartsaki”, which was coined by Hick (1968). Common names generally use salient visual characters both to distinguish between species (Barnett 2004), and to provide a verbal grouping for visually similar animals (Yoon 2009; Atran & Medin 2010). Aside from the Accepted by P. Gaubert: 31 Aug. 2012; published: 5 Oct. 2012 79 occasional divergence, such folk taxonomies generally approximate well to scientific taxonomy (e.g. Fleck et al. 1999). However, while the English common name for Chiropotes refers to a salient characteristic of the animal it also implies a closer affinity between Chiropotes and Pithecia than between either of these genera and Cacajao. As noted by Opazo et al. (2006), this implication is incorrect. The superficial similarity between Chiropotes and Pithecia is restricted to the distinctive, long bushy tail, which is notably lacking in Cacajao, the only platyrrhine where the tail is highly reduced (Figure 1). The term “bearded” as a distinguishing factor is based on the fact that both adult male and female Chiropotes have hypertrophied hair on the lower jaw, a feature absent in Pithecia. In Cacajao, a variable amount of facial hair is also present. Although this never approaches the beard of Chiropotes, it does confound the use of the beard as a diagnostic criterion for the informal distinction of the genus Chiropotes within the pitheciines. We argue that correcting this error is important because, in a rare moment of phylogenetic unanimity, all recent published studies of the topic consider Cacajao and Chiropotes to be sister taxa within the subfamily Pitheciinae. Such studies have included morphological (Rosenberger 1981; Horovitz et al. 1998; Kay 1990; Marroig & Cheverud 2004), molecular (Canavez et al. 1999; von Dornum & Ruvolo 1999; Opazo et al. 2006; Chatterjee et al. 2009; Wildman et al. 2009), cytogenetic (Moura-Pensin et al. 2001; Finotelo et al. 2010), and biochemical (Schneider et al. 1995) analyses. According to Schneider (2000), Pithecia diverged from the pitheciin lineage some 3 million years before the separation of Chiropotes and Cacajao. It is important that the correct distinctions are recognised, as there are strong behavioural and ecological differences among the three genera, including group size, degree of specialization for seed predation, and even distribution patterns (i.e. allopatry between Cacajao and Chiropotes) (Norconk 2001). Pitheciin taxonomic history Taxonomic unanimity has, however, taken time to establish: historically, the three genera were first assigned to the long-abolished Simia (Cacajao and Chiropotes by Humboldt (1811), and Pithecia by Linnaeus (1766)), all were subsequently transferred to Pithecia by Geoffroy Saint-Hilaire (1812), a grouping then divided by Lesson (1840) into Cacajao, Pithecia (Pithecia) and Pithecia (Chiropotes). The latter was first elevated to full generic status (as Cheiropotes) by Reichenbach (1862), and then amended to Chiropotes by Gray (1870), although later publications, such as the influential A Review of the Primates (Elliot 1913), still retained it as a sub-genus of Pithecia. Consequently, the presence of “saki” as a shared element in the common names of Pithecia and Chiropotes appear to be at least partly rooted in these historical groupings. Common name use: cuxiú In addition to being phylogenetically misleading, the common English name in current usage for the monkeys of the genus Chiropotes is also both ungainly and inconsistent with the use of indigenous names for the other pitheciine genera (Barnett 2004). There is, however, a common name for Chiropotes that pre-dates “bearded saki”, and which does not suggest an erroneously close link with Pithecia. This name is “cuxiú”. When describing, as Simia satanas, a specimen of Chiropotes satanas, Humboldt (1811) gave the common names as “couxio” and “couchio du Grand Para”. In the same publication Humboldt (1811: 313) also introduced the term “chiropotes”, formed from the Greek words “hand” and “drinker”, in the following manner ‘’J’ai nommé le Capucin Simia , main, et , buveur’’, referring specifically to the habit of drinking water by immersing the chiropotes, de hand in the liquid. While “hand-drinker” would be a transliteration of the genus name, it is now redundant as a descriptor, given that this type of behaviour has now been observed in many other monkey species. The beard was mentioned in the description of this specimen, but was not given any special significance. In Elliot (1913) both Pithecia and Chiropotes were called sakis, with Chiropotes species having such common names of red-backed saki and black saki. However, consistent with Humboldt’s naming, the type species of the modern genus Chiropotes was named by Lesson (1840) as “Pithecia (Chiropotes) couxio”. Although “Chiropotes couxio” is unavailable because of its synonymy with Chiropotes satanas (earlier described as “Cebus satanas” by Hoffmannseg 1807 [see Groves 2005: 146]), the use of the word cuxiú in 1840 does highlight the antiquity of the association of this name with the evolutionary lineage of pitheciins that Chiropotes represents. 80 · Zootaxa 3507 © 2012 Magnolia Press BARNETT ET AL. FIGURE 1. A long bushy tail and no beard characterize (A) Pithecia, which is taxonomically less related to (B) short-tailed, beardless Cacajao and (C) long bushy-tailed, bearded Chiropotes than these two genera are to each other, yet both Chiropotes and Pithecia are currently called sakis. All three photos are courtesy of Luiz Claudio Marigo. Additionally, the current common names for Cacajao and Pithecia (uacari and saki, respectively) are both derived from indigenous names (Barnett 2004). By adopting the indigenous word cuxiú (pronounced: coosh-e-oo) as the common name for the genus Chiropotes, we would be using a name employed throughout the Brazilian Amazon that is well-established in the academic literature written in Portuguese (Ferreira 1792; Goeldi 1893; Deane 1967; Ayres 1981; Arruda 1985; Veiga 2006; Pinto 2008) and that differs only orthographically from the use of “couxio” or “couchio” in Humboldt (1811). Hence a similar rule would be being applied for naming all pitheciin genera. “Cuxiú” derives from the Tupi-Guarani language group that includes the Nheengatu and Sateré-Mawé tongues of the southern Amazon basin (da Silva 2006, 2007), where the name is “kusiu” or “kuSiwu”. As is common with primates (Barnett 2004), the name is probably an onomatopoeic derivation of the animal’s alarm call. While the geographic range of the genus Chiropotes includes the Guianas and southern Venezuela, where alternative names are given to these monkeys (saki nez blanc, saki noire: [French Guiana]; baard-aap, bisa, kwataswagi, satan-aap [Suriname]; jacket-monkey, johnny-soldier [Guyana]; saki nariblanco, capuchinos del Orinoco, mono barbudo [Venezuela]: (Emmons & Feer 1997, IUCN 2011)), three of the four recognized species (Silva & Figueiredo 2002, IUCN 2011) are endemic to Brazil, and more than half the geographic range of the fourth species—Chiropotes chiropotes—is located within Brazilian territory. In other words, 80–90% of Chiropotes populations are located on the part of the globe where, both in Portuguese and in tribal languages, these monkeys are universally referred to as cuxiús. There is precedent for this kind of change in common name, for example, in the shift from Brachyteles arachnoides being referred to as “woolly spider monkey” (e.g. Wolfheim 1983) to the indigenous term “muriqui” (Strier 1992). In line with this, we propose the following common names for the Chiropotes taxa recognized by the International Union for the Conservation of Nature (IUCN 2011): Chiropotes albinasus (Geoffroy and Deville 1848), red-nosed cuxiú; Chiropotes chiropotes (Humboldt 1811), brown-backed cuxiú; Chiropotes satanas (Hoffmannsegg 1807), black cuxiú; and Chiropotes utahickae (Hershkovitz 1985), Uta Hick’s cuxiú. COMMON NAMES FOR CHIROPOTES SPECIES Zootaxa 3507 © 2012 Magnolia Press · 81 Silva Jr. & Figueiredo (2002) proposed the name Chiropotes sagulatus (Traill 1821) to those Chiropotes populations east of the Rio Branco and north of the Amazon (map available in Veiga 2006). Although this opinion has yet to be published in a peer-reviewed form (the 2002 publication is a congress abstract), the Latin name has been used in a book chapter by Gordo et al. (2008), and for a PhD thesis by Gregory (2011). If this taxon becomes generally accepted, we suggest the common name be red-backed cuxiú. Conclusions Given all these considerations, we propose the use of the term “cuxiú”, rather than “bearded saki”, as the common English name for the monkeys of the genus Chiropotes. This would (a) provide consistency with the local common name used throughout most of the geographic range of the genus, (b) better reflect the cultural and historic use of this term, (c) standardise the informal nomenclature of the subfamily Pitheciinae (all indigenous names), and (d) eliminate the misleading informal affiliation of the genus with Pithecia. Acknowledgements The authors thank Marilyn Norconk (Kent State University) for comments and ideas, and Luiz Claudio Marigo for permission to use his photos in Figure 1. References Arruda, M.E. (1985) Presença do Plasmodium brasilianum em macacos capturados na área de enchimento do reservatório da Usina Hidrelétrica de Tucuruí, Pará. Memórias do Instituto Oswaldo Cruz, 80, 367–369. Atran, S. & Medin, D. (2010) The Native Mind and the Cultural Construction of Nature. MIT Press, Cambridge, 344 pp. Ayres, J.M. (1981) Observações sobre a ecologia e o comportamento dos cuxiús (Chiropotes albinasus e Chiropotes satanas, Cebidae, Primates). MSc thesis, Instituto Nacional de Pesquisas da Amazônia (INPA), Manaus, Brazil. Barnett, A.A. (2004) The meaning of Cacajao and uacari: folk etymology in Neotropical primate taxonomy. Neotropical Primates, 12, 147–152. Canavez, F.C., Moreira, M.A., Simon, F., Parham, P. & Seuanez, H.N. (1999) Phylogenetic relationships of the Callitrichinae (Platyrrhini, Primates) based on beta2-microglobulin DNA sequences. American Journal of Primatology, 48, 225–236. Chatterjee, H.J., Ho, S.Y.W., Barnes, I. & Groves, C. (2009) Estimating the phylogeny and divergence times of primates using a supermatrix approach. BMC Evolutionary Biology, 9, 259 doi:10.1186/1471-2148-9-259. Deane, L.M. (1967) Tripanosomídeos de mamíferos da região Amazônica. Revista Instituto Medicina Tropical São Paulo, 9, 143–148. Elliot, D.G. (1913) A Review of the Primates. American Museum of Natural History, New York, 3 vols. Emmons, L. & Feer, F. (1997) Neotropical Rainforest Mammals: A Field Guide, 2nd edition. University of Chicago Press, Chicago, 396 pp. Ferreira, J.R. (1792) Viagem Filosofica pelas Capitanias do Grão-Pará, Rio Negro, Mato Grosso e Cuiabá, 1783–1792, Memorias Zoologia, Botanica. Conselho Federal Cultura, Rio de Janeiro. Finotelo, L.F.M, Amaral, P.J.S., Pieczarka, J.C., de Oliveira, E.H.C., Pissinati, A., Neusser, M., Müller, S. & Nagamachi, C.Y. (2010) Chromosome phylogeny of the subfamily Pitheciinae (Platyrrhini, Primates) by classic cytogenetics and chromosome painting. BMC Evolutionary Biology, 10, 189 http://dx.doi.org/10.1186/1471–2148-10-189. Fleck, D.W., Voss, R.S. & Patton, J.L. (1999) Biological basis of saki (Pithecia) folk species recognized by the Matses Indians of Amazonian Peru. International Journal of Primatology, 20, 1005–1028. Geoffroy Saint-Hilaire, E. (1812) Tableaux des quadrumane sou des animaux composant la première ordre des mammifères. Annais do Muséum National D'histoire Naturelle de Paris, 19, 156–170. Geoffroy Saint-Hilaire, I. & Deville, E. (1848) Note sur un huite spècies nouvelles de singes américaine, faitent parties des collections de M. de Castelnau et Émilie Deville. Comptes Rendus Hebdomadaires des Séances de l’Academie des Sciences, Paris, Série D 27: 497–499. Goeldi, E. (1893) Os Mammiferos do Brasil. Alves & C., Rio de Janeiro, 246 pp. Gordo, M., Rodrigues, L.F., Vidal, M.D. & Spironello, W.R. (2008) Primatas In: Oliveira, M.L., Baccaro, F.B., Braga-Neto, R. & Magnusson, W. (Eds.), Reserva Ducke - A Biodiversidade Amazônica Através de uma Grade. Áttema Design Editorial, Manaus, pp. 39–49. Gray, J.E. (1870) Catalogue of Primates, Lemurs, and Fruit-Eating Bats in the Collections of the British Museum. Trustees of 82 · Zootaxa 3507 © 2012 Magnolia Press BARNETT ET AL. the British Museum, London, 173 pp. Gregory, L.T. (2011) Socioecology of the Guianan bearded saki. PhD dissertation, Kent State University, Kent, OH, USA. Groves, C. (2005) Primates In: Wilson, D.E. & Reeder, D.M. (eds) Mammal Species of the World (3rd ed.). Johns Hopkins University Press, Baltimore. pp. 111–184. Hershkovitz, P. (1985) A preliminary taxonomic review of South American bearded saki monkeys, genus Chiropotes (Cebidae, Platyrrhini), with description of a new subspecies. Fieldiana, 27, 1–46. Hick, U. (1968) Erstmalig gelungene Zucht eines bartsakis (Vater: Rotrücken-saki), Chiropotes satanas (Humboldt, 1811), (Mutter:Weissnasensaki), Chiropotes albinasus (Geoffroy et Deville, 1848) im Kölner Zoo. Freunde des Kolner Zoo, 11, 35–41. Hoffmannsegg, G., von (1807) Beschreibung vier affenartiger Thier eaus Brasilien. Museum Gesellschaft Naturforschender Freunde Berlin, Jahg, 1, 83–104. Horovitz, I., Zardoya, R. & Meyer, A. (1998) Platyrrhine systematics: A simultaneous analysis of molecular and morphological data. American Journal of Physical Anthropology, 106, 261–281. Humboldt, A de. (1811) Recueil d’Observations de Zoologie et d’Anatomie Comparée, Faites dans l’Océan Atlantique, dans l’Interieur du Nouveau Continent et dans la Mer du Sud Pendant les Années 1799, 1800, 1801, 1802 et 1803, Part 2, Vol. 1. Paris. F. Schœll, Gel. Dufour & J.H. Stone, 530 pp. IUCN (2011) IUCN red list of threatened species, version 2011.1 www.iucnredlist.org Downloaded on 09 August 2011. Kay, R.F. (1990) The phyletic relationships of extant and fossil Pitheciinae (Platyrrhini, Anthropoidea). Journal of Human Evolution, 19, 175–208. Lesson, R.P. (1840) Species de Mammiferes: Bimanes et Quadrumanes; Suivi d’um Memoire sur les Orycteropes. J. B. Bailiere, Paris. Linnaeus, C. (1766) Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus I. Editio duodecima, reformata. Holmiae. (Laurentii Salvii), 1–532. Marroig, G. & Cheverud, J.M. (2004) Did natural selection or genetic drift produce the cranial diversification of Neotropical monkeys? American Naturalist, 163, 417–428. Moura-Pensin, C., Pieczarka, J.C., Nagamachi, C.Y., Muniz, J.A.P.C., Brigido, M.C.O., Pissinati, A., Marinho, A.N.R. & Barros, R.M.S. (2001) Cytogenetic relations among the genera of the subfamily Pitheciinae (Cebidae, Primates). Caryologia, 54, 385–391. Norconk, M.A. (2011) Sakis, uakaris, and titi monkeys: Behavioral diversity in a radiation of primate seed predators. In: Campbell, C.J., Fuentes, A., MacKinnon, K.C., Bearder, S. K. & Stumpf, R.M. (Eds.) Primates in Perspective. Oxford University Press, New York, pp. 122–139. Opazo, J.C., Wildman, D.E., Prychitko, T., Johnson, R.M. & Goodman, M. (2006) Phylogenetic relationships and divergence times among New World monkeys (Platyrrhini, Primates). Molecular Phylogenetic and Evolution, 40, 274–280. Pinto, L.P. (2008) Ecologia alimentar do cuxiú-de-nariz-vermelho Chiropotes albinasus (Primates: Pitheciidae) na Floresta Nacional do Tapajós, Pará. PhD dissertation, Universidade Estadual de Campinas, Campinas, Brazil. Reichenbach, H. von. (1862) Die Vollständige Naturgeschichte der Affen, In Die Vollständige Naturgeschichte des in- und Auslandes Dresden. Central-Atlas für Zoologische Gärten, Dresden and Leipsig. Rosenberger, A.L. (1981) Systematics: the higher taxa. In: Coimbra-Filho, A.F. & Mittermeier, R.A. (Eds.) Ecology and Behavior of Neotropical Primates, Vol. 1. Academia Brasileira de Ciências, Rio de Janeiro, pp. 9–27. Schneider, H. (2000) The current status of the New World monkey phylogeny. Anais da Academia Brasileira de Ciências, 72, 165–172. Schneider, M.P.C., Schneider, H., Sampaio, I., Carvalho-Filho, N., Encarnacion, F., Montoya, E. & Salzano, F.M. (1995) Biochemical diversity and genetic distance in the Pitheciinae Subfamily (Primates, Platyrrhini). Primates, 36, 129–134. da Silva, R.G.P. (2006) Estudo fonológico da lingua Sateré-Mawé. Sínteses Revista Curso Pós-graduação de Unicamp, 11, 501–515. da Silva, R.G.P. (2007) Esboço sociolingüístico Sateré-Mawé. Tellus, 7, 73–101. Silva Jr., J.S. & Figueiredo, W.M.B. (2002) Revisão sistemática dos cuxiús, gênero Chiropotes Lesson, 1840 (Primates, Pithecidae). Livro de Resumos do XX Congresso da Sociedade Brasileira de Primatologia, Amazônia - A Última Fronteira: 21. Belém do Pará, Brazil. Strier, K.B. (1992) Faces in the Forest: The Endangered Muriqui Monkeys of Brazil. Oxford University Press, Oxford, 170 pp. Traill, T.S. (1821) Description of the Simia sagulata, or jacketed monkey. Edinburgh Memoirs of the Wernerian Society III, 170–173. Veiga, L.M. (2006) Ecologia e comportamento do cuxiú-preto (Chiropotes satanas) na paisagem fragmentada da Amazônia Oriental. PhD dissertation, Universidade Federal do Pará, Belém, Brazil. von Dornum, M. & Ruvolo, M. (1999) Phylogenetic relationships of the New World monkeys (Primates, Platyrrini) based on nuclear G6PD DNA sequences. Molecular Phylogenetics & Evolution, 11, 459–476. Wildman, D.E., Jameson, N.M., Opazo, J.C. & Yi, S.V. (2009) A fully resolved genus level phylogeny of Neotropical primates (Platyrrhini). Molecular Phylogenetics and Evolution, 53, 694–702. Wolfheim, J.H. (1983) Primates of the World: Distribution, Abundance, and Conservation. Cambridge University Press, Cambridge, 832 pp. Yoon, C.K. (2009) Naming Nature: The Clash Between Science and Instinct. W.W. Norton & Co., New York, 352 pp. COMMON NAMES FOR CHIROPOTES SPECIES Zootaxa 3507 © 2012 Magnolia Press · 83