Taxonomic review of Saguinus mystax (Spix, 1823) (Primates, Callitrichidae), and description of a new species

Gerson Paulino Lopes; Fábio Rohe; Fabrício Bertuol; Erico Polo; Ivan Junqueira Lima; João Valsecchi; Tamily Carvalho Melo Santos; Stephen D. Nash; Maria Nazareth Ferreira da Silva; Jean P. Boubli; Izeni Pires Farias; Tomas Hrbek

doi:10.7717/peerj.14526

Taxonomic review of Saguinus mystax (Spix, 1823) (Primates, Callitrichidae), and description of a new species

Gerson Paulino Lopes ^1,2,3,4, Fábio Rohe^3,5, Fabrício Bertuol³, Erico Polo³, Ivan Junqueira Lima^4,6, João Valsecchi^2,4,7,8, Tamily Carvalho Melo Santos⁴, Stephen D. Nash⁹, Maria Nazareth Ferreira da Silva¹⁰, Jean P. Boubli^10,11, Izeni Pires Farias^1,3, Tomas Hrbek ^1,3,12

1Programa em Pós-Graduação em Zoologia, Universidade Federal do Amazonas, Manaus, Amazonas, Brazil

2Grupo de Pesquisa em Ecologia e Conservação de Primatas, Instituto de Desenvolvimento Sustentável Mamirauá, Tefé, Amazonas, Brazil

3Laboratório de Evolução e Genética Animal/Departamento de Genética/Instituto de Ciências Biológicas, Universidade Federal do Amazonas, Manaus, Amazonas, Brazil

4Grupo de Pesquisa em Ecologia de Vertebrados Terrestres, Instituto de Desenvolvimento Sustentável Mamirauá, Tefé, Amazonas, Brazil

5Programa de Pós-Graduação em Genética, Conservação e Biologia Evolutiva, Instituto Nacional de Pesquisas da Amazônia, Manaus, Amazonas, Brazil

6Programa de Pós-Graduação em Ecologia Aplicada, Universidade Federal de Lavras, Lavras, Minas Gerais, Brazil

7Rede de Pesquisa em Diversidade, Conservação e Uso da Fauna da Amazônia, Manaus, Amazonas, Brazil

8Comunidad de Manejo de Fauna Silvestre en América Latina, Iquitos, Peru

9Department of Anatomical Sciences/Health Sciences Center, Stony Brook University, New York, United States of America

10Instituto Nacional de Pesquisas da Amazônia, Manaus, Brazil

11School of Science, Engineering and the Environment, University of Salford, Salford, United Kingdom

12Department of Biology, Trinity University, San Antonio, Texas, United States

DOI: 10.7717/peerj.14526

Published: 2023-01-11
Accepted: 2022-11-15
Received: 2022-03-16

Academic Editor: Juan J. Morrone

Subject Areas: Biodiversity, Bioinformatics, Molecular Biology, Taxonomy, Zoology
Keywords: Platyrrhini, Phylogeny, New world monkeys, New species, Cryptic, Amazonian tamarin, Phylogenomic, Geographic distribution, Taxonomy, Species

Copyright: © 2023 Lopes et al.
Licence: This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.

Cite this article: Lopes GP, Rohe F, Bertuol F, Polo E, Lima IJ, Valsecchi J, Santos TCM, Nash SD, Silva MNFd, Boubli JP, Farias IP, Hrbek T. 2023. Taxonomic review of Saguinus mystax (Spix, 1823) (Primates, Callitrichidae), and description of a new species. PeerJ 11:e14526 https://doi.org/10.7717/peerj.14526

Abstract

Although the Amazon has the greatest diversity of primates, there are still taxonomic uncertainties for many taxa, such as the species of the Saguinus mystax group. The most geographically broadly distributed and phenotypically diverse species in this group is S. mystax, and its phenotypic diversity has been recognized as three subspecies—S. mystax mystax, S. mystax pileatus and S. mystax pluto—with non-overlapping geographic distributions. In this sense, we carried out an extensive field survey in their distribution areas and used a framework of taxonomic hypothesis testing of genomic data combined with an integrative taxonomic decision-making framework to carry out a taxonomic revision of S. mystax. Our tests supported the existence of three lineages/species. The first species corresponds to Saguinus mystax mystax from the left bank of the Juruá River, which was raised to the species level, and we also discovered and described animals from the Juruá–Tefé interfluve previously attributed to S. mystax mystax as a new species. The subspecies S. m. pileatus and S. m. pluto are recognized as a single species, under a new nomenclatural combination. However, given their phenotypic distinction and allopatric distribution, they potentially are a manifestation of an early stage of speciation, and therefore we maintain their subspecific designations.

Introduction

Marmosets and tamarins—species of the family Callitrichidae (Rylands et al., 2000, 2016)—are the most morphologically distinct and smallest of Neotropical primates (Hershkovitz, 1977). Marmosets and tamarins are currently classified in eight genera: Leontopithecus Lesson, 1840, Callimico Miranda-Ribeiro, 1911, Saguinus Hoffmannsegg, 1807, Cebuella Gray, 1866, Callithrix Erxleben, 1777, Leontocebus Wagner, 1839, Mico Lesson, 1840, and Callibella van Roosmalen & van Roosmalen, 2003 (Rylands et al., 2000; van Roosmalen & van Roosmalen, 2003; Buckner et al., 2015; Rylands et al., 2016; Silva et al., 2018).

Tamarins of the genus Saguinus are distributed in forests of South and Central America (Hershkovitz, 1977; Fig. 1). Species of the genus Saguinus are currently organized into four species groups (Rylands et al., 2016): the midas group: Saguinus midas (Linnaeus, 1758), Saguinus niger (É. Geoffroy Saint-Hilaire, 1803), Saguinus ursulus Hoffmannsegg, 1807; the bicolor group: Saguinus bicolor (Spix, 1823), Saguinus martinsi martinsi (Thomas, 1912), Saguinus martinsi ochraceus Hershkovitz, 1966; the oedipus group: Saguinus oedipus (Linnaeus, 1758), Saguinus geoffroyi (Pucheran, 1845), and Saguinus leucopus (Günther, 1877); and the mystax group: Saguinus mystax mystax (Spix, 1823), Saguinus mystax pileatus (I. Geoffroy Saint-Hilaire & Deville, 1848), Saguinus mystax pluto (Lönnberg, 1926), Saguinus labiatus labiatus (É. Geoffroy Saint-Hilaire, 1812), Saguinus labiatus thomasi (Goeldi, 1907), Saguinus labiatus rufiventer (Gray, 1843), Saguinus imperator imperator (Goeldi, 1907), Saguinus imperator subgrisescens (Lönnberg, 1940), and Saguinus inustus (Schwarz, 1951).

The geographical distributions of Saguinus: the mystax group (brown), the oedipus group (red), and the bicolor and midas groups (purple). — Figure 1: The geographical distributions of Saguinus: the *mystax* group (brown), the *oedipus* group (red), and the *bicolor* and *midas* groups (purple).

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DOI: 10.7717/peerj.14526/fig-1

The bicolor, midas and oedipus groups have been subject to taxonomic revisions (Hanihara & Natori, 1987; Kanazawa & Rosenberger, 1988; Skinner, 1991; Natori & Hanihara, 1992; Moore & Cheverud, 1992; Rylands, 1993; Vallinoto et al., 2006; Rylands & Mittermeier, 2009; Gregorin & Vivo, 2013) since the seminal study of Hershkovitz (1977). In contrast, the taxonomy of the mystax group has remained practically unchanged, and current taxonomy follows Hershkovitz (1977) who considered these taxa geographic races of the same species, hence relegating them to the subspecies status (Rylands et al., 2016). However, Groves (2001) noted that while S. m. mystax and S. m. pluto are quite similar to each other, S. m. pileatus is phenotypically divergent and therefore opinionated that it likely is a species. Following this logic, Rylands & Mittermeier (2009) opinionated that S. m. mystax and S. m. pluto are likely different species given that their areas of occurrence are separated by that of S. m. pileatus (Fig. 2). Taxonomic clarity and resolution of this issue has, however, not advanced due to lack of specimens available for taxonomic analyses.

Geographic distribution of S. mystax subspecies and Saguinus sp. — Figure 2: Geographic distribution of S. *mystax* subspecies and *Saguinus* sp.
Black circles indicate location of genetic samples. Polygons modified from IUCN and Sampaio, Rohe & Rylands (2018). Blue lines represent Amazonian rivers. The small map on superior side left shows the North of South America, and the distribution of *Saguinus* three species groups.

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DOI: 10.7717/peerj.14526/fig-2

To clarify the taxonomy of subspecies of Saguinus mystax, we carried out extensive field surveys in their areas of distribution. During field surveys in the Juruá-Tefé interfluve, we observed that specimens of S. m. mystax from the right bank of the Juruá River differed in phenotype from the specimens from the left bank of this river (Figs. 3 and 4).

Coat color pattern of Saguinus mystax and Saguinus sp. analyzed in this study. — Figure 3: Coat color pattern of *Saguinus mystax* and *Saguinus sp*. analyzed in this study.
Illustrations by Stephen D. Nash.

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DOI: 10.7717/peerj.14526/fig-3

Dorsal views of skins of Saguinus mystax (left; IDSM03594) and Saguinus sp. (right; IDSM00067). — Figure 4: Dorsal views of skins of *Saguinus mystax* (left; IDSM03594) and *Saguinus* sp. (right; IDSM00067).

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DOI: 10.7717/peerj.14526/fig-4

Considering the above, in this study we test the taxonomic hypothesis that the described taxa of S. mystax and the new morphotype are independent evolutionary lineages, i.e., species (the General Lineage Species Concept of de Queiroz, 1999, 2007). To this end, we generated double digest restriction associated DNA (ddRAD) data and used these data to conduct coalescent-based tests of taxonomic hypotheses (Fujita et al., 2012; Leaché et al., 2014). Subsequently we evaluated the results of these analyses in light of phenotypic coat color data and geographic distributions of the analyzed taxa.

Materials and Methods

Specimen sampling

All analyzed specimens originated from museum collections. This study did not motivate the collection of these specimens. All specimens were collected under licenses granted by the Instituto Chico Mendes de Conservação da Biodiversidade/Sistema de Autorização e Informação em Biodiversidade and in accordance with the ethical recommendations of the Conselho Federal de Biologia (CFBio; Federal Council of Biologists), Resolution 301 (December 8, 2012).

Collection of phenotypic data

Using Hershkovitz’s (1968, 1977) framework of chromogenetic fields (Fig. S1), we collected phenotypic data from specimens of S. m. mystax, S. m. pluto, S. m. pileatus, and Saguinus sp. Chromogenetic fields are defined as consistently distinct areas of the body identifiable by hair color and color patterns of the coat (Hershkovitz, 1977). Chromogenic fields have been found to be informative in taxonomic studies of callitrichids (Hershkovitz, 1968, 1977; Vivo, 1991; Mittermeier, Schwarz & Ayres, 1992; Silva & Noronha, 1998; Rohe et al., 2009; Sampaio et al., 2015; Garbino, 2015; Garbino & Martins-Junior, 2018; Costa-Araújo et al., 2019, 2021).

For each specimen we collected color and color pattern characteristics of each of the 11 chromogenetic fields. We considered color tones as character states. All data were collected in daylight conditions using the color codes of the Munsell Color (2000) and are summarized by taxon in Table 1. We examined 38 specimens deposited in the collections of the Instituto Nacional de Pesquisas da Amazônia (INPA) and the Instituto de Desenvolvimento Sustentável Mamirauá (IDSM); of these, 25 specimens were included in molecular analyses (Table S1).

Table 1:

Coat color pattern of taxa of the Saguinus mystax complex based on our specimen’s examination.

Chromogenetic fields	S. m. mystax	Saguinus sp.	S. m. pileatus	S. m. pluto
I. Forehead	Light black	Light black	Reddish orange	Black
II. Crown	Light black	Light black brown	Reddish orange	Black
III. Temporal patch	Black	Black	Black	Black
IV. Mantle	Light black brown, subterminal band is orange, terminal band is black	Light black brown, subterminal band is yellow, terminal band is black	Light black brown with fine light brownish yellow or orange ticking	Black and ticked with light brownish yellow
V. Throat	Black	Black	Light black or brown	Black
VI. Chest	Black	Light black	Light black or brown	Light black
VII. Forelimbs	Black	Light black brown, subterminal band is yellow, terminal band is black	Light black	Light black and light brownish yellow
VIII. Saddle	Light black with orange	Light black with brown	Light black brown and light brownish yellow	Light black and light brownish yellow
IX. Rump	Light black with orange	Light black with brown	Light black brown and light brownish yellow	Light black and light brownish yellow
X. Hindlimbs	Light black with orange	Light black with brown	Light black	Light black and light brownish yellow
XI. Tail	Black	Black	Black	Black

DOI: 10.7717/peerj.14526/table-1

Note:

Characters unique to Saguinus sp. are marked in bold.

Collection of ddRAD data

We extracted DNA from tissues deposited at INPA, IDSM, and the Universidade Federal do Amazonas (UFAM). We extracted whole genomic DNA from tissue samples using the standard phenol-chloroform extraction protocol (Sambrook & Russell, 2001). We then generated ddRAD sequence data (Peterson et al., 2012) using a modified protocol optimized for the IonTorrent PGM described in Boubli et al. (2018) (see: https://github.com/legalLab/protocols-scripts). We generated data for 25 specimens of the Saguinus mystax species, including representatives of all described subspecies and spanning the known geographic distribution of the taxa within Brazil. We also generated data for three specimens of Saguinus inustus, an outgroup taxon. We used the SdaI and Csp6I restriction enzymes (Thermo Fisher, Waltham, MA, USA), and size selected fragments in the range of 320–400 bp using PippinPrep (Sage Science, Beverly, MA, USA). Samples were sequenced on the IonTorrent PGM using the manufacturer’s recommended protocol.

Sequencing reads were processed using the pyRAD pipeline (Eaton, 2014). During de novo assembly, we used a minimum coverage of 6x per locus, assembling all fragments in the 300–400 bp range. Nucleotides with PHRED scores <30 were excluded, and loci with more than six low quality nucleotides were excluded. Subsequently we clustered alleles within loci and loci across individuals, both at a minimum of 88% similarity. Finally, we generated the final dataset by filtering the clusters such that all loci with more than 50% heterozygotes were excluded-likely paralogs, and the locus had to have been present in at least 19 of the 28 specimens. The resulting dataset contained 556 loci and 196,771 nucleotides. We subsequently statistically reduced the 556 loci into 163 partitions using PartitionFinder2 (Lanfear et al. 2017).

We also processed our raw reads using DiscoSnp-RAD (Gauthier et al., 2020), which uses De Bruijn graphs to circumvent the need for clustering of reads, reducing data loss due to low coverage within individuals. We extracted single nucleotide polymorphisms (SNPs) from our reads using a minimum read depth of five. Furthermore, we filtered these loci on rank (Gauthier et al., 2020), retaining those SNPs with rank >0.9—a statistic incorporating the discriminant power and read coverage of each SNP—and those that were present in at least 90% of the samples, i.e., no more than two individuals had missing data at any particular SNP locus. The resulting variant call file (VCF) was filtered to retain all loci with 2–5 SNPs per locus following Malinsky et al. (2018) resulting in a 98.38% complete matrix comprising 158 uninked loci and 351 SNPs. We also filtered the original VCF file to sample the highest quality SNP from each locus, generating a VCF of unlinked loci. The resulting matrix was 98.55% complete and comprised 4,550 unlinked loci.

Clustering analyses

An initial population structure analysis was performed using fineRADstructure (Malinsky et al., 2018) (Fig. S2). This method takes full advantage of ddRAD sequences by using all linked SNPs present at each locus to generate a co-ancestry table, and then uses Markov chains within a Bayesian framework to retrieve fine-scale groupings of individuals from this table. The MCMC chain for group definition was formed from 1 million steps, sampling every 1000th step, preceded by 1 million of burn-in steps. Convergence of the MCMC chain was verified visually.

Phylogenetic analyses

We used ASTRAL-III (Zhang et al., 2018) for phylogenetic reconstruction because it is fast, consistent with missing data (Nute et al., 2018) and considers the historical independence of different loci in a framework that takes incomplete lineage sorting into account (ILS). Furthermore, since ASTRAL-III constructs a supertree from pre-estimated gene trees, these can be inferred using the complete information contained in the ddRAD sequences. The estimation of gene trees was performed with RAxML (Stamatakis, 2014) using the Gamma GTR model of molecular evolution, from the best of 10 independent estimates of maximum likelihood trees and support values estimated from 100 bootstraps. Finally, before estimating the supertree in ASTRAL-III, following Zhang, Sayyari & Mirarab (2017) and Mirarab (2019) nodes with bootstrap support less than 10 were collapsed into polytomies using Newick Utilities (Junier & Zdobnov, 2010).

We also estimated a phylogeny using SVDquartets (Chifman & Kubatko, 2014) implemented in PAUP (Swofford, 2002). This method infers quartets based on summaries of SNPs in a concatenated sequence matrix of species using a full coalescent model. Sequences of Saguinus inustus were used as outgroup. We opted to use both methods since although both are fully coalescent methods of phylogenetic reconstruction, they have slightly different premises and use data in a different form (sequences vs SNPs).

Tests of taxonomic hypotheses

We carried out a path sampling analysis in BEAST2 (Bouckaert et al., 2014) testing competing taxonomic hypotheses derived from current taxonomy, our phylogenomic analyses and pelage color patterns. The potential taxa whose taxonomic status was tested were S. m. mystax, S. m. pileatus, S. m. pluto and Saguinus sp. The taxonomic hypotheses were: (1) one species—(S. m. mystax + S. m. pileatus + S. m. pluto + Saguinus sp.); (2) two species—(S. m. mystax + Saguinus sp., S. m. pileatus + S. m. pluto); (3) three species—(S. m. mystax + Saguinus sp., S. m. pileatus, S. m. pluto); (4) three species—(S. m. mystax, Saguinus sp., S. m. pileatus + S. m. pluto); (5) four species—(S. m. mystax, Saguinus sp., S. m. pileatus, S. m. pluto). Marginal probabilities of the competing taxonomic hypotheses were then compared by Bayes factors (Kass & Raftery, 1995).

Results

Phenotypic analysis

Saguinus m. mystax, S. m. pileatus, S. m. pluto and Saguinus sp. were diagnosable by pelage color characters (Table 1; Fig. 3). Specimens of Saguinus sp. from the Juruá-Tefé interfluve showed a distinct set of diagnostic characters that differentiated these specimens from Saguinus m. mystax (Table 1; Figs. 3 and 4).

Phylogenetic analyses

Phylogenetic analyses carried out in ASTRAL-III and SVDQuartets were concordant and recovered three well-supported clades representing S. m. mystax from the left bank of the Juruá River, a clade from the right bank of the Juruá River—the Juruá-Tefé interfluve representing Saguinus sp., and a clade comprising S. m. pileatus and S. m. pluto (Fig. 5A). In the SVDQuartets analysis S. m. pluto was nested within S. m. pileatus (Fig. 5B), while in the ASTRAL-III analysis S. m. pileatus and S. m. pluto were recovered as monophyletic, however, the monophyly of S. m. pileatus was not supported (Fig. 5A).

Phylogeny of Saguinus mystax. — Figure 5: Phylogeny of *Saguinus mystax*.
(A) ASTRAL-III phylogeny. (B) SVDquartet phylogeny. Black dots on major clades indicate supported clades *sensu* Hillis & Bull (1993)—support values >75%.

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DOI: 10.7717/peerj.14526/fig-5

Tests of taxonomic hypotheses

Taxonomic hypothesis testing indicated highest support for the existence of three species: S. m. mystax, Saguinus sp., and S. m. pileatus + S. m. pluto. Considering that a Bayes factor >10 is decisive (Kass & Raftery, 1995), the four species hypothesis (S. m. mystax, Saguinus sp., S. m. pileatus, S. m. pluto) was strongly rejected (BF = 100.92), as was the three species hypothesis compatible with current subspecific classification (S. m. mystax + Saguinus sp., S. m. pileatus, S. m. pluto) (BF = 116.64). All other taxonomic hypotheses were strongly rejected as well (Table 2).

Table 2:

Test of taxonomic hypotheses using Path Sampling in BEAST2.

Hypothesis	Marginal likelihood	Bayes factor
One species* (mystax+sp.+pileatus+pluto)	−313,201.0512676738	278.979
Two species^¤ (mystax, sp.+pileatus+pluto)	−313,099.0317716367	65.801
Three species^§ (mystax, sp., pileatus+pluto)	−313,061.5617465277	–
Three species^‡ (mystax+sp., pileatus, pluto)	−313,119.88354474324	116.6436
Four species^† (mystax, sp., pileatus, pluto)	−313,112.0196339431	100.9158

DOI: 10.7717/peerj.14526/table-2

Notes:

Differences in marginal likelihoods were evaluated using Bayes Factors. The three species (mystax, sp, pileatus+pluto) taxonomic hypothesis has the highest marginal likelihood and all other taxonomic hypotheses are decisively less likely.

* Current species hypothesis—Saguinus mystax.

¤ Conservative taxonomic hypothesis suggested two main clades of Saguinus mystax.

§ Taxonomic hypothesis suggested by ASTRAL and SVDquartet analyses.

‡ Current taxonomic hypothesis—one species with three subspecies.

† Taxonomic hypothesis suggested by coat color and color pattern characters—four taxa.

The hypothesis that the subspecies of Saguinus mystax may represent taxa from independent evolutionary lineages is supported by phenotypic diagnoses and allopatric occurrence of the species. While S. m. pileatus and S. m. pluto were not supported as species, both taxa are morphologically diagnosable and are allopatrically distributed. Therefore, conservatively and in light of taxonomic stability, we maintain these two taxa as subspecies, until we can analyze additional geographically representative samples of S. m. pluto. The taxon S. m. pileatus was described by Saint-Hilaire & Deville in 1848 while the taxon S. m. pluto was described by Lönnberg in 1926. Consequently, the epithet pileatus takes precedence over pluto (International Commission on Zoological Nomenclature, 1999).

Taxonomy

Order Primates Linnaeus, 1758

Family Callitrichidae Thomas, 1903

Genus Saguinus Hoffmannsegg, 1807

Saguinus mystax (Spix, 1823)

Common name: Spix’s Mustached Tamarin

Description. Head light-black, skin of circumnarial and circumbucal area except at symphysis unpigmented and covered with comparatively long white hairs, whiskers well-developed, remainder of face pigmented or unpigmented and covered with black hairs. Mantle blackish brown with orange subterminal band, terminal band is black, basal one-fourth to one-half of hairs white and showing through irregularly at surface. Arms black, hairs of saddle, rump, and outer side of thighs light black with orange or ochraceus orange subterminal band. Lateral fringe like saddle, but basal portion of hairs drab or withish, and upper surface of hands and feet black. Underparts from middle of lower lip to belly and inner sides of limbs black to blackish brown. The tail is black, except the base that is like the rump. External genitalia mostly or entirely unpigmented and sparsely covered white hairs. We observed tonal variation in saddle, rump and hindlimbs in some individuals of S. mystax. This variation was attributed to individual variation.

Type locality: Near São Paulo de Olivença, south bank of the Solimões/Amazonas River, Amazonas, Brazil.

Synonyms

Midas mystax Spix, J.B. von. 1823. Sim. Vespert. Brasil., p. 29. pl. 22.

Jacchus labiatus Poeppig, E.F. 1831. Froriep Not. 32: 148.

H[apale] mystax Wagner, J.A. 1855. Schreber’s Säugth. Suppl. 5: 129.

Jacchus mystax Gerrard, 1862. Cat. Bones Brit. Mus., p. 29.

M[idas] labiatus Reichenbach, H.G.L. 1862. Vollst. Naturg. Affen, p.11, pl. 3.

L[eontocebus] mystax Cabrera, A. 1912. Trab. Mus. Cienc. Nat., Madrid (11): 29.

Hapale (Leontocebus) mystax Lampert, H. 1926. Morph Jahrb., 55: 611.

[Mystax] mystax Pocock, R.I. 1917. Ann. Mag. Nat. Hist., ser. 8, 20: 117.

Mystax mystax Thomas, O. 1928. Ann. Mag. Nat. Hist., ser. 10, 2: 255.

Tamarin mystax Cruz Lima, E. 1945. Mamíferos da Amazônia. 1. Primates, p. 220, pl. 37.

Marikina mystax Hershkovitz, P. 1949. Proc. U. S. Nat. Mus. 98: 412.

Tamarinus mystax Hill, W.C.O. 1957. Primates. Comp. Anat. Taxon. III. Pithecoidea Platyrrhini (Fam. Hapalidae and Callimiconidae). Edinburgh Univ. Press, Edinburgh, p. 164.

L[eontocebus] mystax. Hill, W.C.O. 1961. Proc. Zool. Soc. Lond. 137(2): 321.

Saguinus mystax Anderson, E.T., Lewis, J.P., Passovoy, M. & Trobaugh, F.E. 1967. Lab. Anim. Care. 17(1): 37.

Saguinus mystax mystax Hershkovitz, P. 1968. Evolution 22(3): 563.

Saguinus (Tamarinus) mystax mystax Garbino, G.S.T. & Martins-Junior, A.M.G. 2018. Mol. Phylogenet. Evol. 118: 169.

Distribution. Saguinus mystax occurs in Peru and Brazil (Fig. 2).

The distribution of this species is south of the Solimões/Amazonas River, from the left bank of the Juruá River (Hershkovitz, 1977; Johns, 1985; Rylands, Coimbra-Filho & Mittermeier, 1993; Heymann et al., 2021), the western boundary is the Ucayali River. To the south the limit is the Blanco River in Peru (Hershkovitz, 1977; Heymann et al., 2021).

Specimens Examined (N = 13): Brazil: JT021 (IDSM00039), JT025 (IDSM00004), JT027 (IDSM00045), JT052 (IDSM00067), JT055 (IDSM00067), JT084 (IDSM00776), JT094 (IDSM00778), MNFS1027 (INPA), MNFS1532 (INPA), FES98 (IDSM03681), FR210 (INPA), JLP15902 (INPA).

Saguinus pileatus pileatus (I. Geoffroy Saint-Hilaire & Deville, 1848) comb. nov.

Common name: Red-capped Mustached Tamarin

Description. Forehead and crown with broad posteriorly bifurcated reddish orange cap, the color extending forward as a thin line between orbits. Superciliary region, cheeks, temples, and interorbital space black. Hairs of midline of muzzle forming a low crest, black anteriorly, light red posteriorly, the color continuous with that of mid-frontal region. Skin of circumnarial and circumbucal areas except at symphysis unpigmented and covered with comparatively long white hairs forming whiskers, remainder of facial skin more or less pigmented and covered with black hair. Mantle blackish brown with fine light brownish yellow or orange, the basal one-fourth to one-half of the hairs drab to brownish black along midline. Saddle and rump light brownish yellow subterminal band. Dark brown hairs of lateral fringe faintly or not at all banded subterminally, pale brown, drab, or white basally. Outer sides of hindlimbs brown, upper surface of hands and feet is light black. Ventral surface from middle of lower lip to be belly and inner sides of limbs, blackish brown. The tail is black, except the base that is like the rump.

Type locality: Lago de Tefé, near its mouth at Solimões/Amazonas River, Amazonas Brazil (Hershkovitz, 1977, p. 699).

Synonyms

Midas pileatus Geoffroy Saint-Hilaire, I. & Deville, É., 1848. Compt. Rend. Acad. Sci., Paris 27: 499.

Hapale pileata Gervais, F. L. P. 1854. Hist. Nat. Mamm. 1: 152.

Midas pileatus juruanus Ihering, H. von. 1904. Rev. Mus. Paulista, São Paulo 6: 416. Type locality: João Pessoa, upper Juruá River, Amazonas, Brazil.

Leontocebus pileatus Elliot, D.G. 1913. A Review of the Primates 1: 197.

Tamarin pileatus Cruz Lima, E. 1945. Mamíferos da Amazônia. 1. Primates, p. 228.

Marikina pileata juruana Hershkovitz, P. 1949. Proc. U. S. Nat. Mus. 98: 413.

Marikina pileata pileata Hershkovitz, P. 1949. Proc. U. S. Nat. Mus. 98: 413.

Tamarinus pileatus Hill, W.C.O. 1957. Primates. Comp. Anat. Taxon. III. Pithecoidea Platyrrhini (Fam. Hapalidae and Callimiconidae). Edinburgh Univ. Press, Edinburgh, p. 218.

T[amarinus] p[ileatus] juruanus Hill, W.C.O. 1957. Primates. Comp. Anat. Taxon. III. Pithecoidea Platyrrhini (Fam. Hapalidae and Callimiconidae). Edinburgh Univ. Press, Edinburgh, p. 235.

Saguinus mystax pileatus Hill, W.C.O 1957. Primates. Comp. Anat. Taxon. III. Pithecoidea Platyrrhini (Fam. Hapalidae and Callimiconidae). Edinburgh Univ. Press, Edinburgh, p. 235.

Saguinus mystax pileatus Hershkovitz, P. 1968. Evolution 22(3): 563.

Saguinus pileatus Groves, C.P. 2001. Primate Taxonomy. Smithson. Inst. Press, Washington, DC, p.143.

Saguinus (Tamarinus) mystax pileatus. Garbino, G.S.T. & Martins-Junior, A.M.G. 2018. Mol. Phylogenet. Evol. 118: 169.

Distribution. Saguinus pileatus pileatus is endemic to Brazil. Its distribution occurs south of the Solimões/Amazonas River. The northern portion of its distribution is limited by the Tefé River to the west and the Coari River to the east (Hershkovitz, 1977; Johns, 1985; Rylands, Coimbra-Filho & Mittermeier, 1993; Ravetta & Rohe, 2020a, Fig. 2). The rest of the distribution, above the headwaters of the Coari River, extends to the left bank of the Purus River. Above the headwaters of the Tefé River, the western limit of the distribution is the right bank of the Juruá River (Rylands, Coimbra-Filho & Mittermeier, 1993). Saguinus pileatus pileatus also occurs on the left bank of the Tefé River, in the region of the headwaters of this river (Hershkovitz, 1977). To the south, its distribution extends beyond the right bank of the Pauini River (Sampaio, Rohe & Rylands, 2018). In this portion, its distribution seems to be limited by the occurrence of S. i. subgrisescens.

Specimens Examined (N = 11): Brazil: AAM9 (INPA), FR55 (INPA5684), FR68 (INPA5687), FR204 (INPA), MTEFE02 (IDSM03511), MTEFE05 (IDSM03680), TFM01 (IDSM03384), TFM03 (IDSM02229), TFM06 (IDSM03384), TFM09 (IDSM03654), TFM13 (IDSM03657).

Saguinus pileatus pluto (Lönnberg, 1926) comb. nov.

Common name: White-rumped Mustached Tamarin

Description. Head black, skin of circumnarial and circumbucal area except at symphysis unpigmented and covered with hair forming proeminent whiskers, remainder of face covered with black hairs. Mantle black with light brownish yellow, basal portions of hairs drab. Arms black, rump and outer sides of thighs like mantle but with a more even mixture or vermiculation of light black and light brownish yellow. Lateral fringe like back, but hairs drab to grayish basally. Upper surface of the hands and feet black. Underparts from midline of lower lips to anterior part of belly and inner sides of limbs black to blackish brown, lower belly, hairs of inguinal, genital and circumanal region and contiguous portions of the ventral base of the tail is white. Tail is black, except the dorsal portion of the base that is like the rump.

Type locality: Brazil: Lago Ayapuá, Purus River, Amazonas (Hershkovitz, 1977; Rylands, Coimbra-Filho & Mittermeier, 1993).

Synonyms

Mystax pluto Lönnberg, E. 1926. Ark. Zool., Stockholm 18 B(9): 1.

Tamarin pluto Elliot, D.G. 1913. A Review of the Primates 1: 230.

Marikina pluto Hershkovitz, P. 1949. Proc. U. S. Nat. Mus. 98: 413.

Marikina (Tamarin) pluto Vieira, C.O.C. 1955. Arq. Zool. São Paulo 8: 396.

Tamarinus pluto Hill, W.C.O. 1957. Primates. Comp. Anat. Taxon. III. Pithecoidea Platyrrhini (Fam. Hapalidae and Callimiconidae). Edinburgh Univ. Press, Edinburgh, p. 218.

Leontocebus (Leontocebus) pluto Cabrera, A. 1958. Rev. Mus. Argentino Cienc. Nat. “Bernardino Rivadavia” 4(1): 197.

Saguinus mystax pluto Hershkovitz, P. 1968. Evolution 22(3): 563. Also, Groves, C. P. 2001. Primate Taxonomy. Smithson. Inst. Press, Washington, DC, p.143.

Saguinus (Tamarinus) mystax pluto Garbino, G.S.T. & Martins-Junior, A.M.G. 2018. Mol. Phylogenet. Evol. 118: 169.

Distribution. Saguinus pileatus pluto is endemic to Brazil. It occurs south of the Solimões/Amazonas River, from the right bank of the Coari River to the left bank of the Purus River. The southern limit is the Tapauá River (Hershkovitz, 1977; Rylands, Coimbra-Filho & Mittermeier, 1993; Ravetta & Rohe, 2020b, Fig. 2).

Specimens examined (N = 3): Brazil: CTGA-M163 (UFAM), FR226 (INPA), FR228 (INPA).

Saguinus kulina sp. n. Lopes, Rohe, Bertuol, Polo, Lima, Valsecchi, Santos, Nash, Silva, Boubli, Farias & Hrbek, 2022.

urn:lsid:zoobank.org:act:41E33066-C337-4EA2-AF60-AF75F032E5C.

Common name: Kulinas’ tamarin (English), sauim-dos-kulinas (Portuguese), pishi (Kulina).

Holotype. IDSM03594, field number BJ015, adult male, skin, skull, skeleton. Specimen collected on July 18th, 2018, in terra firme forest, on the right bank of Andirá River, right bank affluent of the Juruá River, Juruá Municipality, Amazonas State, Brazil.

Paratopotype. IDSM03595, field number BJ016, adult female, skin, skull, skeleton. Specimen collected on July 18th, 2018, in terra firme forest, on the right bank of Andirá River, right bank affluent of the Juruá River, Juruá Municipality, Amazonas State, Brazil.

Paratypes. IDSM03602, field number BJ023, adult female, skin, skull, skeleton. Specimen collected on July 27th, 2018, in terra firme forest, at Cumaru community, on the left bank of Andirá River, right bank affluent of the Juruá River, Juruá Municipality, Amazonas State, Brazil. IDSM03652, field number TFM07, adult female, skin, skull, skeleton. Specimen collected on August 15th, 2018, in terra firme forest, at Nogueira community, on the left bank of Tefé River, Alvarães Municipality, Amazonas State, Brazil. IDSM03659, field number TFM15, adult female, skin, skull, skeleton. Specimen collected on July 30th, 2019, in terra firme forest, at Nogueira community, on the left bank of Tefé River, Alvarães Municipality, Amazonas State, Brazil.

Type locality. Reserva Extrativista do Baixo Juruá (−3.82633S; −66.07572), right bank of Andirá River, Amazonas, Brazil.

Diagnostic characters (Fig. 3). The new species is diagnosable from all other species of Saguinus by mantle and forelimbs light black brown subterminal band yellow, saddle, rump and hindlimbs light black with brown (Table 1; Figs. 3 and 4).

Description. Forehead light black and crown blackish brown, skin of circumbucal and circumnarial area except at symphysis unpigmented and covered with comparatively long white hairs, whiskers well-developed, remainder of face pigmented or unpigmented and covered with black hairs. Mantle light black with yellow subterminal band, terminal band black, the basal one-fourth to one-half of the hairs white and showing through irregularly at surface, the forelimbs are like the mantle up to the elbow. Saddle, rump, and outer side of thighs light black with brown subterminal band, terminal band black. Lateral fringe same as saddle, but basal portion of hairs whitish, and upper surface of hands and feet black. Underparts from middle of lower lip to belly and inner sides of limbs black to light black brown. The tail black, except base which is the same as rump. External genitalia mostly or entirely unpigmented and sparsely covered white hairs.

Comparisons with closely related species. In Saguinus kulina sp. n. mantle light black with subterminal hairs band yellow, terminal band is black, saddle, rump, hindlimbs are light black with brow, lateral fringe like saddle. In S. mystax mantle is light black with orange or ochraceus orange subterminal band, and terminal band is black, forelimbs are black, saddle, rump and hindlimbs are light black with orange. In S. p. pileatus forehead and crown with broad posteriorly bifurcated reddish orange cap, the color extending forward as a thin line between orbits, hairs of midline of muzzle forming a low crest, black anteriorly, light red posteriorly, the color continuous with that of mid-frontal region, mantle blackish brown with fine light brownish yellow or orange ticking. In S. p. pluto mantle is black and light brownish yellow, basal portions of hairs drab, rump and outer sides of thighs like mantle but with a more even mixture or vermiculation of light black and light brownish yellow, and circumanal region whitish.

Etymology. The specific name is a noun in apposition and honors the Kulina indigenous peoples of the Kumaru Indigenous Territory, the largest indigenous territory within Juruá–Tefé interfluve.

Geographic Distribution. Saguinus kulina sp. n. is endemic to the western Amazonia, occurring between the right bank of the Juruá River and the left bank of the Tefé River (Fig. 2).

Synonyms

Midas mystax Spix, J.B. von. 1823. Sim. Vespert. Brasil., p. 29. pl. 22.

Jacchus labiatus Poeppig, E.F. 1831. Froriep Not. 32: 148.

H[apale] mystax Wagner, J.A. 1855. Schreber’s Säugth. Suppl. 5: 129.

Jacchus mystax Gerrard, 1862. Cat. Bones Brit. Mus., p. 29.

M[idas] labiatus Reichenbach, H.G.L. 1862. Vollst. Naturg. Affen, p.11, pl. 3.

L[eontocebus] mystax Cabrera, A. 1912. Trab. Mus. Cienc. Nat., Madrid (11): 29.

Hapale (Leontocebus) mystax Lampert, H. 1926. Morph Jahrb., 55: 611.

[Mystax] mystax Pocock, R. I. 1917. Ann. Mag. Nat. Hist., ser. 8, 20: 117.