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Late Pleistocene echimyid rodents (Rodentia, Hystricognathi) from northern Brazil

ABSTRACT

Echimyidae (spiny rats, tree rats and the coypu) is the most diverse family of extant South American hystricognath rodents (caviomorphs). Today, they live in tropical forests (Amazonian, coastal and Andean forests), occasionally in more open xeric habitats in the Cerrado and Caatinga of northern South America, and open areas across the southern portion of the continent (Myocastor). The Quaternary fossil record of this family remains poorly studied. Here, we describe the fossil echimyids found in karst deposits from southern Tocantins, northern Brazil. The analyzed specimens are assigned to Thrichomys sp., Makalata cf. didelphoides and Proechimys sp. This is the first time that a fossil of Makalata is reported. The Pleistocene record of echimyids from this area is represented by fragmentary remains, which hinders their determination at specific levels. The data reported here contributes to the understanding of the ancient diversity of rodents of this region, evidenced until now in other groups, such as the artiodactyls, cingulates, carnivores, marsupials, and squamate reptiles.

Key words:
Caviomorphs; Echimyidae; fossil record; Quaternary; South America

RESUMO

Echimyidae (ratos-espinhos e ratão-do-banhado) é a família mais diversificada de roedores histricognatos da América do Sul (caviomorfos). Atualmente, equimídeos habitam florestas tropicais (Amazônia, Mata Atlântica e porções florestais andinas), ocasionalmente ambientes mais abertos e secos no Cerrado e Caatinga no norte da América do Sul e ambientes abertos no sul do continente (Myocastor). O registro fóssil desta família durante o Quaternário ainda é pouco estudado. Nesse trabalho, descrevemos fósseis de roedores equimídeos provenientes de sistemas cársticos do sul do estado do Tocantins, norte do Brasil. Os espécimes analisados foram atribuídos aos táxons Thrichomys sp., Makalata cf. didelphoides e Proechimys sp. Esta é a primeira vez que um fóssil de Makalata é reportado. O registro pleistocênico de equimídeos desta área é representado por espécimes bastante fragmentados, o que dificulta a determinação em nível específico. Os dados apresentados contribuem para a compreensão sobre a fauna pretérita de roedores desta região, já evidenciada até o momento em outros grupos, como artiodáctilos, cingulados, carnívoros, marsupiais, lagartos e serpentes.

Palavras-chave:
Caviomorfos; Echimyidae; registro fóssil; Quaternário; América do Sul

INTRODUCTION

The living members of Hystricognathi (Rodentia: Hystricomorpha) include three lineages: the African phiomorphs, represented by four extant families (the three classical families plus Heterocephalidae; Patterson and Upham 2014)Patterson BD and Upham NS. 2014. A newly recognized family from the Horn of Africa, the Heterocephalidae (Rodentia: Ctenohystrica). Zool J Linnean Soc 171: 942-963., the Old World porcupines (Hystricidae) and the New World caviomorphs distributed in 13 families (Huchon and Douzery 2001Huchon D and Douzery EJP. 2001. From the Old World to the New World: A Molecular Chronicle of the Phylogeny and Biogeography of Hystricognath Rodents. Mol Phylogenet Evol 20: 238-251., Woods and Kilpatrick 2005Woods CA and Kilpatrick CW.2005. Infraorder Hystricognathi. In: Wilson DE and Reeder DM (Eds), Mammal Species of the World: A Taxonomic and Geographic Reference. 3rd ed, Baltimore, JHUP, p. 1538-1600., Upham and Patterson 2012Upham NS and Patterson BD. 2012. Diversification and biogeography of the Neotropical caviomorph lineage Octodontoidea (Rodentia: Hystricognathi). Mol Phylogenet Evol 63: 417-29., Patton 2015a)Patton JL and Leite RN. 2015. Genus Proechimys. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 950-989.. The Echimyidae (spiny rats, tree rats and the coypu) is the most diverse family of caviomorphs (Emmons 2005Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309., Patton 2015a)Patton JL . 2015b. Subfamily Myocastorinae. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 1019-1022.. These rodents have a small body size (with an exception for Myocastor Kerr, 1792) and brachydont or protohypsodont cheek teeth (sensuMones 1968)Mones A. 1968. Proposición de una nueva terminología relacionada con el crecimiento de los molares. Zool Platense 1: 13-14.. The taxonomic history of the echimyids has been complex, even at the subfamily and genus levels (Patterson and Pascual 1968Patterson B and Pascual R. 1968. New echimyid rodents from the Oligocene of Patagonia, and a synopsis of the family. Breviora 301: 1-14., Patterson and Wood 1982Patterson B and Wood AE. 1982. Rodents from the Deseadan Oligocene of Bolivia and the relationships of the Caviomorpha. Bull Mus Comp Zool 149: 371-543., Galewski et al. 2005Galewski T, Mauvrey JF, Leite YLR, Patton JL and Douzery EJP. 2005. Ecomorphological diversification among South American spiny rats (Rodentia; Echimyidae): a phylogenetic and chronological approach. Mol Phylogenet Evol 34: 601-615., Emmons 2005Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309., Fabre et al. 2014Fabre PH, Vilstrup JT, Raghavan M, Der Sarkissian C, Willerslev E, Douzery EJP and Orlando L. 2014. Rodents of the Caribbean: origin and diversification of hutias unraveled by next-generation museomics. Biol Lett 10(7): 1-7., Emmons et al. 2015aEmmons LH, Leite YLR and Patton JL. 2015a. Subfamily Echimyinae. In: Patton JL, Pardiñas UFJ and D'Elía G D (Eds), Mammals of South America, Volume 2, Rodents, University of Chicago Press, Chicago, p. 888-889., Patton 2015a)Patton JL . 2015a. Hystricomorpha. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 688-690.. Recent molecular and morphological phylogenies reveal traditional subfamilies to be non-monophyletic (Leite and Patton 2002Leite YLR and Patton JL . 2002. Evolution of South American spiny rats (Rodentia, Echimyidae): the star-phylogeny hypothesis revisited. Mol Phylogenet Evol 25: 455-464., Carvalho and Salles 2004Carvalho GAS and Salles LO. 2004. Relationships among extant and fossil echimyids (Rodentia: Hystricognathi). Zool J Linn Soc 142: 445-477. , Galewski et al. 2005Galewski T, Mauvrey JF, Leite YLR, Patton JL and Douzery EJP. 2005. Ecomorphological diversification among South American spiny rats (Rodentia; Echimyidae): a phylogenetic and chronological approach. Mol Phylogenet Evol 34: 601-615., Upham and Patterson 2012Upham NS and Patterson BD. 2012. Diversification and biogeography of the Neotropical caviomorph lineage Octodontoidea (Rodentia: Hystricognathi). Mol Phylogenet Evol 63: 417-29., Fabre et al. 2012Fabre PH, Galewski T, Tilak MK and Douzery EJP. 2012. Diversification of South American spiny rats (Echimyidae): a multigene phylogenetic approach. Zool Scripta 42: 117-134., Verzi et al. 2014Verzi DH, Olivares AI and Morgan CC. 2014. Phylogeny and evolutionary patterns of South American octodontoid rodents: The importance of recognising morphological differentiation in the fossil record. Acta Palaeont Pol 59: 757-769., 2016Verzi DH , Olivares AI , Morgan CC and Álvarez A. 2016. Contrasting phylogenetic and diversity patterns in octodontoid rodents and a new definition of the family Abrocomidae. J Mammal Evol 23(1): 93-115., Olivares and Verzi 2015)Olivares AI and Verzi DH. 2015. Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio-Pleistocene of southern South America. Hist Biol 27(8): 1042-1061.

Echimyids have an extended fossil record, but some controversies remain about the age of the family. Molecular studies date their origin back to the early Miocene (Upham and Patterson 2012Upham NS and Patterson BD. 2012. Diversification and biogeography of the Neotropical caviomorph lineage Octodontoidea (Rodentia: Hystricognathi). Mol Phylogenet Evol 63: 417-29., Fabre et al. 2012Fabre PH, Galewski T, Tilak MK and Douzery EJP. 2012. Diversification of South American spiny rats (Echimyidae): a multigene phylogenetic approach. Zool Scripta 42: 117-134., Voloch et al. 2013)Voloch CM, Vilela JF, Loss-Oliveira L and Schrago CG. 2013. Phylogeny and chronology of the major lineages of New World hystricognath rodents: insights on the biogeography of the Eocene/Oligocene arrival of mammals in South America. BMC Research Notes 6: 160. while the fossil record could be even older (e.g. late Eocene, Frailey and Campbell 2004Frailey CD and Campbell Jr KE. 2004. Paleogene rodents from Amazonian Peru: The Santa Rosa local fauna. LACM, Science Series 40: 71-130.; late Oligocene, Verzi et al. 2014)Verzi DH, Olivares AI and Morgan CC. 2014. Phylogeny and evolutionary patterns of South American octodontoid rodents: The importance of recognising morphological differentiation in the fossil record. Acta Palaeont Pol 59: 757-769.. It is also worth noting that Paleogene echimyids require cladistic analyses to assess their relationships with modern forms (Carvalho and Salles 2004Carvalho GAS and Salles LO. 2004. Relationships among extant and fossil echimyids (Rodentia: Hystricognathi). Zool J Linn Soc 142: 445-477. , Verzi et al. 2014Verzi DH, Olivares AI and Morgan CC. 2014. Phylogeny and evolutionary patterns of South American octodontoid rodents: The importance of recognising morphological differentiation in the fossil record. Acta Palaeont Pol 59: 757-769., 2016)Verzi DH , Olivares AI , Morgan CC and Álvarez A. 2016. Contrasting phylogenetic and diversity patterns in octodontoid rodents and a new definition of the family Abrocomidae. J Mammal Evol 23(1): 93-115..

The modern distribution of echimyids includes predominantly tropical forests (i.e. Amazonian, coastal and Andean forests) and occasionally more open and xeric habitats in the Cerrado and Caatinga in northern South America (Hershkovitz 1958Hershkovitz P. 1958. A geographic classification of Neotropical Mammals. Fieldiana Zool 36: 581-620., Vucetich and Verzi 1999Vucetich MG and Verzi DH. 1999. Changes in Diversity and Distribution of the Caviomorph Rodents during the Late Cenozoic in South America. Quat S Am Antarctic Peninsula 12: 207-223., Galewski et al. 2005Galewski T, Mauvrey JF, Leite YLR, Patton JL and Douzery EJP. 2005. Ecomorphological diversification among South American spiny rats (Rodentia; Echimyidae): a phylogenetic and chronological approach. Mol Phylogenet Evol 34: 601-615., Upham and Patterson 2012Upham NS and Patterson BD. 2012. Diversification and biogeography of the Neotropical caviomorph lineage Octodontoidea (Rodentia: Hystricognathi). Mol Phylogenet Evol 63: 417-29., Olivares and Verzi 2015)Olivares AI and Verzi DH. 2015. Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio-Pleistocene of southern South America. Hist Biol 27(8): 1042-1061. Myocastor is the only extant echimyid distributed in southern South America (Woods et al. 1992Woods CA, Contreras L, Willner-Chapman G and Whidden HP. 1992. Myocastor coypus. Mamm Species 398: 1-8., Patton 2015b)Patton JL and Leite RN. 2015. Genus Proechimys. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 950-989.. Additionally, part of the history of the family (late Miocene to Pleistocene) took place in open habitats of southern South America (Olivares and Verzi 2015)Olivares AI and Verzi DH. 2015. Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio-Pleistocene of southern South America. Hist Biol 27(8): 1042-1061. The youngest fossil echimyids are mostly from the Pleistocene to Holocene of Brazil (Table I; Winge 1887Winge H. 1887. Jordfundne og Nulevende gnavere (Rodentia) fra Lagoa Santa, Minas Gerais, BrasilienE Museo Lundii 3: 1-178., Ameghino 1907Ameghino F. 1907. Notas sobre una pequeña colección de huesos de mamíferos procedentes de las grutas calcáreas de Iporanga, en el estado de São Paulo, Brasil. Rev Mus Paul 3: 69-124., Paula Couto 1950Paula Couto C. 1950. Memórias sobre a paleontologia brasileira. Rio de Janeiro, Ministério da Educação e Saúde/Instituto Nacional do Livro, p. 589., Souza-Cunha and Guimarães 1978Souza-Cunha FL and Guimarães ML. 1978. A fauna sub-recente de vertebrados do "Grande Abrigo da Lapa Vermelha Emperaire (P.L.)" Pedro Leopoldo, Estado de Minas Gerais. Arquivos do Museu de História Natural da Universidade Federal de Minas Gerais, Belo Horizonte 3: 201-238., Guerin et al. 1993Guerin C, Curvello MA, Faure M, Hugueney M and Mourer-Chauvire C. 1993. La faune pléistocène du Piauí (Nordeste du Brésil): implications paléoécologiques et biochronologiques. Quaternaria Nova 3: 303-341., Emmons and Vucetich 1998Emmons LH and Vucetich MG. 1998. The identity of Winge's Lasiuromys villosus and the description of a new genus of Echimyid Rodent (Rodentia: Echimyidae). Am Mus Novit 3223: 1-12., Salles et al. 1999Salles LS et al. 1999. Fauna de Mamíferos do Quaternário de Serra da Mesa (Goiás, Brasil) . Publ Avulsas Mus Nac 78: 1-15., 2006Salles LO, Cartelle C, Guedes PG, Boggiani PC, Janoo A and Russo CA. 2006. Quaternary mammals from Serra da Bodoquena, Mato Grosso do Sul, Brazil. Bol Mus Nac (ns) Zool 521: 1-12., Toledo et al. 1999Toledo PM, Moraes-Santos HM and Souza de Melo CC. 1999. Levantamento preliminar de mamíferos não-voadores da Serra dos Carajás: grupos silvestres recentes e zooarqueológicos. Bol Mus Para Emílio Goeldi 15: 141-157., Rodrigues and Ferigolo 2004Rodrigues PH and Ferigolo J. 2004. Roedores pleistocênicos da Planície Costeira do Estado do Rio Grande do Sul, BrasilRev Bras Paleontol 7: 231-238., Chahud 2005Chahud A. 2005. Paleomastozoologia do Abismo Ponta de Flecha, Iporanga, SP. In: Congresso Latino-Americano de Paleontologia de Vertebrados, 2, 2005. Boletim de resumos. Rio de Janeiro: Museu Nacional/UFRJ, p. 76-77., Hadler et al. 2008Hadler P, Verzi DH, Vucetich MG, Ferigolo J and Ribeiro AM. 2008. Caviomorphs (Mammalia, Rodentia) from the Holocene of Rio Grande do Sul State, Brazil: systematics and paleonviromental context. Rev Bras Paleontol 11: 97-116., Roth et al. 2008Roth PRO, Jung DMH and Christoff AU. 2008. Identificação de remanescentes de roedores de um abrigo sob rocha do Nordeste do RS: implicações paleoambientais. Revista de Iniciação Científica da ULBRA 1: 71-82. , Castro and Langer 2011Castro MC and Langer MC. 2011. The mammalian fauna of Abismo Iguatemi, southeastern Brazil. J Caves Karst Stud 73: 83-92., Ferreira et al. 2012Ferreira D, Silva AK, Matos CHC, Hadler P and Hsiou A. 2012. Assembleia holocênica de vertebrados de pequeno porte do Sítio Alcobaça, Estado de Pernambuco, Brasil. Rev Bras Paleontol 15: 359-370., Oliveira et al. 2013Oliveira PV, Ribeiro AM , Kerber L , Lessa G and Viana MSS. 2013. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from Ceará state, northeast Brazil. J Caves Karst Stud 75: 81-91., Kerber et al. 2014Kerber L , Ribeiro AM , Lessa G and Cartelle C. 2014. Late Quaternary fossil record of Myocastor Kerr, 1792 (Rodentia: Hystricognathi: Caviomorpha) from Brazil with taxonomical and environmental remarks. Quatern Int 352: 147-158., 2016), Bolivia (Marshall and Sempere 1991)Marshall LG and Sempere T. 1991. The Eocene to Pleistocene vertebrates of Bolivia and their stratigraphic context: a review. Rev Téc Yac Petrol Fisc Bolivia 12: 631-652., and Argentina (Vucetich et al. 1997, Olivares and Verzi 2015)Olivares AI and Verzi DH. 2015. Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio-Pleistocene of southern South America. Hist Biol 27(8): 1042-1061. Although this fossil record is impoverished, a sample of the astonishing diversity achieved by this group in the tropical and subtropical areas of lower latitudes of South America (Verzi et al. 2014)Verzi DH, Olivares AI and Morgan CC. 2014. Phylogeny and evolutionary patterns of South American octodontoid rodents: The importance of recognising morphological differentiation in the fossil record. Acta Palaeont Pol 59: 757-769. provides important data for diversity analyses and paleogeographic and paleoclimatic inferences. We present here the first data on the late Pleistocene diversity of echimyids from the Gruta dos Moura limestone cave in Aurora de Tocantins, low latitudes of South America.

TABLE I
Quaternary fossil records of Echimyidae from Brazil. Abbreviations: BA, Bahia; CE, Ceará; GO, Goiás; MG, Minas Gerais; MS, Mato Grosso do Sul; PA, Pará; PE, Pernambuco; PI, Piauí; RS, Rio Grande do Sul; SP, São Paulo; TO, Tocantins; †, extinct taxon.

MATERIALS AND METHODS

Locality and Geology

The studied material was collected from a carbonate deposit, which was found in a block at the wall of the main room of the Gruta dos Moura limestone cave in Aurora de Tocantins (12º42'47" S and 46º24'28" W), State of Tocantins, northern Brazil (Figure 1). The carbonate rocks from Aurora do Tocantins are part of the Speleological Province of the Bambuí Group, where numerous caves are located (Zampaulo and Ferreira 2009)Zampaulo RA and Ferreira RL. 2009. Terrestrial cave invertebrate diversity in nine caves in the municipality of Aurora do Tocantins (TO). In: Anais do 30º Congresso Brasileiro de Espeleologia, Proceedings, Montes Claros, MG, p. 267-274.. The geology of this area is poorly known. The predominant rocks in the region are rhythmic limestones and siltstones from the Paraopeba Subgroup of Neoproterozoic age, although alluvial deposits might occur locally (Dardene 1978Dardene MA. 1978. Síntese sobre a estratigrafia do Grupo Bambuí no Brasil Central. 30º Congresso Brasileiro de Geologia. Sociedade Brasileira de Geologia, Recife, p. 597- 610., Dardene and Walde 1979).

Figure 1
Location of Aurora de Tocantins, which contains the Gruta dos Moura limestone cave.

The information provided by the Serviço Geológico do Brasil on the geology of the municipality of Aurora de Tocantins report carbonate and terrigenous deposits (CPRM 2006)CPRM - Companhia de Pesquisa de Recursos Minerais. 2006. Rochas Carbonáticas do Grupo Bambuí na região Nordeste do Estado de Goiás. Available on www.cprm.gov.br/publique/cgi/cgilua.exe/sys/start.httm?infoid1/4261&sid1/432. Accessed on December 5, 2010.
www.cprm.gov.br/publique/cgi/cgilua.exe/...
. The lower portion of area is represented by the Sete Lagoas Formation, which is composed of thick deposits of mudstones, calcareous and dolomites presenting stromatolites. The Sete Lagoas Formation is covered by siltstone and laminate siltstones of the Serra de Santa Helena Formation. This carbonate-terrigenous conjunction of rocks is superimposed by dark calcarenites and marls with organic material from the Lagoa do Jacaré Formation. Superimposed over the Bambuí Group are the Cretaceous sediments of the Urucuia Formation. The caves were developed mainly in the limestones of Lagoa do Jacaré Formation, which consist in slightly weathered dark gray metacalcarenites, massive or with horizontal lamination, with sparry calcite (generally in veins), micritic calcite, ooids and small amounts of silica. In some outcrops there are interbedded metacalcarenites, mudstones and calcilutites (Avilla et al. 2013a)Avilla LS, Müller L, Gasparini G, Soibelzon L, Absolon B, Pego FB, Costa R, Kinoshita A, Figueiredo AMG and Baffa O. 2013a. The norther­nmost record of Catagonus stenocephalus (Lund in Reinhardt, 1880) (Mammalia, Cetartiodactyla) and its palaeoenvironmental and palaeobiogeographical significance. J S Am Earth Sci 42: 39-46.. Millimeter- to centimeter-wide whitish gray intraclasts occur throughout the predominant limestones (CPRM 2006)CPRM - Companhia de Pesquisa de Recursos Minerais. 2006. Rochas Carbonáticas do Grupo Bambuí na região Nordeste do Estado de Goiás. Available on www.cprm.gov.br/publique/cgi/cgilua.exe/sys/start.httm?infoid1/4261&sid1/432. Accessed on December 5, 2010.
www.cprm.gov.br/publique/cgi/cgilua.exe/...
.

The limestones often form plateaus that rise from the rest of the terrain and comprise a partially active karst system. Most caves occur above the ground level in high portions of the plateaus. The caves originated during a period of formation of karst relief in which the rocks that now compose the plateaus were below the ground level. The current outcrops were developed not by the uplift of the plateaus, but by the different types of erosion of the limestones and the erosive retraction of the Urucuia sandstones that once covered the region and today occur to the east of the study area. Access to the plateaus occurs mainly through vicinal roads and paths that cut the vegetation. Currently, the region is situated mainly within the Cerrado biome.

The Gruta dos Moura cave is epigenic, solutional, ramiform to network cave with some branchwork passages (sensuPalmer 1991)Palmer AN. 1991. Origin and morphology of limestone caves. Geol Soc Am Bull 103: 1-21. and has great vertical and horizontal development. The entire length of the cave has not yet been completely mapped. The Gruta dos Moura cave originated in a phreatic zone and was later invaded and enlarged by vadose water. There is a notable difference between the upper and lower levels of the cave. The higher levels show galleries and fissures with many speleothems, including travertines, draperies, stalactites, stalagmites and coraloids, showing high activity of vadose waters. The fossils were found in the lower levels, which consist of phreatic passages and rooms with few speleothems. Slightly consolidated sedimentary deposits outcrop at these levels, composed of massive, very fine to coarse, immature and poorly sorted sands with clayey matrix. In some parts of the cave, a relict carbonate precipitation layer can be seen that is a rich in millimeter- to centimeter-sized fragments of bones and teeth. This layer seems to have covered the sedimentary deposits in a period of decreased sedimentation and reduced water flow, causing the precipitation of carbonates and concentrating sediment (Avilla et al. 2013a)Avilla LS, Müller L, Gasparini G, Soibelzon L, Absolon B, Pego FB, Costa R, Kinoshita A, Figueiredo AMG and Baffa O. 2013a. The norther­nmost record of Catagonus stenocephalus (Lund in Reinhardt, 1880) (Mammalia, Cetartiodactyla) and its palaeoenvironmental and palaeobiogeographical significance. J S Am Earth Sci 42: 39-46..

The occurrence of sedimentary deposits covered by carbonate incrustation lenses is also observed in many other caves in the region of Aurora do Tocantins. These sediments may correspond to a large-scale event of increased humidity that caused changes in the pattern of recharge from the land surface and consequently in the entire environment. Similar occurrences were studied by Auler et al. (2009)Auler A S, Smart PL, Wang X, Piló LB, Edwards RL and Cheng H. 2009. Cyclic sedimentation in Brazilian caves: mechanisms and palaeoenvironmental significance. Geomorphol 106: 142-153., who identified three processes (i.e. clastic sediment input, erosion and calcite deposition) that are linked to distinct palaeoenvironmental and climatic conditions.

The episodes of clastic input would be related to a drier climate, sparse vegetation and intense sediment yield due to runoff, while the precipitation of calcite would be related to wetter conditions (Auler and Farrant 1999Auler A and Farrant AR. 1999. A brief introduction to karst and caves in Brazil. Proc Univ Bristol Spelaeol Soc 20: 187-200., Brain 1995Brain CK. 1995. The influence of climatic changes on the completeness of the earlyhominid record in Southern African caves, with particular reference to Swartkrans. In: Vrba ES, Denton GH, Partridge TC and Burckle LH (Eds), Paleoclimate and Evolution with Emphasis on Human Origins, Yale University Press, New Haven, p. 451-458., Brook et al. 1997)Brook GA, Cowart JB, Brandt SA and Scott L. 1997. Quaternary climatic change in southern and eastern Africa during the last 300 ka: the evidence from caves in Somalia and the Transvaal region of South Africa. Z Geomorphol Supplement band 108: 15-48.. Sediment erosion inside those caves can be interpreted as cause of intermediate climatic conditions, which were not humid enough for speleothem deposition and not dry enough to allow transportation of sediment into the caves (Auler et al. 2009)Auler A S, Smart PL, Wang X, Piló LB, Edwards RL and Cheng H. 2009. Cyclic sedimentation in Brazilian caves: mechanisms and palaeoenvironmental significance. Geomorphol 106: 142-153..

METHODOLOGY

The fossil remains of Echimyidae were collected from a block of calcareous rock that was screenwashed by four sieves with meshes of 10 mm, 5 mm, 2.5 mm and 1 mm. Fossil materials and small pieces of rocks kept on the sieves were dried and sorted in the laboratory with the help of a stereomicroscope.

The identification and diagnosis of the specimens from Gruta dos Moura cave were made by direct morphological comparison of molars and dentaries of Echimyidae specimens housed at the Setor de Mastozoologia of the Museu Nacional, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil (MN/UFRJ); Museo Argentino de Ciencias Naturales 'Bernardino Rivadavia', Buenos Aires, Argentina (MACN); Museo de La Plata, La Plata, Argentina (MLP); Museo de Ciencias Naturales de Mar del Plata 'Lorenzo Scaglia', Mar del Plata, Argentina (MMP); Museum of Vertebrate Zoology, University of California, Berkeley, CA, USA (MVZ); Museu de Zoologia, Universidade Federal de Bahia, Bahia, Brazil (UFBA); Museu de Zoologia, Universidade de São Paulo, São Paulo, Brazil (MZUSP); Universidade de Brasília, Brasília, Brazil (UnB) (Appendix); and also by comparisons with descriptions in the literature (Emmons 2005)Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309.. Dental nomenclature follows Marivaux et al. (2004)Marivaux L, Vianey-Liaud M and Jaeger JJ. 2004. High-level phylogeny of early Tertiary rodents: dental evidence. Zool J Linn Soc London 142: 105-134. and homologies of crests are based on Verzi et al. (2014)Verzi DH, Olivares AI and Morgan CC. 2014. Phylogeny and evolutionary patterns of South American octodontoid rodents: The importance of recognising morphological differentiation in the fossil record. Acta Palaeont Pol 59: 757-769., Olivares and Verzi (2015)Olivares AI and Verzi DH. 2015. Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio-Pleistocene of southern South America. Hist Biol 27(8): 1042-1061.

Abbreviations: MDL, mesiodistal lenght; LLW, Linguolabial width; UNIRIO-PM, Coleção de Paleontologia de Mamíferos da Universidade Federal do Estado do Rio de Janeiro, Brazil.

RESULTS

Systematic Paleontology

Rodentia Bowdich, 1821

Hystricomorpha Brandt, 1855

Hystricognathi Tullberg, 1899

Octodontoidea Simpson, 1945

Echimyidae Gray, 1825

Thrichomys Trouessart, 1880

Thrichomys sp.

Material: UNIRIO-PM 2753, right dentary with dp4-m2; UNIRIO-PM 2754, left M1 or M2; UNIRIO-PM 2755, left dp4; UNIRIO-PM 2756, left dp4; UNIRIO-PM 4795, right DP4; UNIRIO-PM 4796, left dp4; UNIRIO-PM 4797, left dp4; UNIRIO-PM 4798, left M1 or M2; UNIRIO-PM 4799, left M1 or M2; UNIRIO-PM 4800, left M1 or M2; UNIRIO-PM 4801, left M1 or M2; UNIRIO-PM 4802, left M1 or M2; UNIRIO-PM 4803, left M1 or M2; UNIRIO-PM 4804, left M1 or M2; UNIRIO-PM 4805, right M1 or M2; UNIRIO-PM 4806, right M1 or M2; UNIRIO-PM 4807, right M3; UNIRIO-PM 4808, right m1 or m2; UNIRIO-PM 4809, left m1 or m2; UNIRIO-PM 4810, left m3.

Description: This taxon is the most abundant in our sample. Thrichomys sp. is represented by 19 upper and lower teeth with distinct wear stages and a dentary with dp4-m2 corresponding to a juvenile specimen (m2 unworn and unerupted m3).

The upper cheek teeth show distinct wear stages. Right DP4 (UNIRIO-PM 4795: Figure 2 c) shows little wear (juvenile specimen sensuNeves and Pessôa 2011)Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24. and it is trilophodont, but the union between of the last loph and the hypocone is wide, evidencing the coalescence of the mesolophule with the posteroloph + metaloph. The enamel layer of the anterior face of this loph is oblique and antero-posteriorly wide as in Thrichomys pachyurus (Wagner, 1845) (see Neves and Pessôa 2011Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24.: fig. 2A, B). There is no evidence of a fossette in the last loph, distinguish it from Thrichomys inermis Pictet, 1841, in which the mesolophule appears as an independent crest in juvenile specimens (Neves and Pessôa 2011Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24.: fig. 3A-C).

Figure 2
Thrichomys sp. from the late Pleistocene of Tocantins. a-b, Right dentary with the dp4-m2 series (UNIRIO-PM 2753) in lateral (a) and occlusal views (b). c, Right DP4 (UNIRIO-PM 4795) in occlusal view. d, Left M1 or M2 (UNIRIO-PM 2754) in occlusal view. e, Left dp4 (UNIRIO-PM 2756) in occlusal view. Scale bar: 1 mm.

Figure 3
Proechimys sp. from the late Pleistocene of Tocantins. Right M1 or M2 (UNIRIO-PM 2757) in occlusal view. Scale bar: 1 mm.

The M1 or M2 correspond to sub-adults and adults with distinct wear stages. The sub-adult specimens (sensuNeves and Pessôa 2011)Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24. resemble T. pachyurus, Thrichomys laurentius Thomas, 1904 and Thrichomys sp. from Tocantins (Rocha et al. 2011Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.: fig. 19), in which the protoloph is uniformly wide, and differ from the other species where the labial portion of this loph is wider than the medial portion (M1-M2 of T. pachyurus in Neves and Pessôa [2011: fig. 2F] compared to Figure 2d). In these molars, all lophs are of similar length compared to T. laurentius, Thrichomys apereoides (Lund, 1839) and Thrichomys sp. (Rocha et al. 2011Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.: fig. 19) but not in T. pachyurus and T. inermis in which the protoloph is slightly longer (Neves and Pessôa 2011)Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24.. The tetralophodont molars of the sample could correspond to the M2 because they are longer than wide. These preserve the metafossette in advanced wear stages (molars with para- and mesofossette), such as in the T. inermis and T. pachyurus (Neves and Pessôa 2011Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24.: figs. 2G and 3G).

The upper molars of this sample are similar to the material recently described from the late Quaternary of Ceará and Piauí (Oliveira et al. 2013Oliveira PV, Ribeiro AM , Kerber L , Lessa G and Viana MSS. 2013. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from Ceará state, northeast Brazil. J Caves Karst Stud 75: 81-91., Kerber et al. 2016)Kerber L, Mayer EL, Ribeiro AM and Vucetich MG. 2016. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from the Serra da Capivara, northeastern Brazil, with description of a new taxon. Hist Biol 28(4): 439-458.. However, the anteroloph of the DP4 of Ceará (Oliveira et al. 2013Oliveira PV, Ribeiro AM , Kerber L , Lessa G and Viana MSS. 2013. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from Ceará state, northeast Brazil. J Caves Karst Stud 75: 81-91.: fig. 6) is more transversely oriented than in the DP4 of the sample of Tocantins. The upper molars of Ceará correspond to a juvenile (sensuNeves and Pessôa 2011)Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24., whereas in the sample of Tocantins there is only one DP4 and molars belong to sub-adults and adults, which difficult their comparison.

Lower cheek teeth are mostly of juvenile specimens, as seen in UNIRIO-PM 2753 (Figure 2a, b), in which the tetralophodont dp4 shows little wear and preserves the lophids and flexids or newly formed fossettids (UNIRIO-PM 2756; Figure 2e). All labial flexids of dp4 are similar in length, which is different from T. laurentius and the material of the Quaternary of Ceará (Oliveira et al. 2013Oliveira PV, Ribeiro AM , Kerber L , Lessa G and Viana MSS. 2013. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from Ceará state, northeast Brazil. J Caves Karst Stud 75: 81-91.: fig. 6B) in which the mesoflexid is shorter. The dentary is slender and the notch for the tendon of the infraorbital part of the medial masseter muscle (i.e. masseteric notch) is a semicircular step at level of dp4, incorporated into the origin of the masseteric crest as in the remaining species of the genus (Olivares and Verzi 2015)Olivares AI and Verzi DH. 2015. Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio-Pleistocene of southern South America. Hist Biol 27(8): 1042-1061. The dental measurements among species of Thrichomys are very similar. However, T. pachyurus is slightly larger than T. inermis and T. apereoides (Oliveira et al. 2013Oliveira PV, Ribeiro AM , Kerber L , Lessa G and Viana MSS. 2013. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from Ceará state, northeast Brazil. J Caves Karst Stud 75: 81-91.: table 4). The material described here, in some cases, is still a little bigger than T. pachyurus.

Measurements: See Table II.

TABLE II
Measurements (in mm) of the late Pleistocene equimyids from Tocantins. MDL, mesiodistal length; LLW, labiolabial width.

Commentaries: Thrichomys has cursorial habits and lives in open areas from Caatinga, Cerrado and Pantanal (Oliveira and Bonvicino 2006)Oliveira JA and Bonvicino C. 2006. Ordem Rodentia. In: Reis NR, Peracchi AL, Pedro WA and Lima IP (Eds), Mamíferos do Brasil. Londrina: Editora da Universidade Estadual de Londrina, p. 347-400.. The alfa taxonomy of this genus is not well known (see Pessôa et al. 2004Pessôa LM, Corrêa MMO, De Oliveira JA and Lopes MOG. 2004. Karyological and morphometric variation in the genus Thrichomys (Rodentia: Echimyidae). Mamm Biol 69: 258-269. , Reis and Pessôa 2004Reis SF and Pessôa LM. 2004. Thrichomys apereoides. Mamm Species 741: 1-5. , Oliveira and Bonvicino 2006)Oliveira JA and Bonvicino C. 2006. Ordem Rodentia. In: Reis NR, Peracchi AL, Pedro WA and Lima IP (Eds), Mamíferos do Brasil. Londrina: Editora da Universidade Estadual de Londrina, p. 347-400.. Four species are recognized: Thrichomys apereoides (Lund, 1839), T. inermis (Pictet, 1843), T. pachyurus (Wagner, 1845), and T. laurentius Thomas, 1904 (Pessôa et al. 2015)Pessôa LM , Tavares WC, Neves ACA and Da Silva ALG. 2015. Genus Thrichomys. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 989-999.. In a recent study, the morphological distinctions among T. laurentius, T. inermis and T. pachyurus have been recognized (Neves and Pessôa 2011)Neves ACSA and Pessôa LM. 2011. Morphological distinction of the species Thrichomys (Rodentia: Echimyidae) through ontogeny of cranial and dental characters. Zootaxa 2804: 15-24.. D'Elía and Myers (2014)D'Elía G and Myers P. 2014. On Paraguayan Thrichomys (Hystricognathi: Echimyidae): the distinctiveness of Thrichomys fosteri Thomas, 1903. Therya 5: 153-166. recognized the validity of Thrichomys fosteri Thomas, 1903 for populations from Paraguay and Mato Grosso do Sul. Rocha et al. (2011)Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34. identified a distinct species in the western region of Tocantins, different from T. inermis and T. pachyurus (see also Braggio and Bonvicino 2004)Braggio E and Bonvicino CR. 2004. Molecular Divergence in the genus Thrichomys (Rodentia, Echimyidae). J Mammal 85: 7-11.. The materials recovered from the caves are more similar to T. pachyurus, T. inermis and Thrichomys sp., of the western region of State of Tocantins (Rocha et al. 2011)Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34. than the remaining living species of the genus. Currently, T. pachyurus is distributed to the east and south of the studied area, while T. aff. inermis is found to the north (Nascimento et al. 2013)Nascimento FF, Lazar A, Menezes AN, Da Matta Durans A, Moreira JC, Salazar-Bravo J, D'Andrea PS and Bonvicino CR. 2013. The role of historical barriers in the diversification processes in open vegetation formations during the Miocene/Pliocene using an ancient rodent lineage as a model. Plos One 8(e61924): 1-13.. Fossils of Thrichomys have been found in the intertropical region of Brazil (Table I), including the late Quaternary of the States of Mato Grosso do Sul (Salles et al. 2006)Salles LO, Cartelle C, Guedes PG, Boggiani PC, Janoo A and Russo CA. 2006. Quaternary mammals from Serra da Bodoquena, Mato Grosso do Sul, Brazil. Bol Mus Nac (ns) Zool 521: 1-12., Goiás (Salles et al. 1999)Salles LS et al. 1999. Fauna de Mamíferos do Quaternário de Serra da Mesa (Goiás, Brasil) . Publ Avulsas Mus Nac 78: 1-15., Minas Gerais (Paula Couto 1950Paula Couto C. 1950. Memórias sobre a paleontologia brasileira. Rio de Janeiro, Ministério da Educação e Saúde/Instituto Nacional do Livro, p. 589., Souza-Cunha and Guimarães 1978)Souza-Cunha FL and Guimarães ML. 1978. A fauna sub-recente de vertebrados do "Grande Abrigo da Lapa Vermelha Emperaire (P.L.)" Pedro Leopoldo, Estado de Minas Gerais. Arquivos do Museu de História Natural da Universidade Federal de Minas Gerais, Belo Horizonte 3: 201-238., Piauí (Kerber et al. 2016)Kerber L, Mayer EL, Ribeiro AM and Vucetich MG. 2016. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from the Serra da Capivara, northeastern Brazil, with description of a new taxon. Hist Biol 28(4): 439-458., Ceará (Oliveira et al. 2013)Oliveira PV, Ribeiro AM , Kerber L , Lessa G and Viana MSS. 2013. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from Ceará state, northeast Brazil. J Caves Karst Stud 75: 81-91. and Pernambuco (Ferreira et al. 2012)Ferreira D, Silva AK, Matos CHC, Hadler P and Hsiou A. 2012. Assembleia holocênica de vertebrados de pequeno porte do Sítio Alcobaça, Estado de Pernambuco, Brasil. Rev Bras Paleontol 15: 359-370..

Proechimys Allen, 1899

Proechimys sp.

Material: UNIRIO-PM 2757, right M1 or M2.

Description: The specimen is a right M1 or M2 with advanced stage of wear. All labial flexi are closed to form fossettes, and the hypoflexus is still open. The presence of three fossettes equally penetrating in the occlusal surface differentiate UNIRIO-PM 2757 from Trinomys Thomas, 1921, Mesomys Wagner, 1845 and Isothrix Wagner, 1845, in which the mesoflexus (and the corresponding mesofossette) is less penetrating than the remaining flexi (fossettes). UNIRIO-PM 2757 shows a well-developed metafossette (Figure 3); this feature differentiates it from Thrichomys, which in a similar wear stage has the metafossette more reduced or absent. Among the variation in lophs pattern showed by Proechimys, an occlusal design of M1-2 with four lophs as that in UNIRIO-PM 2757, is the most frequent (Patton 1987)Patton JL . 1987. Species groups of spiny rats genus Proechimys (Rodentia: Echimyidae). In: Patterson BD and Timm RM (Eds), Studies in Neotropical Mammalogy: Essays in Honor of Philip Hershkovitz. Fieldiana: Zoology 39, Field Museum of Natural History, Chicago, p. 305-345..

Measurements: See Table II.

Commentaries: Proechimys is the most speciose living echimyid with more than twenty species recognized across a wide geographic range (Patton 1987Patton JL . 1987. Species groups of spiny rats genus Proechimys (Rodentia: Echimyidae). In: Patterson BD and Timm RM (Eds), Studies in Neotropical Mammalogy: Essays in Honor of Philip Hershkovitz. Fieldiana: Zoology 39, Field Museum of Natural History, Chicago, p. 305-345., Patton and Leite 2015). This genus occupies diverse environments in Amazonian forest and Cerrado. In the living fauna of Tocantins, P. roberti is recorded (Weksler and Bonvicino 2010Weksler M and Bonvicino C. 2010. Proechimys roberti. The IUCN Red List of Threatened Species. Version 2014.3. Available on Available on http://www.iucnredlist.org . Accessed on November 25, 2014.
http://www.iucnredlist.org...
, Rocha et al. 2011)Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.. Although the material described herein is similar to this species (see Rocha et al. 2011Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.: fig. 17), the information of a single molar is limited to differentiate it from the other species.

The fossil record of Proechimys includes materials assigned to Proechimys sp. from the Plio-Pleistocene of Venezuela (Rincón et al. 2009)Rincón AD, Parra GE, Prevosti FJ, Alberdi MT and Bell CJ. 2009. A preliminary assessment of the mammalian fauna from the Pliocene-Pleistocene el Breal de ORocual Locality, Monagas state, Venezuela. Mus North Ariz Bull 65: 593-620. , Holocene of Pará (Toledo et al. 1999)Toledo PM, Moraes-Santos HM and Souza de Melo CC. 1999. Levantamento preliminar de mamíferos não-voadores da Serra dos Carajás: grupos silvestres recentes e zooarqueológicos. Bol Mus Para Emílio Goeldi 15: 141-157. and Quaternary of Goiás (Salles et al. 1999)Salles LS et al. 1999. Fauna de Mamíferos do Quaternário de Serra da Mesa (Goiás, Brasil) . Publ Avulsas Mus Nac 78: 1-15. (Table I). The assignment of "Eumysops" ponderosus, from the Late Miocene of Argentina, to Proechimys (see Bond 1977)Bond M. 1977. Revisión de los Echimyidae (Rodentia, Caviomorpha) de la Edad Huayqueriense (Plioceno medio) de las Provincias de Catamarca y Mendoza. Ameghiniana 14: 312. is contingent on a revision (Reig 1989)Reig OA. 1989. Karyotypic repatterning as one triggering factor in cases of explosive speciation. In: Fontdevila A (Ed), Evolutionary Biology of Transient Unstable Populations, Springer-Verlag, Berlin, p. 246-289..

Makalata Husson, 1978

Makalata cf. didelphoides (Desmarest, 1817)

Material: UNIRIO-PM 2751, left dp4; UNIRIO-PM 2752, right M1.

Description: UNIRIO-PM 2752 (Figure 4a) is a right M1. The anteroloph and the protoloph are lingually connected and there is no indication of mure, as it occurs in the anterior part of M1 of Makalata didelphoides and Santamartamys rufodorsalis (J.A. Allen, 1899). As in M1 of the latter two species, these lophs (and the paraflexus) are slightly anterolabially oriented while mesolophule and posteroloph (and mesoflexus) are more transverse. The metaflexus is more penetrating than the paraflexus and is open only labially. As in Makalata didelphoides (e.g. MN/UFRJ 21499, IP 267), the lingual margin of protocone area is straight, and the entire area of protocone plus protoloph is shaped like a triangle, and the anterior side of posteroloph has a slight medial convexity (cf. Fig. 4a and Iack-Ximenes 2005Iack-Ximenes GE, De Vivo M and Percequillo AR. 2005. A new genus for Loncheres grandis Wagner, 1845, with taxonomic comments on other arboreal echimyids (Rodentia, Echimyidae). Arq Mus Nac Rio de Janeiro 63: 89-112. , fig. 11D). The stage of UNIRIO-PM 2751 indicates that is not an adult individual because this pattern is similar to specimens of Makalata with unerupted or scarcely worn M3 (e.g. MN/UFRJ 21499, IP 267).

Figure 4
Makalata cf. didelphoides from the late Pleistocene of Tocantins. a, Right M1 (UNIRIO-PM 2752) in occlusal view. b, Left dp4 (UNIRIO-PM 2751) in occlusal view. Scale bar: 1mm.

The specimen UNIRIO-PM 2751 (Fig. 4b) is a left dp4 with a general occlusal morphology similar to that of Makalata, Echimys Cuvier, 1809 and ToromysIack-Ximenes, Vivo and Percequillo, 2005Iack-Ximenes GE, De Vivo M and Percequillo AR. 2005. A new genus for Loncheres grandis Wagner, 1845, with taxonomic comments on other arboreal echimyids (Rodentia, Echimyidae). Arq Mus Nac Rio de Janeiro 63: 89-112. . The metalophulid I (or anterolophid) and metalophulid II (e.g. MN/UFRJ 21499, 21494) form a curved lamina (Emmons 2005)Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309. that is in contact with the mesolophid lingually. This lamina has a strong posterior fold because of the metalophulid II is interrupted leaving the anterior fossette opened backwards. The mesolophid is slightly sigmoid, different to that of Echimys and Toromys, which is straight. The presence of a shallow fold in the anterior margin of this lophid, combined with the curved morphology of the anterior lamina, is shared with specimens of Makalata didelphoides. The last two lophids, hypolophid and posterolophid, are labially connected. UNIRIO-PM 2751 (Table II) is similar in size to the dp4 of Makalata (MDL - 3.45 mm), and smaller than those of Echimys (MDL - 4.43 mm) and Toromys (MDL - 4.95 mm). Detailed complementary morphology of UNIRIO-PM 2751 and UNIRIO-PM 2752 is equivalent to that observed in the specimen Makalata didelphoides MZUSP 899 (Iack-Ximenes et al. 2005Iack-Ximenes GE, De Vivo M and Percequillo AR. 2005. A new genus for Loncheres grandis Wagner, 1845, with taxonomic comments on other arboreal echimyids (Rodentia, Echimyidae). Arq Mus Nac Rio de Janeiro 63: 89-112. , fig. 11D).

Measurements: See Table II.

Commentaries: The specimens reported here have laminar cheek teeth with a morphology distinctive of Echimyinae (Emmons 2005)Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309.. This group within Echimyidae, as defined by Emmons (2005)Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309., includes Echimys, Phyllomys Lund, 1839, Makalata, Diplomys Thomas, 1916, CallistomysEmmons and Vucetich, 1998Emmons LH and Vucetich MG. 1998. The identity of Winge's Lasiuromys villosus and the description of a new genus of Echimyid Rodent (Rodentia: Echimyidae). Am Mus Novit 3223: 1-12., PattonomysEmmons, 2005Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309., and SantamartamysEmmons, 2005Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309.. Toromys was recently included within this subfamily (Emmons et al. 2015a)Emmons LH, Leite YLR and Patton JL. 2015a. Subfamily Echimyinae. In: Patton JL, Pardiñas UFJ and D'Elía G D (Eds), Mammals of South America, Volume 2, Rodents, University of Chicago Press, Chicago, p. 888-889..

Makalata includes arboreal echimyids that are restricted to the Amazon region where they occupy areas near bodies of water (Emmons 2005Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309., Oliveira and Bonvicino 2006)Oliveira JA and Bonvicino C. 2006. Ordem Rodentia. In: Reis NR, Peracchi AL, Pedro WA and Lima IP (Eds), Mamíferos do Brasil. Londrina: Editora da Universidade Estadual de Londrina, p. 347-400.. The taxonomic status of living Makalata species has been in state of flux. At least eight species were recognized by Woods and Kilpatrick (2005)Woods CA and Kilpatrick CW.2005. Infraorder Hystricognathi. In: Wilson DE and Reeder DM (Eds), Mammal Species of the World: A Taxonomic and Geographic Reference. 3rd ed, Baltimore, JHUP, p. 1538-1600.. According to Emmons (2005)Emmons LH. 2005. A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with description of two new genera. In: Lacey EA and Myers P (Eds), Mammalian Diversification: From Chromosomes to Phylogeography (A celebration of the Career of James L. Patton), Univ Calif Publ Zool 133: 247-309., living representantives are divided into two groups: "didelphoides group" and "grandis group". The IUCN redlist recognizes at least four valid species - Makalata didelphoides, Makalata macrura (Wagner, 1842), Makalata rhipidura (Thomas, 1928) and Makalata obscura (Wagner, 1840) - (Patton et al. 2008aPatton J, Weksler M, Catzeflis F and Bonvicino C. 2008a. Makalata didelphoides. The IUCN Red List of Threatened Species. Version 2014.2. Available on Available on http://www.iucnredlist.org . Accessed on July 25, 2014.
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, b, c, Zeballos et al. 2008)Zeballos H, Vivar E andPatterson B . 2008. Makalata rhipidura. The IUCN Red List of Threatened Species. Version 2014.2. Available on Available on http://www.iucnredlist.org . Accessed on July 28, 2014.
http://www.iucnredlist.org...
. Iack-Ximenes et al. (2005)Iack-Ximenes GE, De Vivo M and Percequillo AR. 2005. A new genus for Loncheres grandis Wagner, 1845, with taxonomic comments on other arboreal echimyids (Rodentia, Echimyidae). Arq Mus Nac Rio de Janeiro 63: 89-112. assigned one of the species of "grandis group" to a genus of its own, Toromys, i.e. Toromys grandis. M. rhipidura is considered Toromys rhipidurus, but this is pending a more thorough review (Emmons et al. 2015b)Emmons LH, Leite YLR andPatton JL . 2015b. Genus Toromys. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents. University of Chicago Press, Chicago , p. 929-931.. Accordingly, Makalata is restricted only to "didelphoides group" (i.e. M. didelphoides, M. macrura and M. obscura; Emmons and Patton 2015)Emmons LH andPatton JL . 2015. Genus Makalata. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 905-910..

The presence of Makalata in Gruta dos Moura implies the first mention of this genus in the fossil record (Table I). As noted above, the occlusal morphology of the recovered teeth resembles M. didelphoides, the living representative of the genus currently inhabiting Tocantins (Patton et al. 2008a)Patton J, Weksler M, Catzeflis F and Bonvicino C. 2008a. Makalata didelphoides. The IUCN Red List of Threatened Species. Version 2014.2. Available on Available on http://www.iucnredlist.org . Accessed on July 25, 2014.
http://www.iucnredlist.org...
. This species is distributed in the islands of Trinidad and Tobago, Venezuela, French Guiana, Suriname, Guyana, southwest to northeastern of Bolivia and Brazil (States of Amazonas, Roraima, Pará, Amapá, Mato Grosso and Tocantins) (e.g. Emmons and Patton 2015)Emmons LH andPatton JL . 2015. Genus Makalata. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 905-910..

DISCUSSION

Brazil hosts the largest diversity of living echimyids. Both in this key area and other zones within the current distribution of this family, the fossil record is scarce and its alpha taxonomy and chronology remains poorly understood. Most of Brazilian records are from Quaternary sediments of caves (Table I) and have limited temporal resolution. The fossils material derived from old collections, such as the classic fauna of Lagoa Santa, clearly need a review. In this sense, the collection of new specimens with stratigraphic control associated to numerical ages is important to understand the past diversity of the group and how such diversity was affected by Pleistocene climatic oscillations.

Based on the stratigraphic control of the material described herein, we can reliably assume that specimens from Gruta dos Moura cave represent a synchronous sample. The calcareous block where the echimyid fossil remains were found belongs to the same stratigraphic level found throughout one of the secondary tunnels of Gruta dos Moura cave. The sedimentological features, such as color and granulometry, also suggest that the calcareous blocks had the same genesis (Avilla et al. 2013a)Avilla LS, Müller L, Gasparini G, Soibelzon L, Absolon B, Pego FB, Costa R, Kinoshita A, Figueiredo AMG and Baffa O. 2013a. The norther­nmost record of Catagonus stenocephalus (Lund in Reinhardt, 1880) (Mammalia, Cetartiodactyla) and its palaeoenvironmental and palaeobiogeographical significance. J S Am Earth Sci 42: 39-46..

Disaggregation of the block revealed that there was a taphonomic selection by size, where only fragments of small vertebrates, especially mammals such as marsupials (Villa Nova et al. 2015)Villa Nova P, Avilla LS and Oliveira EV. 2015. Didelphidae marsupials (Mammalia, Didelphimorphia) from the Late Pleistocene deposit of the Gruta dos Moura Cave, northern Brazil. An Acad Bras Cienc 87: 193-208., bats and rodents, were preserved. The only exception was a fragment of a maxillary bone with an almost complete upper tooth row of the tayassuid Catagonus stenocephalus (Lund in Reinhardt, 1880), an extinct mammal from the South American Pleistocene which dated by ESR (Electron Spin Resonance) to 20.000 (± 2000) years before present (YBP; Avilla et al. 2013a)Avilla LS, Müller L, Gasparini G, Soibelzon L, Absolon B, Pego FB, Costa R, Kinoshita A, Figueiredo AMG and Baffa O. 2013a. The norther­nmost record of Catagonus stenocephalus (Lund in Reinhardt, 1880) (Mammalia, Cetartiodactyla) and its palaeoenvironmental and palaeobiogeographical significance. J S Am Earth Sci 42: 39-46.. In accordance, we consider here that this dating applies to the entire fossil assemblage found in the calcareous blocks of the secondary tunnel of Gruta dos Moura cave. Thus, the diversity of echimyids described here, considering that Makalata is recorded as a fossil also for the first time, represents part of the fauna that inhabited the region around the Gruta dos Moura cave during the Last Glacial Maximum (LGM). The LGM occurred at approximately 20.000 YBP, and represents the coldest and drier climatic period of South America of the last million years. The presence of Catagonus stenocephalus in these sediments indicates the development of relatively open and dry environments. The ancestral limits of the Chacoan subregion could be traced analyzing its fossil record and other taxa with similar ecological requirements (e.g. Reithrodon auritus G. Fisher, 1814 - Tobelém et al. 2013Tobelém H, Dutra RP and Avilla LS. 2013. Os roedores Cricetidae Sigmodontinae (Mammalia, Rodentia) do Quaternário do norte do Brasil. Boletim Paleontologia em Destaque . Edição Especial XXIIICBP, p. 288., Avilla et al. 2013a)Avilla LS, Müller L, Gasparini G, Soibelzon L, Absolon B, Pego FB, Costa R, Kinoshita A, Figueiredo AMG and Baffa O. 2013a. The norther­nmost record of Catagonus stenocephalus (Lund in Reinhardt, 1880) (Mammalia, Cetartiodactyla) and its palaeoenvironmental and palaeobiogeographical significance. J S Am Earth Sci 42: 39-46.. Remarkably, the taxonomic composition of the echimyids fossil samples from Gruta dos Moura is similar, at least at generic level, to the current assemblage from the Mid-Araguaia River basin in the west of State of Tocantins (Rocha et al. 2011)Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.. The last area represents an ecotone between Cerrado and Amazonia in which the typical Cerrado's echimyid Thrichomys sp. coexists with the Amazonian Makalata didelphoides (Rocha et al. 2011)Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.. The other representative of this community, Proechimys, is the most widely distributed echimyid genus inhabiting lowland rainforest habitats in Central America, cis- and trans- Amazonia, dry forest in Bolivia and Paraguay, and the Cerrado of central Brazil (Patton and Leite 2015)Patton JL and Leite RN. 2015. Genus Proechimys. In: Patton JL , Pardiñas UFJ and D'Elía GD (Eds), Mammals of South America , Volume 2, Rodents, University of Chicago Press, Chicago , p. 950-989.. The Gruta dos Moura cave is located in the current Cerrado, farther east than Mid-Araguaia River basin.

The fossil record of Echimyidae in Brazil during the Quaternary is represented, on the one hand, by typical Amazonian genera recorded at Serra dos Carajás in the Holocene of Pará (Toledo et al. 1999)Toledo PM, Moraes-Santos HM and Souza de Melo CC. 1999. Levantamento preliminar de mamíferos não-voadores da Serra dos Carajás: grupos silvestres recentes e zooarqueológicos. Bol Mus Para Emílio Goeldi 15: 141-157. and typical Cerrado genera registered at Serra da Bodoquena (Salles et al. 2006)Salles LO, Cartelle C, Guedes PG, Boggiani PC, Janoo A and Russo CA. 2006. Quaternary mammals from Serra da Bodoquena, Mato Grosso do Sul, Brazil. Bol Mus Nac (ns) Zool 521: 1-12., and on the other hand, it is represented by both Cerrado (e.g. Thrichomys and Clyomys Thomas, 1916) (and Caatinga - Thrichomys) and Atlantic forest genera (Phyllomys and Callistomys) recorded together at sites such as Lagoa Santa (Winge, 1887Winge H. 1887. Jordfundne og Nulevende gnavere (Rodentia) fra Lagoa Santa, Minas Gerais, BrasilienE Museo Lundii 3: 1-178., Emmons and Vucetich 1998)Emmons LH and Vucetich MG. 1998. The identity of Winge's Lasiuromys villosus and the description of a new genus of Echimyid Rodent (Rodentia: Echimyidae). Am Mus Novit 3223: 1-12., Sangão and Garivaldino (Hadler et al. 2008)Hadler P, Verzi DH, Vucetich MG, Ferigolo J and Ribeiro AM. 2008. Caviomorphs (Mammalia, Rodentia) from the Holocene of Rio Grande do Sul State, Brazil: systematics and paleonviromental context. Rev Bras Paleontol 11: 97-116., Sítio Alcobaça (Ferreira et al. 2012)Ferreira D, Silva AK, Matos CHC, Hadler P and Hsiou A. 2012. Assembleia holocênica de vertebrados de pequeno porte do Sítio Alcobaça, Estado de Pernambuco, Brasil. Rev Bras Paleontol 15: 359-370., and Serra da Capivara (Kerber et al. 2016)Kerber L, Mayer EL, Ribeiro AM and Vucetich MG. 2016. Late Quaternary caviomorph rodents (Rodentia: Hystricognathi) from the Serra da Capivara, northeastern Brazil, with description of a new taxon. Hist Biol 28(4): 439-458.. The fossil echimyid assemblage studied herein includes genera from Cerrado (Thrichomys) and Amazonia (Makalata) recorded together for the first time (Table I). Similarly, some fossil didelphids of Gruta dos Moura are associated with open and deciduous forest areas and others with humid forest (Villa Nova et al. 2015)Villa Nova P, Avilla LS and Oliveira EV. 2015. Didelphidae marsupials (Mammalia, Didelphimorphia) from the Late Pleistocene deposit of the Gruta dos Moura Cave, northern Brazil. An Acad Bras Cienc 87: 193-208.. Such an interaction could result from the presence of gallery forests, which act as dispersal corridors for rainforest mammals (e.g. Redford and Fonseca 1986, Mares et al. 1989Mares MA, Braun JK and Gettinger D. 1989. Observations on the distribution and ecology of the mammals of the Cerrado grasslands of Central Brazil. Ann Carnegie Mus 58: 1-60., Costa 2003)Costa LP. 2003. The historical bridge between the Amazon and the Atlantic Forest of Brazil: a study of molecular phylogeography with small mammals. J Biogeogr 30: 71-86., or by the presence of ecotones between these biomes (e.g. Rocha et al. 2011)Rocha RG, Ferreira E, Costa BMA, Martins ICM, Leite YLR , Costa LP and Fonseca C. 2011. Small mammals of the mid-Araguaia River in central Brazil, with the description of a new species of climbing rat. Zootaxa 2789: 1-34.. Alternately, this pattern, which includes taxa with distinct environmental affinities absent at present in the region of Gruta dos Moura, could be associated with oscillations of the climatic pulses that occurred in the past during the interval recorded in this region. In any case, the presence of Amazonian species could help in understanding the dynamics of ecotones or dispersal corridors between Amazonian and Cerrado.

The data here reported contributes to the understanding of the ancient diversity of vertebrates of that region, evidenced until now in other groups, such as the artiodactyls, cingulates, carnivores, cervids, marsupials and squamates (e.g. Avilla et al. 2013aAvilla LS, Müller L, Gasparini G, Soibelzon L, Absolon B, Pego FB, Costa R, Kinoshita A, Figueiredo AMG and Baffa O. 2013a. The norther­nmost record of Catagonus stenocephalus (Lund in Reinhardt, 1880) (Mammalia, Cetartiodactyla) and its palaeoenvironmental and palaeobiogeographical significance. J S Am Earth Sci 42: 39-46., b, Castro et al. 2013Castro MC, Avilla LS, Freitas ML and Carilini AA. 2013. The armadillo Propraopus sulcatus (Mammalia: Xenarthra) from the late Quaternary of northern Brazil and a revised synonymy with Propraopusgrandis. Quatern Int 317: 80-87., Hsiou et al. 2013Hsiou AS, Winck GR, Schubert BW and Avilla LS. 2013. On the presence of Eunectes murinus (Squamata, Serpentes) from the Late Pleistocene of northern Brazil. Rev Bras Paleontol 16: 77-82., Rodrigues et al. 2014Rodrigues S, Avilla LS, Soibelzon L and Bernardes C. 2014. Late Pleistocene carnivores (Carnivora: Mammalia) from a cave sedimentary deposit in northern Brazil. An Acad Bras Cienc 86: 1641-1655., Villa Nova et al. 2015)Villa Nova P, Avilla LS and Oliveira EV. 2015. Didelphidae marsupials (Mammalia, Didelphimorphia) from the Late Pleistocene deposit of the Gruta dos Moura Cave, northern Brazil. An Acad Bras Cienc 87: 193-208..

ACKNOWLEDGMENTS

We would like to thank Anselmo Rodrigues, Wagner Moura, the Municipality of Aurora do Tocantins and the staff of the Sociedade Brasileira de Espeleologia, who invited us and gave us logistic help in Aurora do Tocantins. We appreciate all help from the group involved in the prospection and collection of the material. We also thank S. Maia Vaz, C. Bonvicino, D. Flores, D. Romero, J.L. Patton, E. Lacey, C. Conroy, J. Oliveira, W. Kliem and M. de Vivo for granting access to materials under their care. We especially thank D.H. Verzi for the helpful discussion about the systematics and evolution of echimyids described here and for valuable comments on an earlier version of this manuscript. The authors are grateful to the comments and suggestions of F. Hardy to help improve language on early draft of this manuscript and two anonymous reviewers for their useful comments. The authors are also thankful to Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) (401812/2010-3, Edital Ministério da Ciência, Tecnologia e Inovação (MCTI)/CNPq Nº 32/2010 - Fortalecimento da Paleontologia Nacional / Edital 32/2010 - Faixa B and 552975/2011, Apoio a Projetos de Pesquisa / Chamada MCTI/CNPq Nº 23/2011 - Apoio Técnico para Fortalecimento da Paleontologia Nacional) for financial support; LK thanks CNPq 163168/2014-8; 201356/2015-5 (Post-doctoral fellowship); AIO thanks CONICET PIP 0270 and ANPCyT-PICT 1150.

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APPENDIX - COMPARATIVE SPECIMENS

Echimys spp. MACN 31158, 31160 (E. saturnus); MN/UFRJ 3847, 21505, 60538. Isothrix MN/UFRJ 56811; MVZ 190629; MZUSP 23789. Makalata, M. didelpoides MN/UFRJ 6152, 10394, 21494, 21495, 21499, IP 267. Mesomys sp. MN/UFRJ 27956; M. hispidus MVZ 190653. Toromys grandis MN/UFRJ 11924, 11925, 60538. Trinomys, T. dimidiatus UnB 723, 739; MN-UFRJ 62273, 62275, 62278; T. yonenagae UFBA 00467 - 00473. Proechimys, P. brevicauda MVZ 153623; P. cuvieri MZUSP 21257; P. goeldii MZUSP 26621; P. poliopus MLP 22.II.00.8, 22.II.00.7; P. roberti MVZ 197578, UnB 316, 326; P. semispinosus MZUSP 2002; Proechimys sp. MZUSP 27551. Thrichomys, T. apereoides UnB 188 - 190, T. inermis MMP 1242 - 1245, 1295, 1296, T. laurentius MMP 1246, 1293, 1294, 1297, MN/UFRJ 14511, 13664, 42505, 42411, 42395,42403, 42451, 42483, 42458, 42446, 42386, 42457, T. pachyurus MN/UFRJ 46896; 616599 (T. fosteri?), Thrichomys sp. MMP USB 542, MMP 1247, 1292, 150, MN/UFRJ 34406.

Publication Dates

  • Publication in this collection
    07 June 2016
  • Date of issue
    Apr-Jun 2016

History

  • Received
    08 May 2015
  • Accepted
    29 June 2015
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