NOTES ON GEOGRAPHIC DISTRIBUTION
Check List 15 (5): 747–751
https://doi.org/10.15560/15.5.747
New records amplify the geographical distribution of Rondonops
biscutatus Colli et al., 2015 (Squamata, Sauria, Gymnophthalmidae)
into the Paraguay river basin, Mato Grosso, Brazil
Odair Diogo da Silva1, 2, 3, Thatiane Martins da Costa2, 3, 4, Vancleber Divino Silva-Alves2, 4,
Eder Correa Fermiano1, Jessica Rhaiza Mudrek2, 5, Bruno Ramos Brum2, 4, Almério Câmara
Gusmão2, 3, 6, Olinda Maira Alves Nogueira2, Ana Paula Dalbem Barbosa2,4, Joselaine Souto Hall
Silva2, 4, Maria Antônia Carniello2, 4, Áurea Regina Alves Ignácio2, 4, Claumir César Muniz2, 4,
Manoel Dos Santos Filho2, 4, 6, Dionei José da Silva1, 2, 4
1 Programa de Pós-Graduação em Ambiente e Sistemas de Produção Agrícola, Universidade do Estado de Mato Grosso. Rod. MT 358 Km 07,
Caixa Postal 287, Jardim Aeroporto CEP 78.300-000, Tangará da Serra, MT, Brazil. 2 Rede Erosão da Biodiversidade no Pantanal, Universidade
do Estado de Mato Grosso, Av. Santos Dumont, s/nº, Cidade Universitária (Bloco II), CEP 78200-000, Cáceres, MT, Brazil. 3 Grupo de Trabalho
e Conservação do Gavião Real no Estado de Rondônia, Brazil. 4 Programa de Pós-Graduação em Ciências Ambientais, Universidade do Estado de
Mato Grosso, Centro de Pesquisa de Limnologia, Biodiversidade, Etnobiologia do Pantanal, Av. Santos Dumont, s/nº, Cidade Universitária (Bloco
II), CEP 78200-000, Cáceres, MT, Brazil. 5 Programa de Pós-Graduação em Ecologia e Conservação da Biodiversidade, Instituto de Biociências,
Universidade Federal de Mato Grosso, Av. Fernando Corrêa, Nº 2367, Bairro Boa Esperança, CEP 78060-900, Cuiabá, MT, Brazil. 6 Programa
de Pós-Graduação em Biotecnologia e Biodiversidade, Rede Bionorte, Universidade do Estado de Mato Grosso. Av. Santos Dumont, s/nº, Cidade
Universitária (Bloco II), CEP 78200-000, Cáceres, MT, Brazil.
Corresponding author: Odair Diogo da Silva, odair_diogo@hotmail.com
Abstract
Rondonops biscutatus is a gymnophthalmid litter-lizard which occurs in the Amazon rainforests and the transitional
areas between Amazonia and Cerrado. This species’ distribution is strongly biased by a lack of data, possibly because
it was recently described, small-bodied, and living in cryptic habits. Here, we present occurrence data of six specimens
from four locations in transitional areas between forests in Amazonia and Cerrado (central Brazil), in the upper Paraguay River, at the northern end of the Pantanal, midwestern Brazil. We expand the distribution of this species 507 km
east from its original range.
Keywords
Amazon rainforest, biogeography, Cerrado, Iphisini, reptiles.
Academic editor: Rafael de Fraga | Received 4 June 2019 | Accepted 26 August 2019 | Published 6 September 2019
Citation: Silva-Diogo O, Costa TM, Silva-Alves VD, Fermiano EC, Mudrek JR, Brum BR, Gusmão AC, Nogueira OMA, Barbosa APD, Silva
JSH, Carniello MA, Ignácio ÁRA, Muniz CC, Santos-Filho M, Silva DJ (2019) New records amplify the geographical distribution of Rondonops
biscutatus Colli et al., 2015 (Squamata, Sauria, Gymnophthalmidae) into the Paraguay river basin, Mato Grosso, Brazil. Check List 15 (5): 747–751.
https://doi.org/10.15560/15.5.747
Copyright Silva-Diogo et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
748
Introduction
The squamate family Gymnophthalmidae contains 258
species (Uetz 2019) distributed from southern Mexico and Central America, including some islands in the
Caribbean and South America, to the central portion of
Argentina (Doan 2003; Vitt and Caldwell 2009; Cacciali
et al. 2017; Mora et al. 2019). Despite their wide distribution and high number of species, the gymnophthalmids
are among the least known Neotropical lizards given
their cryptic habits and small body size (Cacciali et al.
2017).
The genus Rondonops (Colli et al. 2015), a member
of the tribe Iphisini, contains two species that occur in
the Amazonian forests of Brazil: Rondonops biscutatus
Colli et al. (2015) and Rondonops xanthomystax Colli et
al. (2015). Rondonops xanthomystax occurs in the states
of Amazonas and Pará (Colli et al. 2015; Costa and Bernils 2018), whereas Rondonops biscutatus has a wider
distribution, occurring in the states of Rondônia, Pará,
and Mato Grosso, and the distribution of this species covers the Amazon and Araguaia–Tocantins basins (Colli et
al. 2015; Abegg et al. 2017; Costa and Bernils 2018). The
genus Rondonops was recently described (Colli et al.
2015), although R. biscutatus was earlier cited as “Gymnophthalmidae sp.” (Gainsbury and Colli 2003; Garda et
al. 2013) and “Colobosaura sp. nov.” (Hoogmoed et al.
2007).
Despite the recent description of R. biscutatus, there
are few studies on its biological and ecological traits.
This species mainly occupies the leaf-litter (Colli et al.
2015) at sites with a relatively great abundance of small
trees, low canopy, dense understory with a few trunks, a
high density of termite nests, and few large trees (Garda
et al. 2013). Cacciali et al. (2017), when evaluating the
phylogeny of the tribe Iphisini, proposed that the genus
Rondonops is restricted to Amazonian ecoregions. Furthermore, Colli et al. (2015) and Abegg et al. (2017) suggested that R. biscutatus might also occur in forests and
open habitats in the transitional area between the Amazon and the Cerrado savannas. In this study, we confirm
this prediction based on four new occurrences in the
Paraguay river basin, where we collected a total of six
specimens in Amazonian phytophysiognomy in Amazon–Cerrado savannas transition area.
Methods
We collected specimens using 12 sets of pitfall traps in
seasonally flooded forests at four sites along the Paraguay River, in the municipality of Barra do Bugres
(15°05′42″S, 057°14′30″W, DMS), Mato Grosso state.
At each point, we installed three sets of Y-shaped pitfall traps, each composed of four 60 L buckets, which
were buried within 15 m from the central bucket. The
buckets were interconnected by a 70 cm high fence. In
each site, we installed pitfall traps along a gradient of
distance from the riverbank, at 10, 100 and 200 m. The
Check List 15 (5)
traps remained open from September 29, 2017 to October 8, 2017, totaling 480 bucket·nights of sampling effort.
We euthanized voucher specimens by injection of
2% lidocaine hydrochloride (Xylestesin®) and preserved
them using 10% formalin. We conserved the voucher
specimens in 70% ethanol and deposited them at the
Centro de Limnologia, Biodiversidade e Etnobiologia
do Pantanal (CELBE), at the Universidade do Estado de
Mato Grosso (UNEMAT), Brazil. We collected specimens under the permanent license 8849-1 and expedition
registration 10128, granted by the Sistema de Autorização e Informação em Biodiversidade (SISBIO). Also,
we performed a review of three specimens, identified as
Colobosaura modesta, collected by Silva (2005) in forest fragments in Amazon, in the Cabaçal and Jauru river
basins, which are tributaries of the Paraguay River, in
the Northern Pantanal. These specimens were collected
in 2003 using pitfall traps and were deposited in the collection of CELBE/UNEMAT and INPA, Manaus. We
used a digital caliper and a stereoscopic microscope to
measure and count diagnostic characters, in order to
identify specimens based on the original description of
R. biscutatus (Colli et al. 2015).
Results
Rondonops biscutatus Colli et al., 2015
We collected six specimens of R. biscutatus from four
locations in a transitional region between the Amazon
forests and Cerrado savannas. We found three specimens in the municipality of Barra do Bugres, one in
Figueirópolis d’Oeste, and two in São José dos Quatro
Marcos, all of them near the banks of the upper Paraguay
River (Fig. 1).
New Records. Brazil, Mato Grosso, Barra do Bugres
Municipality: ecotone between Amazonia and Cerrado,
on the left bank of the Paraguay River (15°05′44.30″S,
057°14′23.52″W), 1 adult male (CELBE-L-0050, 53 mm
SVL, femoral pores 18) collected on 6 October 2017 by
Odair D. da Silva, Vancleber DS Alves, and Manoel dos
S. Filho (Fig. 2).
Brazil, Mato Grosso, Barra do Bugres Municipality: ecotone between Amazonia and Cerrado, on
the right bank of the Paraguay River (15°05′40.03″S,
057°14′34.71″W), 2 adult females (CELBE-L-0026 and
CELBE-L-0031, 48 and 47 mm SVL) collected on 30
September 2017 by Odair D. da Silva, Thatiane M. da
Costa, and Dionei J. da Silva (Fig. 2).
Brazil, Mato Grosso, Figueirópolis d’Oeste Municipality: Amazon forest on the right bank of the Jauru
River (15°31′00.35″S, 058°38′29.21″ W), 1 adult female
(INPA-H 15994, 43 mm SVL), collected by Dionei J. da
Silva and Manoel dos S. Filho on 21 February 2003.
Brazil, Mato Grosso, São José dos Quatro Marcos
Municipality: Amazon forest on the right bank of the
Cabaçal River (15°22′43.86″S, 058°04′34.46″ W), 2 adult
males, 1 collected by Dionei J. da Silva on 29 January
Silva-Diogo et al. | Extension of the distribution of Rondonops biscutatus
749
Figure 1. Geographical distribution of Rondonops biscutatus. Circles: Colli et al. (2015); square: Abegg et al. (2017); stars: 1, 2 = Barra do
Bugres, 3 = Quatro Marcos, 4 = Figueirópolis d’Oeste.
Figure 2. Rondonops biscutatus recorded in Barra do Bugres, Mato Grosso. A, B. Adult male (CELBE-L-0050): color in life, SVL 53 mm,
Femoral pores 18: (A) dorsolateral view; (B) ventral view, gular region highlighted, with diagnostic characteristic of the species, two rows
of wide ventral scales. C, D. Adult female (CELBE-L-0031), color in alcohol, SVL 47 mm: (C) dorsolateral view; (D) ventral view.
2003 (CELBE-L-MZT 123, 38mm SVL), and 1 collected
by Manoel dos S. Filho on 5 August 2003 (INPA - H
15995, 46 mm SVL).
Identification. We identified specimens based on the
original description of the genus and species (Colli et
al. 2015), in which Rondonops was described as easily
distinguishable from any other gymnophthalmid lizards.
The specimens we found show conspicuous diagnostic
characters, such as two longitudinal rows of very wide
nuchal scales, extending from the nape to the arm. This
extension includes seven smooth and imbricated transverse scales followed by much narrower, lanceolate and
mucronate scales (Fig. 1). Rondonops biscutatus also
750
differs from the other Gymnophthalmidae genus, except
for Iphisa, by having only two rows of very wide ventral
scales. Rondonops biscutatus can be distinguished from
Rondonops xanthomystax by its smooth scales on the
sides of its neck (keeled in R. xanthomystax). Additionally, R. xanthomystax presents a wide black stripe covering the entire lateral surface of the head in the superior
region of the supralabial, which is absent in R. biscutatus, and dark-brown supralabials contrasting with the
bright yellow-orange color covering most of the supralabials, infralabials, and ventral parts of the head, while
in R. biscutatus the supralabials are strongly mottled
with dark brown.
Discussion
The description of R. biscutatus is relatively recent, and
few data on geographic distribution and morphological
variation have been reported in the literature. Although
the vegetation cover in our study area differed between
Cerrado, Amazonia, Pantanal and ecotonal zones (Maurão et al. 2012), we only found the species in an area with
Amazonian phytophysiognomy. Thus, our records, indicate that the species is restricted to Amazonian phytophysiognomies, which is consistent with the opinions
of Colli et al. (2015), Abegg et al. (2017) and Cacciali
et al. (2017). This conclusion is supported by the fact
that we have sampled lizards across approximately 200
km along the upper Paraguay River, from the Barra do
Bugres (15°05′41.66″S, 057°14′30.08″W) to the Taiamã
Ecological Station (16°51′54.20″S, 057°33′11.52″ W).
Although this ecotonal region is environmentally very
heterogeneous, the species has only been found in Amazonian forests characterized by tall trees (>20 m), few
epiphytes, relatively distant trees and low abundance of
lianas. The understory is dense, with up to 10 cm of leaf
litter.
Our records extend the geographical range of R. biscutatus 507 km southeast from the southernmost previous record at Cerejeiras, Rondônia. However, we argue
that the species distribution does not extend further east
into the Cerrado savannas, because the low canopy in the
Cerrado savannas is often associated with open understory and high solar incidence, which are suboptimal
conditions for a litter lizard such as R. biscutatus.
A portion of the range of R. biscutatus, in the north,
is within protected reserves. However, most of the species’ distribution is currently undergoing habitat loss
due to strong anthropological changes (Colli et al. 2015;
Abegg et al. 2017), especially within the so-called arch of
deforestation (Ferreira et al. 2005). In this region, human
occupation has resulted in a matrix of monocultures of
grains and pastures for cattle ranching associated with or
preceded by illegal logging (Fearnside 2010). Likewise,
the upper Paraguay River region, where the new records
originate, is strongly influenced by soybean monoculture in the headwaters of the river and by the production
of sugarcane and cattle ranching where large amounts of
Check List 15 (5)
pesticides are used (Tomas 2009). Thus, R. biscutatus
is under pressure of habitat loss and degradation, as are
many Brazilian reptiles, mainly caused by agribusiness
activities and the use of agrochemicals, which have been
pointed out as the main risk factor for reptiles (Gibbons
et al. 2000; Rodrigues 2005; ICMbio 2018).
Acknowledgements
The development of this research was possible through
the project “Erosão da biodiversidade na Bacia do
Alto Paraguai: impactos do uso da terra na estrutura
da vegetação e comunidade de vertebrados terrestres
e aquáticos”, which has financial support from FAPEMAT (edictal no. 037/2016, Research Networks in Mato
Grosso with concession term under no. 0589188/2016).
We thank Guarino R. Colli for the contributing to the
identification of the species. We thank the field staff of
the Erosion project. We also thank the Coordenação de
Aperfeiçoamento de Pessoal de Nível Superior (CAPES;
code 001) for the scholarships provided to the authors
BRB and ACG and for the masters scholarships provided
to the authors ODS, OMAN, ECF, APDB, and TMC. We
thank the Foundation Mato Grosso State Research Support Service (FAPEMAT) for VDSA’s scholarship and
the doctoral scholarship provided to JRM.
Authors’ Contributions
ODS, VDSA, TMC, JRM, OMAN, APDB, MAC, CCM,
MSF and DJS collected the specimens. ODS, VDSA,
ACG, ECF and DJS analyzed the specimens and wrote
the first version of the manuscript. JRM produced the
distribution map. BRB, ARAI and DJS revised and
translated the final version.
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