Malformation in three anuran species from a preserved remnant of Atlantic Forest in southeastern Brazil

Records of malformation in amphibians have significantly increased on a global scale. The main causes of malformations are linked to environmental contaminants, and records in preserved environments are uncommon. We reported malformations in three anuran species belonging to three families: Crossodactylus timbuhy (Hylodidae), Proceratophrys schirchi (Odontophrynidae) and Thoropa miliaris (Cycloramphidae). All records were found within the Reserva Biológica Augusto Ruschi, a wellpreserved protected remnant of Atlantic rainforest located in the mountains of the state of Espírito Santo, southeastern Brazil. The malformations detected were hemimelia (long bone shortened) with ectrodactyly (digit absent) and brachydactyly (digit shortened) in C. timbuhy, microphtalmia (small eye) in P. schirchi and ectrodactyly in T. miliaris. Further studies are recommended to enable a better understanding about the incidence and causes of malformations within preserved areas. Neotropical Biology and Conservation 14(2): 213–220 (2019) doi: 10.3897/neotropical.14.e37919 Copyright Alexander Tamanini Mônico 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. SHORT COMMUNICATION Alexander Tamanini Mônico et al. 214

Malformations in anurans are not a recent development in herpetology, since the first register was in 1554 (Gesner 1554); they have been reported in all continents for more than 400 species (Henle et al. 2017). The frequency of malformations reports has increased with time, and recently come to a distinguished breakout (Garcia-Muñoz et al. 2010;Johnson et al. 2010). Malformations were detected in different anuran families, genera, as well as in inhabitants of different microhabitats (Piha et al. 2006;Medina et al. 2013). These deformities may denote environmental complications, which also may impact on other organisms; thus, these reports are important to help understanding malformation dynamics (Meteyer 2000;Roy 2002;Johnson et al. 2003). There are various possible causes of amphibian deformations, including genetic and environmental factors, such as parasitic infestation (Johnson et al. 1999;Kiesecker 2002), microbial diseases and other disorders (Sessions and Ruth 1990), elevation of UV-B radiation (Ankley et al. 2000), and the major factor: chemical agents, most of them found in agribusiness pollution (Ouellet et al. 1997;Hayes et al. 2002;Lannoo 2008;Koleska and Jablonski 2016). All these sources may cause homeostatic imbalances that can result in incorrect developments of anurans (Ballengé and Sessions 2009). Herein, we reported three sympatric individuals from different families with morphological deformities.
The specimens were found in 2018 between January and February during nocturnal surveys at Reserva Biológica Augusto Ruschi (Rebio AR; 19.9061S, 40.5622W, WGS 84; 786 m a.s.l.), municipality of Santa Teresa, state of Espírito Santo, southeastern Brazil. The remnant is a protected area that comprehends well-preserved forests surrounded by agricultural lands, mainly crops of coffee, banana and Eucalyptus spp. In these agricultural lands there is an extensive use of agrochemicals  (Gatti et al. 2014;Ferreira et al. 2016). Deformities classification followed Meteyer (2000). The specimens were deposited in the Zoological Collection of Instituto Nacional da Mata Atlântica (former Museu de Biologia Mello Leitão -MBML), Santa Teresa, Espírito Santo, Brazil.
On 13 January 2018, we found the first specimen, a juvenile individual of Proceratophrys schirchi (Miranda-Ribeiro, 1937) (voucher number: MBML 11149; SVL = 19.6 mm) with a small right eye, which we recognized as microphthalmia, and a normal left eye ( Fig. 1A-C). Only 53 cases of microphtalmia in anurans were reported worldwide (Henle et al. 2017). The only record in Brazilian anurans was in hybrids of Rhinella icterica (Spix, 1824) with Rhinella crucifer (Wied-Neuwied, 1821), where hybridization seemed to have caused the deformities (Haddad et al. 1990). There is evidence that increased rates of microphtalmia in anurans may be caused by exposition to heavy metals (Fort et al. 2006). Another possible cause of microphtalmia has been suggested to be caused by Ranavirus FV 3 (Burton et al. 2008), but there was no literature on experimental test to evidence it. Dias and Carvalho-e-Silva (2012) registered a case of polymelia (when more than two fore or rear limbs are presents) in adults of Proceratophrys appendiculata (Günther, 1873); they also recorded cases of eye abnormalities (microphthalmia and anophtalmia), but only in tadpoles of this species.
The second malformed individual was a metamorphosing froglet of Crossodactylus timbuhy Pimenta et al. 2014. This anuran (MBML 11196; SVL = 11.2 mm) was collected on 17 January 2018 on a rocky outcrop close to a stream, and a careful examination exposed a case of hemimelia with ectrodactyly and brachydactyly in the left hindlimb, i.e., shortening of tibiafibula and tibia and fibula (hemimelia), only two digits (ectrodactyly), and all of them were short (brachydactyly) ( Fig. 2A-D). Finally, we found an adult male of Thoropa miliaris (Spix, 1824) (MBML 11269; SVL= 59.1 mm) in a roadway on 4 February 2018. The individual was alive, but lethargic with scars probably caused by having been run over. The anuran had malformation in the right forelimb, confirmed by absence of scars or injuries on this member (Fig. 3A). A radiography confirmed that tarsus and metatarsus bones were fused (Fig. 3B), and digits were entirely absent (ectrodactyly).
A previous report presented a case of morphological malformation of an adult of Itapothyla langsdorffii (Duméril & Bibron, 1841) (Hylidae) in Rebio AR, the same protected area of this study (Mônico et al. 2016). This work reported an individual with a malformed head. Although some cases were documented to occur in neotropical regions (Rojas-Morales and Escobar-Lasso 2013;Brouard and Smith 2014;Mônico et al. 2016), reports of malformed anurans in protected areas are considered uncommon. An estimate determined the baseline for malformations in natural populations as being 5% (Lunde and Johnson 2012). Therefore, it is expected that amphibians in well-preserved areas can have natural osteological deformities as a consequence of intrinsic genetic and developmental imperfections (Lunde and Johnson 2012).
The Reserva Biológica Augusto Ruschi embraces several small rivers and streams with sigmoidal forms that cross all the reserve and adjacent lands (ICMBIO 2002). We believe that all individuals collected with malformations could be probably contaminated during its embryonary developing stage in the rivers or streams within or near the reserve, a hypothesis that needs to be tested. Although we have not identified the causes of the malformations described here, they represent information regarding the first cases of malformations in P. schirchi, C. timbuhy and T. miliaris up to now, besides being novel records in the families Cycloramphidae and Hylodidae.