Casuistry of xenarthrans treated at the Veterinary Hospital of the Federal University of Pará, Brazilian Amazon

Almeida, Débora V.C.; Magalhães-Matos, Paulo C.; Soares, Airton R.B.; Lopes, Cinthia T.A.; Domingues, Sheyla F.S.

doi:10.1590/1678-5150-PVB-7058

ABSTRACT:

The present study aimed to analyze the casuistry of xenarthrans treated at the veterinary hospital of the Federal University of Pará to quantify the most important cases for clinical care and identify the main species, sex, age group, origin, and destination of the animals admitted. The data were collected from January 2013 to August 2020. The variables analyzed were the number of animals by species, sex, age group, weight (kilograms), form of admission (rescue or guardianship), person responsible for the admission of the animal, origin, circumstances of admission, length of stay (days), and evolution or destination of the animal (release, captivity, death, euthanasia, or escape). Fisher’s exact test was used to determine whether disease incidence was related to sex and whether animal mortality was influenced by sex and disease. The chi-square test was used to determine whether mortality differed by age group. Ninety-two (92) xenarthrans were included: 66 Bradypus variegatus, 10 Choloepus didactylus, 15 Tamandua tetradactyla, and one Dasypus novemcinctus. The animals were mainly from the municipality of Castanhal (70%) and were acquired through rescue (88%, B. variegatus; 80%, C. didactylus; 100%, T. tetradactyla), a significant proportion of which was per natural persons (88%, B. variegatus; 80%, C. didactylus; 100%, T. tetradactyla). The most important circumstances that led to the admission of the animals were as follows: animals for examination (42%, n=39), young animals at risk (9%, n=8), hit by a vehicle (8%, n=7), respiratory disease (7%, n=6), fall from a tree (5%, n=5), and electrotrauma (5%, n=5). Release was the most common destination of animals after hospitalization (59% B. variegatus, 50% C. didactylus, and 66% T. tetradactyla). The sex of the animals did not affect the incidence of disease or mortality in any species. In contrast, mortality of B. variegatus was significantly higher in animals admitted with disease (p=0.000). Mortality in cubs of this species was higher than that in juveniles and adults (p=0.003).

INDEX TERMS:
Retrospective study; amazon region; wild fauna; xenarthrans; sloths; anteater; armadillo

RESUMO:

O objetivo deste trabalho foi analisar a casuística dos Xenarthras atendidos no Hospital Veterinário da Universidade Federal do Pará (UFPA), a fim de quantificar as principais ocorrências para atendimento clínico, identificar as principais espécies, o sexo, a faixa etária, a procedência e destinação dos animais recebidos. Os dados foram obtidos entre janeiro de 2013 a agosto de 2020. As variáveis analisadas foram número de animais por espécie, sexo, faixa etária, peso (quilogramas), forma de recebimento (resgate, tutela), responsável pelo encaminhamento do animal ao hospital, procedência, circunstância de admissão, tempo de internação (dias) e evolução ou destinação do animal recebido (soltura, cativeiro, morte, eutanásia, fuga). O teste de Fisher foi utilizado para avaliar se a ocorrência de doenças estava relacionada ao sexo, bem como se a mortalidade animal foi influenciada pelo sexo e por enfermidades. O teste Qui-quadrado foi utilizado para avaliar se a mortalidade diferiu em relação à faixa etária. Um total de 92 animais Xenarthras foi admitido, composto por 66 Bradypus variegatus, 10 Choloepus didactylus, 15 Tamandua tetradactyla e um Dasypus novemcinctus. Os animais foram procedentes principalmente do município de Castanhal (70%), sendo o resgate a principal forma de aquisição dos animais (88%, B. Variegatus; 80%, C. Didactylus; 100%, T. tetradactyla), realizado em maior parte por pessoa física (88%, B. Variegatus; 80%, C. Didactylus; 100%, T. tetradactyla). O sexo dos animais não influenciou a ocorrência de doenças ou mortalidade em nenhuma espécie. Por outro lado, a mortalidade de B. variegatus foi significativamente maior naqueles animais admitidos com alguma enfermidade (p=0,000). A mortalidade em filhotes desta espécie foi maior quando comparada com as categorias jovem e adulta (p=0,003).

TERMOS DE INDEXAÇÃO:
Estudo retrospectivo; região amazônica; fauna silvestre; Xenarthras; bichos-preguiça; tamanduá; tatu

Introduction

The xenarthrans are mammals from the orders Cingulata and Pilosa, including armadillos, sloths, and anteaters (Medri et al. 2011Medri Í.M., Mourão G.M. & Rodrigues F.H.G. 2011. Ordem Cingulata, p.75-90. In: Reis N.R., Paracchi A.L., Pedro W.A. & Lima I.P. (Eds), Mamíferos do Brasil. 2ª ed. Technical Books, Londrina., Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .). They consist of 38 species divided into six families: Dasypodidae and Chlamyphoridae with 22 armadillo species; Myrmecophagidae and Cyclopedidae with 10 anteater species; Bradypodidae with four species of three-toed sloths; and Megalonychidae with two species of two-toed sloths (Miranda et al. 2018Miranda F.R., Casali D.M., Perini F.A., Machado F.A. & Santos F.R. 2018. Taxonomic review of the genus Cyclopes Gray, 1821 (Xenarthra: Pilosa), with the revalidation and description of new species. Zool. J. Linnean Soc. 183(3):687-721. <https://dx.doi.org/10.1093/zoolinnean/zlx079>
https://doi.org/https://dx.doi.org/10.10... , Schoch et al. 2020Schoch C.L., Ciufo S., Domrachev M., Hotton C.L., Kannan S., Khovanskaya R., Leipe D., Mcveigh R., O’Neill K., Robbertse B., Sharma S., Soussov V., Sullivan J.P., Sun L., Turner S. & Karsch-Mizrachi I. 2020. NCBI Taxonomy: a comprehensive update on curation, resources and tools. Database, 2020:baaa062. <https://dx.doi.org/10.1093/database/baaa062> <PMid:32761142>
https://doi.org/https://dx.doi.org/10.10... ).

In terms of behavior, xenarthrans are solitary, meeting only briefly to mate, with parental care limited to the first few months of life (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .). Depending on the species, they may be active during the day or night.

Armadillos and anteaters feed mainly on insects such as ants and termites. Conversely, sloths include folivores and omnivores species (Ruiz & Huarianga 2014Ruiz D. & Huarianga M.L. 2014. Nutrición y alimentación en la rehabilitación de vermilinguas y estrategias nutricionales pre-liberación, p.70-83. In: Bolaño C.R., Cortes L.M.M. & Avilán R.C.Á. (Eds), Manual de Rehabilitación de Hormigueros de Colombia. Fundación Cunaguaro, Geopark Colombia S.A.S, Corporinoquía, El Yopal, Casanare., Superina et al. 2014Superina M., Brieva C.R., Aguilar R.F. & Trujillo F. 2014. Manual de Mantenimiento y Rehabilitación de Armadillos. Fundación Omacha, ODL, Cormacarena, Corporinoquia, Corpometa y Bioparque Los Ocarros. Bogotá, 96p., Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.).

Factors that have contributed to the decline of xenarthran populations include those related to anthropization, such as runovers, electrocution, and hunting for human consumption. These events have promoted the need for medical care for xenarthrans in veterinary clinics and hospitals (Lima et al. 2012Lima D.A.S.D., Lima W.C., Rodrigues M.C., Quessada A.M., Santos K.M.M., Moura C.R.C., Magalhães C.S. & Sousa J.M. 2012. Trauma elétrico em preguiça de vida livre: relato de caso. Revta Port. Ciênc. Vet. 107:199-202., Costa 2014Costa A.M. 2014. Desafios para a conservação da fauna Amazônica, p.2589-2061. In: Cubas Z.S., Silva J.C.R. & Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo., Bernegossi et al. 2018Bernegossi A.M., Rahal S.C., Melchert A., Teixeira C.R., Lima F.H., Medeiros R.D. & Silva A.A. 2018. Evaluation of collared anteaters (Tamandua tetradactyla) presented in a wildlife health reference center of São Paulo state, Brazil. Biota Neotropica 18(1): e20170440. <https://dx.doi.org/10.1590/1676-0611-BN-2017-0440>
https://doi.org/https://dx.doi.org/10.15... , Carmo et al. 2019Carmo C.C., Miranda J.M.S., Cavalcante M.J.S., Batista Junior F.A., Silva A.L. & Ribeiro A.S.S. 2019. Eletrocussão em preguiça-comum (Bradypus variegatus). Ciênc. Anim. 29(2 Supl.2):27-33., Benarrós et al. 2020aBenarrós M.S.C., Monteiro L.H., Silva D.K.S.M., Lopes C.T.A. & Domingues S.F.S. 2020a. Successful emergency treatment in Bradypus variegatus following non-hemorrhagic hypovolemic shock. Acta Scient. Vet. 48(Supl.1):1-7. <https://dx.doi.org/10.22456/1679-9216.100606>
https://doi.org/https://dx.doi.org/10.22... ).

In addition, some of the species involved in such events are included in the International Union for Conservation of Nature Red List of Threatened Species, such as the giant anteater (Myrmecophaga tridactyla) and collared sloth (Bradypus torquatus), which have been classified as vulnerable species (Chiarello & Moraes-Barros 2014Chiarello A. & Moraes Barros N. 2014. Bradypus torquatus. The IUCN Red List of Threatened Species. 2014: e.T3036A47436575. Available at <https://dx.doi.org/10.2305/IUCN.UK.2014-1.RLTS.T3036A47436575.en> Accessed on Jul. 29, 2021.
https://doi.org/https://dx.doi.org/10.23... , Miranda et al. 2014Miranda F., Bertassoni A. & Abba A.M. 2014. Myrmecophaga tridactyla. The IUCN Red List of Threatened Species. 2014: e.T14224A47441961. Available at <https://dx.doi.org/10.2305/IUCN.UK.2014-1.RLTS.T14224A47441961.en> Accessed on Jul. 29, 2021.
https://doi.org/https://dx.doi.org/10.23... ); thus drawing greater attention to the records of such incidents in these animal groups.

Therefore, the objective of this study was to analyze the casuistry of xenarthrans treated at the Veterinary Hospital of the “Universidade Federal do Pará” (UFPA); quantify the main occurrences of clinical care; identify the main species, sex, age group, origin, and destination of the animals admitted; and correlate sex, age group, morbidity, and mortality of the treated animals.

Materials and Methods

The current study was approved by the animal ethics committee (CEUA/UFPA; protocol 9293261020). Data were collected from the medical records of xenarthrans treated at the wild animals’ sector of the Veterinary Hospital (HV-SAS) of UFPA, located in the municipality of Castanhal, in the state of Pará (01O18’41.28” S; 47O56’50.04” W), where the regional climate, according to the Köppen climate classification, is tropical monsoon with an average annual temperature of 27°C (Alvares et al. 2013Alvares C.A., Stape J.L., Sentelhas P.C., Gonçalves J.L. M. & Sparrovek G. 2013. Köppen’s climate classification map for Brazil. Meteorologische Zeitschrift 22(6):711-728. <https://dx.doi.org/10.1127/0941-2948/2013/0507>
https://doi.org/https://dx.doi.org/10.11... , Souza et al. 2019Souza D.F.S., Pinto J.V.N., Costa D.L.P., Viera I.C.O., Silva T.G.F. & Souza P.J.O.P. 2019. Biophysical controls of evapotranspiration in cowpea cultivation under different water regimes. Revta Bras. Eng. Agrícola Ambient. 23(10):725-732. <https://dx.doi.org/10.1590/1807-1929/agriambi.v23n10p725-732>
https://doi.org/https://dx.doi.org/10.15... ). The study was conducted from January 2013 to August 2020.

Each medical record was considered as a clinical consultation for case collection. The variables tabulated were the number of animals treated by species, sex, age group, body weight (kg), form of admission, person responsible for bringing each animal to the veterinary clinic, origin, circumstances of admission, length of stay (days), and the evolution or destination of the animal in terms of release, captivity, death, euthanasia, or escape.

The admitted animals were categorized as cubs, juveniles, or adults, as previously described for anteaters (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .), armadillos (Superina et al. 2014Superina M., Brieva C.R., Aguilar R.F. & Trujillo F. 2014. Manual de Mantenimiento y Rehabilitación de Armadillos. Fundación Omacha, ODL, Cormacarena, Corporinoquia, Corpometa y Bioparque Los Ocarros. Bogotá, 96p.), and sloths (Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.) to determine the age range. The admission form was cataloged as rescue, voluntary delivery, or guardianship, following the conceptual basis established in “Conselho Nacional do Meio Ambiente” Resolution 457 (CONAMA 2013CONAMA 2013. Resolução nº 457, de 25 de junho de 2013. [Dispõe sobre o depósito e a guarda provisórios de animais silvestres apreendidos ou resgatados pelos órgãos ambientais integrantes do Sistema Nacional do Meio Ambiente, como também oriundos de entrega espontânea, quando houver justificada impossibilidade das destinações previstas no §1º do art. 25, da Lei no 9.605, de 12 de fevereiro de 1998, e dá outras providências]. Diário Oficial da União, Conselho Nacional de Meio Ambiente- CONAMA, Brasília. 7p.). In addition, among the entities responsible for referring animals to veterinary hospitals, those defined in Federal Law 6.938/1981 were identified. These include the Brazilian Institute of Environment and Renewable Natural Resources, the Chico Mendes Institute for Biodiversity Conservation, sectoral entities such as the State Secretariat for Environment and Sustainability, and local entities such as the Municipal Environmental Secretariats. In addition, other public entities such as military firefighting groups, military police, municipal guards, and the Municipal Secretariat of Agriculture and Livestock were also recorded. Private legal entities and natural persons were also registered.

The location of the animals was indicated based on the municipality of origin in the state of Pará on a point map using a free and open-source geographic information system version 3.8.2. For animals from the municipality of Castanhal, where the HV-SAS website is located, the location of the animals was also indicated on the region’s main roads, the city center, and the municipality’s road network.

Circumstances of admission were recorded as clinically healthy animals visiting only for examination, young animals at risk, animals found alone or orphaned after the death of their mothers, and animals hit by a vehicle, fallen from trees, or traumatized by electrocution. In this context, animals that showed no changes after clinical evaluation were considered healthy and referred for release. In contrast, animals with injuries caused by trauma or clinical changes in the respiratory system were classified as sick. In many cases, the history or cause of the changes was not provided by the animal holder upon admission to the hospital, so they were included in the “other” category corresponding to other reasons for admission.

Finally, statistical analyses were performed separately for each Xenarthra species. Fisher’s exact test was used to examine whether the frequency of disease occurrence differed between the sexes and whether there was a correlation between mortality and sex or between mortality and diseases diagnosed in the animals. Data were subjected to a chi-square test to determine whether mortality differed between age groups. All statistical analyses were performed using BioEstat 5.0, with a significance level of α=0.05.

Results

Ninety-two xenarthrans were cared for at the HV-SAS during the evaluation period, including 66 (72%) three-toed sloths (Bradypus variegatus), 10 (11%) two-toed sloths (Choloepus didactylus), 15 (16%) anteaters (Tamandua tetradactyla), and one (1%) nine-banded armadillo (Dasypus novemcinctus). Figure 1 shows the number of species served annually. Males of B. variegatus were the most frequently cared species, accounting for 54% of all entries. In contrast, for C. didactylus and T. tetradactyla, 60% of the treated specimens were females. Adult animals were the most frequently brought to the hospital: 59% of B. variegatus, 60% of C. didactylus, and 86% of T. tetradactyla. Body weights (kg) by age group, sex, and species are listed in Table 1.

Fig.1.
Species of the superorder Xenarthra admitted from January 2013 to August 2020 in UFPA HV-SAS.

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Table 1.
Specific data by the individual, recording and clinical variables, and development/destination of Bradypus variegatus, Choloepus didactylus, and Tamandua tetradactyla

Rescue was the most common form of admission, with 88% for B. variegatus, 80% for C. didactylus, and 100% for T. tetradactyla, most of which were referrals from individuals (Table 1). Animals were mainly from the mesoregion of Belém and northeastern Pará, with the majority coming from the municipality of Castanhal (70%, n=64). The cases comprised 68% B. variegatus (n=45/66), 50% C. didactylus (n=5/10), 86.6% T. tetradactyla (n=13/15), and 100% D. novemcinctus (n=1).

Other occurrences were recorded in the municipalities of Santa Izabel (7%, n=6), Inhangapi (3%, n=3), São Miguel do Guamá (2%, n=2), Igarapé-Açu (2%, n=2), and Barcarena (2%, n=2). Only one xenarthran animal was found from each of the following municipalities: Benevides, Ananindeua, Belém, São Francisco do Pará, Curuçá, Santarém Novo, Capitão Poço, Marudá, Bragança, Tailândia, Novo Repartimento, Paragominas, and Santa Maria do Pará (14%, n=13).

Figure 2 shows maps of the state of Pará (A) and the municipalities from which the animals originated (B), including the municipality of Castanhal and its surroundings, highlighting the distribution associated with the main highways of the region (C) and the city center and road network of the city (D).

Fig.2.
Origin of animals of the superorder Xenarthra treated in UFPA HV-SAS from January 2013 to August 2020 in the state of Pará (A), in the municipality in the metropolitan region, northeast and southeast of Pará (B), in the municipality of Castanhal and surroundings, considering the relationship with the main highways of the area (C), and in the municipality of Castanhal, considering the city center and the road network of the city (D).

The most frequent reasons for seeking clinical care for animals were as follows: clinically healthy animals only for examination (42%, n=39), young animals at risk (9%, n=8), hit by a vehicle (8%, n=7), respiratory changes (7%, n=6), fall from trees (5%, n=5), shock due to electrical discharge (5%, n=5), and aggression from dogs (4%, n=4) and humans (4%, n=4). Less frequently, animals were admitted for other conditions, such as oral mucosal injuries, skin lesions, neurologic signs, claw fractures, hypoglycemia, and myiasis (15%, n=14).

The average length of hospital stay varied depending on the type and cause of admission. Specimens of B. variegatus were destined for release (59% of animals), C. didactylus (50% of animals), and T. tetradactyla (66% of animals) (Table 1). Only one animal of the species D. novemcinctus was treated at HV-SAS: a female juvenile with a body weight of 0.6 kg and respiratory alterations rescued by the military firefighters’ group in 2014. The animal was treated for eight days, but its clinical presentation resulted in death.

Statistical analyses revealed no significant differences in the number of clinical visits or mortality between males and females (Table 2). In contrast, the mortality of B. variegatus was significantly higher in the diseased animals (p=0.000). This difference was not observed in other species, as most animals did not die. In B. variegatus, mortality was significantly higher in cubs than in juveniles and adults (p=0.003).

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Table 2.
The incidence of diseases and mortality in the species studied in the current study, followed by the statistical analysis results (significance level α=0.05)

Discussion

Data on the origin, referral, and admission of mammals of the superorder Xenarthra referred for care to a veterinary hospital in the Brazilian Amazon were evaluated. Previously, a case study was conducted at the National University of Colombia on young sloths with diseases mainly acquired in captivity, with a small number of visits (n=12) (Riaño et al. 2016Riaño D.M.D., Villamizar N.P. & Rico C.I.B. 2016. Casuística de perezosos (Bradypus variegatus y Choloepus hoffmanni) recibidos en la Unidad de Rescate y Rehabilitación de Animales Silvestres (URRAS) de la Universidad Nacional de Colombia entre 2005 y 2010. Edentata 17:34-40. <https://dx.doi.org/10.2305/IUCN.CH.2016.EDENTATA-17-1.6.en>
https://doi.org/https://dx.doi.org/10.23... ). In contrast, the present study included four species of Xenarthra, with many specimens evaluated, except for the nine-banded armadillo, which was rescued.

Although the animals treated at the HV-SAS/UFPA are not at risk of extinction, and their species are classified as Least Concern (Aguiar & Fonseca 2008Aguiar J.M. & Fonseca G.A.B. 2008. Conservation status of the Xenarthra, p.215-231. In: Vizcaino S.F. & Loughry W.J. (Eds), Biology of the Xenarthra. The University Press of Florida, Gainesville., ICMBio 2018ICMBio 2018. Livro Vermelho da Fauna Brasileira Ameaçada de Extinção: volume II - mamíferos. 1.ª ed. Instituto Chico Mendes de Conservação da Biodiversidade, Brasília, DF, p.34-58.), the clinical care of the Xenarthra superorder in the Brazilian Amazon reflects the destruction of their habitat caused by urbanization and the consequent deforestation, fragmentation, and road construction. A previous study reported that hunting and trampling have contributed to the decrease in this population (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .).

The greater number of visits to common sloths (Bradypus variegatus), when compared to other species, may be associated with the geographical distribution of these animals as well as with biological and behavioral factors. This species is widely distributed throughout Brazil and is found mainly in the Amazon and Atlantic Forests (Paglia et al. 2012Paglia A.P., Fonseca G.A.B., Rylands A.B., Herrmann G., Aguiar L.M.S., Chiarello A.G., Leite Y.L.R., Costa L.P., Siciliano S., Kierulff M.C.M., Mendes S.L., Tavares V.C., Mittermeier R.A. & Patton J.L. 2012. Lista Anotada dos Mamíferos do Brasil. 2ª ed. Occasional Papers in Conservation Biology, Arlington, VA, p.18-19. (No.6. Conservation International).) and in various plant strata and degraded areas (Costa 2014Costa A.M. 2014. Desafios para a conservação da fauna Amazônica, p.2589-2061. In: Cubas Z.S., Silva J.C.R. & Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo.). In addition, they are diurnal animals (Lima et al. 2018Lima A.K.F, Felipe C.B. & Silva G.M.L. 2018. Biologia reprodutiva de Bradypus variegatus Schinz (1825): challenges and perspectives. Revta Bras. Reprod. Anim. 42(3/4):109-113.), which makes them more visible in anthropogenic environments because they have low metabolism and move slowly across the ground, making them vulnerable to predation, being run over, or captured in nature; however, their slow movement also increases their chances of being rescued in risk situations (Pauli et al. 2016Pauli J.N., Peery M.Z., Fountain E.D. & Karasov W.H. 2016. Arboreal folivores limit their energetic output, all the way to slothfulness. American Naturalist 188(2):196-204. <https://dx.doi.org/10.1086/687032> <PMid:27420784>
https://doi.org/https://dx.doi.org/10.10... ). In contrast, sloths (Choloepus didactylus) have a relatively restricted distribution in northern Brazil (Trinca et al. 2006Trinca C.T., Palmeira F.B.L. & Silva Júnior J.S. 2006. A southern extension of the geographic distribuition of the two-toed sloth, Choloepus didactylus (Xenarthra, Megalonychidae). Edentata 2006(7):7-9. <https://dx.doi.org/10.1896/1413-4411.7.1.7>
https://doi.org/https://dx.doi.org/10.18... ) and are camouflaged in tree canopies (Costa 2014Costa A.M. 2014. Desafios para a conservação da fauna Amazônica, p.2589-2061. In: Cubas Z.S., Silva J.C.R. & Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo.). Further, these animals are nocturnal, similar to Tamandua tetradactyla and Dasypus novemcinctus (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .), which may have contributed to the lower records of these species.

Miranda (2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .) added that Xenarthrae are solitary, making them more vulnerable to attacks by other animals (Smith 2007Smith P. 2007. Tamandua tetradactyla, p.5. In: Ibid. (Ed.), Fauna Paraguay Handbook of the Mammals of Paraguay. Available at <Available at http://wwwfaunaparaguay.com/mamm3Tamanduatetradactyla.pdf > Accessed on Oct. 23, 2020.
http://wwwfaunaparaguay.com/mamm3Tamandu... ), unlike those living in packs, where they protect themselves from different threats. Another aspect is that adults, the most attended age group of the studied species, travel in search of sexual partners or because of pressure from environmental fragmentation (Silva et al. 2017Silva G.A.O., Paz M.C.P. & Cordeiro T.A. 2017. Monitoramento do bicho-preguiça Bradypus variegatus Schinz, 1825 (Xenarthra: Bradypodidae) em um remanescente de Floresta Atlântica (João Pessoa-PB, Nordeste do Brasil). Revta Bras. Gestão Ambiental Sustentabilidade 4(8):299-312. <https://dx.doi.org/10.21438/rbgas.040805>
https://doi.org/https://dx.doi.org/10.21... ). In contrast, the offspring under maternal care and juveniles are poorly visualized, as they have a more limited displacement (Silva et al. 2017Silva G.A.O., Paz M.C.P. & Cordeiro T.A. 2017. Monitoramento do bicho-preguiça Bradypus variegatus Schinz, 1825 (Xenarthra: Bradypodidae) em um remanescente de Floresta Atlântica (João Pessoa-PB, Nordeste do Brasil). Revta Bras. Gestão Ambiental Sustentabilidade 4(8):299-312. <https://dx.doi.org/10.21438/rbgas.040805>
https://doi.org/https://dx.doi.org/10.21... , Laino et al. 2020Laino R., Musalem K., Caballero-Gini A., Bueno-Villafañe D., González-Maya J.F. & Chaparro S. 2020. Anteater on the edge: giante and lesser anteaters (Myrmecophaga tridactyla and Tamandua tetradactyla) at their geographic distributional limits in Paraguay. Iheringia, Sér. Zoologica 110:e2020007. <https://dx.doi.org/10.1590/1678-4766e2020007>
https://doi.org/https://dx.doi.org/10.15... ). Adults are also hunted for meat consumption, a practice already registered in the state of Pará (Baía Júnior et al. 2010Baía Júnior P.C., Guimarães D.A. & Pendu Y.L. 2010. Non-legalized commerce in game meat in the Brazilian Amazon: a case study. Revta Biol. Trop. 58(3):1079-1088. <https://dx.doi.org/10.15517/rbt.v58i2.5264> <PMid:20737856>
https://doi.org/https://dx.doi.org/10.15... , Cajaiba et al. 2015Cajaiba R.L., Silva W.B. & Piovesan P.R.R. 2015. Animais silvestres utilizados como recurso alimentar em assentamentos rurais no município de Uruará, Pará, Brasil. Desenvolvimento Meio Ambiente 34:157-168. <https://dx.doi.org/10.5380/dma.v34i0.38889>
https://doi.org/https://dx.doi.org/10.53... ).

Regarding the more frequent attendance of animals from the Metropolitan Mesoregions of Belém and Northeast of Pará, the possible reasons are the interurban connections and their proximity to the municipality of Castanhal, the headquarters of the veterinary hospitals, which provides services similar to those of an average Amazonian city. (Trindade Júnior 2011Trindade Júnior S.-C.C. 2011. Cidades médias da Amazônia Oriental: das novas centralidades a fragmentação do território. Revta Bras. Estudos Urbanos Regionais 13(2):135-151. <https://dx.doi.org/10.22296/2317-1529.2011v13n2p135>
https://doi.org/https://dx.doi.org/10.22... ). Therefore, the high occurrence of B. variegatus and T. tetradactyla in this city may be associated with the accelerated and disorderly urbanization process over the last 30 years (Souza et al. 2017Souza T.E.P., Almeida E.A., Souza T.P., Dias Y.S. & Pontes B.C. 2017. Sensoriamento remoto como análise da expansão urbana e a relação com áreas de preservação permanente na sede do município de Castanhal-PA. XXVII Congresso Brasileiro de Cartografia e XXVI Exposicarta, Rio de Janeiro, p.966-970.), in which there has been habitat fragmentation of these animals, with the consequent invasion of secondary vegetation (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .).

In this context, as most of these animals are susceptible to anthropogenic activities, the individuals who circulate in environments are prone to accidents and face risks, such as accidents while crossing roads, the presence of hunters, trees close to electrical wiring (Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.), and rescue or capture, which may justify the findings of this study. This scenario may also have contributed to capturing clinically healthy animals, a category with the highest number of admissions, as commonly observed for B. variegatus and T. tetradactyla. The lack of knowledge in individuals about the ecological relationship between the animal and its habitat possibly led them to capture specimens in unnecessary situations, for example, when they could simply ensure the safe crossing of animals in a fragmented habitat.

The second major cause of Xenarthra care recorded in this study was sloths in vulnerable situations. A retrospective study conducted at the Sanctuary of the Sloths in Costa Rica indicated that 29.1% (211/725) of the admitted animals were orphaned sloth pups (Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.). Although those responsible for delivery did not report their histories at the time of admission, the possibility of the occurrence of other factors that would lead them to be found alone or separated from their mothers, such as a fallen calf from a tree or predatory hunting by the mother, respectively, must be considered.

Among sloths with alterations, injuries from runovers or falls from a tree were the most common causes of admission to HV-SAS. In addition, although these animals are arboreal, they may eventually descend to the ground (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .), and their slow mobility makes them vulnerable to being run over by vehicles (Glista et al. 2009Glista D.J., DeVault T.L. & DeWoody J.A. 2009. A review of mitigation measures for reducing wildlife mortality on roadways. Landsc. Urban Plan. 91(1):1-7. <https://dx.doi.org/10.1016/j.landurbplan.2008.11.001>
https://doi.org/https://dx.doi.org/10.10... , Sássi et al. 2013Sássi C.M., Nascimento A.A.T., Moranda R.F.P. & Carvalho G.D. 2013. Levantamento de animais silvestres atropelados em trecho BR428. Arq. Bras. Med. Vet. Zootec. 65(6):1883-1886. <https://dx.doi.org/10.1590/S0102-09352013000600041>
https://doi.org/https://dx.doi.org/10.15... , Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.), which may explain the detections mainly in the municipality of Castanhal, where most animals were found near or along highways.

In a retrospective study of pedestrian roadkill in xenarthrans, the authors reported that the Center for Medicine and Research in Wild Animals (CEMPAS) in the state of São Paulo provided clinical care to 46 wild anteaters (T. tetradactyla), in which 36.96% (17/46) were admitted due to roadkill, with incidents mainly related to the SP-300 highway (Bernegossi et al. 2018Bernegossi A.M., Rahal S.C., Melchert A., Teixeira C.R., Lima F.H., Medeiros R.D. & Silva A.A. 2018. Evaluation of collared anteaters (Tamandua tetradactyla) presented in a wildlife health reference center of São Paulo state, Brazil. Biota Neotropica 18(1): e20170440. <https://dx.doi.org/10.1590/1676-0611-BN-2017-0440>
https://doi.org/https://dx.doi.org/10.15... ). A recent study also found that runover trauma was the most common reason for admission, accounting for 31% (44/141) of the injury cases of free-ranging anteaters and armadillos (Torres 2019Torres A.A.A. 2019. Estudo observacional de afecções da superordem Xenarthra de vida livre e cativeiro no Brasil. Dissertação de Mestrado, Universidade Federal de Minas Gerais, Belo Horizonte, 105p.). Wildlife car crashes on highways, which are frequently reported (Sássi et al. 2013Sássi C.M., Nascimento A.A.T., Moranda R.F.P. & Carvalho G.D. 2013. Levantamento de animais silvestres atropelados em trecho BR428. Arq. Bras. Med. Vet. Zootec. 65(6):1883-1886. <https://dx.doi.org/10.1590/S0102-09352013000600041>
https://doi.org/https://dx.doi.org/10.15... , Ramos-Abrantes et al. 2018Ramos-Abrantes M.M., Carreiro A.N., Araújo D.V.F., Souza J.G., Lima J.P.R., Cezar H.R.A., Leite L.S. & Abrantes S.H.F. 2018. Vertebrados silvestres atropelados na rodovia BR-230, Paraíba, Brasil. Pubvet 12(1):1-7. <https://dx.doi.org/10.22256/pubvet.v12n1a5.1-7>
https://doi.org/https://dx.doi.org/10.22... , Castro et al. 2020Castro R.E.E., Dos Santos T.O., Gomes G.S.O. & Latini R.O. 2020. Atropelamentos de vertebrados em uma área de Mata Atlântica na rodovia MG-260 em Cláudio, Minas Gerais, Brasil. Periódico Científico Núcleo Biociências 10(19):1-13.), are mainly related to the construction of these roads and the resulting habitat fragmentation, which affects natural displacement in the search for food, refuge, or sexual partners.

Electrical trauma is also common for the admission of arboreal species such as sloths and anteaters. Arboreal species in urban areas are highly susceptible to electrical trauma because they spend most of their time in the canopy and, in some cases, climb poles or move along power distribution lines near their habitats (Lima et al. 2012Lima D.A.S.D., Lima W.C., Rodrigues M.C., Quessada A.M., Santos K.M.M., Moura C.R.C., Magalhães C.S. & Sousa J.M. 2012. Trauma elétrico em preguiça de vida livre: relato de caso. Revta Port. Ciênc. Vet. 107:199-202., Kumar & Kumar 2015Kumar V. & Kumar V. 2015. Seasonal electrocution fatalities in free-range rhesus macaques (Macaca mulatta) of Shivalik hills area in northern India. J. Med. Primatol. 44(3):137-142. <https://dx.doi.org/10.1111/JMP.12168> <PMid:25683769>
https://doi.org/https://dx.doi.org/10.11... , Carmo et al. 2019Carmo C.C., Miranda J.M.S., Cavalcante M.J.S., Batista Junior F.A., Silva A.L. & Ribeiro A.S.S. 2019. Eletrocussão em preguiça-comum (Bradypus variegatus). Ciênc. Anim. 29(2 Supl.2):27-33.). The electrocution case in T. tetradactyla discussed in this casuistry was reported by Gering et al. (2017Gering A.P., Nascimento M.N.S., Lopes C.T.A & Domingues S.F.S. 2017. Atendimento emergencial de Tamandua tetradactyla (Linnaeus, 1758) vítima de eletrocussão: relato de caso. J. LAVECCS 9(1):2-7.) and is the first report of this type of accident in this species. The case occurred at night when the animal was startled by a flashlight and climbed a pole, where it came into contact with the power grid. Although lesser anteaters live mainly in trees, they also use the ground for rest and food (Rodrigues & Marinho-Filho 2003Rodrigues F.H.G. & Marinho-Filho J.S. 2003. Diurnal rest sites of translocated less anteaters (Tamandua tetradactyla) in the Cerrado of Brazil. Edentata (5):44-46.), which may make this species less vulnerable to electrocution accidents.

Among the animals treated at the Veterinary Hospital, the species C. didactylus and T. tetradactyla were the only ones successfully treated after electrical trauma. In contrast, all animals of the species B. variegatus died. In these cases, the intensity of the shock, the resistance of the tissue, and the course of the current are some of the factors related to the severity of the injury (Magarão et al. 2011Magarão R.V.Q., Guimarães H.P. & Lopes R.D. 2011. Lesões por choque elétrico e por raios. Revta Soc. Bras. Clín. Méd. 9(4):288-293.), and the currents that pass through the heart carry a higher risk of mortality. Another factor that may have influenced the mortality in these animals was the delay in emergency care, which is essential for stabilizing and improving the prognosis of animals who underwent electrocution (Gering et al. 2017Gering A.P., Nascimento M.N.S., Lopes C.T.A & Domingues S.F.S. 2017. Atendimento emergencial de Tamandua tetradactyla (Linnaeus, 1758) vítima de eletrocussão: relato de caso. J. LAVECCS 9(1):2-7.).

Other causes of admission for anteaters include aggression from dogs and tegumentary lesions in the tail, limbs, and claws. These animals were found in anthropogenic and peridomestic areas; therefore, they were more vulnerable to attacks by dogs. Although the causes of the tegumentary injuries are unknown, it is reasonable to speculate that the trauma occurred when unskilled individuals captured the animals. Dog aggression is among the greatest threats to anteaters (Rojano 2014Rojano C. 2014. Estatus de conservación de los vermilingua de Colombia, p.33-37. In: Bolaño C.R., Cortes L.M.M. & Avilán R.C.Á. (Eds), Manual de Rehabilitación de Hormigueros de Colombia. Fundación Cunaguaro, Geopark Colombia S.A.S, Corporinoquía, El Yopal, Casanare.). A study conducted by CEMPAS in São Paulo found that dogs attacked 21.74% (10/46) of the treated animals, the second most common cause of admission.

The average length of stay of animals admitted for treatment varied according to the reason for admission, animal type, and disease course. The current study demonstrates the success of the conjunct action of the Veterinary Hospital team and environmental authorities in terms of management and monitoring of the release, especially for animals admitted as clinically healthy, with a shorter average hospitalization time. Knowledge of the animal’s area of origin, the presence of food and shelter, and the speedy triggering of environmental entities was crucial for the immediate release of rescued animals, as provided in the normative instruction for ecological protection (ICMBio 2014ICMBio 2014. Instrução Normativa 23, de 31 de dezembro de 2014. [Define as diretrizes e os procedimentos para a destinação de animais silvestres apreendidos, resgatados por autoridade competente ou entregues voluntariamente pela população, bem como para o funcionamento dos Centros de Triagem de Animais Silvestres do IBAMA - CETAS]. Diário Oficial da União, Instituto Chico Mendes de Conservação da Biodiversidade, Brasília. 1p.).

The average hospitalization times for B. variegatus and C. didactylus cubs were similar at approximately 90 days. Most juveniles that remained in captivity to grow for subsequent release developed gastric (such as compaction and tympanism) or respiratory (such as aspiration pneumonia) diseases and eventually died.

However, in recent years, there have been advances in the management protocol for artificially raising these animals for a period of up to six months, in which a progressive increase in body mass has been observed through the establishment of a diet, the frequency of feeding, and a weaning protocol for these species (Benarrós et al. 2020bBenarrós M.S.C., Silva S.K.S.M., Matos S.E.R., Lopes C.T.A. & Domingues S.F.S. 2020b. Hand-rearing and weaning of a Bradypus variegatus cub - case report. I Congresso Internacional de Conservação de Xenarthra (CICX). 1ª ed. (Resumo)). In animals admitted with electrical trauma, the hospitalization time was shorter in three-toed sloths owing to the severity of the injuries and the difficulty of handling them in captivity, quickly bringing them close to death. In contrast, the hospitalization time was longer for the two-toed sloths and lesser anteaters because treating and fully recovering the animals to a healthy state took longer.

A high mortality rate occurred in individuals of B. variegatus who were hospitalized with some disease. Caring for these hospitalized animals in captivity appears difficult, as they are highly susceptible to adaptive stress, resulting in immunological depression (Lima et al. 2012Lima D.A.S.D., Lima W.C., Rodrigues M.C., Quessada A.M., Santos K.M.M., Moura C.R.C., Magalhães C.S. & Sousa J.M. 2012. Trauma elétrico em preguiça de vida livre: relato de caso. Revta Port. Ciênc. Vet. 107:199-202.). In addition, the main limiting factors are mimicking the natural environment that provides the necessary conditions for thermoregulation of the species (Miranda 2014Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .) and diet adequacy (Diniz & Oliveira 1999Diniz L.S.M. & Oliveira P.M.A. 1999. Clinical problems of sloths (Bradypus sp. and Choloepus sp.) in captivity. J. Zoo Wildl. Med. 30(1):76-80. <PMid:10367647>, Superina et al. 2008Superina M., Miranda F. & Plese T. 2008. Maintenance of Xenarthra in captivity, p.232-243. In: Vizcaino S.F. & Loughry W.J. (Eds), The Biology of Xenarthra. The University Press of Florida, Gainesville.). Most importantly, the dietary requirements of this species in the wild include the consumption of algae (rich in carbohydrates, lipids, and proteins) that grow on the fur of the animal, which is coordinated by a mutualistic relationship between sloths, moths, and algae (Pauli et al. 2014Pauli J.N., Mendoza J.E., Steffan S.A., Carey C.C., Weimer P.J. & Peery M.Z. 2014. A syndrome of mutualism reinforces the lifestyle of a sloth. Proc. Royal Soc. B. 281:20133006. <https://dx.doi.org/10.1098/rspb.2013.3006> <PMid:24452028>
https://doi.org/https://dx.doi.org/10.10... ).

The high mortality rate of sick B. variegatus cubs reared in this study is similar to that in previous studies (Mckenzie et al. 2005McKenzie A., Ernst G. & Taranu Z. 2005. Behavioural Studies and Rehabilitation of Sloths in Parque Natural Metropolitano. Parque Natural Metropolitano Panama, McGill, Smitsonian Tropical Research Institute, Panama. 72p. Available at <Available at https://www.mcgill.ca/pfss/files/pfss/Sloths_Report.pdf > Accessed on Sep. 1, 2020.
https://www.mcgill.ca/pfss/files/pfss/Sl... , Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.). Cub handling is generally complex and requires special care, such as controlling humidity, temperature, and feeding, especially during feed changes (transition from liquid to paste feed) or even over the amount ingested to avoid aspiration, which can occur with excessive feeding. (Oliger & Nicolai 2017Oliger C.D. & Nicolai G.P. 2017. Manual de Manejo, Medicina y Rehabilitacion de Perezosos. Fundación Huálamo - Centro de Rehabilitación de Fauna Silvestre, Valdivia. 154p.). The results showed that animal recovery was more difficult when hospitalization was associated with complications, such as trauma due to a fall, fracture, or pneumonia, as the cubs died despite intensive care.

Conclusions

The data presented in the present study show the profile and process of care of xenarthran animals at a veterinary hospital in the Brazilian Amazon.

During the study period, admissions were of Bradypus variegatus, followed by Tamandua tetradactyla and Choloepus didactylus, mainly adults, under rescue conditions, which, in most cases, were performed by natural persons. Most cases occurred in the municipality of Castanhal.

The mortality rate of B. variegatus was significantly higher in animals with certain diseases. The mortality rate of the cubs of this species was higher than that of juveniles and adults.

Acknowledgments

The first author thanks the “Coordenação de Aperfeiçoamento de Pessoal de Nível Superior” (CAPES) for the granting of a Ph.D. scholarship, the dean of Research and Graduate Studies (Propesp) of the “Universidade Federal do Pará” (UFPA) for the financial support to the publication of this work and the “Hospital Veterinário - Setor de Animais Silvestres” (HV-SAS) of the UFPA for the technical and logistical support in providing the database.

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» https://www.mcgill.ca/pfss/files/pfss/Sloths_Report.pdf
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» https://doi.org/https://dx.doi.org/10.1093/zoolinnean/zlx079
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Publication Dates

Publication in this collection
09 Oct 2023
Date of issue
2023

History

Received
02 Jan 2023
Accepted
16 May 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution License

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[20] Lima A.K.F, Felipe C.B. & Silva G.M.L. 2018. Biologia reprodutiva de Bradypus variegatus Schinz (1825): challenges and perspectives. Revta Bras. Reprod. Anim. 42(3/4):109-113.

[21] Lima D.A.S.D., Lima W.C., Rodrigues M.C., Quessada A.M., Santos K.M.M., Moura C.R.C., Magalhães C.S. & Sousa J.M. 2012. Trauma elétrico em preguiça de vida livre: relato de caso. Revta Port. Ciênc. Vet. 107:199-202.

[22] Magarão R.V.Q., Guimarães H.P. & Lopes R.D. 2011. Lesões por choque elétrico e por raios. Revta Soc. Bras. Clín. Méd. 9(4):288-293.

[23] McKenzie A., Ernst G. & Taranu Z. 2005. Behavioural Studies and Rehabilitation of Sloths in Parque Natural Metropolitano. Parque Natural Metropolitano Panama, McGill, Smitsonian Tropical Research Institute, Panama. 72p. Available at <Available at https://www.mcgill.ca/pfss/files/pfss/Sloths_Report.pdf > Accessed on Sep. 1, 2020.
» https://www.mcgill.ca/pfss/files/pfss/Sloths_Report.pdf

[24] Medri Í.M., Mourão G.M. & Rodrigues F.H.G. 2011. Ordem Cingulata, p.75-90. In: Reis N.R., Paracchi A.L., Pedro W.A. & Lima I.P. (Eds), Mamíferos do Brasil. 2ª ed. Technical Books, Londrina.

[25] Miranda F. 2014. Cingulata (tatus) e Pilosa (preguiças e tamanduás), p.789-806. In: Cubas Z.S., Silva J.C.R., Catão-Dias J.L. (Eds), Tratado de Animais Silvestres: medicina veterinária. 2ª ed. Roca, São Paulo .

[26] Miranda F., Bertassoni A. & Abba A.M. 2014. Myrmecophaga tridactyla The IUCN Red List of Threatened Species. 2014: e.T14224A47441961. Available at <https://dx.doi.org/10.2305/IUCN.UK.2014-1.RLTS.T14224A47441961.en> Accessed on Jul. 29, 2021.
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» https://doi.org/https://dx.doi.org/10.1098/rspb.2013.3006

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» https://doi.org/https://dx.doi.org/10.1086/687032

[32] Ramos-Abrantes M.M., Carreiro A.N., Araújo D.V.F., Souza J.G., Lima J.P.R., Cezar H.R.A., Leite L.S. & Abrantes S.H.F. 2018. Vertebrados silvestres atropelados na rodovia BR-230, Paraíba, Brasil. Pubvet 12(1):1-7. <https://dx.doi.org/10.22256/pubvet.v12n1a5.1-7>
» https://doi.org/https://dx.doi.org/10.22256/pubvet.v12n1a5.1-7

[33] Riaño D.M.D., Villamizar N.P. & Rico C.I.B. 2016. Casuística de perezosos (Bradypus variegatus y Choloepus hoffmanni) recibidos en la Unidad de Rescate y Rehabilitación de Animales Silvestres (URRAS) de la Universidad Nacional de Colombia entre 2005 y 2010. Edentata 17:34-40. <https://dx.doi.org/10.2305/IUCN.CH.2016.EDENTATA-17-1.6.en>
» https://doi.org/https://dx.doi.org/10.2305/IUCN.CH.2016.EDENTATA-17-1.6.en

[34] Rodrigues F.H.G. & Marinho-Filho J.S. 2003. Diurnal rest sites of translocated less anteaters (Tamandua tetradactyla) in the Cerrado of Brazil. Edentata (5):44-46.

[35] Rojano C. 2014. Estatus de conservación de los vermilingua de Colombia, p.33-37. In: Bolaño C.R., Cortes L.M.M. & Avilán R.C.Á. (Eds), Manual de Rehabilitación de Hormigueros de Colombia. Fundación Cunaguaro, Geopark Colombia S.A.S, Corporinoquía, El Yopal, Casanare.

[36] Ruiz D. & Huarianga M.L. 2014. Nutrición y alimentación en la rehabilitación de vermilinguas y estrategias nutricionales pre-liberación, p.70-83. In: Bolaño C.R., Cortes L.M.M. & Avilán R.C.Á. (Eds), Manual de Rehabilitación de Hormigueros de Colombia. Fundación Cunaguaro, Geopark Colombia S.A.S, Corporinoquía, El Yopal, Casanare.

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» https://doi.org/https://dx.doi.org/10.1590/S0102-09352013000600041

[38] Schoch C.L., Ciufo S., Domrachev M., Hotton C.L., Kannan S., Khovanskaya R., Leipe D., Mcveigh R., O’Neill K., Robbertse B., Sharma S., Soussov V., Sullivan J.P., Sun L., Turner S. & Karsch-Mizrachi I. 2020. NCBI Taxonomy: a comprehensive update on curation, resources and tools. Database, 2020:baaa062. <https://dx.doi.org/10.1093/database/baaa062> <PMid:32761142>
» https://doi.org/https://dx.doi.org/10.1093/database/baaa062

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» https://doi.org/https://dx.doi.org/10.21438/rbgas.040805

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Variable		Species of Xenarthra
		Bradypus variegatus		Choloepus didactylus		Tamandua tetradactyla
Sex
	Male	54% (36/66)		30% (3/10)		13% (2/15)
	Female	41% (27/66)		60% (6/10)		60% (9/15)
	Not identified	5% (3/66)		10% (1/10)		27% (4/15)

Age range
	Cubs	18% (12/66)		40% (4/10)		7% (1/15)
	Juveniles	23% (15/66)		-		7% (1/15)
	Adults	59% (39/66)		60% (6/10)		86% (13/15)

Average weight (Kg ± Standard deviation)
		Males	Females	Males	Females	Males	Females
	Cubs	0.654 (±0.38)	0.484 (±0.21)	0.545	1.353 (±0.06)	-	1.77
	Juveniles	1.888 (±0.36)	1.642 (±0.43)	-	-	-	3.20
	Adults	2.939 (±0.33)	2.959 (±0.59)	6.9 (±1.5)	6.177 (±0.93)	4.48 (±0.73)	3.79 (±0.67)

Form of admission
	Rescue	88% (58/66)		80% (8/10)		100% (15/15)
	Voluntary delivery	3% (2/66)		20% (2/10)		-
	Guardianship	3% (2/66)		-		-
	Uninformed	6% (4/66)		-		-

Entities responsible for referring animals to the Veterinary Hospital
	Public entity Sisnama	15% (10/66)		40% (4/10)		-
	Other public entity	38% (25/66)		10% (1/10)		40% (6/15)
	Private legal entities	3% (2/66)		-		7% (1/15)
	Natural persons	44% (29/66)		50% (5/10)		53% (8/15)

Circumstances of admission
	Healthy animals	45% (30/66)		20% (2/10)		46% (7/15)
	vulnerable puppies	9% (6/66)		20% (2/10)-		-
	Hit by a vehicle	11% (7/66)		-		-
	Respiratory changes	6% (4/66)		-		7% (1/15)
	Fallen from trees	8% (5/66)		-		-
	Electrical trauma	4% (3/66)		10% (1/10)		7% (1/15)
	Aggression from dogs	3% (2/66)		-		13% (2/15)
	Human aggression	3% (2/66)		20% (2/10)		-
	Others	11% (7/66)		30% (3/10)		27% (4/15)

Average length of hospital stay in days (± standard deviation); (minimum-maximum)
	Healthy animals	3.79 (±5.56); (1-27)		66.5 (±89.8); (3 - 130)		2.85 (±1.34); (1-5)
	Vulnerable puppies	89.67 (±76.38); (16-208)		90 (±57.98); (49 - 131)		-
	Hit by a vehicle	45.86 (±58.9); (1-142)		-		-
	Respiratory changes	6 (±6.38); (1-15)		-		5
	Fallen from trees	12.8 (±5.97); (5-18)		-		-
	Electrical trauma	11.66 (±14.36); (1-28)		150		270
	Aggression from dogs	203.5 (±17.68); (191-216)		-		2 (±1.41); (1-3)
	Human aggression	98 (±123.04); (11-185)		240.5 (±317.49); (16-465)		-
	Others	25.14 (±25.1); (1-67)		88.33 (±103.73); (1-203)		19.75 (±18.54); (2-45)

Evolution/destination of the animal
	Release	59% (39/66)		50% (5/10)		66% (10/15)
	Captivity	1.5% (1/66)		10% (1/10)		-
	Death	38% (25/66)		40% (4/10)		20% (3/15)
	Euthanasia	1.5% (1/66)		-		-
	Escape	-		-		7% (1/15)
	Medical release	-		-		7% (1/15)

Variable	Bradypus variegatus	p	Choloepus didactylus	p	Tamandua tetradactyla	p
Occurrence of diseases according to sex*
Male	47% (17/36)	1.000	100% (3/3)	0.464	100% (2/2)	0.491
Female	44% (12/27)	1.000	50% (3/6)	0.464	55% (5/9)	0.491

Mortality according to sex *
Male	44%(16/36)	0.298	66% (2/3)	0.523	100% (2/2)	0.109
Female	30% (8/27)	0.298	33% (2/6)	0.523	22% (2/9)	0.109

Mortality according to the presence or absence of diseases
Healthy	14% (5/36)	0.000	25% (1/4)	0.571	0% (0/7)	0.200
Sick	70% (21/30)	0.000	50% (3/6)	0.571	37% (3/8)	0.200

Mortality according to age group
Cubs	83% (10/12)	0.003	NA**		NA
Juveniles	27% (4/15)		NA	-	NA	-
Adults	31% (12/39)		NA		NA

Brasil