Borrelia sp. in naturally infected Didelphis aurita (Wied, 1826) (marsupialia: didelphidae)

Abel, Isis dos Santos; Almeida Junior, Denclair Escobar de; Fonseca, Adivaldo Henrique da; Soares, Cleber Oliveira; Ishikawa, Márcia Mayumi

doi:10.1590/S1516-89132000000300010

Abstracts

Fifty-six opossums (Didelphis aurita) were captured on the campus of Universidade Federal Rural do Rio de Janeiro, Seropédica county, Rio de Janeiro state, in order to investigate the occurrence of Borrelia sp among them in relation with the study of spirochaetemia and its ectoparasites. Blood tests were made through dark field and phase contrast microscopy, as well as the obtainment of blood smears. Smears were stained with Giemsa stain, which did not prove efficacy. There was no relation between results obtained through blood tests (13 opossum positive for Borreliasp.), and this technique (two positive animals). Parasitaemia studies of 37 animals kept in captivity as well as of several recaptures in which animals once negative proved to be positive days later, showed that haemoscopical studies could be used as an effective diagnosis tool. Ectoparasites from nine animals were classified; with the occurrence of nymphal Amblyomma cajennense and adult Ctenocephalides sp..

Borrelia sp.; Didelphis aurita; marsupial; Amblyomma cajennense; Ctenocephalides sp

Cinquenta e seis gambás (Didelphis aurita) foram capturados no campus da Universidade Federal Rural do Rio de Janeiro, Seropédica - Rio de Janeiro, com o intuito de se investigar a ocorrência de Borrelia sp. entre eles, associada ao estudo da espiroquetemia e de seus ectoparasitos. Amostras de sangue dos animais foram examinadas à microscopia de campo escuro e contraste de fase, além deste ter se destinado à obtenção de esfregaços sanguíneos, corados pelo método de Giemsa. Não houve relação entre os resultados obtidos através dos exames diretos do sangue (13 gambás positivos para Borrelia sp.) e aqueles observados nos esfregaços sanguíneos (dois animais positivos), o que demonstra a baixa eficácia desta técnica. Estudos sobre a parasitemia de 37 animais mantidos em cativeiro, assim como as várias recapturas nas quais animais uma vez negativos mostraram-se positivos dias mais tarde, revelaram que os estudos hemoscópicos podem ser utilizados eficientemente como ferramentas de diagnóstico. Ectoparasitos colhidos de nove animais foram classificados. Houve ocorrência de ninfas Amblyomma cajennense e adultos Ctenocephalides sp.

Borrelia sp. InNaturally Infected Didelphis aurita (Wied, 1826) (Marsupialia: Didelphidae)

Isis dos Santos Abel, Denclair Escobar de Almeida Junior, Adivaldo Henrique da Fonseca, Cleber Oliveira Soares^{^*} * Author for correspondence and Márcia Mayumi Ishikawa

Departamento de Epidemiologia e Saúde Pública, IV - UFRRJ, Rod. BR 465 - Km 7, Seropédica - RJ, Brazil

ABSTRACT

Fifty-six opossums (Didelphis aurita) were captured on the campus of Universidade Federal Rural do Rio de Janeiro, Seropédica county, Rio de Janeiro state, in order to investigate the occurrence of Borrelia sp among them in relation with the study of spirochaetemia and its ectoparasites. Blood tests were made through dark field and phase contrast microscopy, as well as the obtainment of blood smears. Smears were stained with Giemsa stain, which did not prove efficacy. There was no relation between results obtained through blood tests (13 opossum positive for Borreliasp.), and this technique (two positive animals). Parasitaemia studies of 37 animals kept in captivity as well as of several recaptures in which animals once negative proved to be positive days later, showed that haemoscopical studies could be used as an effective diagnosis tool. Ectoparasites from nine animals were classified; with the occurrence of nymphal Amblyomma cajennense and adult Ctenocephalides sp..

Key words: Borrelia sp., Didelphis aurita, marsupial, Amblyomma cajennense, Ctenocephalides sp.

INTRODUCTION

Opossums are Metatheria mammals having a close relationship with many zoonotic pathogens. This phenomenon may have resulted from the intense urbanization and decrease of local populations of wild mammals. There is evidence that these animals are reservoirs for Trypanosoma cruzi (Herrera & Urdaneta-Morales, 1992), Leishmania spp. (Sherlock et al., 1984), Sarcocystis spp., Leptospira sp. and the alfavírus (Scorza, 1992), as well as for other infectious agents. The adjustment of these marsupials to peri-residence makes possible the introduction, dispersion and maintenance of wild pathogens.

Microorganisms of the genus Borrelia Swellengrebel, 1907 are pathogenic bacteria, whose common reservoirs are ticks and rodents. However, such agents infect many other hosts, such as domestic and wild animals as well as humans (Barbour et al., 1986). Borreliosis has been assuming relevance since two past decades, and has been registred in North America, Europe, Asia, Africa and South America (Bennett, 1995).

B. burgdorferi latosensu is adapted to rodents (Gordus & Theis, 1993), deers (Gill et al., 1993), migratory birds (McLean et al., 1993), bears (Kazmierczak et al., 1988), foxes (Doby et al., 1991) and opossums (Bonoldi et al., 1996) with the wild cycle involving ixodid ticks as vectors. In Brazil, little is known about borreliosis; however, there are descriptions about Lyme borreliosis in humans (Yoshinari et al., 1997), serologic studies of domestic animals (Fonseca et al., 1996; Ishikawa et al., 1997), as well as records of Borrelia sp. in opossums (Bonoldi et al., 1996).

The objective of the present study was to investigate the occurrence of Borrelia sp. in naturally infected opossums associated with the study of external parasite.

MATERIALS AND METHODS

Opossums were captured on the campusof Universidade Federal Rural do Rio de Janeiro and the neighbouring municipality of Seropédica, Rio de Janeiro State, from January 1995 to May 1998. Drain-pipe placed vertically (14,5cm of wide x 70cm long) were used as a trap. Animals were lured by ripe banana. Peri-residence areas where the occurrence of opossums was reported were chosen as the setting of traps. Captured animals were narcotized, investigated for the presence of external parasites, measured and marked with collars. Blood was collected with anticoagulant by means venopuntion; then the opossums were released close to the place of capture. Blood was used for fresh exam, and analysed by dark field and phase contrast microscope (LEITZ LABORLUX S). Blood smears were obtained which were stained with Giemsa stain diluted in sorensen buffer at pH 6.8.

External parasites collected were taken to the laboratory. Engorged nymphs of ticks infesting the opossums were kept in a biological chamber at 28°C and 85 ± 5% relative humidity in order to proceed with moult for identifying them. Later, they were fixed and kept in 70% ethanol and prepared. The arthropods were identified by the Aragão key (1936) for ticks and the Bicho & Ribeiro key (1998) for fleas. Recaptured animals were subjected to the same procedures.

Out of the captured opossums, 37 were kept in captivity in order to accompany the spirochaetemia phase by Borrelia sp.. These animals were released whenever no spirochaete were observed in the blood between the second and the third month in captivity. Each each week, animals studied were weighed and the blood collected for fresh exam.

RESULTS

Fifty-six opossums Didelphis aurita (Wied, 1826) (Marsupialia: Didelphidae) were captured, out of which 33 were males and 23 were females. Nine (16.07%) showed external parasites. Fleas of the Ctenocephalides genus were frequently found and in three opossums nymphs of the Amblyomma cajennense tick also were found (Table 1).

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Out of 37 opossums kept in captivity, 13 animals were shown to be positive for Borrelia sp., although only nine were bearing borrelia at the moment of capture. Weekly observations showed that four animals acquired spirochaetemia on day 30 in captivity. Opossums that were positive at capture or after staying in captivity showed decrease of spirochaetemia, which remained at low level, or absent during the time in which the animals stayed in capitivity.

On fresh exams it was possible to observe spirochaetes in the blood of 13 (23.21%) opossums, eight of which were males and five were females (Table 1). Blood smear only showed Borrelia sp. in three (5.35%) animals (Figure 1), which were young, showed high spirochaetemia and did not bear external parasites when they were captured (Table 1).

Out of nine marsupials bearing external parasites, three (33.33%) showed spirochaetes in the blood (Table 1). Four animals were recaptured, of which one was negative at capture and a second one was positive. However, on recaptures on days 15 and 150 they were positive and negative, respectively. None of the captured animals bore clinical symptoms.

DISCUSSION

The present results on external parasites affecting opossums are in concordance with the study of Krupp & Quillin (1964), who accounted that fleas were common in these marsupials, whilst ticks were observed only in one animal. Barros & Baggio (1992) also observed ticks in opossums captured in the state of Paraná, Brazil but (n= 8) parasitized by females and nymphs of the Ixodes and the Amblyomma genus.

The best-known vectors of Borrelia are the ticks belonging to the Ixodes genus; however, Schulze et al. (1984) isolated and identified spirochaetes from A. americanum attached to a characteristic lesion of Lyme borreliosis in two humans. This fact prompted him to regard this species as a secondary vector of this borreliosis. In the same manner as A. americanum, all the instars of A. cajennense infested humans. Although, this tick had preference for equines, it is know as a Brazilian ixodid species of the broader parasitism (Aragão, 1936; Flechtmann, 1985). Due to the little specificity and the association of the ixodids of this genus with borreliosis, this tick species may behave as a potencial vector of many pathogenic agents in the area studied.

The presence of fleas could also be significant in relation of the transmission of Borrelia sp.. Presently, this spirochaete was diagnosed in other bloodsucking arthropods, as well as in ticks. Magnarelli & Anderson (1988) reported B. burgdorferi on Stomoxys calcitrans, tabanids and mosquitoes; Butler & Denmark (1990) suggested the involvement of the argasid tick in the transmission of Borrelia; and Doby et al. (1991) reported the flea Spilopsyllus cuniculi infected by B. burgdorferi in foxes in northern of France.

The staining technique used for staining blood smear was not very effective, as there was no correspondence between the results in this method and the ones on the fresh exam. Giemsa staining was quoted by Pêssoa (1963) and Aberer & Duray (1991) as an usual technique in the diagnosis of spirochaetes. However, according to Aberer & Duray (1991) the best methods were the modified Whartin-Starry, Dieterle and Bosma-Steiner silver staining. According to these authors, the indigo staining are good for biological fluids, as the ease preparation and the chemical stability offer advantages for exams of biological fluids for the research of spirochetes.

There was no correspondence between the spirochaetemia observed in 13 animals on fresh exam and on blood smear exams, wherein only three animals were positive. The fact that nine opossums had been positive at the moment of capture and other four showed spirochetes only in captivity can be justified by the adjustment phenomenon as well as to stress. Gordus & Theis (1993) mentioned that in wild animals the spirochaetemia are at low level because borreliae have preference for interstitial areas. Epidemiological studies in Southeast region of Brazil by Fonseca et al. (1996) with cattle, showed a high positivity in animals at Itaguaí-Seropédica microregion as well as in the neighboring municipalities of the state of Rio de Janeiro. Serologic studies for canine borreliosis in the state of Rio de Janeiro showed a prevalence of 20% (Soares, 1998). This corroborated the report of Borrelia sp. affecting the captured marsupials used in this piece of research. Opossums D. aurita can be regarded as reservoirs of Borrelia sp..The study of spirochaetemia and the recaptures showed that haemoscopical analysis could be used as a diagnosis tool for Borrelia sp..

ACKNOWLEDGEMENTS

We are thankful to Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) of Brazil, as well as CARGILL AGRÍCOLA S.A. for the support.

RESUMO

Cinquenta e seis gambás (Didelphis aurita) foram capturados no campus da Universidade Federal Rural do Rio de Janeiro, Seropédica - Rio de Janeiro, com o intuito de se investigar a ocorrência de Borrelia sp. entre eles, associada ao estudo da espiroquetemia e de seus ectoparasitos. Amostras de sangue dos animais foram examinadas à microscopia de campo escuro e contraste de fase, além deste ter se destinado à obtenção de esfregaços sanguíneos, corados pelo método de Giemsa. Não houve relação entre os resultados obtidos através dos exames diretos do sangue (13 gambás positivos para Borrelia sp.) e aqueles observados nos esfregaços sanguíneos (dois animais positivos), o que demonstra a baixa eficácia desta técnica. Estudos sobre a parasitemia de 37 animais mantidos em cativeiro, assim como as várias recapturas nas quais animais uma vez negativos mostraram-se positivos dias mais tarde, revelaram que os estudos hemoscópicos podem ser utilizados eficientemente como ferramentas de diagnóstico. Ectoparasitos colhidos de nove animais foram classificados. Houve ocorrência de ninfas Amblyomma cajennense e adultos Ctenocephalides sp..

Received: March 03, 1999;

Revised: June 24, 1999;

Accepted: November 25, 1999.

Aberer, E. & Duray, P. H. (1991), Morphology of Borrelia burgdorferi: structural patterns of cultured borreliae in relation to staining methods. J. Clin. Microbiol, 29, 764-772
Aragão, H. B. (1936), Ixodidas brasileiros e de alguns países limitrophes. Mem. Inst. Oswaldo Cruz, 31, 759-843
Barbour, A. G. & Hayes, S. F. (1986), Biology of Borrelia species. Microbiol. Rev, 50, 381-400
Barros, D. M. & Baggio, D. (1992), Ectoparasites Ixodida Leach, 1817 on wild animals in the state of Paraná, Brazil. Mem. Inst. Oswaldo Cruz, 87, 291-296
Bennett, C. E. (1995), Ticks and lyme disease. Adv. Parasitol, 36, 343-405
Bicho, C. L. & Ribeiro, P. B. (1998), Chave pictórica para as principais espécies de siphonaptera de importância médica e veterinária, no Brasil. Rev. Bras. Parasitol. Vet, 7, 47-51
Bonoldi, V. L. N.; Battesti, D. M.; Fonseca, A. H.; Soares, C. O.; Leon, E. R.; Zeitune, A. D. & Yoshinari, N. H. (1996), Participação dos gambás (Didelphis marsupialis) no ciclo epidemiológico da doença de lyme. Rev. Bras. Reumatol, 36, 276
Butler, J. F. & Denmark, H. A. (1990), Tick (Acari: Ixodidae) vectors of lyme disease organisms (Borrelia burgdorferi) in Florida. Fla. Dept. Agric. & Consumer serv. Division of Plant Industry. Entomol., Circ Nş. 326
Doby, J. M.; Bigaignon, G.; Aubert, M. & Imbert, G. (1991), Ectoparasites of the fox and lyme borrelioses. Research on Borrelia burgdorferi in ixodid ticks and fleas (Siphonaptera). Bull. Soc. Française Parasitol, 9, 279-288
Flechtmann, C. H. (1985), Ácaros de importância médico-veterinária. Ed. Nobel, São Paulo. 3^a ed., 192p
Fonseca, A. H.; Ishikawa, M. M.; Soares, C. O; Massard, C. L. & Yoshinari, N. H. (1996), Lyme borreliosis serology in cattle in Brazil. Rev. Univ. Rural, Sér. Ciênc. da Vida, 18, 85-89
Gill, J. S.; Johnson, R. C.; Sinclair, M. K. & Weisbrod, A. R. (1993), Prevalence of the lyme disease spirochete, Borrelia burgdorferi, in deer tick (Ixodes dammini) collected from white-tailed deer (Odocoileus virginianus) in Saint Croix State Park, Minnesota. J. Wildl. Dis, 29, 64-72
Gordus, A. G. & Theis, J. H. (1993), Isolation of Borrelia burgdorferi from the blood of a bushy-tailed wood rat in California. J. Wildl. Dis, 29, 478-480
Herrera, L. & Urdaneta-Morales, S. (1992), Didelphis marsupialis: a primary reservoir of Trypanosoma cruzi in urban areas of Caracas, Venezuela. Ann. Trop. Med. Parasitol, 86, 607-612
Ishikawa, M. M.; Fonseca, A. H.; Soares, C. O.; Massard, C. L. & Yoshinari, N. H. (1997), Padronização do ensaio imunoenzimático ELISA indireto para pesquisa de anticorpos da classe IgG contra Borrelia burgdorferi em bovinos. Rev. Bras. Med. Vet, 19, 166-168
Kazmierczak, J. J.; Amundson, T. E. & Burgess, E. C. (1988), Borreliosis in free-ranging black bears from Wisconsin. J. Wildl. Dis, 24, 366-368
Krupp, J. H. & Quillin, R. (1964), A review of the use of the opossum for research - husbandry, experimental techniques and routine health measures. Lab. Anim. Care, 14, 189-194
Magnarelli, L. A. & Anderson, J. F. (1988), Tick and biting insects infected with the etiologic agent of lyme disease, Borrelia burgdorferi J. Clin. Microbiol, 26, 1482-1486
McLean, R. G.; Ubico, S. R.; Nortonhughes, C. A.; Engstrom, S. M. & Johnson, R. C. (1993), Isolation and characterization of Borrelia burgdorferi from blood of a bird capture in the Saint Croix River Valley. J. Clin. Microbiol., 31, 2038-2043
Pêssoa, S. B. (1963), Parasitologia médica Ed. Guanabara Koogan, Rio de Janeiro. 6^a ed., 849p
Schulze, T. L.; Bowen, G. S.; Bosler, E. M.; Lakat, M. F.; Parkin, W. E.; Altman, R.; Ormiston, B. G. & Shisler, J. K. (1984), Amblyomma americanum: a potencial vector of lyme disease in New Jersey. Science, 224, 601-603
Scorza, J. V.(1992), Importancia del Didelphismarsupialis en salud publica Consejo de Publicaciones de Universidad de los Andes. Mérida Venezuela, 62p
Sherlock, I. A.; Miranda, J. C.; Sadigursky, M. & Grimaldi Jr., G. (1984), Natural infection of opossum Didelphis albiventris (Marsupialia: Didelphidae) with Leishmania donovani in Brazil. Mem. Inst. Oswaldo Cruz, 79, 515
Soares, C. O. (1998), Estudo da borreliose canina: imunodiagnóstico, soroepidemiologia e análise interativa com a babesiose canina. Tese de Mestrado, Universidade Federal Rural do Rio de Janeiro, Rio de Janeiro, 80p.
Yoshinari, N. H.; Barros, P. J. L.; bonoldi, V. L. N.; Ishikawa, M. M.; Battesti, D. M. B.; Pirana, S.; Fonseca, A. H. & Schumaker, T. T. (1997), Perfil da borreliose de lyme no Brasil. Rev. Hosp. Clín. Fac. Med. São Paulo, 52, 111-117

*

Author for correspondence

Publication Dates

Publication in this collection
12 Mar 2007
Date of issue
2000

History

Received
03 Mar 1999
Reviewed
24 June 1999
Accepted
25 Nov 1999

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Aberer, E. & Duray, P. H. (1991), Morphology of Borrelia burgdorferi: structural patterns of cultured borreliae in relation to staining methods. J. Clin. Microbiol, 29, 764-772

[2] Aragão, H. B. (1936), Ixodidas brasileiros e de alguns países limitrophes. Mem. Inst. Oswaldo Cruz, 31, 759-843

[3] Barbour, A. G. & Hayes, S. F. (1986), Biology of Borrelia species. Microbiol. Rev, 50, 381-400

[4] Barros, D. M. & Baggio, D. (1992), Ectoparasites Ixodida Leach, 1817 on wild animals in the state of Paraná, Brazil. Mem. Inst. Oswaldo Cruz, 87, 291-296

[5] Bennett, C. E. (1995), Ticks and lyme disease. Adv. Parasitol, 36, 343-405

[6] Bicho, C. L. & Ribeiro, P. B. (1998), Chave pictórica para as principais espécies de siphonaptera de importância médica e veterinária, no Brasil. Rev. Bras. Parasitol. Vet, 7, 47-51

[7] Bonoldi, V. L. N.; Battesti, D. M.; Fonseca, A. H.; Soares, C. O.; Leon, E. R.; Zeitune, A. D. & Yoshinari, N. H. (1996), Participação dos gambás (Didelphis marsupialis) no ciclo epidemiológico da doença de lyme. Rev. Bras. Reumatol, 36, 276

[8] Butler, J. F. & Denmark, H. A. (1990), Tick (Acari: Ixodidae) vectors of lyme disease organisms (Borrelia burgdorferi) in Florida. Fla. Dept. Agric. & Consumer serv. Division of Plant Industry. Entomol., Circ Nş. 326

[9] Doby, J. M.; Bigaignon, G.; Aubert, M. & Imbert, G. (1991), Ectoparasites of the fox and lyme borrelioses. Research on Borrelia burgdorferi in ixodid ticks and fleas (Siphonaptera). Bull. Soc. Française Parasitol, 9, 279-288

[10] Flechtmann, C. H. (1985), Ácaros de importância médico-veterinária. Ed. Nobel, São Paulo. 3^a ed., 192p

[11] Fonseca, A. H.; Ishikawa, M. M.; Soares, C. O; Massard, C. L. & Yoshinari, N. H. (1996), Lyme borreliosis serology in cattle in Brazil. Rev. Univ. Rural, Sér. Ciênc. da Vida, 18, 85-89

[12] Gill, J. S.; Johnson, R. C.; Sinclair, M. K. & Weisbrod, A. R. (1993), Prevalence of the lyme disease spirochete, Borrelia burgdorferi, in deer tick (Ixodes dammini) collected from white-tailed deer (Odocoileus virginianus) in Saint Croix State Park, Minnesota. J. Wildl. Dis, 29, 64-72

[13] Gordus, A. G. & Theis, J. H. (1993), Isolation of Borrelia burgdorferi from the blood of a bushy-tailed wood rat in California. J. Wildl. Dis, 29, 478-480

[14] Herrera, L. & Urdaneta-Morales, S. (1992), Didelphis marsupialis: a primary reservoir of Trypanosoma cruzi in urban areas of Caracas, Venezuela. Ann. Trop. Med. Parasitol, 86, 607-612

[15] Ishikawa, M. M.; Fonseca, A. H.; Soares, C. O.; Massard, C. L. & Yoshinari, N. H. (1997), Padronização do ensaio imunoenzimático ELISA indireto para pesquisa de anticorpos da classe IgG contra Borrelia burgdorferi em bovinos. Rev. Bras. Med. Vet, 19, 166-168

[16] Kazmierczak, J. J.; Amundson, T. E. & Burgess, E. C. (1988), Borreliosis in free-ranging black bears from Wisconsin. J. Wildl. Dis, 24, 366-368

[17] Krupp, J. H. & Quillin, R. (1964), A review of the use of the opossum for research - husbandry, experimental techniques and routine health measures. Lab. Anim. Care, 14, 189-194

[18] Magnarelli, L. A. & Anderson, J. F. (1988), Tick and biting insects infected with the etiologic agent of lyme disease, Borrelia burgdorferi J. Clin. Microbiol, 26, 1482-1486

[19] McLean, R. G.; Ubico, S. R.; Nortonhughes, C. A.; Engstrom, S. M. & Johnson, R. C. (1993), Isolation and characterization of Borrelia burgdorferi from blood of a bird capture in the Saint Croix River Valley. J. Clin. Microbiol., 31, 2038-2043

[20] Pêssoa, S. B. (1963), Parasitologia médica Ed. Guanabara Koogan, Rio de Janeiro. 6^a ed., 849p

[21] Schulze, T. L.; Bowen, G. S.; Bosler, E. M.; Lakat, M. F.; Parkin, W. E.; Altman, R.; Ormiston, B. G. & Shisler, J. K. (1984), Amblyomma americanum: a potencial vector of lyme disease in New Jersey. Science, 224, 601-603

[22] Scorza, J. V.(1992), Importancia del Didelphismarsupialis en salud publica Consejo de Publicaciones de Universidad de los Andes. Mérida Venezuela, 62p

[23] Sherlock, I. A.; Miranda, J. C.; Sadigursky, M. & Grimaldi Jr., G. (1984), Natural infection of opossum Didelphis albiventris (Marsupialia: Didelphidae) with Leishmania donovani in Brazil. Mem. Inst. Oswaldo Cruz, 79, 515

[24] Soares, C. O. (1998), Estudo da borreliose canina: imunodiagnóstico, soroepidemiologia e análise interativa com a babesiose canina. Tese de Mestrado, Universidade Federal Rural do Rio de Janeiro, Rio de Janeiro, 80p.

[25] Yoshinari, N. H.; Barros, P. J. L.; bonoldi, V. L. N.; Ishikawa, M. M.; Battesti, D. M. B.; Pirana, S.; Fonseca, A. H. & Schumaker, T. T. (1997), Perfil da borreliose de lyme no Brasil. Rev. Hosp. Clín. Fac. Med. São Paulo, 52, 111-117

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Borrelia sp. in naturally infected Didelphis aurita (Wied, 1826) (marsupialia: didelphidae)

Abstracts

Publication Dates

History