Epizootic of sarcoptic mange in raccoon dogs (Nyctereutes procyonoides) in relation to population density
To examine outbreaks of mange in raccoon dogs (Nyctereutes procyonoides) with respect to population density, we analyzed camera trap videos, and isolated mites from raccoon dog carcasses. In a camera trapping survey, we categorized the skin condition of raccoon dogs, and used a number of independent...
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| Published in | Journal of Veterinary Medical Science Vol. 80; no. 3; pp. 544 - 548 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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Japan
JAPANESE SOCIETY OF VETERINARY SCIENCE
2018
Japan Science and Technology Agency The Japanese Society of Veterinary Science |
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| Abstract | To examine outbreaks of mange in raccoon dogs (Nyctereutes procyonoides) with respect to population density, we analyzed camera trap videos, and isolated mites from raccoon dog carcasses. In a camera trapping survey, we categorized the skin condition of raccoon dogs, and used a number of independent videos to calculate the relative abundance index (RAI). The RAI of raccoon dogs with alopecia increased following an increase in the RAI of those without alopecia. Among 27 raccoon dog carcasses, 12 showed mange-compatible skin lesions. Sarcoptes scabiei was isolated from 11 of these raccoon dogs, indicating that sarcoptic mange was endemic in our study area. Therefore, a high relative population density may be a factor underlying epizootics of sarcoptic mange in raccoon dogs. |
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| AbstractList | To examine outbreaks of mange in raccoon dogs (Nyctereutes procyonoides) with respect to population density, we analyzed camera trap videos, and isolated mites from raccoon dog carcasses. In a camera trapping survey, we categorized the skin condition of raccoon dogs, and used a number of independent videos to calculate the relative abundance index (RAI). The RAI of raccoon dogs with alopecia increased following an increase in the RAI of those without alopecia. Among 27 raccoon dog carcasses, 12 showed mange-compatible skin lesions. Sarcoptes scabiei was isolated from 11 of these raccoon dogs, indicating that sarcoptic mange was endemic in our study area. Therefore, a high relative population density may be a factor underlying epizootics of sarcoptic mange in raccoon dogs.To examine outbreaks of mange in raccoon dogs (Nyctereutes procyonoides) with respect to population density, we analyzed camera trap videos, and isolated mites from raccoon dog carcasses. In a camera trapping survey, we categorized the skin condition of raccoon dogs, and used a number of independent videos to calculate the relative abundance index (RAI). The RAI of raccoon dogs with alopecia increased following an increase in the RAI of those without alopecia. Among 27 raccoon dog carcasses, 12 showed mange-compatible skin lesions. Sarcoptes scabiei was isolated from 11 of these raccoon dogs, indicating that sarcoptic mange was endemic in our study area. Therefore, a high relative population density may be a factor underlying epizootics of sarcoptic mange in raccoon dogs. To examine outbreaks of mange in raccoon dogs (Nyctereutes procyonoides) with respect to population density, we analyzed camera trap videos, and isolated mites from raccoon dog carcasses. In a camera trapping survey, we categorized the skin condition of raccoon dogs, and used a number of independent videos to calculate the relative abundance index (RAI). The RAI of raccoon dogs with alopecia increased following an increase in the RAI of those without alopecia. Among 27 raccoon dog carcasses, 12 showed mange-compatible skin lesions. Sarcoptes scabiei was isolated from 11 of these raccoon dogs, indicating that sarcoptic mange was endemic in our study area. Therefore, a high relative population density may be a factor underlying epizootics of sarcoptic mange in raccoon dogs. To examine outbreaks of mange in raccoon dogs ( Nyctereutes procyonoides ) with respect to population density, we analyzed camera trap videos, and isolated mites from raccoon dog carcasses. In a camera trapping survey, we categorized the skin condition of raccoon dogs, and used a number of independent videos to calculate the relative abundance index (RAI). The RAI of raccoon dogs with alopecia increased following an increase in the RAI of those without alopecia. Among 27 raccoon dog carcasses, 12 showed mange-compatible skin lesions. Sarcoptes scabiei was isolated from 11 of these raccoon dogs, indicating that sarcoptic mange was endemic in our study area. Therefore, a high relative population density may be a factor underlying epizootics of sarcoptic mange in raccoon dogs. |
| Author | DOI, Kandai KATO, Takuya HAYAMA, Shin-ichi SUGIURA, Natsuko MORITA, Tatsushi |
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| Cites_doi | 10.1292/jvms.63.457 10.1016/j.compag.2009.01.001 10.1002/9780470377000.ch5 10.1515/mamm.1999.63.3.281 10.1016/j.biocon.2003.10.004 10.20506/rst.21.2.1335 10.1111/j.1439-0442.1969.tb01035.x 10.7601/mez.49.217 10.3106/mammalstudy.29.37 10.1017/S1367943003003172 10.1016/j.vetpar.2012.07.026 10.1016/j.vetpar.2011.04.036 10.7589/2014-04-094 10.1644/06-MAMM-A-208R1.1 10.1016/S0021-9975(08)80210-1 10.1007/s10310-011-0332-z 10.2307/1382597 10.2307/3809675 |
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| Keywords | raccoon dog population density camera trapping Sarcoptes scabiei sarcoptic mange |
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Mange caused by Sarcoptes scabiei (Acari: Sarcoptidae) in wild raccoon dogs, Nyctereutes procyonoides, in Kanagawa Prefecture, Japan. J. Vet. Med. Sci. 63: 457–460. 24. Shibata, A. 2004. Studies on mange of Wildlife in Japan. Doctoral Thesis, Doctoral Course in Veterinary Medicine, Nippon Veterinary and Life Science University, Tokyo (In Japanese). 30. Tani, K. 2006. Clinical sign, diagnosis and immunology for canine demodicosis. ViVeD 2: 299–303 (In Japanese). 9. Makouloutou, P., Suzuki, K., Yokoyama, M., Takeuchi, M., Yanagida, T. and Sato, H. 2015. Involvement of two genetic lineages of Sarcoptes scabiei mites in a local mange epizootic of wild mammals in Japan. J. Wildl. Dis. 51: 69–78. 33. Yasuda, M. 2004. Monitoring diversity and abundance of mammals with camera traps: a case study on Mount Tsukuba, central Japan. Mammal Study 29: 37–46. 11. Matsuyama, R. 2016. Molecular epidemiology on populations of Sarcoptes scabiei in domestic dogs and wild animals in Japan. Doctoral thesis, Doctoral course of the united graduate school of veterinary sciences, Gifu University (In Japanese). 7. Kido, N., Itabashi, M., Takahashi, M. and Futami, M. 2013. Epidemiology of sarcoptic mange in free-ranging raccoon dogs (Nyctereutes procyonoides) in Yokohama, Japan. Vet. Parasitol. 191: 102–107. 1. Bornstein, S., Mörner, T. and Samuel, W. M. 2001. Sarcoptes scabiei and sarcoptic mange. pp. 107–119. In: Parasitic Diseases of Wild Mammals, 2nd ed. (Samuel, W. M., Pybus, M. J. and Kocan, A. A. eds.), Iowa State University Press, Iowa. 4. Helle, E. and Kauhala, K. 1995. Reproduction in the raccoon dog in Finland. J. Mammal. 76: 1036–1046. 31. Yamamoto, S., Takahashi, M. and Nogami, S. 1998. Scabies in wild raccoon dogs, Nyctereutes procyonoides at the Tomioka-Kanra district in Gunma Prefecture, Japan. Med. Entomol. Zool. 49: 217–222 (In Japanese). 12. Matsuyama, R., Yabusaki, T., Kuninaga, N., Morimoto, T., Okano, T., Suzuki, M. and Asano, M. 2015. Coexistence of two different genotypes of Sarcoptes scabiei derived from companion dogs and wild raccoon dogs in Gifu, Japan: The genetic evidence for transmission between domestic and wild canids. Vet. Parasitol. 212: 356–360. 19. Rijnberk, A., Kinderen,, P. J. der., Thijssen, J. H. H., 1969. Canine Cushing’s syndrome. Zentralbl. Veterinarmed. A 16: 13–28. 20. Rovero, F., Zimmermann, F., Berzi, D. and Meek, P. 2013. “Which camera trap type and how many do I need?” A review of camera features and study designs for a range of wildlife research applications. Hystrix 24: 148–156. 32. Yamamoto, Y., Terao, K., Horiguchi, T., Morita, M. and Yachimori, S. 1994. Home range and dispersal of the raccoon dog (Nyctereutes procyonoides viverrinus) in Mt. Nyugasa, Nagano Prefecture, Japan. Nat. Environ. Sci. Res. 7: 53–61 (In Japanese). 6. Ikeda, H., Eguchi, K. and Ono, Y. 1979. Home range utilization of a raccoon dog, Nyctereutes procyonoides viverrinus, TEMMINCK, in a small islet in western Kyushu. Jap. J. Ecol. 29: 35–48. 22. Saeki, M., Johnson, P. J. and Macdonald, D. W. 2007. Movements and habitat selection of raccoon dogs (Nyctereutes procyonoides) in a mosaic landscape. J. Mammal. 88: 1098–1111. 10. Matsumoto, I., Takashima, K., Yamane, T., Yamane, Y., Okano, T. and Asano, M. 2011. Sarcoptic mange in wild raccoon dogs in western and central Tottori prefecture. Dobutsu Rinsho Igaku 20: 13–17 (In Japanese). 16. Ohtsuka-Ito, E. and Kanzaki, N. 1998. Population trends of the Japanese wild boar during the Showa era. Wildl. Conserv. Jap. 3: 95–105 (In Japanese). 17. Pence, D. B. and Ueckermann, E. 2002. Sarcoptic manage in wildlife. Rev. - Off. Int. Epizoot. 21: 385–398 (International Office of Epizootics). 25. Shibata, F. and Kawamichi, T. 1999. Decline of raccoon dog populations resulting from sarcoptic mange epizootics. Mammalia 63: 281–290. 13. Moll, R. J., Millspaugh, J. J., Beringer, J., Sartwell, J., He, Z., Eggert, J. A. and Zhao, X. 2009. A terrestrial animal-borne video system for large mammals. Comput. Electron. Agric. 66: 133–139. 21. Saeki, M. and Macdonald, D. W. 2004. The effects of traffic on the raccoon dog (Nyctereutes procyonoides viverinus) and other mammals in Japan. Biol. Conserv. 118: 559–571. 8. Machida, N., Kiryu, K., Oh-ishi, K., Kanda, E., Izumisawa, N. and Nakamura, T. 1993. Pathology and epidemiology of canine distemper in raccoon dogs (Nyctereutes procyonoides). J. Comp. Pathol. 108: 383–392. 27. System of statistical information in Gunma Prefecture website. 2017. The number of captured wild animals by hunting and pest control in each municipality. Available at: http://toukei.pref.gunma.jp/chouju/sichoson.html [Accessed 25 May 2017]. 18. Pence, D. B. and Windberg, L. A. 1994. Impact of a sarcoptic mange epizootic on a coyote population. J. Wildl. Manage. 58: 624–633. 29. Tanaka, H. 2009. Rearing behavior of raccoon dogs (Nyctereutes procyonoides viverrinus) in Yamaguchi City, Yamaguchi, Japan. Bull. Yamaguchi Mus. 35: 25–32 (In Japanese). 3. Fain, A. 1968. Etude de la Variabilite de Sarcoptes scabiei avec une Revision des Sarcoptidae. Acta Zool. Pathol. Antverp. 47: 1–196. 5. Ikeda, H. 1983. Development of young and parental care of the raccoon dog, Nyctereutes procyonoides viverrinus TEMMINCK, in captivity. J. Mammal. Soc. Jpn. 9: 229–236. 22 23 24 25 26 27 28 29 30 31 10 32 11 33 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 20 21 |
| References_xml | – reference: 11. Matsuyama, R. 2016. Molecular epidemiology on populations of Sarcoptes scabiei in domestic dogs and wild animals in Japan. Doctoral thesis, Doctoral course of the united graduate school of veterinary sciences, Gifu University (In Japanese). – reference: 16. Ohtsuka-Ito, E. and Kanzaki, N. 1998. Population trends of the Japanese wild boar during the Showa era. Wildl. Conserv. Jap. 3: 95–105 (In Japanese). – reference: 24. Shibata, A. 2004. Studies on mange of Wildlife in Japan. Doctoral Thesis, Doctoral Course in Veterinary Medicine, Nippon Veterinary and Life Science University, Tokyo (In Japanese). – reference: 18. Pence, D. B. and Windberg, L. A. 1994. Impact of a sarcoptic mange epizootic on a coyote population. J. Wildl. Manage. 58: 624–633. – reference: 31. Yamamoto, S., Takahashi, M. and Nogami, S. 1998. Scabies in wild raccoon dogs, Nyctereutes procyonoides at the Tomioka-Kanra district in Gunma Prefecture, Japan. Med. Entomol. Zool. 49: 217–222 (In Japanese). – reference: 21. Saeki, M. and Macdonald, D. W. 2004. The effects of traffic on the raccoon dog (Nyctereutes procyonoides viverinus) and other mammals in Japan. Biol. Conserv. 118: 559–571. – reference: 29. Tanaka, H. 2009. Rearing behavior of raccoon dogs (Nyctereutes procyonoides viverrinus) in Yamaguchi City, Yamaguchi, Japan. Bull. Yamaguchi Mus. 35: 25–32 (In Japanese). – reference: 25. Shibata, F. and Kawamichi, T. 1999. Decline of raccoon dog populations resulting from sarcoptic mange epizootics. Mammalia 63: 281–290. – reference: 32. Yamamoto, Y., Terao, K., Horiguchi, T., Morita, M. and Yachimori, S. 1994. Home range and dispersal of the raccoon dog (Nyctereutes procyonoides viverrinus) in Mt. Nyugasa, Nagano Prefecture, Japan. Nat. Environ. Sci. Res. 7: 53–61 (In Japanese). – reference: 7. Kido, N., Itabashi, M., Takahashi, M. and Futami, M. 2013. Epidemiology of sarcoptic mange in free-ranging raccoon dogs (Nyctereutes procyonoides) in Yokohama, Japan. Vet. Parasitol. 191: 102–107. – reference: 19. Rijnberk, A., Kinderen,, P. J. der., Thijssen, J. H. H., 1969. Canine Cushing’s syndrome. Zentralbl. Veterinarmed. A 16: 13–28. – reference: 22. Saeki, M., Johnson, P. J. and Macdonald, D. W. 2007. Movements and habitat selection of raccoon dogs (Nyctereutes procyonoides) in a mosaic landscape. J. Mammal. 88: 1098–1111. – reference: 3. Fain, A. 1968. Etude de la Variabilite de Sarcoptes scabiei avec une Revision des Sarcoptidae. Acta Zool. Pathol. Antverp. 47: 1–196. – reference: 13. Moll, R. J., Millspaugh, J. J., Beringer, J., Sartwell, J., He, Z., Eggert, J. A. and Zhao, X. 2009. A terrestrial animal-borne video system for large mammals. Comput. Electron. Agric. 66: 133–139. – reference: 5. Ikeda, H. 1983. Development of young and parental care of the raccoon dog, Nyctereutes procyonoides viverrinus TEMMINCK, in captivity. J. Mammal. Soc. Jpn. 9: 229–236. – reference: 30. Tani, K. 2006. Clinical sign, diagnosis and immunology for canine demodicosis. ViVeD 2: 299–303 (In Japanese). – reference: 6. Ikeda, H., Eguchi, K. and Ono, Y. 1979. Home range utilization of a raccoon dog, Nyctereutes procyonoides viverrinus, TEMMINCK, in a small islet in western Kyushu. Jap. J. Ecol. 29: 35–48. – reference: 20. Rovero, F., Zimmermann, F., Berzi, D. and Meek, P. 2013. “Which camera trap type and how many do I need?” A review of camera features and study designs for a range of wildlife research applications. Hystrix 24: 148–156. – reference: 15. Oleaga, A., Casais, R., Balseiro, A., Espí, A., Llaneza, L., Hartasánchez, A. and Gortázar, C. 2011. New techniques for an old disease: sarcoptic mange in the Iberian wolf. Vet. Parasitol. 181: 255–266. – reference: 23. Seki, Y. and Koganezawa, M. 2013. Does sika deer overabundance exert cascading effects on the raccoon dog population? J. For. Res. 18: 121–127. – reference: 28. Takahashi, M., Nogami, S., Misumi, H., Maruyama, S., Shiibashi, T., Yamamoto, Y. and Sakai, T. 2001. Mange caused by Sarcoptes scabiei (Acari: Sarcoptidae) in wild raccoon dogs, Nyctereutes procyonoides, in Kanagawa Prefecture, Japan. J. Vet. Med. Sci. 63: 457–460. – reference: 8. Machida, N., Kiryu, K., Oh-ishi, K., Kanda, E., Izumisawa, N. and Nakamura, T. 1993. Pathology and epidemiology of canine distemper in raccoon dogs (Nyctereutes procyonoides). J. Comp. Pathol. 108: 383–392. – reference: 4. Helle, E. and Kauhala, K. 1995. Reproduction in the raccoon dog in Finland. J. Mammal. 76: 1036–1046. – reference: 10. Matsumoto, I., Takashima, K., Yamane, T., Yamane, Y., Okano, T. and Asano, M. 2011. Sarcoptic mange in wild raccoon dogs in western and central Tottori prefecture. Dobutsu Rinsho Igaku 20: 13–17 (In Japanese). – reference: 9. Makouloutou, P., Suzuki, K., Yokoyama, M., Takeuchi, M., Yanagida, T. and Sato, H. 2015. 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| Snippet | To examine outbreaks of mange in raccoon dogs (Nyctereutes procyonoides) with respect to population density, we analyzed camera trap videos, and isolated mites... To examine outbreaks of mange in raccoon dogs ( Nyctereutes procyonoides ) with respect to population density, we analyzed camera trap videos, and isolated... |
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| SubjectTerms | Alopecia Baldness camera trapping Carcasses Dogs Epizootics Nyctereutes procyonoides Outbreaks Population density raccoon dog Sarcoptes scabiei sarcoptic mange Skin diseases Wildlife Science |
| Title | Epizootic of sarcoptic mange in raccoon dogs (Nyctereutes procyonoides) in relation to population density |
| URI | https://www.jstage.jst.go.jp/article/jvms/80/3/80_17-0092/_article/-char/en https://www.ncbi.nlm.nih.gov/pubmed/29353863 https://www.proquest.com/docview/2022106556 https://www.proquest.com/docview/1989911726 https://pubmed.ncbi.nlm.nih.gov/PMC5880840 |
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