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      KCI등재 SCIE SCOPUS

      Correlation between goose circovirus and goose parvovirus with gosling feather loss disease and goose broke feather disease in southern Taiwan

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      https://www.riss.kr/link?id=A107271182

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      다국어 초록 (Multilingual Abstract)

      Background: Goslings in several Taiwanese farms experienced gosling feather loss disease (GFL) at 21–35 days and goose broke feather disease (GBF) at 42–60 days. The prevalence ranges from a few birds to 500 cases per field. It is estimated that about 12,000 geese have been infected, the morbidity is 70–80% and the mortality is 20–30%.
      Objectives: This study aims to investigate the pathogens that cause GFL and GBF. Focus on the study of the correlation between goose circovirus (GoCV) and goose parvovirus (GPV) with the goose feather loss in southern Taiwan. Furthermore, a phylogenetic tree was established to align the differences between southern and northern Taiwan and compare with virus strains from China and Europe.
      Methods: Samples were collected from animal hospitals. Molecular and microscopy diagnostics were used to examine 92 geese. Specific quantitative polymerase chain reaction (Q-PCR) assays are performed to evaluate GPV and GoCV viral loads and simultaneously evaluated the feather loss conditions in geese with the scoring method.
      Results: High prevalence of GoCV and GPV infection in geese showing signs of GFL and GBF. Inclusion body was detected in the feather follicles and Lieberkühn crypt epithelial cells. The Q-PCR showed the high correlation between feather loss and viruses during 3rd–5th week. However, the infection was not detected using the same test in 60 healthy geese.
      Conclusions: Thus, GFL and GBF appear to be significantly closely related to GoCV and GPV. The geese feathers showed increasing recovery after being quarantined and disinfected.
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      Background: Goslings in several Taiwanese farms experienced gosling feather loss disease (GFL) at 21–35 days and goose broke feather disease (GBF) at 42–60 days. The prevalence ranges from a few birds to 500 cases per field. It is estimated that a...

      Background: Goslings in several Taiwanese farms experienced gosling feather loss disease (GFL) at 21–35 days and goose broke feather disease (GBF) at 42–60 days. The prevalence ranges from a few birds to 500 cases per field. It is estimated that about 12,000 geese have been infected, the morbidity is 70–80% and the mortality is 20–30%.
      Objectives: This study aims to investigate the pathogens that cause GFL and GBF. Focus on the study of the correlation between goose circovirus (GoCV) and goose parvovirus (GPV) with the goose feather loss in southern Taiwan. Furthermore, a phylogenetic tree was established to align the differences between southern and northern Taiwan and compare with virus strains from China and Europe.
      Methods: Samples were collected from animal hospitals. Molecular and microscopy diagnostics were used to examine 92 geese. Specific quantitative polymerase chain reaction (Q-PCR) assays are performed to evaluate GPV and GoCV viral loads and simultaneously evaluated the feather loss conditions in geese with the scoring method.
      Results: High prevalence of GoCV and GPV infection in geese showing signs of GFL and GBF. Inclusion body was detected in the feather follicles and Lieberkühn crypt epithelial cells. The Q-PCR showed the high correlation between feather loss and viruses during 3rd–5th week. However, the infection was not detected using the same test in 60 healthy geese.
      Conclusions: Thus, GFL and GBF appear to be significantly closely related to GoCV and GPV. The geese feathers showed increasing recovery after being quarantined and disinfected.

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      참고문헌 (Reference)

      1 Schettler CH, "Virus hepatitis of geese. II. Host range of goose hepatitis virus" 15 (15): 809-823, 1971

      2 Scott AN, "Serological diagnosis of goose circovirus infections" 35 (35): 495-499, 2006

      3 Cheng AC, "Research on a new infectious disease of goslings" 28 (28): 3-6, 1998

      4 Stenzel T, "Recombinant goose circoviruses circulating in domesticated and wild geese in Poland" 10 (10): 107-, 2018

      5 Woźniakowski G, "Quantitative analysis of waterfowl parvoviruses in geese and Muscovy ducks by real-time polymerase chain reaction : correlation between age, clinical symptoms and DNA copy number of waterfowl parvoviruses" 8 (8): 29-, 2012

      6 Garmyn A, "Persistent goose hemorrhagic polyomavirus infection on a Belgian goose farm" 61 (61): 536-538, 2017

      7 Guo J, "Pathological observations of an experimental infection of geese with goose circovirus" 40 (40): 55-61, 2011

      8 Chen CL, "Nucleotide sequences of goose circovirus isolated in Taiwan" 32 (32): 165-171, 2003

      9 Haddadmarandi MR, "Molecular detection and characterization of beak and feather disease virus in psittacine birds in Tehran, Iran" 19 (19): 22-26, 2018

      10 Yuasa N, "Isolation and some characteristics of an agent inducing anemia in chicks" 23 (23): 366-385, 1979

      1 Schettler CH, "Virus hepatitis of geese. II. Host range of goose hepatitis virus" 15 (15): 809-823, 1971

      2 Scott AN, "Serological diagnosis of goose circovirus infections" 35 (35): 495-499, 2006

      3 Cheng AC, "Research on a new infectious disease of goslings" 28 (28): 3-6, 1998

      4 Stenzel T, "Recombinant goose circoviruses circulating in domesticated and wild geese in Poland" 10 (10): 107-, 2018

      5 Woźniakowski G, "Quantitative analysis of waterfowl parvoviruses in geese and Muscovy ducks by real-time polymerase chain reaction : correlation between age, clinical symptoms and DNA copy number of waterfowl parvoviruses" 8 (8): 29-, 2012

      6 Garmyn A, "Persistent goose hemorrhagic polyomavirus infection on a Belgian goose farm" 61 (61): 536-538, 2017

      7 Guo J, "Pathological observations of an experimental infection of geese with goose circovirus" 40 (40): 55-61, 2011

      8 Chen CL, "Nucleotide sequences of goose circovirus isolated in Taiwan" 32 (32): 165-171, 2003

      9 Haddadmarandi MR, "Molecular detection and characterization of beak and feather disease virus in psittacine birds in Tehran, Iran" 19 (19): 22-26, 2018

      10 Yuasa N, "Isolation and some characteristics of an agent inducing anemia in chicks" 23 (23): 366-385, 1979

      11 Gough D, "Isolation and identification of goose parvovirus in the UK" 156 (156): 424-, 2005

      12 Gough RE, "Isolation and characterisation of a parvovirus from goslings" 108 (108): 399-400, 1981

      13 Bernath S, "Investigations for clearing the etiology of the disease appeared among goslings in 1969" 25 : 531-536, 1970

      14 Kisary J, "Immunological aspects of Derzsy's disease in goslings" 6 (6): 327-334, 1977

      15 Wang S, "Identification of a novel goose parvovirus(GPV)recombinant associated with short beak and dwarfism syndrome in Mainland China, 2015" 41 : 289-291, 2016

      16 Stewart ME, "Identification of a novel circovirus in Australian ravens(Corvus coronoides)with feather disease" 35 (35): 86-92, 2006

      17 Woolcock PR, "Evidence of Muscovy duck parvovirus in Muscovy ducklings in California" 146 (146): 68-72, 2000

      18 Palya V, "Epizootic occurrence of haemorrhagic nephritis enteritis virus infection of geese" 33 (33): 244-250, 2004

      19 Yanpin Li, "Effects of dietary fiber levels on cecal microbiota composition in geese" 아세아·태평양축산학회 31 (31): 1285-1290, 2018

      20 Yang HM, "Effects of caecectomy on digestibility of crude protein, calcium, phosphorus, neutral detergent fibre and acid detergent fibre in geese" 73 (73): 189-192, 2009

      21 Jensen AB, "Effect of brooders on feather pecking and cannibalism in domestic fowl (Gallus gallus domesticus)" 99 (99): 287-300, 2006

      22 Chen S, "Dynamic changes of apoptosis in duck embryo fibroblasts induced by new type gosling viral enteritis virus" 18 (18): 239-244, 2008

      23 Gough RE, "Diseases of Poultry" Iowa State Press 367-374, 2003

      24 Ball NW, "Diagnosis of goose circovirus infection in Hungarian geese samples using polymerase chain reaction and dot blot hybridization tests" 33 (33): 51-58, 2004

      25 Limn CK, "Detection of Goose parvovirus genome by polymerase chain reaction: distribution of Goose parvovirus in Muscovy ducklings" 42 (42): 167-172, 1996

      26 Erfan AM, "Characterization of full genome sequences of chicken anemia viruses circulating in Egypt reveals distinct genetic diversity and evidence of recombination" 251 : 78-85, 2018

      27 Derzsy D, "A viral disease of goslings. I. Epidemiological, clinical, pathological and aetiological studies" 17 (17): 443-448, 1967

      28 Vuillaume A, "A propos de la maladie des oisons d'apparition tardive ou Néphrite Hémorragique-Entérite de l'Oie (N.H.E.O.)" 133 : 341-346, 1982

      29 Guerin JL, "A novel polyomavirus(goose hemorrhagic polyomavirus)is the agent of hemorrhagic nephritis enteritis of geese" 74 (74): 4523-4529, 2000

      30 Amery-Gale J, "A high prevalence of beak and feather disease virus in non-psittacine Australian birds" 66 (66): 1005-1013, 2017

      31 Soike D, "A circovirus-like infection in geese related to a runting syndrome" 28 (28): 199-202, 1999

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2005-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2003-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.08 0.11 0.76
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.61 0.51 0.245 0.05
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