Influenza virus subtypes in aquatic birds of eastern Germany
Identifieur interne : 001E34 ( Main/Exploration ); précédent : 001E33; suivant : 001E35Influenza virus subtypes in aquatic birds of eastern Germany
Auteurs : J. Süss [Allemagne] ; J. Sch Fer [Allemagne] ; H. Sinnecker [Allemagne] ; R. G. Webster [États-Unis]Source :
- Archives of Virology [ 0304-8608 ] ; 1994-03-01.
English descriptors
- Teeft :
- Acta virol sinnecker, Anas platyrhynchos, Animal health association, Antibody responses, Antigenic subtypes, Aquatic, Aquatic birds, Arch virol, Avian, Avian influenza, Avian influenza viruses, Avian reservoir, Avian species, Avian viruses, Bird populations, Cloacal swabs, Different combinations, Different influenza, Different subtypes, Distinct flyways, Domestic animals, Domestic ducks, Domestic poultry, Dominant subtype, Duck, East germany, Eastern germany, Feral, Feral birds, Feral ducks, Frequent isolation, Gene pool, Genetic reassortment, Genetic relatedness, Higher titers, Hinshaw, Human pandemic strains, Influenza, Influenza epidemics, Influenza infection, Influenza season, Influenza virus, Influenza virus gene pool, Influenza virus genes, Influenza virus subtypes, Influenza viruses, Initial detection, Lower animals, Mallard, Natural infection, Novel influenza, Other birds, Other species, Other subtypes, Pandemic, Pandemic influenza, Pekin, Pekin ducks, Predominant subtypes, Rfigen island, Same influenza viruses, Sentinel, Sentinel birds, Sentinel ducks, Single farm, Sinnecker, Subtype, Subtype distribution, Subtypes, Surveillance study, Swab, Vast reservoir, Veterinary medicine, Virol, Virology, Virology scholtissek, Virus, Virus detection rates, Virus isolation, Virus subtypes, Water bird colonies, White pekin ducks, Wild bird populations, Wild birds, Wild ducks, Zentralbl bakt.
Abstract
Summary: We report the findings of a 12-year surveillance study (1977–89) of avian influenza A viruses in eastern Germany. Viruses were isolated directly from feral ducks (n=236) and other wild birds (n=89); from domestic ducks (n=735) living on a single farm; and from white Pekin ducks (n=193) used as sentinels for populations of wild aquatic birds; mainly sea birds. The efficiency of virus isolation was 9.9% overall, with considerable variability noted among species: 8.7% in wild ducks, 0.9% in other feral birds and 38% in Pekin ducks. Use of sentinel ducks in wild pelagic bird colonies improved virus detection rates fivefold, suggesting that this approach is advantageous in ecological studies. Among the 40 different combinations of hemagglutinin (HA) and neuraminidase (NA) subtypes we identified, H6N1 predominated (23.6% for all avian species), followed by H4N6 (11%). Among individual species, the frequency profiles favored H2N3 (20.8%) and H4N6 (20.3%) in feral ducks; H7N7 (22.3%), H4N6 (24.4%) and H2N3 (10.4%) in Pekin ducks used as sentinels; and H6N1 (34.8%) and H6N6 (15.1%) in domestic ducks maintained on a single farm. By relying on sentinel birds for serological assays, it was possible to trace an “influenza season” in feral swan populations, beginning in August and continuing through the winter months. Comparison of subtype distribution of influenza viruses for Europe and North American showed significant differences. This supports the fact of two geographically distinct gene pools of influenza viruses in birds connected with their distinct flyways of each hemisphere. The high frequency of isolation of H2 influenza viruses is of considerable interest to those interested in the recycling of this subtype in humans. Similarly the frequent isolation of H7N7 influenza viruses raises concern about reservoirs of potentially pathogenic influenza virus for domestic poultry. Our results confirm the existence of a vast reservoir of influenza A viruses in European aquatic birds, which possesses sufficient diversity to account for strains that infect lower animals and humans.
Url:
DOI: 10.1007/BF01309768
Affiliations:
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Viruses were isolated directly from feral ducks (n=236) and other wild birds (n=89); from domestic ducks (n=735) living on a single farm; and from white Pekin ducks (n=193) used as sentinels for populations of wild aquatic birds; mainly sea birds. The efficiency of virus isolation was 9.9% overall, with considerable variability noted among species: 8.7% in wild ducks, 0.9% in other feral birds and 38% in Pekin ducks. Use of sentinel ducks in wild pelagic bird colonies improved virus detection rates fivefold, suggesting that this approach is advantageous in ecological studies. Among the 40 different combinations of hemagglutinin (HA) and neuraminidase (NA) subtypes we identified, H6N1 predominated (23.6% for all avian species), followed by H4N6 (11%). Among individual species, the frequency profiles favored H2N3 (20.8%) and H4N6 (20.3%) in feral ducks; H7N7 (22.3%), H4N6 (24.4%) and H2N3 (10.4%) in Pekin ducks used as sentinels; and H6N1 (34.8%) and H6N6 (15.1%) in domestic ducks maintained on a single farm. By relying on sentinel birds for serological assays, it was possible to trace an “influenza season” in feral swan populations, beginning in August and continuing through the winter months. Comparison of subtype distribution of influenza viruses for Europe and North American showed significant differences. This supports the fact of two geographically distinct gene pools of influenza viruses in birds connected with their distinct flyways of each hemisphere. The high frequency of isolation of H2 influenza viruses is of considerable interest to those interested in the recycling of this subtype in humans. Similarly the frequent isolation of H7N7 influenza viruses raises concern about reservoirs of potentially pathogenic influenza virus for domestic poultry. Our results confirm the existence of a vast reservoir of influenza A viruses in European aquatic birds, which possesses sufficient diversity to account for strains that infect lower animals and humans.</div></front></TEI><affiliations><list><country><li>Allemagne</li><li>États-Unis</li></country><region><li>Berlin</li><li>Tennessee</li></region><settlement><li>Berlin</li></settlement></list><tree><country name="Allemagne"><region name="Berlin"><name sortKey="Suss, J" sort="Suss, J" uniqKey="Suss J" first="J." last="Süss">J. Süss</name></region><name sortKey="Sch Fer, J" sort="Sch Fer, J" uniqKey="Sch Fer J" first="J." last="Sch Fer">J. Sch Fer</name><name sortKey="Sinnecker, H" sort="Sinnecker, H" uniqKey="Sinnecker H" first="H." last="Sinnecker">H. Sinnecker</name></country><country name="États-Unis"><region name="Tennessee"><name sortKey="Webster, R G" sort="Webster, R G" uniqKey="Webster R" first="R. G." last="Webster">R. G. Webster</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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