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. 2012:2012:912326.
doi: 10.1155/2012/912326. Epub 2012 Oct 4.

Persistence of avian influenza viruses in various artificially frozen environmental water types

Dany Shoham  1 Alam JahangirSakchai RuenphetKazuaki Takehara
Affiliations

Persistence of avian influenza viruses in various artificially frozen environmental water types

Dany Shoham et al. Influenza Res Treat. 2012.

Abstract

Background. This study investigates the viable persistence of avian influenza viruses (AIVs) in various types of artificially frozen environmental water and evaluates the feasibility of similar occurrence taking place in nature, and allowing for prolonged abiotic virus survival, with subsequent biotic viral recirculation. Methods. Fresh, brackish, and salty water, taken in Japan from aquatic biotopes regularly visited by migratory waterfowl, were seeded with AIVs. We monthly monitored the viability of the seeded viruses in the frozen state at -20°C and -30°C, for 12 months. We also monitored virus viability following repeatedly induced freezing and thawing. Results. The viruses exhibited considerable viable persistence all along that period of time, as well as during freezing-thawing cycles. Appreciable, yet noncrucial variances were observed in relation to some of the parameters examined. Conclusions. As typical waterborne pathogens of numerous northerly aquatic birds, AIVs are innately adapted to both the body temperature of their hosts (40°C to 42°C) and, presumably, to subzero temperatures of frozen lakes (down to -54°C in parts of Siberia) occupied and virus-seeded by subclinically infected birds, prior to freezing. Marked cryostability of AIVs appears to be evident. Preservation in environmental ice has significant ecophylogenetic and epidemiological implications, potentially, and could account for various unexplained phenomena.

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Figures

Figure 1
Figure 1
Monthly survival of H5N2 at −20°C in three types of experimentally frozen environmental water.
Figure 2
Figure 2
Monthly survival of H5N2 at −30°C in three types of experimentally frozen environmental water.
Figure 3
Figure 3
Monthly survival of H7N1 at −20°C in three types of experimentally frozen environmental water.
Figure 4
Figure 4
Monthly survival of H7N1 at −30°C in three types of experimentally frozen environmental water.
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