Serosurvey of Parainfluenza Virus (TtPIV1) Antibodies in Two Bottlenose Dolphin (Tursiops truncatus) Populations
IAAAM 2007
Stephanie K. Wong1; Cynthia R. Smith1; Eric D. Jensen1; Rebecca Rivera2; Jeremiah T. Saliki3; Shannon Caseltine4; William Van Bonn5; Randall Wells6; Hendrik H. Nollens7
1U.S. Navy Marine Mammal Program, Space and Naval Warfare Systems Center, San Diego, CA, USA; 2Center for Marine Veterinary Virology, Hubbs-SeaWorld Research Institute, San Diego, CA, USA; 3College of Veterinary Medicine, University of Georgia, Athens, GA, USA; 4College of Veterinary Medicine, Oklahoma State University, Stillwater, OK, USA; 5Animal Health Department, John G. Shedd Aquarium, Chicago, IL, USA; 6Chicago Zoological Society, c/o Mote Marine Laboratory, Sarasota, FL, USA; 7Marine Mammal Health Program, College of Veterinary Medicine, University of Florida, Gainesville, FL, USA and Hubbs-SeaWorld Research Institute, San Diego, CA, USA

Abstract

Evidence of exposure to parainfluenza viruses in wild, terrestrial mammalian populations is common throughout the world, including bison in Alaska (67%)6, chamois in the central Italian Alps (17%)2, pampas deer in Argentina (43%)5, pronghorns in Alberta (49%)3, rhinoceros in South Africa (25%)1 and white-tailed deer in Quebec (82-84%).4

An indirect enzyme-linked immunosorbent assay (ELISA) was developed as a tool to study the epidemiological features of a novel parainfluenza virus (tentatively named TtPIV1) of bottlenose dolphins. In the absence of more than one positive control case, the positive:negative cut-off value with associated sensitivity and specificity parameters could not be calculated for this assay. Instead, the convalescent serum sample of the positive control case with the highest mean optical density (MAN3-3-00) and a serum sample of a neonate bottlenose dolphin before first nursing were included on each plate as, respectively, positive and negative reference sera. The mean optical density (OD405) of each sample was divided by the OD405 of positive reference serum MAN3-3-00. Samples for which the OD405 ratio was > 1.0 were considered to contain antibodies against TtPIV1 (positive or exposed), whereas samples for which the corrected OD405 was = 0.0 were considered not to contain detectable antibodies against TtPIV1 (negative or unexposed). Samples with OD405 ratios > 0.0 but < 1.0 were considered inconclusive.

Serum samples from 114 dolphins were tested, including 58 dolphins managed by the U.S. Navy Marine Mammal Program in San Diego, California (July through October 2006) and 56 free-ranging wild bottlenose dolphins in Sarasota, Florida (June 2003 through June 2005). The mean OD405 ratio among all study samples was 0.4 (SD=0.4; median=0.2, range 0.0-2.8). A total of 13 (11.4%) dolphins were positive, 34 (29.8%) were negative, and 67 (58.8%) were inconclusive. When comparing the two dolphin populations, there were no significant differences in mean OD405 ratio (p=0.6) or percentages of animals characterized as negative, positive, or inconclusive (p=0.5).

Similar to many terrestrial mammalian species, evidence of exposure to parainfluenza virus was not uncommon in both managed and wild healthy bottlenose dolphin populations located on west and east coasts of the United States. A formal risk assessment is being conducted to further characterize the relevance of this virus to marine mammals.

Acknowledgements

The authors would like to thank Dr. Pam Yochem at Hubbs-SeaWorld Research Institute and Dr. Judy St. Leger at SeaWorld San Diego for their co-leadership in establishing the Center for Marine Veterinary Virology. This work was funded by research grant No. N00014-06-1-0250 to HN from the Office of Naval Research. Dolphin Quest support of health assessment operations in Sarasota Bay provided access to samples from wild dolphins. All sample collection protocols were approved by the University of Florida Institutional Animal Care and Use Committee (IACUC# C233). Field sampling was conducted under National Marine Fisheries Service Scientific Research Permit No. 522-1569, issued to Wells.

References

1.  Fischer-Tenhagen C, C Hamblin, S Quandt, K Frolich. 2000. Serosurvey for selected infectious disease agents in free-ranging black and white rhinoceros in Africa. J Wildl Dis 36:316-323.

2.  Gaffuri A, M Giacometti, VM Tranquillo, S Magnino, P Cordolli, P Lanfranchi. 2006. Serosurvey of roe deer, chamois and domestic sheep in the central Italian alps. J Wildl Dis 42:685-690.

3.  Kingscote BF, JG Bohac. Antibodies to bovine bacterial and viral pathogens in pronghorns in Alberta, 1983. 1986. J Wildl Dis 22:511-514.

4.  Sadi L, R Joyal, M St-Georges, L Lamontagne. 1991. Serologic survey of white-tailed deer on Anticosti Island, Quebec for bovine herpesvirus 1, bovine viral diarrhea, and parainfluenza 3. J Wildl Dis 27:569-577.

5.  Ulhart MM, AR Vila, MS Beade, A Balcarce, WB Karesh. 2003. Health evaluation of pamas deer (Ozotoceros bezoarticus celer) at Campos del Tuyu Wildlife Reserve, Argentina. J Wildl Dis 39:887-893.

6.  Zarnke RL. 1983. Serologic survey for selected microbial pathogens in Alaskan wildlife. J Wildl Dis 19:324-329.

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Stephanie K. Wong


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