Decompression Bubbles in Bycaught Seals and Dolphins: Gas Chromatographic Discrimination from Decomposition
IAAAM 2013
Yara Bernaldo de Quirós1*+; Jeffrey S. Seewald2; Sean P. Sylva2; Bill Greer3,4; Misty Niemeyer5; Andrea L. Bogomolni1,6; and Michael J. Moore1
1Woods Hole Oceanographic Institution, Biology Department, Woods Hole, Massachusetts, 025433, USA; 2Woods Hole Oceanographic Institution, Marine Chemistry and Geochemistry Department, Woods Hole, Massachusetts, 025433, USA; 3Integrated Statistics, Woods Hole, Massachusetts, 02543, USA; 4NOAA NMFS Northeast Fisheries, Woods Hole, Massachusetts, 02543, USA; 5International Fund for Animal Welfare, Yarmouth Port, MA, USA; 6University of Connecticut, Department of Pathobiology and Veterinary Science, Storrs, 06269, USA

Abstract

Gas bubbles were described in marine mammals entangled and drowned in gillnets by computed tomography, gross examinations and histopathology.6 The absence of bacteria and autolytic changes in the tissues of these animals suggests that the gas was peri- or postmortem produced by a fast decompression, probably by hauling animals entangled in the net.6 Gas composition analysis and gas scoring are two new diagnostic tools available to distinguish gas embolisms from putrefaction gases.1,2 These methods have been successfully applied with this goal to pathological studies of marine mammals.3-5 In this study, we characterized the flux and composition of the gas bubbles from bycaught marine mammals in anchored sink gillnets and bottom otter trawls. We compared these data with marine mammals stranded on Cape Cod. Animals with decomposition scores of 2 and 3 were prioritized. Results showed that bycaught animals presented higher gas scores than stranded animals. Gas composition analyses indicate that gas was formed by decompression, corroborating the hypothesis stated by Moore.6

Acknowledgements

The authors would like thank the fishermen and NOAA Fisheries Observers and Observer Program staff as well as to the International Fund for Animal Welfare (IFAW) for providing access and information about the animals. This study was funded by The Woods Hole Oceanographic Institution Marine Mammal Centre and Wick and Sloan Simmons.

* Presenting author
+ Student presenter

Literature Cited

1.  Bernaldo de Quirós Y, Saavedra P, Møllerløkken A, Brubakk AO, Jørgensen A, González-Díaz Ó, et al. 2012. Differentiation of gas at autopsy from in vivo gas embolism vs putrefaction using a gas score. Int J Legal Med. Submitted.

2.  Bernaldo de Quirós Y, González-Díaz O, Møllerløkken A, Brubakk AO, Hjelde A, Saavedra P, Fernández A. 2013. Differentiation at autopsy between in vivo gas embolism and putrefaction using gas composition analysis. Int J Legal Med 127:437–445

3.  Bernaldo de Quirós Y. 2011. Methodology and analysis of gas embolism: experimental models and stranded cetaceans [dissertation]. Las Palmas de Gran Canaria: University of Las Palmas de Gran Canaria.

4.  Bernaldo de Quirós Y, González-Díaz Ó, Saavedra P, Arbelo M, Sierra E, Sacchini S, Jepson PD, Mazzariol S, Di Guardo G,and Fernández A. 2011. Methodology for in situ gas sampling, transport and laboratory analysis of gases from stranded cetaceans.Sci Rep. 1: 193.

5.  Bernaldo de Quirós Y, González-Diaz O, Arbelo M, Sierra E, Sacchini S, Fernández A. 2012. Decompression vs. Decomposition: Distribution, Amount, and Gas Composition of Bubbles in Stranded Marine Mammals. Front Physiol 3:177.

6.  Moore MJ, Bogomolni AL, Dennison SE, Early G, Garner MM, Hayward BA, Lentell BJ, Rotstein DS. 2009. Gas Bubbles in Seals, Dolphins, and Porpoises Entangled and Drowned at Depth in Gillnets. Vet Pathol 46:536–47.

  
URL: /doc/?id=5768695&pid=11375
ef586d55-0187-4b0d-b360-0041e9f1e1c1.1714247466
Speaker Information
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Yara Bernaldo de QuirĂ³s
Woods Hole Oceanographic Institution
Biology Department
Woods Hole, MA, USA


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