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2. Forensic microbiology reveals that Neisseria animaloris infections in harbour porpoises follow traumatic injuries by grey seals

Author

Foster, G. (Geoffrey), Whatmore, A.M. (Adrian M.), Dagleish, M.P. (Mark P.), Malnick, H. (Henry), Gilbert, M.J. (Maarten J.), Begeman, L. (Lineke), Macgregor, S.K. (Shaheed K.), Davison, N.J. (Nicholas J.), Roest, H.-J. (Hendrik-Jan), Jepson, P.D. (Paul D.), Howie, F. (Fiona), Muchowski, J. (Jakub), Brownlow, A.C. (Andrew C.), Wagenaar, J.A. (Jaap), Kik, M.J.L. (Marja), Deaville, R., Doeschate, M.T.I.T. (Mariel T I Ten), Barley, J. (Jason), Hunter, L. (Laura), IJsseldijk, L.L. (Lonneke L.), Foster, G. (Geoffrey), Whatmore, A.M. (Adrian M.), Dagleish, M.P. (Mark P.), Malnick, H. (Henry), Gilbert, M.J. (Maarten J.), Begeman, L. (Lineke), Macgregor, S.K. (Shaheed K.), Davison, N.J. (Nicholas J.), Roest, H.-J. (Hendrik-Jan), Jepson, P.D. (Paul D.), Howie, F. (Fiona), Muchowski, J. (Jakub), Brownlow, A.C. (Andrew C.), Wagenaar, J.A. (Jaap), Kik, M.J.L. (Marja), Deaville, R., Doeschate, M.T.I.T. (Mariel T I Ten), Barley, J. (Jason), Hunter, L. (Laura), and IJsseldijk, L.L. (Lonneke L.)

Abstract

Neisseria animaloris is considered to be a commensal of the canine and feline oral cavities. It is able to cause systemic infections in animals as well as humans, usually after a biting trauma has occurred. We recovered N. animaloris from chronically inflamed bite wounds on pectoral fins and tailstocks, from lungs and other internal organs of eight harbour porpoises. Gross and histopathological evidence suggest that fatal disseminated N. animaloris infections had occurred due to traumatic injury from grey seals. We therefore conclude that these porpoises survived a grey seal predatory attack, with the bite lesions representing the subsequent portal of entry for bacteria to infect the animals causing abscesses in multiple tissues, and eventually death. We demonstrate that forensic microbiology provides a useful tool for linking a perpetrator to its victim. Moreover, N. animaloris should be added to the list of potential zoonotic bacteria following interactions with seals, as the finding of systemic transfer to the lungs and other tissues of the harbour porpoises may suggest a potential to do likewise in humans.

Published
2019
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4. Beached bachelors: An extensive study on the largest recorded sperm whale Physeter macrocephalus mortality event in the North Sea

Author

IJsseldijk, L.L. (Lonneke L.), Van Neer, A. (Abbo), Deaville, R., Begeman, L. (Lineke), Bildt, M.W.G. (Marco) van de, Brand, J.M.A. (Judith) van den, Brownlow, A. (Andrew), Czeck, R. (Richard), Dabin, W. (Willy), Doeschate, M.T. (Mariel ten), Herder, V. (Vanessa), Herr, H. (Helena), IJzer, J. (Jooske), Jauniaux, T. (T.), Jensen, L.F. (Lasse Fast), Jepson, P.D. (Paul D.), Jo, W.K. (Wendy Karen), Lakemeyer, J. (Jan), Lehnert, K. (Kristina), Leopold, M.F. (M.), Osterhaus, A.D.M.E. (Albert), Perkins, M.W. (Matthew W.), Piatkowski, U. (Uwe), Prenger-Berninghoff, E. (Ellen), Pund, R. (Ralf), Wohlsein, P. (Peter), Gröne, A. (Andrea), Siebert, U. (Ursula), IJsseldijk, L.L. (Lonneke L.), Van Neer, A. (Abbo), Deaville, R., Begeman, L. (Lineke), Bildt, M.W.G. (Marco) van de, Brand, J.M.A. (Judith) van den, Brownlow, A. (Andrew), Czeck, R. (Richard), Dabin, W. (Willy), Doeschate, M.T. (Mariel ten), Herder, V. (Vanessa), Herr, H. (Helena), IJzer, J. (Jooske), Jauniaux, T. (T.), Jensen, L.F. (Lasse Fast), Jepson, P.D. (Paul D.), Jo, W.K. (Wendy Karen), Lakemeyer, J. (Jan), Lehnert, K. (Kristina), Leopold, M.F. (M.), Osterhaus, A.D.M.E. (Albert), Perkins, M.W. (Matthew W.), Piatkowski, U. (Uwe), Prenger-Berninghoff, E. (Ellen), Pund, R. (Ralf), Wohlsein, P. (Peter), Gröne, A. (Andrea), and Siebert, U. (Ursula)

Abstract

Between the 8th January and the 25th February 2016, the largest sperm whale Physeter macrocephalus mortality event ever recorded in the North Sea occurred with 30 sperm whales stranding in five countries within six weeks. All sperm whales were immature males. Groups were stratified by size, with the smaller animals stranding in the Netherlands, and the largest in England. The majority (n = 27) of the stranded animals were necropsied and/ or sampled, allowing for an international and comprehensive investigation into this mortality event. The animals were in fair to good nutritional condition and, aside from the pathologies caused by stranding, did not exhibit significant evidence of disease or trauma. Infectious agents were found, including various parasite species, several bacterial and fungal pathogens and a novel alphaherpesvirus. In nine of the sperm whales a variety of marine litter was found. However, none of these findings were considered to have been the primary cause of the stranding event. Potential anthropogenic and environmental factors that may have caused the sperm whales to enter the North Sea were assessed. Once sperm whales enter the North Sea and head south, the water becomes progressively shallower (<40 m), making this region a global hotspot for sperm whale strandings. We conclude that the reasons for sperm whales to enter the southern North Sea are the result of complex interactions of extrinsic environmental factors. As such, these large mortality events seldom have a single ultimate cause and it is only through multidisciplinary, collaborative approaches that potentially multifactorial large-scale stranding events can be effectively investigated.

Published
2018
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5. Cetacean Morbillivirus: Current knowledge and future directions

Author

Van Bressem, M.-F., Duignan, P.J., Banyard, A., Barbieri, M., Colegrove, K.M., De Guise, S., Di Guardo, G., Dobson, A., Domingo, M., Fauquier, D., Fernández, A., Goldstein, T., Grenfell, B., Groch, K.R., Gulland, F., Jensen, B.A., Jepson, P.D., Hall, A., Kuiken, T., Saliki, J.T., Sierra, E., Stephens, N., Stone, B., Tomo, I., Wang, J., Waltzek, T., and Wellehan, J.F.X.

Subjects
Diagnosis, Pathogenesis, Epidemics
Abstract

We review the molecular and epidemiological characteristics of cetacean morbillivirus (CeMV) and the diagnosis and pathogenesis of associated disease, with six different strains detected in cetaceans worldwide. CeMV has caused epidemics with high mortality in odontocetes in Europe, the USA and Australia. It represents a distinct species within the Morbillivirus genus. Although most CeMV strains are phylogenetically closely related, recent data indicate that morbilliviruses recovered from Indo-Pacific bottlenose dolphins (Tursiops aduncus), from Western Australia, and a Guiana dolphin (Sotalia guianensis), from Brazil, are divergent. The signaling lymphocyte activation molecule (SLAM) cell receptor for CeMV has been characterized in cetaceans. It shares higher amino acid identity with the ruminant SLAM than with the receptors of carnivores or humans, reflecting the evolutionary history of these mammalian taxa. In Delphinidae, three amino acid substitutions may result in a higher affinity for the virus. Infection is diagnosed by histology, immunohistochemistry, virus isolation, RT-PCR, and serology. Classical CeMV-associated lesions include bronchointerstitial pneumonia, encephalitis, syncytia, and lymphoid depletion associated with immunosuppression. Cetaceans that survive the acute disease may develop fatal secondary infections and chronic encephalitis. Endemically infected, gregarious odontocetes probably serve as reservoirs and vectors. Transmission likely occurs through the inhalation of aerosolized virus but mother to fetus transmission was also reported.

Published
2014

6. Fatal Asphyxiation in Two Long-Finned Pilot Wahles (Globicephala melas) Caused by Common Soles (Solea solea)

Author

IJsseldijk, L., Leopold, M.F., Bravo Rebolledo, Elisa, Deaville, R., Haelters, Jan, IJzer, J., Jepson, P.D., Gröne, A., IJsseldijk, L., Leopold, M.F., Bravo Rebolledo, Elisa, Deaville, R., Haelters, Jan, IJzer, J., Jepson, P.D., and Gröne, A.

Abstract

Long-finned pilot whales (Globicephala melas) are rare visitors to the southern North Sea, but recently two individual strandings occurred on the Dutch coast. Both animals shared the same, unusual cause of death: asphyxiation from a common sole (Solea solea) stuck in their nasal cavity. This is a rare cause of death in cetaceans. Whilst asphyxiation has been reported in smaller odontocetes, there are no recent records of this occurring in Globicephalaspecies. Here we report the stranding, necropsy and diet study results as well as discuss the unusual nature of this phenomenon. Flatfish are not a primary prey species for pilot whales and are rarely eaten by other cetaceans, such as harbour porpoises (Phocoena phocoena), in which there are several reports of asphyxiation due to airway obstruction by soles. This risk may be due to the fish’s flexible bodies which can enter small cavities either actively in an attempt to escape or passively due to the whale ‘coughing’ or ‘sneezing’ to rid itself of the blockage of the trachea. It is also possible that the fish enter the airways whilst the whale is re-articulating the larynx after trying to ingest large, oddly shaped prey. It is unlikely that the soles entered the airways after the death of the whales and we believe therefore that they are responsible for the death of these animals

Published
2015

7. A review of the 1988 and 2002 phocine distemper virus epidemics in European harbour seals

Author

Härkönen, L., Dietz, R., Reijnders, P.J.H., Teilmann, J., Harding, K., Hall, A., Brasseur, S.M.J.M., Siebert, U., Goodman, S.J., Jepson, P.D., Rasmussen, T.D., and Thompson, P.

Subjects
flame retardants, western atlantic, halichoerus-grypus, grey seals, population-dynamics, mass mortality, immune-responses, organochlorine contaminants, marine mammals, Wageningen Marine Research, morbillivirus infection
Abstract

We present new and revised data for the phocine distemper virus (PDV) epidemics that resulted in the deaths of more than 23 000 harbour seals Phoca vitulina in 1988 and 30 000 in 2002. On both occasions the epidemics started at the Danish island of Anholt in central Kattegat, and subsequently spread to adjacent colonies in a stepwise fashion. However, this pattern was not maintained throughout the epidemics and new centres of infection appeared far from infected populations on some occasions: in 1988 early positive cases were observed in the Irish Sea, and in 2002 the epidemic appeared in the Dutch Wadden Sea, 6 wk after the initiation of the outbreak at Anholt Island. Since the harbour seal is a rather sedentary species, such 'jumps' in the spread among colonies suggest that another vector species could have been involved. We discussed the role of sympatric species as disease vectors, and suggested that grey seal populations could act as reservoirs for PDV if infection rates in sympatric species are lower than in harbour seals. Alternatively, grey seals could act as subclinical infected carriers of the virus between Arctic and North Sea seal populations. Mixed colonies of grey and harbour seal colonies are found at all locations where the jumps occurred, It seems likely that grey seals, which show long-distance movements, contributed to the spread among regions. The harbour seal populations along the Norwegian coast and in the Baltic escaped both epidemics, which could be due either to genetic differences among harbour seal populations or to immunity. Catastrophic events such as repeated epidemics should be accounted for in future models and management strategies of wildlife populations.

Published
2006

8. The stranding anomaly as population indicator: the case of Harbour Porpoise Phocoena phocoena in North-Western Europe

Author

Peltier, H., Baagøe, H.J., Camphuysen, K.C.J., Czeck, R., Dabin, W., Daniel, P., Deaville, R., Haelters, J., Jauniaux, T., Jensen, L.F., Jepson, P.D., Keijl, G.O., Siebert, U., Van Canneyt, O., Ridoux, V., Peltier, H., Baagøe, H.J., Camphuysen, K.C.J., Czeck, R., Dabin, W., Daniel, P., Deaville, R., Haelters, J., Jauniaux, T., Jensen, L.F., Jepson, P.D., Keijl, G.O., Siebert, U., Van Canneyt, O., and Ridoux, V.

Abstract

Ecological indicators for monitoring strategies are expected to combine three major characteristics: ecological significance, statistical credibility, and cost-effectiveness. Strategies based on stranding networks rank highly in cost-effectiveness, but their ecological significance and statistical credibility are disputed. Our present goal is to improve the value of stranding data as population indicator as part of monitoring strategies by constructing the spatial and temporal null hypothesis for strandings. The null hypothesis is defined as: small cetacean distribution and mortality are uniform in space and constant in time. We used a drift model to map stranding probabilities and predict stranding patterns of cetacean carcasses under H-0 across the North Sea, the Channel and the Bay of Biscay, for the period 1990-2009. As the most common cetacean occurring in this area, we chose the harbour porpoise Phocoena phocoena for our modelling. The difference between these strandings expected under H-0 and observed strandings is defined as the stranding anomaly. It constituted the stranding data series corrected for drift conditions. Seasonal decomposition of stranding anomaly suggested that drift conditions did not explain observed seasonal variations of porpoise strandings. Long-term stranding anomalies increased first in the southern North Sea, the Channel and Bay of Biscay coasts, and finally the eastern North Sea. The hypothesis of changes in porpoise distribution was consistent with local visual surveys, mostly SCANS surveys (1994 and 2005). This new indicator could be applied to cetacean populations across the world and more widely to marine megafauna.

Published
2013

9. Assessment of the population dynamics and conservation status of harbour porpoise in the North Sea using a population model to synthesize information on life history, abundance and bycatch

Author

Winship, A.J., Berggren, P., Deaville, R., Jepson, P.D., Kinze, C.C., Larsen, Finn, Learmonth, J.A., Northridge, S.P., Pierce, G.J., Reid, R.J., Vinther, Morten, Hammond, P.S., Winship, A.J., Berggren, P., Deaville, R., Jepson, P.D., Kinze, C.C., Larsen, Finn, Learmonth, J.A., Northridge, S.P., Pierce, G.J., Reid, R.J., Vinther, Morten, and Hammond, P.S.

Published
2007

11. Exposure to heavy metals and infectious disease mortality in harbor porpoises from England and Wales

Author

Kuiken, T., Bennett, P.M., Jepson, P.D., Rogan, E., Law, R.J., Kirkwood, J.K., Jones, B.R., and Baker, J.R.

Subjects
TOXIC substance exposure, POLLUTION, MARINE biology, HEAVY metals, HARBOR porpoise, MORTALITY
Abstract

We investigate whether long-term exposure to heavy metals, includingimmunosuppressive metals like mercury (Hg), is associated with infectious disease in a wild cetacean. Post-mortem investigations on 86 harbour porpoises, Phocoena phocoena, found dead along the coasts of England and Wales revealed that 49 of the porpoises were healthy when they died as a consequence of physical trauma (most frequently entrapment in fishing gear). In contrast, 37 porpoises died of infectious diseases caused by parasitic, bacterial, fungal and viral pathogens (most frequently pneumonia caused by lungworm and bacterial infections).We found that mean liver concentrations of Hg, selenium (Se), the Hg:Se molar ratio, and zinc (Zn) were significantly higher in the porpoises that died of infectious disease compared to healthy porpoises that died from physical trauma. Liver concentrations of lead (Pb), cadmium (Cd), copper (Cu) and chromium (Cr) did not differ between the two groups. Hg, Se, and the Hg:Se molar ratio were also positively correlated with age. The association between Zn concentration and diseasestatus may result from Zn redistribution in response to infection. Further work is required to evaluate whether chronic exposure to Hg may have presented a toxic challenge to the porpoises that succumbed toinfectious disease. [ABSTRACT FROM AUTHOR]

Published
2001

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