Simon J. Goodman scite author profile

R ST, an analogue of FST, provides a convenient approach for estimating levels of genetic differentiation from microsatellite data. This paper examines current approaches for calculating estimates of RST and suggests a weighting scheme based on the transformation of allele sizes at loci across data sets. Combined within an analysis of variance framework this scheme yields an estimator of RST analogous to the θ estimator of FST. Software for the IBM‐PC is described which carries out such calculations and assesses the significance of RST or Nm estimates using bootstrap and permutation tests.

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The 1988 and 2002 phocine distemper virus epidemics in European harbour seals

Härkönen¹,

Dietz²,

Reijnders³

et al. 2006

Dis. Aquat. Org.

235

225

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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. KEY WORDS: Epizootic · Harbour seal · Mass mortality · Phocine distemper virus Resale or republication not permitted without written consent of the publisherDis Aquat Org 68: [115][116][117][118][119][120][121][122][123][124][125][126][127][128][129][130] 2006 natural reductions in food supply driven by El Niño conditions have led to high levels of mortality (Trillmich & Dellinger 1991).There is also increasing evidence for mortality resulting from infectious disease. In 1988, up to 60% of North Sea harbour seals Phoca vitulina died during an outbreak of a then newly discovered distemper virus identified by inclusion bodies (e.g. Dietz et al. 1989a, Bergman et al. 1990. This virus was isolated and described as a morbillivirus, phocine distemper virus (PDV) (Osterhaus & Vedder 1988). Subsequently, related dolphin and porpoise morbilliviruses were isolated from cetaceans (Barrett et al. 1993), and widespread screenings suggest that many populations of pinnipeds, cetaceans and sirenians in the North Atlantic had been exposed to these viruses prior to and after the 1988 PDV outbreak (Dietz et al. 1989b, Duignan et al. 1995a,b,c, 1997a,b, Van Bressem et al. 2001. Clinical signs of disease were not recorded in many of the populations in which morbillivirus antibodies were detected (Duignan et al. 1995b, Nielsen et al. 20...

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Worldwide patterns of mitochondrial DNA differentiation in the harbor seal (Phoca vitulina)

Stanley¹,

Casey²,

Carnahan³

et al. 1996

Molecular Biology and Evolution

164

184

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The harbor seal (Phoca vitulina) has one of the broadest geographic distributions of any pinniped, stretching from the east Baltic, west across the Atlantic and Pacific Oceans to southern Japan. Although individuals may travel several hundred kilometers on annual feeding migrations, harbor seals are generally believed to be philopatric, returning to the same areas each year to breed. Consequently, seals from different areas are likely to be genetically differentiated, with levels of genetic divergence increasing with distance. Differentiation may also be caused by long-standing topographic barriers such as the polar sea ice. We analyzed samples of 227 harbor seals from 24 localities and defined 34 genotypes based on 435 bp of control region sequence. Phylogenetic analysis and analysis of molecular variance showed that populations in the Atlantic and Pacific Oceans and east and west coast populations of these oceans are significantly differentiated. Within these four regions, populations that are geographically farthest apart generally are the most differentiated and often do not share genotypes or differ in genotype frequency. The average corrected sequence divergence between populations in the Atlantic and Pacific Oceans is 3.28% +/- 0.38% and those among populations within each of these oceans are 0.75% +/- 0.69% and 1.19% +/- 0.65%, respectively. Our results suggest that harbor seals are regionally philopatric, on the scale of several hundred kilometers. However, genetic discontinuities may exist, even between neighboring populations such as those on the Scottish and east English coasts or the east and west Baltic. The mitochondrial data are consistent with an ancient isolation of populations in both oceans, due to the development of polar sea ice. In the Atlantic and Pacific, populations appear to have been colonized from west to east with the European populations showing the most recent common ancestry. We suggest the recent ancestry of European seal populations may reflect recolonization from Ice Age refugia after the last glaciation.

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Patterns of extensive genetic differentiation and variation among European harbor seals (Phoca vitulina vitulina) revealed using microsatellite DNA polymorphisms

Goodman¹

1998

Molecular Biology and Evolution

126

171

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The harbor seal (Phoca vitulina) has the most extensive distribution of any phocid seal species. An analysis of population structure in this species across its European range was made using 7 phocid derived microsatellites in a sample of 1,029 individuals from 12 separate geographic areas. Despite the species potential for long-distance movement, significant genetic differentiation between areas was observed using an unbiased estimator of RST. Six distinct population units were identified: Ireland-Scotland, English east coast, Waddensea, western Scandinavia (Norway-Kattegat-Skagerrak-west Baltic), east Baltic, and Iceland. Little local substructuring is present along coastlines with a continuous distribution of breeding animals, but differentiation does increase with geographic distance. The degree of differentiation is greater over equivalent distances where the distribution is discontinuous, such as along coasts where breeding colonies are separated by large distances or by stretches of open sea. Patterns of population differentiation derived from microsatellites are very similar to those obtained from previous mitochondrial DNA analysis and suggest that philopatry in harbor seals operates over 300-500 km. In Europe, harbor seals have experienced a complex demographic history and patterns of population structure are likely to have been affected by natural environmental influences such as Pleistocene glaciations and epizootics. Comparison of Nm values from an unbiased estimator of RST, GST, and theta are consistent and, in some cases, may indicate populations where conditions deviate from the expectations of the RST model.

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Pathogen evolution and disease emergence in carnivores

2007

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Emerging infectious diseases constitute some of the most pressing problems for both human and domestic animal health, and biodiversity conservation. Currently it is not clear whether the removal of past constraints on geographical distribution and transmission possibilities for pathogens alone are sufficient to give rise to novel host-pathogen combinations, or whether pathogen evolution is also generally required for establishment in novel hosts. Canine distemper virus (CDV) is a morbillivirus that is prevalent in the world dog population and poses an important conservation threat to a diverse range of carnivores. We performed an extensive phylogenetic and molecular evolution analysis on complete sequences of all CDV genes to assess the role of selection and recombination in shaping viral genetic diversity and driving the emergence of CDV in non-dog hosts. We tested the specific hypothesis that molecular adaptation at known receptor-binding sites of the haemagglutinin gene is associated with independent instances of the spread of CDV to novel non-dog hosts in the wild. This hypothesis was upheld, providing compelling evidence that repeated evolution at known functional sites (in this case residues 530 and 549 of the haemagglutinin molecule) is associated with multiple independent occurrences of disease emergence in a range of novel host species.

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Simon J. Goodman

R_ST Calc: a collection of computer programs for calculating estimates of genetic differentiation from microsatellite data and determining their significance

The 1988 and 2002 phocine distemper virus epidemics in European harbour seals

Worldwide patterns of mitochondrial DNA differentiation in the harbor seal (Phoca vitulina)

Patterns of extensive genetic differentiation and variation among European harbor seals (Phoca vitulina vitulina) revealed using microsatellite DNA polymorphisms

Pathogen evolution and disease emergence in carnivores

Contact Info

Product

Resources

About

Simon J. Goodman

RST Calc: a collection of computer programs for calculating estimates of genetic differentiation from microsatellite data and determining their significance

The 1988 and 2002 phocine distemper virus epidemics in European harbour seals

Worldwide patterns of mitochondrial DNA differentiation in the harbor seal (Phoca vitulina)

Patterns of extensive genetic differentiation and variation among European harbor seals (Phoca vitulina vitulina) revealed using microsatellite DNA polymorphisms

Pathogen evolution and disease emergence in carnivores

Contact Info

Product

Resources

About

R_ST Calc: a collection of computer programs for calculating estimates of genetic differentiation from microsatellite data and determining their significance