Katie M. Colvile scite author profile

Finch trichomonosis, caused by the protozoal parasite Trichomonas gallinae, was first recognized as an emerging infectious disease of British passerines in 2005. The first year of seasonal epidemic mortality occurred in 2006 with significant declines of greenfinch Carduelis chloris and chaffinch Fringilla coelebs populations. Here, we demonstrate that large-scale mortality, principally of greenfinch, continued in subsequent years, 2007 -2009, with a shifting geographical distribution across the British Isles over time. Consequent to the emergence of finch trichomonosis, the breeding greenfinch population in Great Britain has declined from ca 4.3 million to ca 2.8 million birds and the maximum mean number of greenfinches (a proxy for flock size) visiting gardens has declined by 50 per cent. The annual rate of decline of the breeding greenfinch population within England has exceeded 7 per cent since the initial epidemic. Although initially chaffinch populations were regionally diminished by the disease, this has not continued. Retrospective analyses of disease surveillance data showed a rapid, widespread emergence of finch trichomonosis across Great Britain in 2005 and we hypothesize that the disease emerged by T. gallinae jumping from columbiforms to passeriforms. Further investigation is required to determine the continuing impact of finch trichomonosis and to develop our understanding of how protozoal diseases jump host species.

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Emergence of a Novel Avian Pox Disease in British Tit Species

Lawson

Lachish

Colvile

et al. 2012

PLoS ONE

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Avian pox is a viral disease with a wide host range. In Great Britain, avian pox in birds of the Paridae family was first diagnosed in a great tit (Parus major) from south-east England in 2006. An increasing number of avian pox incidents in Paridae have been reported each year since, indicative of an emergent infection. Here, we utilise a database of opportunistic reports of garden bird mortality and morbidity to analyse spatial and temporal patterns of suspected avian pox throughout Great Britain, 2006–2010. Reports of affected Paridae (211 incidents) outnumbered reports in non-Paridae (91 incidents). The majority (90%) of Paridae incidents involved great tits. Paridae pox incidents were more likely to involve multiple individuals (77.3%) than were incidents in non-Paridae hosts (31.9%). Unlike the small wart-like lesions usually seen in non-Paridae with avian pox in Great Britain, lesions in Paridae were frequently large, often with an ulcerated surface and caseous core. Spatial analyses revealed strong clustering of suspected avian pox incidents involving Paridae hosts, but only weak, inconsistent clustering of incidents involving non-Paridae hosts. There was no spatial association between Paridae and non-Paridae incidents. We documented significant spatial spread of Paridae pox from an origin in south-east England; no spatial spread was evident for non-Paridae pox. For both host clades, there was an annual peak of reports in August/September. Sequencing of the avian poxvirus 4b core protein produced an identical viral sequence from each of 20 great tits tested from Great Britain. This sequence was identical to that from great tits from central Europe and Scandinavia. In contrast, sequence variation was evident amongst virus tested from 17 non-Paridae hosts of 5 species. Our findings show Paridae pox to be an emerging infectious disease in wild birds in Great Britain, apparently originating from viral incursion from central Europe or Scandinavia.

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Mass mortality of great crested newts (Triturus cristatus) on ground treated with road salt

Duff¹,

Colvile

Foster

et al. 2011

Veterinary Record

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Letters temperatures, which stimulate amphibians to emerge from winter hibernation sites (John Baker, personal communication). Laboratory studies show that amphibian eggs and larvae may be killed rapidly by salt water exposure, including species that sometimes occur in coastal habitats (natterjack toad [Epidalea calamita] [Beebee 1985]). At the landscape level, north American studies have indicated that salt in road runoff negatively affects local populations of some amphibian species in breeding ponds, with differences between species in salt susceptibility (Karraker and others 2008, Collins and russell 2009). Amphibian skin is highly permeable, and environmental pollutants are a potential threat to amphibian populations worldwide (Mann and others 2009). We wish to highlight the apparent potential for road salt to cause morbidity and mortality in amphibians, and we will be working with wildlife conservation groups to raise awareness of this issue.

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Chlamydiosis in British songbirds

et al. 2012

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Katie M. Colvile

The emergence and spread of finch trichomonosis in the British Isles

Emergence of a Novel Avian Pox Disease in British Tit Species

Mass mortality of great crested newts (Triturus cristatus) on ground treated with road salt

Chlamydiosis in British songbirds

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