Ticks on the Channel Islands and implications for public health

Emma L. Gillingham; Kayleigh M. Hansford; Scott Meadows; Julia Henney; Filip Wieckowski; Luis M. Hernández-Triana; Ivan Muscat; Joseph Muscat; Clara Beckert; Nadya I. Nikolova; Ben Cull; Jolyon M. Medlock

doi:10.1016/j.ttbdis.2020.101405

Ticks on the Channel Islands and implications for public health

Emma L. Gillingham, Kayleigh M. Hansford, Scott Meadows, Julia Henney, Filip Wieckowski, Luis M. Hernández-Triana, Ivan Muscat, Joseph Muscat, Clara Beckert, Nadya I. Nikolova, Ben Cull, Jolyon M. Medlock

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The Channel Islands are British Crown dependencies located in the English Channel to the west of the Normandy coast in northern France. Whilst there have been studies investigating tick occurrence and distribution in different habitats on the mainland of the UK and in France, the Channel Islands have been relatively understudied. As such, little is known about whether the sheep tick, Ixodes ricinus, is present, and whether there is a potential risk of Lyme borreliosis on the Channel Islands. To ascertain the presence of I. ricinus on the three largest islands in the archipelago: Jersey, Guernsey and Alderney, surveys of ticks questing in the vegetation and ticks feeding on hosts were undertaken during April and May 2016. Across all three islands, the highest numbers of ticks were found in woodland habitats. Ixodes ricinus was the predominant questing tick species found on Jersey, and Ixodes ventalloi the most common questing tick species on Alderney and Guernsey, with little or no evidence of questing I. ricinus on either island. During field studies on small mammals, I. ricinus was the predominant tick species feeding on Jersey bank voles (Myodes glareolus caesarius), with Ixodes hexagonus the most common species infesting hedgehogs on Guernsey. We propose that the greater diversity of small mammals on Jersey may be important in supporting immature stages of I. ricinus, in contrast to Guernsey and Alderney. Morphological identification of tick species was confirmed by PCR sequencing based on amplification of the cytochrome c oxidase subunit one (cox1) gene (COI DNA barcoding). To date, there have been few records of human tick bites in the Channel Islands, suggesting that the current risk from tick-borne disease may be low, but continued reporting of any human tick bites, along with reporting of cases of Lyme borreliosis will be important for continued assessment of the impact of tick-borne diseases in the Channel Islands.

Original language	English (US)
Article number	101405
Journal	Ticks and Tick-borne Diseases
Volume	11
Issue number	3
DOIs	https://doi.org/10.1016/j.ttbdis.2020.101405
State	Accepted/In press - Jan 1 2020
Externally published	Yes

Bibliographical note

Funding Information:
Fieldwork was carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1). We thank Stephen Thompson and Sue Jeanne for fieldwork assistance, and Jenny Bevis for helpful comments on the manuscript. JMM is partly funded by the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Emerging and Zoonotic Infections at the University of Liverpool in partnership with PHE and Liverpool School of Tropical Medicine. JMM is based at Public Health England (PHE). The views expressed are those of the author(s) and not necessarily those of the National Health Service (NHS), NIHR, the Department of Health and Social Care or PHE. Thanks are given to the EU Framework Horizon 2020 Innovation Grant EVAG (No. 653316) and the Department for Environment Food and Rural Affairs (DEFRA), Scottish Government and Welsh Government through grants SV3045 for providing funding to carry out this work. We thank the Sequencing Facility Unit at APHA, especially Jeremy Hawthorn and Steve Shankster for their efforts in sequencing all samples. We also thank two anonymous reviewers for comments which greatly improved the manuscript.

Funding Information:
Fieldwork was carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1). We thank Stephen Thompson and Sue Jeanne for fieldwork assistance, and Jenny Bevis for helpful comments on the manuscript. JMM is partly funded by the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Emerging and Zoonotic Infections at the University of Liverpool in partnership with PHE and Liverpool School of Tropical Medicine. JMM is based at Public Health England (PHE). The views expressed are those of the author(s) and not necessarily those of the National Health Service (NHS), NIHR, the Department of Health and Social Care or PHE. Thanks are given to the EU Framework Horizon 2020 Innovation Grant EVAG (No. 653316 ) and the Department for Environment Food and Rural Affairs (DEFRA) , Scottish Government and Welsh Government through grants SV3045 for providing funding to carry out this work. We thank the Sequencing Facility Unit at APHA, especially Jeremy Hawthorn and Steve Shankster for their efforts in sequencing all samples. We also thank two anonymous reviewers for comments which greatly improved the manuscript.

Publisher Copyright:
© 2020

Keywords

Ixodes frontalis
Ixodes hexagonus
Ixodes ricinus
Ixodes ventalloi
Small mammals
Tick establishment

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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10.1016/j.ttbdis.2020.101405

Cite this

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title = "Ticks on the Channel Islands and implications for public health",

abstract = "The Channel Islands are British Crown dependencies located in the English Channel to the west of the Normandy coast in northern France. Whilst there have been studies investigating tick occurrence and distribution in different habitats on the mainland of the UK and in France, the Channel Islands have been relatively understudied. As such, little is known about whether the sheep tick, Ixodes ricinus, is present, and whether there is a potential risk of Lyme borreliosis on the Channel Islands. To ascertain the presence of I. ricinus on the three largest islands in the archipelago: Jersey, Guernsey and Alderney, surveys of ticks questing in the vegetation and ticks feeding on hosts were undertaken during April and May 2016. Across all three islands, the highest numbers of ticks were found in woodland habitats. Ixodes ricinus was the predominant questing tick species found on Jersey, and Ixodes ventalloi the most common questing tick species on Alderney and Guernsey, with little or no evidence of questing I. ricinus on either island. During field studies on small mammals, I. ricinus was the predominant tick species feeding on Jersey bank voles (Myodes glareolus caesarius), with Ixodes hexagonus the most common species infesting hedgehogs on Guernsey. We propose that the greater diversity of small mammals on Jersey may be important in supporting immature stages of I. ricinus, in contrast to Guernsey and Alderney. Morphological identification of tick species was confirmed by PCR sequencing based on amplification of the cytochrome c oxidase subunit one (cox1) gene (COI DNA barcoding). To date, there have been few records of human tick bites in the Channel Islands, suggesting that the current risk from tick-borne disease may be low, but continued reporting of any human tick bites, along with reporting of cases of Lyme borreliosis will be important for continued assessment of the impact of tick-borne diseases in the Channel Islands.",

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author = "Gillingham, {Emma L.} and Hansford, {Kayleigh M.} and Scott Meadows and Julia Henney and Filip Wieckowski and Hern{\'a}ndez-Triana, {Luis M.} and Ivan Muscat and Joseph Muscat and Clara Beckert and Nikolova, {Nadya I.} and Ben Cull and Medlock, {Jolyon M.}",

note = "Funding Information: Fieldwork was carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1). We thank Stephen Thompson and Sue Jeanne for fieldwork assistance, and Jenny Bevis for helpful comments on the manuscript. JMM is partly funded by the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Emerging and Zoonotic Infections at the University of Liverpool in partnership with PHE and Liverpool School of Tropical Medicine. JMM is based at Public Health England (PHE). The views expressed are those of the author(s) and not necessarily those of the National Health Service (NHS), NIHR, the Department of Health and Social Care or PHE. Thanks are given to the EU Framework Horizon 2020 Innovation Grant EVAG (No. 653316) and the Department for Environment Food and Rural Affairs (DEFRA), Scottish Government and Welsh Government through grants SV3045 for providing funding to carry out this work. We thank the Sequencing Facility Unit at APHA, especially Jeremy Hawthorn and Steve Shankster for their efforts in sequencing all samples. We also thank two anonymous reviewers for comments which greatly improved the manuscript. Funding Information: Fieldwork was carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1). We thank Stephen Thompson and Sue Jeanne for fieldwork assistance, and Jenny Bevis for helpful comments on the manuscript. JMM is partly funded by the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Emerging and Zoonotic Infections at the University of Liverpool in partnership with PHE and Liverpool School of Tropical Medicine. JMM is based at Public Health England (PHE). The views expressed are those of the author(s) and not necessarily those of the National Health Service (NHS), NIHR, the Department of Health and Social Care or PHE. Thanks are given to the EU Framework Horizon 2020 Innovation Grant EVAG (No. 653316 ) and the Department for Environment Food and Rural Affairs (DEFRA) , Scottish Government and Welsh Government through grants SV3045 for providing funding to carry out this work. We thank the Sequencing Facility Unit at APHA, especially Jeremy Hawthorn and Steve Shankster for their efforts in sequencing all samples. We also thank two anonymous reviewers for comments which greatly improved the manuscript. Publisher Copyright: {\textcopyright} 2020",

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T1 - Ticks on the Channel Islands and implications for public health

AU - Gillingham, Emma L.

AU - Hansford, Kayleigh M.

AU - Meadows, Scott

AU - Henney, Julia

AU - Wieckowski, Filip

AU - Hernández-Triana, Luis M.

AU - Muscat, Ivan

AU - Muscat, Joseph

AU - Beckert, Clara

AU - Nikolova, Nadya I.

AU - Cull, Ben

AU - Medlock, Jolyon M.

N1 - Funding Information: Fieldwork was carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1). We thank Stephen Thompson and Sue Jeanne for fieldwork assistance, and Jenny Bevis for helpful comments on the manuscript. JMM is partly funded by the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Emerging and Zoonotic Infections at the University of Liverpool in partnership with PHE and Liverpool School of Tropical Medicine. JMM is based at Public Health England (PHE). The views expressed are those of the author(s) and not necessarily those of the National Health Service (NHS), NIHR, the Department of Health and Social Care or PHE. Thanks are given to the EU Framework Horizon 2020 Innovation Grant EVAG (No. 653316) and the Department for Environment Food and Rural Affairs (DEFRA), Scottish Government and Welsh Government through grants SV3045 for providing funding to carry out this work. We thank the Sequencing Facility Unit at APHA, especially Jeremy Hawthorn and Steve Shankster for their efforts in sequencing all samples. We also thank two anonymous reviewers for comments which greatly improved the manuscript. Funding Information: Fieldwork was carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1). We thank Stephen Thompson and Sue Jeanne for fieldwork assistance, and Jenny Bevis for helpful comments on the manuscript. JMM is partly funded by the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Emerging and Zoonotic Infections at the University of Liverpool in partnership with PHE and Liverpool School of Tropical Medicine. JMM is based at Public Health England (PHE). The views expressed are those of the author(s) and not necessarily those of the National Health Service (NHS), NIHR, the Department of Health and Social Care or PHE. Thanks are given to the EU Framework Horizon 2020 Innovation Grant EVAG (No. 653316 ) and the Department for Environment Food and Rural Affairs (DEFRA) , Scottish Government and Welsh Government through grants SV3045 for providing funding to carry out this work. We thank the Sequencing Facility Unit at APHA, especially Jeremy Hawthorn and Steve Shankster for their efforts in sequencing all samples. We also thank two anonymous reviewers for comments which greatly improved the manuscript. Publisher Copyright: © 2020

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N2 - The Channel Islands are British Crown dependencies located in the English Channel to the west of the Normandy coast in northern France. Whilst there have been studies investigating tick occurrence and distribution in different habitats on the mainland of the UK and in France, the Channel Islands have been relatively understudied. As such, little is known about whether the sheep tick, Ixodes ricinus, is present, and whether there is a potential risk of Lyme borreliosis on the Channel Islands. To ascertain the presence of I. ricinus on the three largest islands in the archipelago: Jersey, Guernsey and Alderney, surveys of ticks questing in the vegetation and ticks feeding on hosts were undertaken during April and May 2016. Across all three islands, the highest numbers of ticks were found in woodland habitats. Ixodes ricinus was the predominant questing tick species found on Jersey, and Ixodes ventalloi the most common questing tick species on Alderney and Guernsey, with little or no evidence of questing I. ricinus on either island. During field studies on small mammals, I. ricinus was the predominant tick species feeding on Jersey bank voles (Myodes glareolus caesarius), with Ixodes hexagonus the most common species infesting hedgehogs on Guernsey. We propose that the greater diversity of small mammals on Jersey may be important in supporting immature stages of I. ricinus, in contrast to Guernsey and Alderney. Morphological identification of tick species was confirmed by PCR sequencing based on amplification of the cytochrome c oxidase subunit one (cox1) gene (COI DNA barcoding). To date, there have been few records of human tick bites in the Channel Islands, suggesting that the current risk from tick-borne disease may be low, but continued reporting of any human tick bites, along with reporting of cases of Lyme borreliosis will be important for continued assessment of the impact of tick-borne diseases in the Channel Islands.

AB - The Channel Islands are British Crown dependencies located in the English Channel to the west of the Normandy coast in northern France. Whilst there have been studies investigating tick occurrence and distribution in different habitats on the mainland of the UK and in France, the Channel Islands have been relatively understudied. As such, little is known about whether the sheep tick, Ixodes ricinus, is present, and whether there is a potential risk of Lyme borreliosis on the Channel Islands. To ascertain the presence of I. ricinus on the three largest islands in the archipelago: Jersey, Guernsey and Alderney, surveys of ticks questing in the vegetation and ticks feeding on hosts were undertaken during April and May 2016. Across all three islands, the highest numbers of ticks were found in woodland habitats. Ixodes ricinus was the predominant questing tick species found on Jersey, and Ixodes ventalloi the most common questing tick species on Alderney and Guernsey, with little or no evidence of questing I. ricinus on either island. During field studies on small mammals, I. ricinus was the predominant tick species feeding on Jersey bank voles (Myodes glareolus caesarius), with Ixodes hexagonus the most common species infesting hedgehogs on Guernsey. We propose that the greater diversity of small mammals on Jersey may be important in supporting immature stages of I. ricinus, in contrast to Guernsey and Alderney. Morphological identification of tick species was confirmed by PCR sequencing based on amplification of the cytochrome c oxidase subunit one (cox1) gene (COI DNA barcoding). To date, there have been few records of human tick bites in the Channel Islands, suggesting that the current risk from tick-borne disease may be low, but continued reporting of any human tick bites, along with reporting of cases of Lyme borreliosis will be important for continued assessment of the impact of tick-borne diseases in the Channel Islands.

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KW - Ixodes hexagonus

KW - Ixodes ricinus

KW - Ixodes ventalloi

KW - Small mammals

KW - Tick establishment

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Ticks on the Channel Islands and implications for public health

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

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