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Multiple introductions of the Asian Longhorned Tick (Haemaphysalis longicornis) to the United States revealed using mitogenomics
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  • Zoe Narvaez,
  • Andrea Egizi,
  • Michael J. Yabsley,
  • Alec Thompson,
  • Mohamed Moustafa,
  • Erika Alt,
  • Matthew Bickerton,
  • Kim Bjorgo,
  • Rebecca Butler,
  • Alexandra Cumbie,
  • Gillian Eastwood,
  • Richard Falco,
  • Dina Fonseca,
  • Jun Hang,
  • Vanessa Harper,
  • Nicole Lewis,
  • Jan Lovy,
  • Lauren Maestas,
  • Thomas Mather,
  • Ryo Nakao,
  • James Occi,
  • Tadhgh Rainey,
  • Melanie Sal,
  • Craig Stoops,
  • Rebecca Trout Fryxell,
  • Wes Watson,
  • Aihua Zheng,
  • Perot Saelao,
  • Dana Price
Zoe Narvaez
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Andrea Egizi
Rutgers The State University of New Jersey
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Michael J. Yabsley
Univ Georgia
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Alec Thompson
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Mohamed Moustafa
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Matthew Bickerton
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Kim Bjorgo
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Rebecca Butler
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Alexandra Cumbie
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Gillian Eastwood
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Richard Falco
New York State Department of Health
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Dina Fonseca
Rutgers University
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Vanessa Harper
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Nicole Lewis
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Lauren Maestas
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Thomas Mather
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Ryo Nakao
Hokkaido University
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James Occi
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Tadhgh Rainey
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Melanie Sal
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Craig Stoops
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Rebecca Trout Fryxell
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Wes Watson
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Aihua Zheng
University of the Chinese Academy of Sciences
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Perot Saelao
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Dana Price
Rutgers The State University of New Jersey

Corresponding Author:[email protected]

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Abstract

not-yet-known not-yet-known not-yet-known unknown The Asian longhorned tick (ALT), Haemaphysalis longicornis, is a three-host hard tick native to East Asia. Its opportunistic feeding habits make it an acute agricultural and medical threat, capable of spreading various zoonotic pathogens. An affinity for livestock and companion animals has allowed parthenogenetic populations of ALT to travel to and establish in overseas locations including the United States. To better understand the population dynamics of this rapidly expanding species, we sequenced the complete mitogenome of specimens collected from native and invasive ranges and performed phylogeographic analyses. As well as illustrating the diversity of Australasian and US ALT haplotypes, these methods have allowed us to estimate the source and frequency of successful introductions to the US. We highlight four potential introductions of parthenogenetic ALT, with likely origin populations identified in the Republic of Korea and Japan. These findings provide insight into potential routes of entry for ALT and other invasive tick species.
04 Oct 2024Submitted to Molecular Ecology
08 Oct 2024Submission Checks Completed
08 Oct 2024Assigned to Editor
08 Oct 2024Review(s) Completed, Editorial Evaluation Pending
21 Oct 2024Reviewer(s) Assigned