# Genetic and Landscape Connectivity of Blacklegged Ticks During Range Expansion in Select States of the Midwestern USA

**Authors:** Dahn‐young Dong, Susan M. Paskewitz, Jean I. Tsao, Sean D. Schoville

PMC · DOI: 10.1002/ece3.72360 · Ecology and Evolution · 2025-10-22

## TL;DR

Blacklegged ticks have expanded in the Midwestern USA, and new genetic and landscape data reveal dispersal patterns and barriers that can inform better tick management.

## Contribution

The study identifies fine-scale genetic populations and gene flow corridors in blacklegged ticks during their range expansion in the Midwest.

## Key findings

- Wisconsin hosts genetically diverse tick populations with east–west gene flow corridors.
- Michigan tick populations are genetically distinct with high in-state gene flow.
- Landscape features like soil humidity and human disturbance limit tick dispersal.

## Abstract

Since the 1970s, the Midwestern USA has experienced an expansion of blacklegged ticks (
Ixodes scapularis
), the primary vector of Lyme disease caused by 
Borrelia burgdorferi
, leading to increased Lyme disease incidence. Public health surveillance indicates that Northwestern Wisconsin has served as refugia for these ticks, seeding an expansion into neighboring states such as Michigan. However, the process of re‐emergence and invasion remains unclear. To improve tick management, we examine whether environmental variables in the Midwestern (eastern North Central) region have constrained tick dispersal and whether connectivity corridors can be identified. By developing fine‐scale spatial population genomic data, our analyses reveal genetically diverse populations in Wisconsin, with northern populations contributing to recent expansions within the state. We identify several east–west gene flow corridors facilitating tick dispersal in Wisconsin. An independent dispersal network exists along Wisconsin's Mississippi River, extending southwards. In contrast, Michigan populations exhibit sharp genetic divergence from Wisconsin and Indiana populations, with low genetic diversity and high in‐state gene flow. We also identify high landscape connectivity in the region connecting the Michigan Peninsulas and significant gene flow at the landmass near southern Lake Michigan. Geographical isolation, as well as landscapes with low soil humidity during summer and high human disturbance, were found to limit gene flow across the region, although these effects were minor. Management of blacklegged ticks in the region can be enhanced by recognizing that landscape connectivity has influenced the dispersal of distinct genetic populations, and targeted interventions in seemingly less tick‐favorable landscapes may help mitigate the spread.

Blacklegged ticks (
Ixodes scapularis
), vectors of Lyme disease, have expanded across the Midwestern USA since the 1970s, with at least three genetically structured populations. Fine‐scale genomic and landscape analyses reveal distinct gene flow corridors and barriers, highlighting how environmental connectivity shapes tick range expansion and informing targeted management strategies.

## Linked entities

- **Diseases:** Lyme disease (MONDO:0019632)
- **Species:** Ixodes scapularis (taxon 6945)

## Full-text entities

- **Diseases:** blacklegged ticks (MESH:D013985), Lyme disease (MESH:D008193)
- **Species:** Homo sapiens (human, species) [taxon 9606], Ixodes scapularis (blacklegged tick, species) [taxon 6945], Borreliella burgdorferi (Lyme disease spirochete, species) [taxon 139]

## Full text

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## Figures

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## References

112 references — full list in the complete paper: https://tomesphere.com/paper/PMC12541286/full.md

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Source: https://tomesphere.com/paper/PMC12541286