# Contrasting Patterns of Raccoon (Procyon lotor) Spatial Population Genomics Throughout a Rabies Management Area in Eastern North America

**Authors:** Matthew W. Hopken, Clara P. Mankowski, Christine Thurber, Antoinette J. Piaggio, Kathleen M. Nelson, Richard B. Chipman, Zaid Abdo, Tore Buchanan, Ariane Massé, Amy T. Gilbert

PMC · DOI: 10.1111/eva.70105 · Evolutionary Applications · 2025-05-12

## TL;DR

This study uses genetic data to explore raccoon population structure in eastern North America, revealing patterns that could help manage rabies and other zoonotic diseases.

## Contribution

The study introduces a high-resolution spatial genetic analysis of raccoons using microhaplotype loci to inform rabies management.

## Key findings

- Bayesian clustering identified multiple ancestry clusters across 22 US states and 2 Canadian provinces.
- A phylogeographic split was found between central/southern and northeast raccoon populations.
- Spatial analyses revealed variable gene flow, with high connectivity in specific regions like central New York and the Ohio River Valley.

## Abstract

Wide‐ranging, generalist species provide both interesting and challenging opportunities for research questions focused on population structure. Their continuous distributions and ability to occupy diverse habitat types can obscure genetic signals of ancestry and geographic clustering. However, spatially informed population genetic approaches are notable for high‐resolution identification of geographic clusters that often elude more classical clustering models. The northern raccoon (
Procyon lotor
) is a broadly distributed species in North America, with populations in diverse habitats ranging from dense urban to rural landscapes. Wildlife management agencies have an interest in understanding raccoon ecology, given their propensity for human‐wildlife conflicts and zoonotic diseases. We combined samples from an extensive raccoon tissue repository with a RADcapture panel of 1000 microhaplotype loci to conduct spatial genetic analyses of raccoon populations in eastern North America. Our objective was to estimate patterns of genetic diversity on the landscape that may inform raccoon rabies management. Bayesian clustering analyses delineated multiple ancestry clusters that encompassed large areas across 22 US states and 2 Canadian provinces. We discovered a potential phylogeographic split between central and southern samples from those in the northeast region, which correlates with post‐Pleistocene recolonization detected in a multitude of species from the region. A finer scale structure was identified using spatially explicit analyses and demonstrated variable dispersal/gene flow patterns within specific regions. The Appalachian Mountain region restricted local connectivity among raccoons, while raccoon populations in central New York, the Ohio River Valley, southern Québec, and southern Alabama demonstrated high genetic connectivity. The results from this study highlight how raccoon ecology and historical biogeography can help contextualize contrasting hypotheses about the influence of landscape on raccoon movement patterns, which can inform management of zoonotic disease risks at regional scales.

## Linked entities

- **Diseases:** rabies (MONDO:0019173)
- **Species:** Procyon lotor (taxon 9654)

## Full-text entities

- **Diseases:** Rabies (MESH:D011818), zoonotic disease (MESH:D015047)
- **Species:** Homo sapiens (human, species) [taxon 9606], Procyon lotor (northern raccoon, species) [taxon 9654]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12069805/full.md

## References

87 references — full list in the complete paper: https://tomesphere.com/paper/PMC12069805/full.md

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Source: https://tomesphere.com/paper/PMC12069805