# Urbanization Drives Habitat Suitability of the Invasive Cuban Knight Anole (Anolis equestris) in Florida, USA

**Authors:** Alexander S. Romer, Sergio A. Balaguera‐Reina, Eric Saurez, Edison D. Bonilla‐Liberato, W. James Whelpley, Frank J. Mazzotti, Melissa A. Miller

PMC · DOI: 10.1002/ece3.72334 · Ecology and Evolution · 2025-10-14

## TL;DR

This study shows that urbanization helps the invasive Cuban knight anole thrive in Florida, potentially threatening local endangered invertebrates.

## Contribution

The study identifies urbanization as a key driver of anole invasion and provides a framework for conservation management.

## Key findings

- Urbanization significantly influences the habitat suitability of the Cuban knight anole in Florida.
- High habitat suitability overlaps with endangered invertebrates, suggesting potential predation risks.
- Random Forest models showed strong performance in predicting anole distribution.

## Abstract

This study evaluates climatic and anthropogenic drivers influencing habitat suitability of invasive Cuban knight anole (
Anolis equestris
) in Florida and assesses their potential impact on three species of threatened invertebrates due to habitat overlap. We developed species distribution models (SDMs) using eight algorithms to evaluate habitat suitability across the native and invasive range of 
A. equestris
. We generated ten independent pseudo‐absence sets at a 1:1 ratio with presences and implemented a 10‐fold cross‐validation scheme. Predictor variables included effort, climatic, topographic, urbanization, and vegetation indices. We trained algorithms on 70% of the data, validated on 30%, constructed both algorithm‐specific and global ensembles. The best‐performing model was used to assess variable importance and predict habitat suitability across regions. Random Forest (RF) demonstrated the best overall performance (Florida: BI = 0.98, TSS = 0.91; Cuba: BI = 0.89, TSS = 0.74) and was used for subsequent analyses. When projected against an independent dataset with standardized effort, the model retained discriminatory power (TSS = 0.53; BI = 0.59), indicating generalizability. Mean diurnal range was the most influential predictor overall, while urbanization (e.g., settlement model grid) was more important in Florida. NDVI and precipitation of the driest month had greater influence in Cuba. Predicted habitat suitability at occurrence locations of the endangered Florida tiger beetle (Cicindelidia floridana, x̄ = 0.86), Florida tree snail (
Liguus fasciatus
, x̄ = 0.58), and endangered Schaus' swallowtail butterfly (
Papilio aristodemus
, x̄ = 0.53), suggest potential overlap. These findings emphasize the role of urbanized habitats in facilitating invasion and provide a data‐driven framework for conservation management and mitigation.

This study evaluates the climatic and anthropogenic factors driving the habitat suitability of the invasive Cuban knight anole (
Anolis equestris
) in Florida and its potential impact on three threatened invertebrate species through habitat overlap. Using species distribution models (SDMs), we found that urbanization strongly influences the anole's invasive distribution, with high suitability in South Florida and the Keys. Our results highlight spatial overlap between 
A. equestris
 and imperiled invertebrates, suggesting potential predation risk, and emphasize the role of urbanization in facilitating biological invasions.

## Linked entities

- **Species:** Anolis equestris (taxon 75253), Liguus fasciatus (taxon 2976630), Papilio aristodemus (taxon 1527559)

## Full-text entities

- **Species:** Papilio aristodemus (species) [taxon 1527559], Anolis equestris (species) [taxon 75253]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12520795/full.md

## References

85 references — full list in the complete paper: https://tomesphere.com/paper/PMC12520795/full.md

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Source: https://tomesphere.com/paper/PMC12520795