# Lessons from an eradication under multiple constraints of an island rat population of record density

**Authors:** Tatiane Micheletti, Thayná J. Mello, Carlos Verona, Vinícius P. O. Gasparotto, Ricardo Krul, Ricardo Araujo, Thali Sampaio, Paulo Rogerio Mangini

PMC · DOI: 10.1111/cobi.70186 · 2025-12-02

## TL;DR

This paper describes a successful and cost-efficient rat eradication on a tropical island, which helped protect native wildlife despite strict regulations.

## Contribution

The study introduces a novel adaptive management approach for rat eradication under strict environmental and financial constraints.

## Key findings

- Rats were eradicated within 5 months using a cost-efficient method costing US$3300 per hectare.
- Native species like the masked booby and Noronha elaenia showed population increases after eradication.
- The approach emphasizes adaptive decision-making and interdisciplinary collaboration in constrained environments.

## Abstract

Invasive rats threaten island biodiversity, disrupting ecosystems and endangering native species. Although rat eradication has succeeded on many islands, tropical islands present unique management challenges. Strict regulations and financial constraints on some tropical islands further limit proven eradication methods, complicating rodent management. We applied a real‐time active adaptive management approach that provided a cautious, cost‐efficient, and scientifically grounded pathway to rat eradication, while adhering to strict environmental regulations, on Ilha do Meio, Brazil. The cost was US$3300 per hectare, and the management actions were grounded in close interdisciplinary collaboration. We applied rodenticide (brodifacoum), monitored the rat population, and made iterative management adjustments. The rat overpopulation was eradicated within 5 months, and population increases were observed early on in the threatened masked booby (Sula dactylatra), and the endemic Noronha elaenia (Elaenia ridleyana) and Noronha skink (Trachylepis atlantica). Despite logistical constraints, our approach proved effective and cost‐efficient, marking its first application in a biological system. Our findings highlight the value of innovation, close interdisciplinary collaboration, and adaptive decision‐making when the application of best‐practice methods is constrained.

## Linked entities

- **Chemicals:** brodifacoum (PubChem CID 54680676)
- **Species:** Sula dactylatra (taxon 56068), Elaenia ridleyana (taxon 2765308), Trachylepis atlantica (taxon 356588)

## Full-text entities

- **Chemicals:** brodifacoum (MESH:C013418)
- **Species:** Trachylepis atlantica (species) [taxon 356588], Sula dactylatra (masked booby, species) [taxon 56068], Elaenia ridleyana (species) [taxon 2765308], Rattus norvegicus (brown rat, species) [taxon 10116]

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13036298/full.md

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Source: https://tomesphere.com/paper/PMC13036298