# Refining Capture and Collaring Protocols for Red Foxes

**Authors:** Holly M. English, Patricia Romero, Lorraine Bull, Barry Nolan, Paolo Bongi, Vilhelmiina Huuskonen, Simone Ciuti

PMC · DOI: 10.1002/ece3.72656 · 2026-01-19

## TL;DR

This paper shares detailed protocols for capturing red foxes, focusing on improving trapping success and animal welfare in urban and rural settings.

## Contribution

The study provides refined capture protocols and a checklist for trapping red foxes while emphasizing animal welfare and remote monitoring techniques.

## Key findings

- Capture success was significantly affected by rainfall but not temperature in Dublin.
- Remote monitoring systems and multiple trapping sites improved capture efficiency and animal welfare.
- A lightweight collar drop-off solution eliminated the need for a second capture.

## Abstract

Wildlife species are often captured in ecological studies to take morphometric measurements, collect biological samples and/or fit animal‐attached tags to collect data on movement and behaviour. Capture may be difficult depending on the target species, with implications for the effort required by field teams, overall capture success and study goals. Though routine practice, wildlife captures have important welfare implications which should be carefully considered prior to each study. Full details on capture protocols are rarely shared with the international community, often limited to short descriptions in the methods sections of papers. More detailed information sharing can improve knowledge on methods that lead to increased or reduced capture success, saving researcher time and resources and, most importantly, boosting animal welfare. Here, we share detailed capture protocols for improving trapping success and optimising welfare protocols for our trap‐shy target species, the red fox (
Vulpes vulpes
). We report on the methodological refinements used to successfully trap urban red foxes in Dublin, Ireland (n = 16 captures), as well as related efforts as part of a pilot study in rural Tuscany, Italy (n = 3). We recommend setting multiple capture sites but caution against prolonged time spent in traps for foxes. Remote transmission camera traps and remote trap alert systems are highly recommended, wherever possible, to remotely monitor multiple trapping sites at once with reduced disturbance and to facilitate quick arrival at capture sites. We discuss a cheap, lightweight collar drop‐off solution to negate the need for a second capture for collar retrieval. In Dublin, we found the likelihood of capturing a fox was significantly affected by rainfall but not temperature. We conclude with an easy‐to‐consult checklist, providing advice on trap setting, pre‐baiting, collar drop‐offs and weather conditions to aid researchers embarking on the capture of foxes and other difficult‐to‐trap species, particularly in urban areas with high levels of human activity.

Animal capture is an important aspect of ecological studies, required for fitting tags and collecting biological samples. Capture success can be increased while ensuring high welfare standards through careful consideration of how many trapping sites to use and remote trap monitoring, for example.

## Linked entities

- **Species:** Vulpes vulpes (taxon 9627)

## Full-text entities

- **Species:** Vulpes vulpes (red fox, species) [taxon 9627], Homo sapiens (human, species) [taxon 9606]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12815494/full.md

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Source: https://tomesphere.com/paper/PMC12815494