Area integrity index with random rearrangement (AIIRR): A new concept for quantifying disruptive colorations

Area integrity index with random rearrangement (AIIRR): A new concept for quantifying disruptive colorations

Abstract Disruptive coloration is one of the camouflaging strategies that use conspicuous coloration patterns to destroy the visual integrity of an object and interfere with the observer's visual perception. Such conspicuous coloration often divides the entire shape of the object into multiple...

Full description

Saved in:
Bibliographic Details
Main Authors: Masahiko Tanahashi, Min‐Chen Lin, Chung‐Ping Lin
Format: Article
Language:English
Published: Wiley 2025-08-01
Series:Methods in Ecology and Evolution
Subjects:
bootstrap
image analysis
Natsumushi software
PCA
predator–prey interaction
shape analysis
Online Access:https://doi.org/10.1111/2041-210X.70085
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract Disruptive coloration is one of the camouflaging strategies that use conspicuous coloration patterns to destroy the visual integrity of an object and interfere with the observer's visual perception. Such conspicuous coloration often divides the entire shape of the object into multiple areas, increasing the disruption effect. Here, we introduce a new concept of ‘segmental surface disruption’ and propose a computational framework to quantify the intensity of segmental surface disruption, namely, the area integrity index with random rearrangement (AIIRR). The AIIRR framework consists of two key parts: (1) statistically defined assessment of area integrity reduction (= increased separation) and (2) quantitative description of fuzzy and intermediate separation using the bootstrap method. In the second bootstrap process, coloration patterns are repeatedly arranged in a random manner and forced to generate different separation patterns. We develop the analytical programme for the basic AIIRR. The basic AIIRR only requires two external parameters: the number of Gaussian filters applied (n) and the shake amplitude (d), making it easy to use by general biologists. The basic AIIRR method successfully evaluated the difference in the strength of the area separation in Metapocyrtus and Pachyrhynchus weevils. The two‐dimensional plot of the AIIRR and GabRat edge disruption intensities suggested the presence of different strategies of disruptive coloration in those weevils. AIIRR can be easily extended to handle colour images and possible extensions were also proposed in this study. The basic AIIRR programme and future updates are available via https://github.com/mtlucanid/AIIRR.
ISSN:2041-210X

Similar Items