# Acoustic Identity: Linking Signature Whistles and Visual Identification in a Threatened Dolphin Population

**Authors:** Amber Crittenden, Kate Robb, Christine Erbe

PMC · DOI: 10.3390/ani15223259 · 2025-11-10

## TL;DR

This study links unique dolphin vocalizations to individual dolphins, aiding conservation efforts for a threatened population.

## Contribution

The first study to match signature whistles to individual Burrunan dolphins using passive acoustic methods.

## Key findings

- 22 unique signature whistles were identified from 57 Burrunan dolphins using acoustic recordings.
- Signature whistles were associated with clusters or pairs, reflecting the dolphins' social structure.
- Passive acoustic monitoring proves effective for population-level tracking of these dolphins.

## Abstract

Acoustic identity is an essential element of dolphin interaction, achieved through the production of a “signature whistle” unique to each individual. These whistles are often complex and emitted repetitively. Using distinct whistle characteristics, researchers have identified 22 unique signature whistles within acoustic recordings collected in the presence of 57 Burrunan dolphins. The identified signature whistles were found to be associated with clusters or pairs of Burrunan dolphins, as the highly social nature of dolphin population structures prevents individuals from being recorded separately. Further, female dolphins and dolphins exhibiting transient behaviours were found to have very similar signature whistles. Identification of these signature whistles in acoustic datasets recorded passively will allow for improved population monitoring and ultimately conservation management.

Signature whistles (SW) are a significant element of the vocal repertoire of delphinid species. They encode self-identifying information and allow social cohesion between related and allied individuals through often complex, stereotyped whistle contours. SW recordings allow researchers to explore the presence of individual animals, understand social dynamics, and estimate population size without visual observation. This represents the first study aiming to match distinct SW contours to individual Burrunan dolphins (Tursiops australis) in the Gippsland Lakes, Victoria, Australia. Simultaneous photographic identification and in situ hand-held hydrophone recordings collected in 2021–2024 contained 57 individual dolphins and 236 whistles, resulting in 22 unique SW contours being extracted following modified SIGnature IDentification (SIGID) criteria. Conditional probability analyses revealed that most SW contours were associated with clusters or pairs of dolphins, rather than individuals, reflecting the species’ fission–fusion social structure. Cluster analysis supported these associations, highlighting the difficulty in isolating SWs in a population where individuals are not observed in isolation. Additionally, social structure, philopatric behaviour, and the acoustic environment of transient individuals are suggested to influence signature whistle production and complexity. Although direct signature whistle-to-individual matching remains limited, the study demonstrates that population-level and subgroup-level monitoring by passive acoustic methods is achievable. This approach provides a critical acoustic tool for conservation management of the small, threatened Gippsland Lakes Burrunan dolphin population and offers a foundation for future study of individuals through passive acoustic monitoring.

## Linked entities

- **Species:** Tursiops australis (taxon 1086039)

## Full-text entities

- **Species:** Delphinidae (marine dolphins, family) [taxon 9726], Tursiops australis (Burrunan dolphin, species) [taxon 1086039]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12649472/full.md

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Source: https://tomesphere.com/paper/PMC12649472