# Behavioural adaptations of argulid parasites (Crustacea: Branchiura) to major challenges in their life cycle

**Authors:** V.N. Mikheev, A.F. Pasternak, E.T. Valtonen

PMC · DOI: 10.1186/s13071-015-1005-0 · 2015-07-25

## TL;DR

This paper explores how fish lice parasites adapt their behavior to survive and reproduce, impacting fish health and suggesting ways to control them.

## Contribution

The paper reviews recent insights into the behavioral adaptations of Argulus spp., emphasizing aggregative behaviors and their role in mitigating population dilution.

## Key findings

- Argulus spp. exhibit aggregative behavior to enhance mating success and reduce population dilution.
- These parasites manipulate host behavior and choice, impacting fish health and acting as disease vectors.
- Understanding their behavior is crucial for developing eco-friendly control methods for argulosis.

## Abstract

Fish lice (Argulus spp.) are obligate ectoparasites, which contrary to most aquatic parasites, retain the ability to swim freely throughout the whole of their life. In fish farms, they can quickly increase in numbers and without effective control cause argulosis, which results in the reduced growth and survival of their fish hosts. The morphology of Argulus spp, including their sensory organs, is suitable for both parasitism and free-swimming. By spending a considerable amount of time away from their host, these parasites risk being excessively dispersed, which could endanger mating success. Here we present a review of recent studies on the behaviour of Argulus spp, especially the aggregative behaviour that mitigates the dilution of the parasite population. Aggregation of parasites, which is especially important during the period of reproduction, occurs on different scales and involves both the aggregation of the host and the aggregation of the parasites on the host. The main behavioural adaptations of Argulus spp, including searches for hosts and mates, host manipulation and host choice, are all focused on the fish. As these ectoparasites repeatedly change hosts and inflict skin damage, they can act as vectors for fish pathogens. The development of environmentally friendly measures for the control and prevention of argulosis needs to take into account the behaviour of the parasites.

## Full-text entities

- **Diseases:** columnaris disease (MESH:D004194), stunted growth (MESH:D006130), fungal (MESH:D009181), oxygen deficiency (MESH:D000860), infection (MESH:D007239), aggression (MESH:D010554), protozoan infections (MESH:D011528), lice (MESH:D010373), erosion (MESH:D014077), bacterial (MESH:D001424), skin damage (MESH:D012871), IPM (MESH:D000081042), Ectoparasitic infections (MESH:D004478), argulid parasites (MESH:D010272), necrosis of (MESH:D009336),  (MESH:D005393)
- **Chemicals:** emamectin benzoate (MESH:C108024), oxygen (MESH:D010100), ETV (-), water (MESH:D014867)
- **Species:** Salmonella phage IKe (no rank) [taxon 10867], Crustacea [taxon 6657], Diplostomum spathaceum (species) [taxon 183647], Rutilus rutilus (roach minnow, species) [taxon 48668], Perca fluviatilis (European perch, species) [taxon 8168], Oncorhynchus mykiss (rainbow trout, species) [taxon 8022], Lepeophtheirus salmonis (salmon louse, species) [taxon 72036], Argulus coregoni (species) [taxon 1194120], Rutilus frisii (Black Sea roach, species) [taxon 54563], Argulus foliaceus (species) [taxon 509924], Salmonidae (salmonids, family) [taxon 8015], Salvelinus fontinalis (brook trout, species) [taxon 8038], Arguloida (fish lice, order) [taxon 6839], Phthiraptera (lice, infraorder) [taxon 85819], Flavobacterium columnare (species) [taxon 996], Dipnomorpha (dipnoans, clade) [taxon 7878]

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC4513377/full.md

---
Source: https://tomesphere.com/paper/PMC4513377