Nighttime migrations and behavioral patterns of Pempheris schwenkii

• Published in: PeerJ (San Francisco, CA) Vol. 9; p. e12412
• Main Authors: Koeda, Keita, Touma, Hideyuki, Tachihara, Katsunori
• Format: Journal Article
• Language: English
• Published: United States PeerJ, Inc 16.11.2021; PeerJ Inc
• Subjects: Aquaculture, Fisheries and Fish Science; Aquariums; Behavior; Coral reef; Coral reefs; Depth perception; Diurnal; Ecology; Feeding behavior; Fish; Light; Marine Biology; Nighttime; Nocturnal; Observation; Pempheridae; Pempheris schwenkii; Predation; Reproductive behavior; Seawater; Spawning; Species; Sweepers; Swimming; Topography; Zooplankton; Red Sea; Okinawa; Reproduction; Feeding behavior; Keystone; Ecosystem; Nocturnal; Observation; Coral reef; Pempheridae; Sweepers; Trophic link
• ISSN: 2167-8359; 2167-8359
• DOI: 10.7717/peerj.12412

Although the biomass of the nocturnal fishes is almost same as that of diurnal fishes, most of the ecological studies that examine feeding or reproductive behaviors are on diurnal fishes. Therefore, there is limited ecological information regarding the nocturnal fishes. This fact may be attributed to the difficulty in observing them during darkness. Members of the genus (Pempheridae) are one of the most abundant nocturnal fishes on coral reefs. The nighttime migrations of were observed by attaching a chemical luminescent tag. Tagged fishes were followed by an observer without torch and SCUBA, and their positions and estimated depths were plotted on an underwater topographic map. Aquarium tank observation was carried out to further describe their habits during the night. The new tagging method provided good data for observing the migration behavior. In all five observations, the target fishes started nighttime migration from the entrance of their cave within 1 h after sunset. All of them immediately left the inner reef and spent most of the observation time near the surface (0-5 m depth) or shallow (5-15 m depth) water-columns of the outer reef. Their migration pattern varied between days, but they migrated long distance (379-786 m/h) during each observation. The behavior observed in the aquarium tank was categorized into five patterns: schooling, shaking, migrating, spawning, and feeding. Shaking and spawning were observed during one of three observation days. The present study firstly clarified the small-scale but dynamic nocturnal migration pattern of in nature by a new method using chemical luminescent tags. In addition, combined observations from nature and an aquarium could be used to estimate the behavior of this species. may reduce their predation risk of eggs and adults by spawning at outer reef in nighttime. It was estimated that they can potentially migrate 4-7 km/night. The rapid growth known for this species may have been supported by their feeding behavior where they can fill up their stomach every night with rich zooplankton in outer reefs. Furthermore, the behavior of this species indicates the possibility that they make an important contribution to the flow of energy and materials in their coral reef ecosystem.